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nomic-ai
/
cornstack-javascript-v1

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xet
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query
stringlengths
7
355k
document
stringlengths
9
341k
metadata
dict
negatives
sequencelengths
0
101
negative_scores
sequencelengths
0
101
document_score
stringlengths
3
10
document_rank
stringclasses
102 values
Creates a new visitor instance which maintains a provided TypeInfo instance along with visiting visitor.
function visitWithTypeInfo(typeInfo, visitor) { return { enter: function enter(node) { typeInfo.enter(node); var fn = getVisitFn(visitor, node.kind, /* isLeaving */false); if (fn) { var result = fn.apply(visitor, arguments); if (result !== undefined) { typeInfo.leave(node); if (isNode(result)) { typeInfo.enter(result); } } return result; } }, leave: function leave(node) { var fn = getVisitFn(visitor, node.kind, /* isLeaving */true); var result = void 0; if (fn) { result = fn.apply(visitor, arguments); } typeInfo.leave(node); return result; } }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_3__[\"getVisitFn\"])(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (Object(_language_ast_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isNode\"])(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_3__[\"getVisitFn\"])(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_2__[\"getVisitFn\"])(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (Object(_language_ast_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isNode\"])(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_2__[\"getVisitFn\"])(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n if (fn) {\n var result = fn.apply(visitor, arguments);\n if (result !== undefined) {\n typeInfo.leave(node);\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n var result = void 0;\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n typeInfo.leave(node);\n return result;\n }\n };\n }", "function visitWithTypeInfo(typeInfo, visitor) {\n\t\t return {\n\t\t enter: function enter(node) {\n\t\t typeInfo.enter(node);\n\t\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n\t\t if (fn) {\n\t\t var result = fn.apply(visitor, arguments);\n\t\t if (result !== undefined) {\n\t\t typeInfo.leave(node);\n\t\t if (isNode(result)) {\n\t\t typeInfo.enter(result);\n\t\t }\n\t\t }\n\t\t return result;\n\t\t }\n\t\t },\n\t\t leave: function leave(node) {\n\t\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n\t\t var result = void 0;\n\t\t if (fn) {\n\t\t result = fn.apply(visitor, arguments);\n\t\t }\n\t\t typeInfo.leave(node);\n\t\t return result;\n\t\t }\n\t\t };\n\t\t}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n if (fn) {\n var result = fn.apply(visitor, arguments);\n if (result !== undefined) {\n typeInfo.leave(node);\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n var result = undefined;\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if (isNode(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = getVisitFn(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n\t return {\n\t enter: function enter(node) {\n\t typeInfo.enter(node);\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n\t if (fn) {\n\t var result = fn.apply(visitor, arguments);\n\t if (result !== undefined) {\n\t typeInfo.leave(node);\n\t if (isNode(result)) {\n\t typeInfo.enter(result);\n\t }\n\t }\n\t return result;\n\t }\n\t },\n\t leave: function leave(node) {\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n\t var result = void 0;\n\t if (fn) {\n\t result = fn.apply(visitor, arguments);\n\t }\n\t typeInfo.leave(node);\n\t return result;\n\t }\n\t };\n\t}", "function visitWithTypeInfo(typeInfo, visitor) {\n\t return {\n\t enter: function enter(node) {\n\t typeInfo.enter(node);\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n\t if (fn) {\n\t var result = fn.apply(visitor, arguments);\n\t if (result !== undefined) {\n\t typeInfo.leave(node);\n\t if (isNode(result)) {\n\t typeInfo.enter(result);\n\t }\n\t }\n\t return result;\n\t }\n\t },\n\t leave: function leave(node) {\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n\t var result = void 0;\n\t if (fn) {\n\t result = fn.apply(visitor, arguments);\n\t }\n\t typeInfo.leave(node);\n\t return result;\n\t }\n\t };\n\t}", "function visitWithTypeInfo(typeInfo, visitor) {\n\t return {\n\t enter: function enter(node) {\n\t typeInfo.enter(node);\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);\n\t if (fn) {\n\t var result = fn.apply(visitor, arguments);\n\t if (result !== undefined) {\n\t typeInfo.leave(node);\n\t if (isNode(result)) {\n\t typeInfo.enter(result);\n\t }\n\t }\n\t return result;\n\t }\n\t },\n\t leave: function leave(node) {\n\t var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);\n\t var result = undefined;\n\t if (fn) {\n\t result = fn.apply(visitor, arguments);\n\t }\n\t typeInfo.leave(node);\n\t return result;\n\t }\n\t };\n\t}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = (0, _visitor.getVisitFn)(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if ((0, _ast.isNode)(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = (0, _visitor.getVisitFn)(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function visitWithTypeInfo(typeInfo, visitor) {\n return {\n enter: function enter(node) {\n typeInfo.enter(node);\n var fn = (0, _visitor.getVisitFn)(visitor, node.kind,\n /* isLeaving */\n false);\n\n if (fn) {\n var result = fn.apply(visitor, arguments);\n\n if (result !== undefined) {\n typeInfo.leave(node);\n\n if ((0, _ast.isNode)(result)) {\n typeInfo.enter(result);\n }\n }\n\n return result;\n }\n },\n leave: function leave(node) {\n var fn = (0, _visitor.getVisitFn)(visitor, node.kind,\n /* isLeaving */\n true);\n var result;\n\n if (fn) {\n result = fn.apply(visitor, arguments);\n }\n\n typeInfo.leave(node);\n return result;\n }\n };\n}", "function Visitor() {}", "function Visitor() {}", "function Visitor() {}", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function createVisitor(visitor) {\n //remap some deprecated visitor names TODO remove this in v1\n if (visitor.ClassFieldStatement) {\n visitor.FieldStatement = visitor.ClassFieldStatement;\n }\n if (visitor.ClassMethodStatement) {\n visitor.MethodStatement = visitor.ClassMethodStatement;\n }\n return ((statement, parent, owner, key) => {\n var _a;\n return (_a = visitor[statement.constructor.name]) === null || _a === void 0 ? void 0 : _a.call(visitor, statement, parent, owner, key);\n });\n}", "function Visitor() {\r\n}", "function Visitor(name, destination){\n this.name = name;\n this.destination = destination;\n }", "function statVisitor() {\n\tantlr4.tree.ParseTreeVisitor.call(this);\n\treturn this;\n}", "function Visitor(doc) {\n\tthis.stack = [];\n\tthis.parent = doc; //always a list item\n\tthis.node = doc.head();\n\tthis.index = 0;\n\tthis.point = 1;\n\tthis.retained = 0;\n\tthis.ops = []; //to get to the doc\n}", "visitNode(node) { }", "function NewExpression(node) {\n if (this.get(\"callee\").isIdentifier()) {\n // only resolve identifier callee\n return t.genericTypeAnnotation(node.callee);\n }\n}", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "getTreeInternal() {\n const op = this;\n return new class extends Tree {\n /**\n * @param {!Visitor<P, R>} visitor\n * @param {P} arg\n * @return {R}\n * @template P, R\n */\n visit(visitor, arg) {\n const handler = op[visitor.symbol];\n if (handler) {\n return handler.call(\n op, args.map(a => visitor.wrap(a, arg)), arg);\n }\n return visitor.default(args, arg);\n }\n };\n }", "function explode(visitor) {\n\t if (visitor._exploded) return visitor;\n\t visitor._exploded = true;\n\n\t // normalise pipes\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var parts = nodeType.split(\"|\");\n\t if (parts.length === 1) continue;\n\n\t var fns = visitor[nodeType];\n\t delete visitor[nodeType];\n\n\t var _arr = parts;\n\t for (var _i = 0; _i < _arr.length; _i++) {\n\t var part = _arr[_i];\n\t visitor[part] = fns;\n\t }\n\t }\n\n\t // verify data structure\n\t verify(visitor);\n\n\t // make sure there's no __esModule type since this is because we're using loose mode\n\t // and it sets __esModule to be enumerable on all modules :(\n\t delete visitor.__esModule;\n\n\t // ensure visitors are objects\n\t ensureEntranceObjects(visitor);\n\n\t // ensure enter/exit callbacks are arrays\n\t ensureCallbackArrays(visitor);\n\n\t // add type wrappers\n\n\t var _arr2 = Object.keys(visitor);\n\n\t for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n\t var nodeType = _arr2[_i2];\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var wrapper = virtualTypes[nodeType];\n\t if (!wrapper) continue;\n\n\t // wrap all the functions\n\t var fns = visitor[nodeType];\n\t for (var type in fns) {\n\t fns[type] = wrapCheck(wrapper, fns[type]);\n\t }\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t if (wrapper.types) {\n\t var _arr4 = wrapper.types;\n\n\t for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n\t var type = _arr4[_i4];\n\t // merge the visitor if necessary or just put it back in\n\t if (visitor[type]) {\n\t mergePair(visitor[type], fns);\n\t } else {\n\t visitor[type] = fns;\n\t }\n\t }\n\t } else {\n\t mergePair(visitor, fns);\n\t }\n\t }\n\n\t // add aliases\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var fns = visitor[nodeType];\n\n\t var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n\t if (!aliases) continue;\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t var _arr3 = aliases;\n\t for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n\t var alias = _arr3[_i3];\n\t var existing = visitor[alias];\n\t if (existing) {\n\t mergePair(existing, fns);\n\t } else {\n\t visitor[alias] = _lodashLangClone2[\"default\"](fns);\n\t }\n\t }\n\t }\n\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t ensureCallbackArrays(visitor[nodeType]);\n\t }\n\n\t return visitor;\n\t}", "function explode(visitor) {\n\t if (visitor._exploded) return visitor;\n\t visitor._exploded = true;\n\n\t // normalise pipes\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var parts = nodeType.split(\"|\");\n\t if (parts.length === 1) continue;\n\n\t var fns = visitor[nodeType];\n\t delete visitor[nodeType];\n\n\t var _arr = parts;\n\t for (var _i = 0; _i < _arr.length; _i++) {\n\t var part = _arr[_i];\n\t visitor[part] = fns;\n\t }\n\t }\n\n\t // verify data structure\n\t verify(visitor);\n\n\t // make sure there's no __esModule type since this is because we're using loose mode\n\t // and it sets __esModule to be enumerable on all modules :(\n\t delete visitor.__esModule;\n\n\t // ensure visitors are objects\n\t ensureEntranceObjects(visitor);\n\n\t // ensure enter/exit callbacks are arrays\n\t ensureCallbackArrays(visitor);\n\n\t // add type wrappers\n\n\t var _arr2 = Object.keys(visitor);\n\n\t for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n\t var nodeType = _arr2[_i2];\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var wrapper = virtualTypes[nodeType];\n\t if (!wrapper) continue;\n\n\t // wrap all the functions\n\t var fns = visitor[nodeType];\n\t for (var type in fns) {\n\t fns[type] = wrapCheck(wrapper, fns[type]);\n\t }\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t if (wrapper.types) {\n\t var _arr4 = wrapper.types;\n\n\t for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n\t var type = _arr4[_i4];\n\t // merge the visitor if necessary or just put it back in\n\t if (visitor[type]) {\n\t mergePair(visitor[type], fns);\n\t } else {\n\t visitor[type] = fns;\n\t }\n\t }\n\t } else {\n\t mergePair(visitor, fns);\n\t }\n\t }\n\n\t // add aliases\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var fns = visitor[nodeType];\n\n\t var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n\t if (!aliases) continue;\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t var _arr3 = aliases;\n\t for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n\t var alias = _arr3[_i3];\n\t var existing = visitor[alias];\n\t if (existing) {\n\t mergePair(existing, fns);\n\t } else {\n\t visitor[alias] = _lodashLangClone2[\"default\"](fns);\n\t }\n\t }\n\t }\n\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t ensureCallbackArrays(visitor[nodeType]);\n\t }\n\n\t return visitor;\n\t}", "visit(visitor){\n if (visitor.before) {\n visitor.before.call(visitor, this);\n }\n if (visitor.after) {\n visitor.after.call(visitor, this);\n }\n }", "function explode(visitor) {\n if (visitor._exploded) return visitor;\n visitor._exploded = true;\n\n // normalise pipes\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n var parts = nodeType.split(\"|\");\n if (parts.length === 1) continue;\n\n var fns = visitor[nodeType];\n delete visitor[nodeType];\n\n var _arr = parts;\n for (var _i = 0; _i < _arr.length; _i++) {\n var part = _arr[_i];\n visitor[part] = fns;\n }\n }\n\n // verify data structure\n verify(visitor);\n\n // make sure there's no __esModule type since this is because we're using loose mode\n // and it sets __esModule to be enumerable on all modules :(\n delete visitor.__esModule;\n\n // ensure visitors are objects\n ensureEntranceObjects(visitor);\n\n // ensure enter/exit callbacks are arrays\n ensureCallbackArrays(visitor);\n\n // add type wrappers\n\n var _arr2 = Object.keys(visitor);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var nodeType = _arr2[_i2];\n if (shouldIgnoreKey(nodeType)) continue;\n\n var wrapper = virtualTypes[nodeType];\n if (!wrapper) continue;\n\n // wrap all the functions\n var fns = visitor[nodeType];\n for (var type in fns) {\n fns[type] = wrapCheck(wrapper, fns[type]);\n }\n\n // clear it from the visitor\n delete visitor[nodeType];\n\n if (wrapper.types) {\n var _arr4 = wrapper.types;\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var type = _arr4[_i4];\n // merge the visitor if necessary or just put it back in\n if (visitor[type]) {\n mergePair(visitor[type], fns);\n } else {\n visitor[type] = fns;\n }\n }\n } else {\n mergePair(visitor, fns);\n }\n }\n\n // add aliases\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n var fns = visitor[nodeType];\n\n var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n if (!aliases) continue;\n\n // clear it from the visitor\n delete visitor[nodeType];\n\n var _arr3 = aliases;\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var alias = _arr3[_i3];\n var existing = visitor[alias];\n if (existing) {\n mergePair(existing, fns);\n } else {\n visitor[alias] = _lodashLangClone2[\"default\"](fns);\n }\n }\n }\n\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n ensureCallbackArrays(visitor[nodeType]);\n }\n\n return visitor;\n}", "function NewExpression(node) {\n\t if (this.get(\"callee\").isIdentifier()) {\n\t // only resolve identifier callee\n\t return t.genericTypeAnnotation(node.callee);\n\t }\n\t}", "function NewExpression(node) {\n\t if (this.get(\"callee\").isIdentifier()) {\n\t // only resolve identifier callee\n\t return t.genericTypeAnnotation(node.callee);\n\t }\n\t}", "static _create(root, current) {\n return new TreeWalkerImpl(root, current);\n }", "function make(funcs, baseVisitor) {\n var visitor = create(baseVisitor || base);\n for (var type in funcs) { visitor[type] = funcs[type]; }\n return visitor\n }", "function make(funcs, baseVisitor) {\n var visitor = create(baseVisitor || base);\n for (var type in funcs) { visitor[type] = funcs[type]; }\n return visitor\n }", "function NodeVisitor() {\n _classCallCheck(this, NodeVisitor);\n\n this[path] = [];\n }", "function walk_tree(ast) {\n var walker = {\n \"assign\" : function() {\n var assign_expr = new assign_expression();\n assign_expr.type = \"assign_expr\";\n assign_expr.left_expr = walk_tree(ast[2]);\n assign_expr.right_expr = walk_tree(ast[3]);\n assign_expr.name = assign_expr.left_expr.name;\n \n return assign_expr;\n },\n \n \"var\" : function() {\n var assign_expr = new assign_expression();\n assign_expr.type = \"assign_expr\";\n \n assign_expr.left_expr = new type_object();\n assign_expr.left_expr.name = ast[1][0][0];\n assign_expr.right_expr = walk_tree(ast[1][0][1]);\n assign_expr.name = assign_expr.left_expr.name;\n \n return assign_expr; \n },\n \n \"stat\" : function() {\n return walk_tree(ast[1]);\n },\n \n \"dot\" : function() {\n var dot_obj = walk_tree(ast[1]);\n dot_obj.child = new type_object();\n dot_obj.child.name = ast[2];\n dot_obj.child.parent = dot_obj;\n return dot_obj;\n },\n \n \"name\" : function() {\n var new_obj = new type_object();\n new_obj.type = \"name\";\n new_obj.name = ast[1];\n return new_obj;\n },\n \n \"new\" : function() {\n var expr = walk_tree(ast[1]);\n expr.type = \"composition\";\n return expr;\n },\n \n \"function\" : function() {\n var func = new type_function(\"function\", ast[1], [\"toplevel\", [ast]], ast[2]);\n return func;\n },\n \n \"defun\" : function() { \n var func = new type_function(\"defun\", ast[1], [\"toplevel\", [ast]], ast[2]);\n return func;\n },\n \n \"return\" : function() {\n var return_expr = new type_expression();\n return_expr.type = \"return_expr\";\n return_expr.expr = walk_tree(ast[1]);\n return return_expr;\n },\n \n \"string\" : function() {\n var obj = new type_object();\n obj.type = \"string\";\n obj.value = ast[1];\n return obj;\n },\n \n \"num\" : function() {\n var obj = new type_object();\n obj.type = \"num\";\n obj.value = ast[1];\n return obj;\n },\n \n \"binary\" : function() {\n var binary_expr = new binary_expression();\n binary_expr.type = \"binary_expr\";\n binary_expr.binary_lhs = walk_tree(ast[2]);\n binary_expr.binary_rhs = walk_tree(ast[3]);\n },\n }\n \n var parent = ast[0];\n \n var func = walker[parent];\n \n return func(ast);\n}", "visit(){\n this.visited = true ;\n }", "function make(funcs, baseVisitor) {\n var visitor = create(baseVisitor || base);\n for (var type in funcs) { visitor[type] = funcs[type]; }\n return visitor\n}", "function make(funcs, baseVisitor) {\n var visitor = create(baseVisitor || base);\n for (var type in funcs) { visitor[type] = funcs[type]; }\n return visitor\n}", "function createTypeExpression(node) {\n if (node.type == 'Identifier') {\n return node;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return t.memberExpression(createTypeExpression(node.qualification), createTypeExpression(node.id));\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "static newType(spec) {\n return allTypes.newType(spec);\n }", "visitTemplate(template) { }", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function HelloVisitor() {\n\tantlr4.tree.ParseTreeVisitor.call(this);\n\treturn this;\n}", "static createVisitor(newObj, callback) {\n var newVisitor = new VisitorSchema();\n\n if (!newObj.provider) {\n return callback(new Error(\"PROVIDER004\"));\n } else {\n newVisitor.provider = newObj.provider;\n }\n\n if (newObj.name) {\n newVisitor.name = newObj.name;\n } else {\n return callback(new Error(\"VISITOR001\"));\n }\n \n newVisitor.email = newObj.email;\n newVisitor.phone = newObj.phone;\n newVisitor.status = newObj.status || \"created\";\n\n async.series([\n function(cb) {\n if (newObj.email) {\n //check if e mail already exists\n VisitorSchema.findOne({\n provider: newObj.provider,\n email: newObj.email\n }).exec(function(err, foundVisitor) {\n if (err) {\n return cb(new Error(\"DBA002\", err.message));\n } else if (foundVisitor) {\n return cb(new Error(\"VISITOR007\"));\n } else {\n return cb(null);\n }\n });\n } else {\n cb(null);\n }\n }\n ],\n function(err, results) {\n if (err) {\n return callback(err);\n } else {\n newVisitor.save(function(err, cbVisitor) {\n if (err) {\n callback(new Error(\"DBA001\", err.message));\n } else {\n callback(null, new Visitor(cbVisitor));\n }\n });\n }\n });\n }", "visit(node, context) {\n if (node instanceof AST) {\n node.visit(this, context);\n }\n else {\n node.visit(this);\n }\n }", "visit(node, context) {\n if (node instanceof AST) {\n node.visit(this, context);\n }\n else {\n node.visit(this);\n }\n }", "function traverser(ast, visitor) {\n\n function traverseArray(array, parent) {\n array.forEach(child => {\n traverseNode(child, parent);\n });\n }\n\n function traverseNode(node, parent) {\n let methods = visitor[node.type];\n if (methods && methods.enter) {\n methods.enter(node, parent);\n }\n\n switch (node.type) {\n case 'Document':\n traverseArray(node.body, node);\n break;\n case 'DOMELEMENT':\n traverseArray(node.params, node);\n break;\n case \"CARGO\":\n break;\n }\n if (methods && methods.exit) {\n methods.exit(node, parent);\n }\n }\n traverseNode(ast, null);\n}", "enterTypeAnnotation(ctx) {\n }", "set visit(visitor){\n\n if(!this.visiting){\n this.visiting = {\n current: this.clock.date,\n occupants: []\n };\n }\n\n this.visiting.occupants.push(visitor);\n // todo check trigger events\n }", "function createNode(kind, pos) {\n nodeCount++;\n if (!(pos >= 0)) {\n pos = scanner.getStartPos();\n }\n return kind >= 139 /* FirstNode */ ? new NodeConstructor(kind, pos, pos) :\n kind === 69 /* Identifier */ ? new IdentifierConstructor(kind, pos, pos) :\n new TokenConstructor(kind, pos, pos);\n }", "constructor(type) { \n this.type = type \n this.parser = null\n }", "function Tree(type) {\n return function (target) {\n __1.getMetadataArgsStorage().trees.push({\n target: target,\n type: type\n });\n };\n}", "function createTNode(type, adjustedIndex, tagName, attrs, tViews) {\n ngDevMode && ngDevMode.tNode++;\n var parent = isParent ? previousOrParentTNode : previousOrParentTNode && previousOrParentTNode.parent;\n // Parents cannot cross component boundaries because components will be used in multiple places,\n // so it's only set if the view is the same.\n var parentInSameView = parent && viewData && parent !== viewData[HOST_NODE];\n var tParent = parentInSameView ? parent : null;\n return {\n type: type,\n index: adjustedIndex,\n injectorIndex: tParent ? tParent.injectorIndex : -1,\n flags: 0,\n tagName: tagName,\n attrs: attrs,\n localNames: null,\n initialInputs: undefined,\n inputs: undefined,\n outputs: undefined,\n tViews: tViews,\n next: null,\n child: null,\n parent: tParent,\n detached: null,\n stylingTemplate: null,\n projection: null\n };\n}", "function PythonLikeVisitor() {\n\tantlr4.tree.ParseTreeVisitor.call(this);\n\treturn this;\n}", "function ExtractInfoHolder(info, linenum, typeid)\n{\n this.info = info; \n this.linenum = linenum;\n this.typeid = typeid;\n}", "function build() {\n // Start creating the body of the new Type constructor, first calling super()\n var _ret = buildIdentity.call(this);\n var typeId = _ret.typeId;\n var typeName = _ret.typeName;\n var body =\n '\\tvar opts = options ? options : {};\\n' +\n '\\tthis.constructor.util._extend(this, opts.props);\\n' +\n '\\tthis.constructor.super_.call(this, opts.buffer, opts.offset' +\n (typeId ? '' : ', true') +\n ');\\n';\n // Init fields\n body += _ret.body;\n buildFlags.call(this);\n body += buildSerialize.call(this);\n body += buildDeserialize.call(this);\n // Add to body all the read/write methods\n for (var i = 0; i < this._methods.length; i++) {\n body += this._methods[i];\n }\n if (logger.isDebugEnabled()) {\n logger.debug('Body for %s type constructor:', typeName);\n logger.debug('\\n' + body);\n }\n return createConstructor(body, typeId, typeName);\n}", "create(pos, type, lvl, par) {\n\t\t\n\t\tvar newVoxel = new Voxel(pos, type, lvl, par, this.scene)\n\t\t\n\t\tif (type == 1) {\n\t\t\tthis.solids.push(newVoxel.cube)\n\t\t\t\n\t\t} else if(type > 1) {\n\t\t\tif( !( type in this.nterms ) )\n\t\t\t\tthis.nterms[type] = []\n\t\t\tthis.nterms[type].push(newVoxel)\n\t\t\tthis.solids.push(newVoxel.cube)\n\t\t\t\n\t\t} else {\n\t\t\tif( !( lvl in this.boundaries ) )\n\t\t\t\tthis.boundaries[lvl] = []\n\t\t\tthis.boundaries[lvl].push(newVoxel.cube)\n\t\t}\n\t\t\n\t\treturn newVoxel\n\t\n\t}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function RandomVisitor() {\n antlr4.tree.ParseTreeVisitor.call(this);\n return this;\n}", "function createTNode(tParent, type, adjustedIndex, tagName, attrs) {\n ngDevMode && ngDevMode.tNode++;\n return {\n type: type,\n index: adjustedIndex,\n injectorIndex: tParent ? tParent.injectorIndex : -1,\n directiveStart: -1,\n directiveEnd: -1,\n propertyMetadataStartIndex: -1,\n propertyMetadataEndIndex: -1,\n flags: 0,\n providerIndexes: 0,\n tagName: tagName,\n attrs: attrs,\n localNames: null,\n initialInputs: undefined,\n inputs: undefined,\n outputs: undefined,\n tViews: null,\n next: null,\n projectionNext: null,\n child: null,\n parent: tParent,\n stylingTemplate: null,\n projection: null,\n onElementCreationFns: null,\n // TODO (matsko): rename this to `styles` once the old styling impl is gone\n newStyles: null,\n // TODO (matsko): rename this to `classes` once the old styling impl is gone\n newClasses: null,\n };\n}", "newInstance() {\r\n\t\t\t\t\tvar base, ref1;\r\n\t\t\t\t\tbase = ((ref1 = this.variable) != null ? ref1.base : void 0) || this.variable;\r\n\t\t\t\t\tif (base instanceof Call && !base.isNew) {\r\n\t\t\t\t\t\tbase.newInstance();\r\n\t\t\t\t\t} else {\r\n\t\t\t\t\t\tthis.isNew = true;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tthis.needsUpdatedStartLocation = true;\r\n\t\t\t\t\treturn this;\r\n\t\t\t\t}", "function createFromType(nativeType, onto) {\n clrTypeTarget = clrTypeTarget || nativeType;\n isPublicProperty = isPublicProperty || dotnet.getPropertyObject(nativeType, \"IsPublic\");\n nameProperty = nameProperty || dotnet.getPropertyObject(nativeType, \"Name\");\n nameSpaceProperty = nameSpaceProperty || dotnet.getPropertyObject(nativeType, \"Namespace\");\n isEnumProperty = isEnumProperty || dotnet.getPropertyObject(nativeType, \"IsEnum\");\n isClassProperty = isClassProperty || dotnet.getPropertyObject(nativeType, \"IsClass\");\n isValueTypeProperty = isValueTypeProperty || dotnet.getPropertyObject(nativeType, \"IsValueType\");\n if(dotnet.getProperty(isPublicProperty, nativeType)) {\n var space = dotnet.getProperty(nameSpaceProperty, nativeType);\n var name = dotnet.getProperty(nameProperty, nativeType);\n var info = { onto:onto, type:nativeType, name:name };\n \n if(space) {\n var spl = space.split('.');\n for(var i=0; i < spl.length; i++) {\n info.onto[spl[i]] = info.onto[spl[i]] || {};\n info.onto = info.onto[spl[i]];\n }\n }\n\n Object.defineProperty(info.onto, name, {\n configurable:true, enumerable:true,\n get:function() { \n delete this.onto[this.name];\n if(dotnet.getProperty(isEnumProperty, this.type)) {\n this.onto[this.name] = createEnum(this.type,this.name);\n } else if (dotnet.getProperty(isClassProperty, this.type) || dotnet.getProperty(isValueTypeProperty, this.type)) {\n this.onto[this.name] = createClass(this.type,this.name);\n }\n return this.onto[this.name];\n }.bind(info)\n });\n }\n}", "function reroute(visit_i, tag, newv) {\n return function (node) {\n if (node.tagName.toLowerCase() == tag) {\n return newv(node);\n } else return visit_i(node);\n };\n}", "static anyType() {\n return new Capture();\n }", "createType (typedefinition, id) {\n var structname = typedefinition[0].struct\n id = id || this.getNextOpId(1)\n var op = Y.Struct[structname].create(id)\n op.type = typedefinition[0].name\n\n this.requestTransaction(function * () {\n if (op.id[0] === '_') {\n yield* this.setOperation(op)\n } else {\n yield* this.applyCreatedOperations([op])\n }\n })\n var t = Y[op.type].typeDefinition.createType(this, op, typedefinition[1])\n this.initializedTypes[JSON.stringify(op.id)] = t\n return t\n }", "function register() {\n if (Object.prototype.typeOf !== boundTypeOf) {\n otypeof = Object.prototype.typeOf;\n Object.prototype.typeOf = boundTypeOf;\n }\n }", "function register() {\n if (Object.prototype.typeOf !== boundTypeOf) {\n otypeof = Object.prototype.typeOf;\n Object.prototype.typeOf = boundTypeOf;\n }\n }", "forward(info) {\r\n return this.clone(Post, \"forward\").postCore({\r\n body: jsS(info),\r\n });\r\n }", "function createTNode(lView, type, adjustedIndex, tagName, attrs, tViews) {\n var previousOrParentTNode = getPreviousOrParentTNode();\n ngDevMode && ngDevMode.tNode++;\n var parent = getIsParent() ? previousOrParentTNode : previousOrParentTNode && previousOrParentTNode.parent;\n // Parents cannot cross component boundaries because components will be used in multiple places,\n // so it's only set if the view is the same.\n var parentInSameView = parent && lView && parent !== lView[HOST_NODE];\n var tParent = parentInSameView ? parent : null;\n return {\n type: type,\n index: adjustedIndex,\n injectorIndex: tParent ? tParent.injectorIndex : -1,\n directiveStart: -1,\n directiveEnd: -1,\n flags: 0,\n providerIndexes: 0,\n tagName: tagName,\n attrs: attrs,\n localNames: null,\n initialInputs: undefined,\n inputs: undefined,\n outputs: undefined,\n tViews: tViews,\n next: null,\n child: null,\n parent: tParent,\n detached: null,\n stylingTemplate: null,\n projection: null\n };\n}", "function createTNode(lView, type, adjustedIndex, tagName, attrs, tViews) {\n var previousOrParentTNode = getPreviousOrParentTNode();\n ngDevMode && ngDevMode.tNode++;\n var parent = getIsParent() ? previousOrParentTNode : previousOrParentTNode && previousOrParentTNode.parent;\n // Parents cannot cross component boundaries because components will be used in multiple places,\n // so it's only set if the view is the same.\n var parentInSameView = parent && lView && parent !== lView[HOST_NODE];\n var tParent = parentInSameView ? parent : null;\n return {\n type: type,\n index: adjustedIndex,\n injectorIndex: tParent ? tParent.injectorIndex : -1,\n directiveStart: -1,\n directiveEnd: -1,\n flags: 0,\n providerIndexes: 0,\n tagName: tagName,\n attrs: attrs,\n localNames: null,\n initialInputs: undefined,\n inputs: undefined,\n outputs: undefined,\n tViews: tViews,\n next: null,\n child: null,\n parent: tParent,\n detached: null,\n stylingTemplate: null,\n projection: null\n };\n}", "function VNode() {}", "function local_change_type(input_object, new_type)\n {\n if(input_object instanceof new_type)\n return input_object;\n\n var new_object = new new_type();\n new_object.id_block = input_object.id_block;\n new_object.len_block = input_object.len_block;\n new_object.warnings = input_object.warnings;\n new_object.value_before_decode = util_copybuf(input_object.value_before_decode);\n\n return new_object;\n }", "function getVisitFn(visitor, kind, isLeaving) {\n\t\t var kindVisitor = visitor[kind];\n\t\t if (kindVisitor) {\n\t\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t\t // { Kind() {} }\n\t\t return kindVisitor;\n\t\t }\n\t\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t\t if (typeof kindSpecificVisitor === 'function') {\n\t\t // { Kind: { enter() {}, leave() {} } }\n\t\t return kindSpecificVisitor;\n\t\t }\n\t\t } else {\n\t\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t\t if (specificVisitor) {\n\t\t if (typeof specificVisitor === 'function') {\n\t\t // { enter() {}, leave() {} }\n\t\t return specificVisitor;\n\t\t }\n\t\t var specificKindVisitor = specificVisitor[kind];\n\t\t if (typeof specificKindVisitor === 'function') {\n\t\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t\t return specificKindVisitor;\n\t\t }\n\t\t }\n\t\t }\n\t\t}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function vnodeAction (type) {\n return (vnode, prev) => ({\n type,\n vnode,\n prev\n })\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n var specificKindVisitor = specificVisitor[kind];\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n }", "function CodiVisitor() {\r\n\tantlr4.tree.ParseTreeVisitor.call(this);\r\n\treturn this;\r\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n }", "function make(funcs, base) {\n if (!base) { base = exports.base; }\n var visitor = create(base);\n for (var type in funcs) { visitor[type] = funcs[type]; }\n return visitor\n}" ]
[ "0.72599155", "0.72573745", "0.7228485", "0.7228246", "0.72128725", "0.7197253", "0.7197253", "0.7197253", "0.7197253", "0.7197253", "0.7197253", "0.71903217", "0.71903217", "0.71898746", "0.7103658", "0.7103658", "0.57449543", "0.57449543", "0.57449543", "0.57006234", "0.57006234", "0.54041946", "0.51810056", "0.480511", "0.4716429", "0.47035283", "0.46172345", "0.4541896", "0.45198357", "0.4482308", "0.4467131", "0.4467131", "0.44664595", "0.44253197", "0.4421638", "0.4421638", "0.4374924", "0.43457237", "0.43457237", "0.4308658", "0.4223108", "0.41896328", "0.41686565", "0.41686565", "0.41661382", "0.41434377", "0.41321152", "0.41271347", "0.41138524", "0.41049457", "0.40934706", "0.40934706", "0.40911442", "0.40841278", "0.402042", "0.40183398", "0.40006387", "0.3993763", "0.39663926", "0.39414668", "0.39379904", "0.39370352", "0.39147192", "0.3892207", "0.3892207", "0.38746303", "0.38558143", "0.38265628", "0.3822612", "0.38189566", "0.38133132", "0.38107613", "0.38103902", "0.38103902", "0.37808806", "0.37792832", "0.37792832", "0.3776571", "0.37721387", "0.3757118", "0.37497965", "0.37497965", "0.37497965", "0.3741213", "0.37383887", "0.3733519", "0.37238282", "0.3721968" ]
0.7203711
16
Given a visitor instance, if it is leaving or not, and a node kind, return the function the visitor runtime should call.
function getVisitFn(visitor, kind, isLeaving) { var kindVisitor = visitor[kind]; if (kindVisitor) { if (!isLeaving && typeof kindVisitor === 'function') { // { Kind() {} } return kindVisitor; } var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter; if (typeof kindSpecificVisitor === 'function') { // { Kind: { enter() {}, leave() {} } } return kindSpecificVisitor; } } else { var specificVisitor = isLeaving ? visitor.leave : visitor.enter; if (specificVisitor) { if (typeof specificVisitor === 'function') { // { enter() {}, leave() {} } return specificVisitor; } var specificKindVisitor = specificVisitor[kind]; if (typeof specificKindVisitor === 'function') { // { enter: { Kind() {} }, leave: { Kind() {} } } return specificKindVisitor; } } } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n var specificKindVisitor = specificVisitor[kind];\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n }", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n }", "function getVisitFn(visitor, kind, isLeaving) {\n\t\t var kindVisitor = visitor[kind];\n\t\t if (kindVisitor) {\n\t\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t\t // { Kind() {} }\n\t\t return kindVisitor;\n\t\t }\n\t\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t\t if (typeof kindSpecificVisitor === 'function') {\n\t\t // { Kind: { enter() {}, leave() {} } }\n\t\t return kindSpecificVisitor;\n\t\t }\n\t\t } else {\n\t\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t\t if (specificVisitor) {\n\t\t if (typeof specificVisitor === 'function') {\n\t\t // { enter() {}, leave() {} }\n\t\t return specificVisitor;\n\t\t }\n\t\t var specificKindVisitor = specificVisitor[kind];\n\t\t if (typeof specificKindVisitor === 'function') {\n\t\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t\t return specificKindVisitor;\n\t\t }\n\t\t }\n\t\t }\n\t\t}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n var kindVisitor = visitor[kind];\n\n if (kindVisitor) {\n if (!isLeaving && typeof kindVisitor === 'function') {\n // { Kind() {} }\n return kindVisitor;\n }\n\n var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\n if (typeof kindSpecificVisitor === 'function') {\n // { Kind: { enter() {}, leave() {} } }\n return kindSpecificVisitor;\n }\n } else {\n var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\n if (specificVisitor) {\n if (typeof specificVisitor === 'function') {\n // { enter() {}, leave() {} }\n return specificVisitor;\n }\n\n var specificKindVisitor = specificVisitor[kind];\n\n if (typeof specificKindVisitor === 'function') {\n // { enter: { Kind() {} }, leave: { Kind() {} } }\n return specificKindVisitor;\n }\n }\n }\n}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function getVisitFn(visitor, kind, isLeaving) {\n\t var kindVisitor = visitor[kind];\n\t if (kindVisitor) {\n\t if (!isLeaving && typeof kindVisitor === 'function') {\n\t // { Kind() {} }\n\t return kindVisitor;\n\t }\n\t var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter;\n\t if (typeof kindSpecificVisitor === 'function') {\n\t // { Kind: { enter() {}, leave() {} } }\n\t return kindSpecificVisitor;\n\t }\n\t } else {\n\t var specificVisitor = isLeaving ? visitor.leave : visitor.enter;\n\t if (specificVisitor) {\n\t if (typeof specificVisitor === 'function') {\n\t // { enter() {}, leave() {} }\n\t return specificVisitor;\n\t }\n\t var specificKindVisitor = specificVisitor[kind];\n\t if (typeof specificKindVisitor === 'function') {\n\t // { enter: { Kind() {} }, leave: { Kind() {} } }\n\t return specificKindVisitor;\n\t }\n\t }\n\t }\n\t}", "function getEnterLeaveForKind(visitor, kind) {\n const kindVisitor = visitor[kind];\n\n if (typeof kindVisitor === 'object') {\n // { Kind: { enter() {}, leave() {} } }\n return kindVisitor;\n } else if (typeof kindVisitor === 'function') {\n // { Kind() {} }\n return {\n enter: kindVisitor,\n leave: undefined,\n };\n } // { enter() {}, leave() {} }\n\n return {\n enter: visitor.enter,\n leave: visitor.leave,\n };\n}", "visit(visitor){\n if (visitor.before) {\n visitor.before.call(visitor, this);\n }\n if (visitor.after) {\n visitor.after.call(visitor, this);\n }\n }", "function r(e){return\"function\"===typeof e}", "function r(e){return\"function\"===typeof e}", "function functionKind(node) {\n if (node.nodeType !== \"FunctionDefinition\") {\n return undefined;\n }\n if (node.kind !== undefined) {\n //if we're dealing with 0.5.x, we can just read node.kind\n return node.kind;\n }\n //otherwise, we need this little shim\n if (node.isConstructor) {\n return \"constructor\";\n }\n return node.name === \"\" ? \"fallback\" : \"function\";\n}", "visitNode(node) { }", "function exitFunction(node) {\n const stackContext = popContext();\n if (stackContext?.member == null ||\n stackContext.class == null ||\n stackContext.usesThis ||\n (ignoreOverrideMethods && stackContext.member.override) ||\n (ignoreClassesThatImplementAnInterface &&\n stackContext.class.implements != null)) {\n return;\n }\n if (isIncludedInstanceMethod(stackContext.member)) {\n context.report({\n node,\n loc: util.getFunctionHeadLoc(node, sourceCode),\n messageId: 'missingThis',\n data: {\n name: util.getFunctionNameWithKind(node),\n },\n });\n }\n }", "function exitFunctionExpression( path )\n{\n if( path.node.generator )\n return;\n\n const fun_id = path.node.id ? path.node.id : T.identifier( \"anon\" );\n path.replaceWith( funDefnHelper(\n fun_id, path.node.params, path.node.body, path.node.async ) );\n path.skip();\n}", "function createVisitor(visitor) {\n //remap some deprecated visitor names TODO remove this in v1\n if (visitor.ClassFieldStatement) {\n visitor.FieldStatement = visitor.ClassFieldStatement;\n }\n if (visitor.ClassMethodStatement) {\n visitor.MethodStatement = visitor.ClassMethodStatement;\n }\n return ((statement, parent, owner, key) => {\n var _a;\n return (_a = visitor[statement.constructor.name]) === null || _a === void 0 ? void 0 : _a.call(visitor, statement, parent, owner, key);\n });\n}", "function visit(node, fn) {\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }", "function visit(node, fn) {\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }", "function visit(node, fn) {\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }", "function visit(node, fn) {\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }", "function popOpFunc()\n {\n return opFuncStack.pop();\n }", "postOrderTraversal(visitorFn) {\n if (this.leftChild) {\n this.leftChild.postOrderTraversal(visitorFn)\n }\n if (this.rightChild) {\n this.rightChild.postOrderTraversal(visitorFn)\n }\n visitorFn(this)\n }", "function fnode_visit(fnode, pre, post) {\n\n if (pre) {\n pre(fnode);\n }\n for (var i = 0; i < fnode.children.length; i++) {\n fnode_visit(fnode.children[i], pre, post);\n }\n if (post) {\n post(fnode);\n }\n}", "function functor(v) {\n return typeof v === 'function' ? v : function() {\n return v\n }\n }", "function isFn (x) { return typeof x === 'function' }", "function o(e){return\"function\"===typeof e}", "'ev'(env) {\n var args = this.args.map(function (a) {\n return a.ev(env);\n });\n\n for (var i = 0; i < args.length; i++) {\n if (args[i].is === 'undefined') {\n return {\n is: 'undefined',\n value: 'undefined'\n };\n }\n }\n\n if (this.name in CartoCSS.Tree.functions) {\n if (CartoCSS.Tree.functions[this.name].length <= args.length) {\n var val = CartoCSS.Tree.functions[this.name].apply(CartoCSS.Tree.functions, args);\n if (val === null) {\n env.error({\n message: 'incorrect arguments given to ' + this.name + '()',\n index: this.index,\n type: 'runtime',\n filename: this.filename\n });\n return {is: 'undefined', value: 'undefined'};\n }\n return val;\n } else {\n env.error({\n message: 'incorrect number of arguments for ' + this.name +\n '(). ' + CartoCSS.Tree.functions[this.name].length + ' expected.',\n index: this.index,\n type: 'runtime',\n filename: this.filename\n });\n return {\n is: 'undefined',\n value: 'undefined'\n };\n }\n } else {\n var fn = CartoCSS.Tree.Reference.mapnikFunctions[this.name];\n if (fn === undefined) {\n var functions = toPairs(CartoCSS.Tree.Reference.mapnikFunctions);\n // cheap closest, needs improvement.\n var name = this.name;\n var mean = functions.map(function (f) {\n return [f[0], CartoCSS.Tree.Reference.editDistance(name, f[0]), f[1]];\n }).sort(function (a, b) {\n return a[1] - b[1];\n });\n env.error({\n message: 'unknown function ' + this.name + '(), did you mean ' +\n mean[0][0] + '(' + mean[0][2] + ')',\n index: this.index,\n type: 'runtime',\n filename: this.filename\n });\n return {\n is: 'undefined',\n value: 'undefined'\n };\n }\n if (fn !== args.length &&\n // support variable-arg functions like `colorize-alpha`\n fn !== -1) {\n env.error({\n message: 'function ' + this.name + '() takes ' +\n fn + ' arguments and was given ' + args.length,\n index: this.index,\n type: 'runtime',\n filename: this.filename\n });\n return {\n is: 'undefined',\n value: 'undefined'\n };\n } else {\n // Save the evaluated versions of arguments\n this.args = args;\n return this;\n }\n }\n }", "function explode(visitor) {\n if (visitor._exploded) return visitor;\n visitor._exploded = true;\n\n // normalise pipes\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n var parts = nodeType.split(\"|\");\n if (parts.length === 1) continue;\n\n var fns = visitor[nodeType];\n delete visitor[nodeType];\n\n var _arr = parts;\n for (var _i = 0; _i < _arr.length; _i++) {\n var part = _arr[_i];\n visitor[part] = fns;\n }\n }\n\n // verify data structure\n verify(visitor);\n\n // make sure there's no __esModule type since this is because we're using loose mode\n // and it sets __esModule to be enumerable on all modules :(\n delete visitor.__esModule;\n\n // ensure visitors are objects\n ensureEntranceObjects(visitor);\n\n // ensure enter/exit callbacks are arrays\n ensureCallbackArrays(visitor);\n\n // add type wrappers\n\n var _arr2 = Object.keys(visitor);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var nodeType = _arr2[_i2];\n if (shouldIgnoreKey(nodeType)) continue;\n\n var wrapper = virtualTypes[nodeType];\n if (!wrapper) continue;\n\n // wrap all the functions\n var fns = visitor[nodeType];\n for (var type in fns) {\n fns[type] = wrapCheck(wrapper, fns[type]);\n }\n\n // clear it from the visitor\n delete visitor[nodeType];\n\n if (wrapper.types) {\n var _arr4 = wrapper.types;\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var type = _arr4[_i4];\n // merge the visitor if necessary or just put it back in\n if (visitor[type]) {\n mergePair(visitor[type], fns);\n } else {\n visitor[type] = fns;\n }\n }\n } else {\n mergePair(visitor, fns);\n }\n }\n\n // add aliases\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n var fns = visitor[nodeType];\n\n var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n if (!aliases) continue;\n\n // clear it from the visitor\n delete visitor[nodeType];\n\n var _arr3 = aliases;\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var alias = _arr3[_i3];\n var existing = visitor[alias];\n if (existing) {\n mergePair(existing, fns);\n } else {\n visitor[alias] = _lodashLangClone2[\"default\"](fns);\n }\n }\n }\n\n for (var nodeType in visitor) {\n if (shouldIgnoreKey(nodeType)) continue;\n\n ensureCallbackArrays(visitor[nodeType]);\n }\n\n return visitor;\n}", "function functor(v) {\r\n return typeof v === 'function' ? v : function() {\r\n return v\r\n }\r\n }", "function getFunction(token, currentLocation)\n\t{\n\t\tvar hasParams = {\n\t\t\tInequality: true,\n\t\t\tUnknownEquality: true,\n\t\t\tBooleanOperator: true\n\t\t};\n\n\t\tvar func = token.getFunction();\t// Function name, which is also the class (in the Equiv namespace)\n\t\tvar params = hasParams[func] ? token.tokenValue : undefined;\t// A few constructors take token.tokenValue as a parameter\n\n //console.log(\"func= \" + func);\n\n\t\tvar op = new tree[func](params);\n\n\t\t// Finally, insert the new node and return the updated currentLocation\n\t\treturn insertNewNode(currentLocation, op)\n\t}", "function visit(node, fn) {\n if (!node.visited) {\n define(node, 'visited', true);\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }\n return node;\n}", "function explode(visitor) {\n\t if (visitor._exploded) return visitor;\n\t visitor._exploded = true;\n\n\t // normalise pipes\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var parts = nodeType.split(\"|\");\n\t if (parts.length === 1) continue;\n\n\t var fns = visitor[nodeType];\n\t delete visitor[nodeType];\n\n\t var _arr = parts;\n\t for (var _i = 0; _i < _arr.length; _i++) {\n\t var part = _arr[_i];\n\t visitor[part] = fns;\n\t }\n\t }\n\n\t // verify data structure\n\t verify(visitor);\n\n\t // make sure there's no __esModule type since this is because we're using loose mode\n\t // and it sets __esModule to be enumerable on all modules :(\n\t delete visitor.__esModule;\n\n\t // ensure visitors are objects\n\t ensureEntranceObjects(visitor);\n\n\t // ensure enter/exit callbacks are arrays\n\t ensureCallbackArrays(visitor);\n\n\t // add type wrappers\n\n\t var _arr2 = Object.keys(visitor);\n\n\t for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n\t var nodeType = _arr2[_i2];\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var wrapper = virtualTypes[nodeType];\n\t if (!wrapper) continue;\n\n\t // wrap all the functions\n\t var fns = visitor[nodeType];\n\t for (var type in fns) {\n\t fns[type] = wrapCheck(wrapper, fns[type]);\n\t }\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t if (wrapper.types) {\n\t var _arr4 = wrapper.types;\n\n\t for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n\t var type = _arr4[_i4];\n\t // merge the visitor if necessary or just put it back in\n\t if (visitor[type]) {\n\t mergePair(visitor[type], fns);\n\t } else {\n\t visitor[type] = fns;\n\t }\n\t }\n\t } else {\n\t mergePair(visitor, fns);\n\t }\n\t }\n\n\t // add aliases\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var fns = visitor[nodeType];\n\n\t var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n\t if (!aliases) continue;\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t var _arr3 = aliases;\n\t for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n\t var alias = _arr3[_i3];\n\t var existing = visitor[alias];\n\t if (existing) {\n\t mergePair(existing, fns);\n\t } else {\n\t visitor[alias] = _lodashLangClone2[\"default\"](fns);\n\t }\n\t }\n\t }\n\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t ensureCallbackArrays(visitor[nodeType]);\n\t }\n\n\t return visitor;\n\t}", "function explode(visitor) {\n\t if (visitor._exploded) return visitor;\n\t visitor._exploded = true;\n\n\t // normalise pipes\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var parts = nodeType.split(\"|\");\n\t if (parts.length === 1) continue;\n\n\t var fns = visitor[nodeType];\n\t delete visitor[nodeType];\n\n\t var _arr = parts;\n\t for (var _i = 0; _i < _arr.length; _i++) {\n\t var part = _arr[_i];\n\t visitor[part] = fns;\n\t }\n\t }\n\n\t // verify data structure\n\t verify(visitor);\n\n\t // make sure there's no __esModule type since this is because we're using loose mode\n\t // and it sets __esModule to be enumerable on all modules :(\n\t delete visitor.__esModule;\n\n\t // ensure visitors are objects\n\t ensureEntranceObjects(visitor);\n\n\t // ensure enter/exit callbacks are arrays\n\t ensureCallbackArrays(visitor);\n\n\t // add type wrappers\n\n\t var _arr2 = Object.keys(visitor);\n\n\t for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n\t var nodeType = _arr2[_i2];\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var wrapper = virtualTypes[nodeType];\n\t if (!wrapper) continue;\n\n\t // wrap all the functions\n\t var fns = visitor[nodeType];\n\t for (var type in fns) {\n\t fns[type] = wrapCheck(wrapper, fns[type]);\n\t }\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t if (wrapper.types) {\n\t var _arr4 = wrapper.types;\n\n\t for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n\t var type = _arr4[_i4];\n\t // merge the visitor if necessary or just put it back in\n\t if (visitor[type]) {\n\t mergePair(visitor[type], fns);\n\t } else {\n\t visitor[type] = fns;\n\t }\n\t }\n\t } else {\n\t mergePair(visitor, fns);\n\t }\n\t }\n\n\t // add aliases\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t var fns = visitor[nodeType];\n\n\t var aliases = t.FLIPPED_ALIAS_KEYS[nodeType];\n\t if (!aliases) continue;\n\n\t // clear it from the visitor\n\t delete visitor[nodeType];\n\n\t var _arr3 = aliases;\n\t for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n\t var alias = _arr3[_i3];\n\t var existing = visitor[alias];\n\t if (existing) {\n\t mergePair(existing, fns);\n\t } else {\n\t visitor[alias] = _lodashLangClone2[\"default\"](fns);\n\t }\n\t }\n\t }\n\n\t for (var nodeType in visitor) {\n\t if (shouldIgnoreKey(nodeType)) continue;\n\n\t ensureCallbackArrays(visitor[nodeType]);\n\t }\n\n\t return visitor;\n\t}", "function visit(node, fn) {\n if (!node.visited) {\n define(node, 'visited', true);\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }\n\n return node;\n}", "function functor(v) {\n \treturn typeof v === \"function\" ? v : function() {\n return v\n \t}\n }", "function a(e){return\"function\"===typeof e}", "function a(e){return\"function\"===typeof e}", "function i(e){return\"function\"===typeof e}", "handler(ctx, expr) {\n const ast = expr.ast, fn = ctx.functions;\n return (_, event) => {\n const datum = event.item && event.item.datum;\n return interpret(ast, fn, _, datum, event);\n };\n }", "function getFunc() { return \"gate\"; }", "function n(e,t){if(\"function\"!=typeof e)throw new TypeError(\"argument fn must be a function\");return e}", "function functor(v) {\n\t \treturn typeof v === \"function\" ? v : function() {\n\t return v\n\t \t}\n\t }", "function visit(node, fn) {\n if (!node.visited) {\n _define(node, 'visited', true);\n\n return node.nodes ? mapVisit(node.nodes, fn) : fn(node);\n }\n\n return node;\n}", "function caller (param) {\n if(typeof param === \"function\"){\n console.log('this is a function');\n }\n else {\n console.log(\"The param is NOT a function\");\n }\n}", "function full(node, callback, baseVisitor, state, override) {\n if (!baseVisitor) { baseVisitor = base\n ; }(function c(node, st, override) {\n var type = override || node.type;\n baseVisitor[type](node, st, c);\n if (!override) { callback(node, st, type); }\n })(node, state, override);\n }", "function full(node, callback, baseVisitor, state, override) {\n if (!baseVisitor) { baseVisitor = base\n ; }(function c(node, st, override) {\n var type = override || node.type;\n baseVisitor[type](node, st, c);\n if (!override) { callback(node, st, type); }\n })(node, state, override);\n }", "function func() {\n return struct('Function', value => {\n return typeof value === 'function';\n });\n}", "function func() {\n return struct('Function', value => {\n return typeof value === 'function';\n });\n}", "TSEmptyBodyFunctionExpression(node) {\n const upperTypeMode = this.typeMode;\n const { typeParameters, params, returnType } = node;\n this.typeMode = true;\n this.visit(typeParameters);\n params.forEach(this.visit, this);\n this.visit(returnType);\n this.typeMode = upperTypeMode;\n }", "function visit(node, fn) {\n if (!node.visited) {\n defineProperty$7(node, 'visited', true);\n return node.nodes ? mapVisit$1(node.nodes, fn) : fn(node);\n }\n return node;\n}", "event(ctx, expr) {\n const ast = expr.ast, fn = ctx.functions;\n return event => interpret(ast, fn, undefined, undefined, event);\n }", "function full(node, callback, baseVisitor, state, override) {\n if (!baseVisitor) { baseVisitor = base\n ; }(function c(node, st, override) {\n var type = override || node.type;\n baseVisitor[type](node, st, c);\n if (!override) { callback(node, st, type); }\n })(node, state, override);\n}", "function applyOp(node, func) {\n node = $(node);\n node.trigger(\"fluid-\"+func);\n node[func]();\n }", "function ifElse(pred) {\n return function(f) {\n return function(g) {\n return function(x) {\n return (pred (x) ? f : g) (x);\n };\n };\n };\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "eval(e) {\n if (e.type === \"form\") {\n\n // first try built-in functions\n let fnName = e.children[0].value\n const fnNode = e.children[0]\n const argNodes = e.children.slice(1)\n\n if (this[\"_bi_\" + fnName]) {\n // save the point where function call was made from\n this.evalStack.push({ fnCall : fnNode })\n const result = this[\"_bi_\" + fnName](argNodes, fnNode)\n // remove from call stack after successful evaluation\n this.evalStack.pop()\n return result\n } else { // then try udfs. This means we don't allow overriding built-ins, this is because we don't provide a way to get them back.\n if (this.udfs[fnName]) {\n this.evalStack.push({ fnCall : fnNode })\n const result = this.eval_udf(fnName, argNodes, fnNode)\n this.evalStack.pop()\n return result\n }\n }\n\n } else if (e.type === \"identifier\") {\n\n return this.symbolTable.resolve(e.value)\n\n } else if (e.type === \"loop\") {\n\n const body = e.body\n this.evalStack.push({ loopCall : e.begin })\n //loop construct won't result in a value, for now\n this._bi_loop(e.n, body, e.begin)\n // remove from call stack after successful evaluation\n this.evalStack.pop()\n\n } else if (e.type === \"defun\") {\n\n this.udfs[e.name.value] = e // we just save the ast node. lol. but yeah, minimum gurantee we have is that it'll be syntactically correct. Other than that, we shouldn't see any exotic errors apart from the regular interpreter errors as the only thing we'll do is execute the function body in a new scope\n return true\n\n } else {\n throw new Error(`${e.type} node is not eval-able`)\n }\n }", "function createCloseTagEvaluator(nameNode) {\n var name = createEvaluator(nameNode)\n , name_func = typeof name === 'function';\n\n return name_func ? closeFuncEvaluator : closeLiteralEvaluator;\n\n function closeFuncEvaluator(ctx, writer) {\n writer.endElement(stringify(name(ctx, writer)));\n }\n\n function closeLiteralEvaluator(ctx, writer) {\n writer.endElement(name);\n }\n }", "function hasKind(node, kind) {\n return node !== undefined && node.kind === kind;\n }", "function getNodeType(node) {\n switch (node.type) {\n case utils_1.AST_NODE_TYPES.TSAbstractMethodDefinition:\n case utils_1.AST_NODE_TYPES.MethodDefinition:\n return node.kind;\n case utils_1.AST_NODE_TYPES.TSMethodSignature:\n return 'method';\n case utils_1.AST_NODE_TYPES.TSCallSignatureDeclaration:\n return 'call-signature';\n case utils_1.AST_NODE_TYPES.TSConstructSignatureDeclaration:\n return 'constructor';\n case utils_1.AST_NODE_TYPES.TSAbstractPropertyDefinition:\n return node.readonly ? 'readonly-field' : 'field';\n case utils_1.AST_NODE_TYPES.PropertyDefinition:\n return node.value && functionExpressions.includes(node.value.type)\n ? 'method'\n : node.readonly\n ? 'readonly-field'\n : 'field';\n case utils_1.AST_NODE_TYPES.TSPropertySignature:\n return node.readonly ? 'readonly-field' : 'field';\n case utils_1.AST_NODE_TYPES.TSIndexSignature:\n return node.readonly ? 'readonly-signature' : 'signature';\n case utils_1.AST_NODE_TYPES.StaticBlock:\n return 'static-initialization';\n default:\n return null;\n }\n}", "function gn(e){return function(){if(this.curOp)return e.apply(this,arguments);fn(this);try{return e.apply(this,arguments)}finally{on(this)}}}", "function isFunc(cf) {\r\n return typeof cf === \"function\";\r\n}", "function traversalOrder (fn, node) {\n let str = ''\n fn(node => {\n str += node.type\n }, node)\n return str\n}", "function parseIfOrElseStatementDispatcher(parsedStatement, myParsedExpressions) {\n if (parsedStatement == null )\n return;\n\n let typeToHandlerMapping = [];\n typeToHandlerMapping [IfStatement] = parseIfStatement;\n typeToHandlerMapping [BlockStatement] = parseBlockStatement;\n\n let func = typeToHandlerMapping [parsedStatement.type];\n if (func!=null)\n func.call(this, parsedStatement,myParsedExpressions);\n else\n parseGeneral(parsedStatement,myParsedExpressions);\n}", "function makeOpFunction(op) {\n if (op.f.constant) {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f() : s(i);\n };\n };\n } else {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f(s(i)) : s(i);\n };\n };\n }\n}", "function makeOpFunction(op) {\n if (op.f.constant) {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f() : s(i);\n };\n };\n } else {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f(s(i)) : s(i);\n };\n };\n }\n}", "function createNodeEventHandler(context, eventName, methodName) {\n // Instances can optionally have a _methodHost which allows redirecting where\n // to find methods. Currently used by `templatize`.\n context = context._methodHost || context;\n var handler = function handler(e) {\n if (context[methodName]) {\n context[methodName](e, e.detail);\n } else {\n console.warn('listener method `' + methodName + '` not defined');\n }\n };\n return handler;\n}", "function gadgetQuestion(gadget){\n if(gadget == \"android\"){\n return function(name){\n console.log(name + \" , Why do you like android?\");\n }\n }\n if(gadget == \"apple\"){\n return function(name){\n console.log(name + \" , Why do you like apple?\");\n }\n }\n}", "function FunctionOwnershipVisitor() {\r\n}", "function nodeTypeTest(stream, a) {\n if ('(' !== stream.peek2()) {\n return null;\n }\n var type = stream.trypop(['comment', 'text', 'processing-instruction', 'node']);\n if (null != type) {\n if (null == stream.trypop('('))\n throw new XPathException(XPathException.INVALID_EXPRESSION_ERR,\n 'Position ' + stream.position() +\n ': Should not happen.');\n var param = undefined;\n if (type == 'processing-instruction') {\n param = stream.trypopliteral();\n }\n if (null == stream.trypop(')'))\n throw new XPathException(XPathException.INVALID_EXPRESSION_ERR,\n 'Position ' + stream.position() +\n ': Expected close parens.');\n return type\n }\n }", "function nodeTypeTest(stream, a) {\n if ('(' !== stream.peek2()) {\n return null;\n }\n var type = stream.trypop(['comment', 'text', 'processing-instruction', 'node']);\n if (null != type) {\n if (null == stream.trypop('('))\n throw new XPathException(XPathException.INVALID_EXPRESSION_ERR,\n 'Position ' + stream.position() +\n ': Should not happen.');\n var param = undefined;\n if (type == 'processing-instruction') {\n param = stream.trypopliteral();\n }\n if (null == stream.trypop(')'))\n throw new XPathException(XPathException.INVALID_EXPRESSION_ERR,\n 'Position ' + stream.position() +\n ': Expected close parens.');\n return type\n }\n }" ]
[ "0.735789", "0.7335283", "0.73079747", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7282289", "0.7262107", "0.7262107", "0.7262107", "0.5654915", "0.5366489", "0.47700983", "0.47700983", "0.4747434", "0.46868476", "0.4631278", "0.44685245", "0.44681165", "0.44632903", "0.44632903", "0.44632903", "0.44632903", "0.4457027", "0.44441128", "0.43954852", "0.438548", "0.43622366", "0.43113682", "0.43046677", "0.42833892", "0.42640874", "0.42486125", "0.42377782", "0.42310825", "0.42310825", "0.42287445", "0.42272204", "0.42260367", "0.42260367", "0.42192435", "0.4202202", "0.41909936", "0.4170857", "0.41648072", "0.4147816", "0.41409463", "0.41348943", "0.41348943", "0.41296217", "0.41296217", "0.41107017", "0.41103256", "0.40875423", "0.40856847", "0.40792495", "0.4057977", "0.40553594", "0.40553594", "0.4035907", "0.40348956", "0.4029327", "0.40219393", "0.4017704", "0.40095177", "0.39948055", "0.39926332", "0.39688027", "0.39688027", "0.39579135", "0.39439666", "0.39393455", "0.3933403", "0.3933403" ]
0.72866946
15
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function find(list, predicate) { for (var i = 0; i < list.length; i++) { if (predicate(list[i])) { return list[i]; } } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "componentDidMount() {\n // if this is the first time the home screen is loading\n // we must initialize Facebook\n if (!window.FB) {\n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '280945375708713',\n cookie : true, // enable cookies to allow the server to access\n // the session\n xfbml : true, // parse social plugins on this page\n version : 'v2.1' // use version 2.1\n });\n \n window.FB.getLoginStatus(function(response) {\n // upon opening the ma\n if (response.status === \"connected\") {\n loadStream(response);\n }\n }.bind(this));\n }.bind(this);\n } else {\n window.FB.getLoginStatus(function(response) {\n console.log(\"getting status\");\n this.initiateLoginOrLogout(response);\n }.bind(this));\n }\n\n // Load the SDK asynchronously\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n }", "componentDidMount() {\n\n\t window.fbAsyncInit = function() {\n\t window.FB.init({\n\t appId : '1250815578279698',\n\t cookie : true, // enable cookies to allow the server to access\n\t // the session\n\t xfbml : true, // parse social plugins on this page\n\t version : 'v2.11' // use version 2.1\n\t });\n\n //window.FB.Event.subscribe('auth.statusChange', this.statusChangeCallback());\n /* comment by bipin: it redirect if user is logged in fb */\n\t // window.FB.getLoginStatus(function(response) {\n\t // this.statusChangeCallback(response);\n\t // }.bind(this));\n\t }.bind(this);\n\n // Load the SDK asynchronously\n\t (function(d, s, id) {\n\t var js, fjs = d.getElementsByTagName(s)[0];\n\t if (d.getElementById(id)) return;\n\t js = d.createElement(s); js.id = id;js.async = true;\n\t js.src = \"https://connect.facebook.net/en_GB/sdk.js#xfbml=1&version=v2.11\";\n\t fjs.parentNode.insertBefore(js, fjs);\n\t }(document, 'script', 'facebook-jssdk'));\n\t}", "function facebookLogin()\r\n{\r\n var fb = FBConnect.install();\r\n fb.connect(client_id,redir_url,\"touch\");\r\n fb.onConnect = onFBConnected;\r\n \r\n}", "loginWithFacebook(){\n LoginManager.logInWithReadPermissions(['public_profile']).then(loginResult => {\n if (loginResult.isCancelled) {\n console.log('user canceled');\n return;\n }\n AccessToken.getCurrentAccessToken()\n .then(accessTokenData => {\n const credential = this.props.provider.credential(accessTokenData.accessToken);\n return auth.signInWithCredential(credential);\n })\n .then(credData => {\n console.log(credData);\n })\n .catch(err => {\n console.log(err);\n });\n });\n\n }", "componentDidMount(){\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"https://connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n \n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '207358966557597', /* Our specific APP id */\n cookie : true, \n xfbml : true, \n version : 'v2.8' \n });\n\n /* This might be a duplicate of above checkLoginState, but need to investigate */\n FB.getLoginStatus(function(response) {\n this.statusChangeCallback(response);\n }.bind(this));\n }.bind(this)\n }", "componentWillUnmount() {\n //disconnect from FB\n }", "componentDidMount() {\n this.props.facebookLogin();\n // AsyncStorage.removeItem('fb_token');\n // this.onAuthComplete(this.props);\n }", "function auth_Facebook()\n{\n authenticate(new firebase.auth.FacebookAuthProvider());\n}", "render() {\n return (\n <div id=\"fb-root\"></div>\n )\n }", "componentDidMount() {\n const {\n videoId,\n } = this.props;\n\n if (typeof window !== \"undefined\") {\n this.loadFB()\n .then(res => {\n if (res) {\n this.FB = res;\n this.createPlayer(videoId);\n }\n });\n }\n }", "function testAPI() {\n FB.api('/me', function(response) {\n });\n }", "_FBPReady() {\n super._FBPReady();\n\n }", "componentDidMount() {\n const _this = this;\n\n\n _this._manageGlobalEventHandlers(_this.props);\n\n _this._FB_init(function() {\n _this.setState({\n initializing: false\n });\n });\n }", "checkAuth() {\n return new Promise((resolve) => {\n window.fbAsyncInit = () => {\n window.FB.init({\n appId: process.env.FACEBOOK_ID,\n cookie: true,\n xfbml: true,\n version: 'v2.8',\n });\n window.FB.AppEvents.logPageView();\n window.FB.getLoginStatus((response) => {\n resolve(response);\n });\n };\n\n ((d, s, id) => {\n const fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) { return; }\n const js = d.createElement(s); js.id = id;\n js.src = '//connect.facebook.net/en_US/sdk.js';\n fjs.parentNode.insertBefore(js, fjs);\n })(document, 'script', 'facebook-jssdk');\n });\n }", "loginByFacebook() {\n if (!this.props.accsessToken) {\n this.props.facebookLogin();\n } else {\n return Alert.alert('', 'Please logout first');\n }\n }", "function facebookLogin() {\n FB.getLoginStatus(function(response) {\n statusChangeCallback(response);\n });\n}", "FacebookAuth() {\n return this.AuthLogin(new firebase_app__WEBPACK_IMPORTED_MODULE_1__[\"auth\"].FacebookAuthProvider());\n }", "_FB_init(finishedCallback) {\n const _this = this;\n\n //Fail if FB is not available\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n //Get the users AccessToken\n FB.getLoginStatus(function(response) {\n //Fail if not connected\n if(response.status != 'connected') {\n _this.props.onError(ERROR.CONNECTION_FAILED);\n _this.set_errorMessage(MSFBPhotoSelector.TEXTS.connection_failed);\n }\n\n //Load data when connected\n else {\n _this.setState({\n FB_accessToken: response.authResponse.accessToken\n });\n\n _this._FB_getUserAlbums(finishedCallback);\n _this._FB_getUserImage();\n }\n }, true);\n }", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "function sdk(){\n}", "getUserInfoFromFB() {\n return axios.get('/user/info/fb')\n .then(res => {\n console.log('User info FB: ', res.data);\n this.setState({\n user: res.data\n });\n })\n .catch(err => {\n console.log(err);\n });\n }", "onShareAppMessage() {\n\n }", "constructor() {\n this.apiUrl = 'https://graph.facebook.com/v4.0';\n this.access_token = process.env.ACCESS_TOKEN;\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n \n });\n\n\n \n }", "_FB_API(p1, p2, p3) {\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n FB.api(p1, p2, p3);\n }", "setFacebook(token) {\n fetch('https://graph.facebook.com/v2.5/me?fields=email,name,friends&access_token=' + token)\n .then((response) => response.json())\n .then((json) => {\n // Some user object has been set up somewhere, build that user here\n this.setState({ fb_name: json.name, fb_email: json.email, fb_token: token, fb_user_id: json.id});\n helper.saveFacebookData( this.state.user_id, json.email, json.name, json.id ,token );\n return \"Okay\";\n })\n .catch(() => {\n reject('ERROR GETTING DATA FROM FACEBOOK')\n });\n }", "function FacebookLoginLoad() {\r\n (function (d, s, id) {\r\n var js, fjs = d.getElementsByTagName(s)[0];\r\n if (d.getElementById(id)) { return; }\r\n js = d.createElement(s); js.id = id;\r\n js.src = \"../../../Scripts/Facebook/sdk.js\";\r\n fjs.parentNode.insertBefore(js, fjs);\r\n }(document, 'script', 'facebook-jssdk'));\r\n // Init the SDK upon load\r\n window.fbAsyncInit = function () {\r\n FB.init({\r\n appId: '454206028123700',\r\n xfbml: true,\r\n version: 'v2.5'\r\n });\r\n }\r\n}", "function signInWithFb() {\n return {\n type: SIGN_IN_WITH_FB\n };\n}", "private public function m246() {}", "handle_submit() {\n const {article, content} = this.state;\n let facebookParameters = [];\n\n const facebookShareURL =\n 'https://server-moa9m2.turbo360-vertex.com/share/EJ5BXsTgFr43dx4Y';\n facebookParameters.push('quote=' + encodeURI(content));\n facebookParameters.push('u=' + encodeURI(facebookShareURL));\n\n console.log(facebookParameters);\n const url =\n 'https://www.facebook.com/sharer/sharer.php?' +\n facebookParameters.join('&');\n Linking.openURL(url)\n .then(data => {\n this.handle_cancel();\n console.log('Facebook Opened');\n })\n .catch(() => {\n console.log('Something went wrong');\n });\n }", "testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n // 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function myFacebookLogin() {\n FB.login(function () {\n checkLoginState();\n }, {scope: 'public_profile, email, user_friends'});\n}", "logout() {\n FB.logout();\n }", "function singInWithFacebook() {\n var provider = new firebase.auth.FacebookAuthProvider();\n var d = new Date();\n firebase.auth().signInWithPopup(provider).then(({user}) => {\n //create database of user\n if (user.metadata.creationTime === user.metadata.lastSignInTime) {\n createData('/users/' + user.uid, {\n \"displayName\": user.displayName,\n \"email\": user.email,\n \"joinedOn\": d.getDate() + '/' + (d.getMonth() + 1) + '/' + d.getFullYear(),\n \"username\": user.uid,\n });\n }\n\n //final step creat local login\n return user.getIdToken().then((idToken) => {\n return fetch(\"/sessionLogin\", {\n method: \"POST\",\n headers: {\n Accept: \"application/json\",\n \"Content-Type\": \"application/json\",\n \"CSRF-Token\": Cookies.get(\"XSRF-TOKEN\"),\n },\n body: JSON.stringify({\n idToken\n }),\n });\n });\n })\n .then(() => {\n window.location.assign(\"/dashboard\");\n });\n}", "function _handleFb() {\n\t\tlet shortToken;\n\t\tif (window.location.hash) {\n\n\t\t\tconsole.log(\"window.location\", window.location);\n\n\t\t\t\tlet accessTokenMatch = window.location.hash.match(/access_token\\=([a-zA-Z0-9]+)/);\n\t\t\tconsole.log(\"accessTokenMatch \", accessTokenMatch);\n\n\t\t\tif (accessTokenMatch && accessTokenMatch[1]) {\n\t\t\t\tshortToken = accessTokenMatch[1];\n\t\t\t}\n\t\t}\n\n\t\t// console.log(\"_handleFb \");\n\t\t// console.log(\"shortToken \", shortToken);\n\n\t\tif (shortToken) {\n\t\t\t// We came here from Facebook redirect, with a token\n\t\t\tif (getUrlParams()[\"accountLinking\"]) {\n\t\t\t\t_getFBMeWithShortToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\tconsole.log(\"_getFBMeWithShortToken data\", data);\n\t\t\t\t\t\t//console.log('updating', data)\n\t\t\t\t\t\tupdateClient({\"facebookLogin\": data[\"id\"]}, function(d, e) {\n\t\t\t\t\t\t\tconsole.log('updated!');\n\t\t\t\t\t\t\tconsole.log(d, e);\n\n\t\t\t\t\t\t\t_generateFBToken({\n\t\t\t\t\t\t\t\tshortToken,\n\t\t\t\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\t\t\t\tconsole.log()\n\t\t\t\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\t// Clear query parameter from address bar\n\t\t\t\twindow.setTimeout(function() {\n\t\t\t\t\thistory.pushState(\"\", document.title, window.location.pathname);\n\t\t\t\t}, 0);\n\t\t\t}\n\t\t\telse {\n\t\t\t\t_generateFBToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\tif(window.altyn.zonePrefix === \"\"||(window.isMobile && window.altyn.zonePrefix ==\"/open\")){\n\t\t\t\t//Just came on page, need to get token status\n\t\t\t\t_getFBTokenStatus(function(response) {\n\t\t\t\t\tif (response && response[\"value\"] === true) {\n\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\n\t\t}\n\t}", "function log_in_with_facebook() {\n var provider = new firebase_ref.auth.FacebookAuthProvider();\n log_in_with_provider(provider);\n}", "authenticateFacebook() {\n return this.authService.authenticate('facebook')\n .then(() => {\n this.authenticated = this.authService.authenticated;\n });\n }", "openMessenger() {\n Linking.openURL('fb://messaging/' + FACEBOOK_ID);\n }", "beforeConnectedCallbackHook(){\n\t\t\n\t}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n\n });\n }", "function FB(config) {\r\n this.config = config||{};\r\n this.started = this.init();\r\n}", "function facebookWidgetInit() {\n var widgetMarkup = '<div class=\"fb-page\" data-href=\"https://www.facebook.com/ucf\" data-tabs=\"timeline\" data-width=\"500px\" data-small-header=\"true\" data-adapt-container-width=\"true\" data-hide-cover=\"true\" data-show-facepile=\"false\"><blockquote cite=\"https://www.facebook.com/ucf\" class=\"fb-xfbml-parse-ignore\"><a href=\"https://www.facebook.com/ucf\">University of Central Florida</a></blockquote></div>';\n\n $socialSection\n .find('#js-facebook-widget')\n .html(widgetMarkup);\n\n window.fbAsyncInit = function() {\n FB.init({\n appId : '637856803059940',\n xfbml : true,\n version : 'v2.8'\n });\n };\n\n (function(d, s, id){\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) {return;}\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function checkFacebookTab() {\n if (!stopFB) {\n facebookTab((tab) => {\n idFB = tab.id;\n\n if (idFB != null && tab != null) {\n updateFBNotifications(tab.title);\n }\n\n if (!tab.pinned) {\n browser.tabs.update(tab.id, {\n pinned: true,\n });\n }\n }, () => {\n if (idFB == null || idFB != idPrevFB) {\n browser.tabs.create({\n index: 0,\n pinned: true,\n url: 'https://www.messenger.com/',\n active: false,\n }).then((tab) => {\n if (typeof tab === 'object') {\n idFB = tab.id;\n idPrevFB = tab.id;\n }\n });\n }\n });\n }\n}", "testAPI() {\n\t console.log('Welcome! Fetching your information.... ');\n\t FB.api('/me', function(response) {\n\t console.log('Successful login for: ' + response.name);\n\t document.getElementById('status').innerHTML =\n\t 'Thanks for logging in, ' + response.name + '!';\n\t });\n\t}", "private internal function m248() {}", "frame() {\n throw new Error('Not implemented');\n }", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "statusChangeCallback(response) {\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.setState({ token: response.authResponse.accessToken });\n this.getLongTermToken();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n }", "function getFbInfos() {\n\n FB.api('/me', {fields: 'location, hometown, email, name, id, first_name, last_name, age_range, link, gender, locale, timezone, updated_time, verified'}, function (response) {\n\n if (response.email == 'undefined' || !response.email) {\n var error = $('#login-alert');\n error.html('<a onclick=\"myFacebookLoginNeedEmail();\" href=\"#\">Your email is required. Please click here to finish your login.</a>');\n error.show();\n $('#facebook-login').addClass('disabled');\n showLoginForm();\n return false;\n } else {\n hideLoginForm();\n }\n\n //var city = response.location.name.split(\",\")[0].trim();\n //var country = response.location.name.split(\",\")[1].trim();\n currentUser = {\n \"id\": response.id,\n \"email\": response.email,\n \"password\": response.id,\n \"name\": response.name,\n \"firstname\": response.first_name,\n \"lastname\": response.last_name,\n //\"city\": city,\n //\"country\": country,\n \"link\": response.link,\n \"gender\": response.gender,\n \"ageRange\": response.age_range.min,\n \"avatarUrl\": \"http://graph.facebook.com/\" + response.id + \"/picture?type=square\",\n \"language\": response.locale,\n //\"originalCountry\": response.hometown.name.split(\",\")[1].trim()\n };\n\n if (isNewUser) {\n addNewUser(currentUser);\n } else {\n // check existing user\n\n }\n\n });\n\n}", "async componentWillMount() {\n var _this = this\n _this.setUpUserDataFromFB()\n\n //ASK FOR CAMERA ONLT IF IS PREVIEW TRUE AND SHOWBARCODE TRUE\n if (Config.isPreview && Config.showBCScanner) {\n const { status } = await Permissions.askAsync(Permissions.CAMERA);\n this.setState({ hasCameraPermission: status === 'granted' });\n }\n\n\n\n AppEventEmitter.addListener('user.state.changes', this.alterUserState);\n if (Config.isTesterApp) {\n this.listenForUserAuth();\n } else if (Config.isPreview && !Config.isTesterApp) {\n //Load list of apps\n _this.retreiveAppDemos(\"apps\");\n }\n\n if (!Config.isPreview && !Config.isTesterApp) {\n\n //Load the data automatically, this is normal app and refister for Push notification\n this.registerForPushNotificationsAsync();\n Notifications.addListener(this._handleNotification);\n this.retreiveMeta();\n }\n\n\n await Font.loadAsync({\n //\"Material Icons\": require(\"@expo/vector-icons/fonts/MaterialIcons.ttf\"),\n //\"Ionicons\": require(\"@expo/vector-icons/fonts/Ionicons.ttf\"),\n // \"Feather\": require(\"@expo/vector-icons/fonts/Feather.ttf\"),\n 'open-sans': require('./assets/fonts/OpenSans-Regular.ttf'),\n 'lato-light': require('./assets/fonts/Lato-Light.ttf'),\n 'lato-regular': require('./assets/fonts/Lato-Regular.ttf'),\n 'lato-bold': require('./assets/fonts/Lato-Bold.ttf'),\n 'lato-black': require('./assets/fonts/Lato-Black.ttf'),\n 'roboto-medium': require('./assets/fonts/Roboto-Medium.ttf'),\n 'roboto-bold': require('./assets/fonts/Roboto-Bold.ttf'),\n 'roboto-light': require('./assets/fonts/Roboto-Light.ttf'),\n 'roboto-thin': require('./assets/fonts/Roboto-Thin.ttf'),\n\n });\n\n this.setState({ isReady: true, fontLoaded: true });\n }", "function WebIdUtils () {\n}", "supportsPlatform() {\n return true;\n }", "login() {\n return new Promise((resolve, reject) => {\n window.FB.login((response) => {\n if (response.authResponse) {\n resolve(response);\n } else {\n reject(response);\n }\n }, { scope: 'public_profile,email' });\n });\n }", "function login() {\n fb_login(userDetails);\n}", "fetchUser() {\n return new Promise((resolve) => {\n window.FB.api('/me', { fields: 'first_name,last_name,picture.type(large),email' }, (response) => {\n resolve(response);\n });\n });\n }", "function facebookLink() {\n window.open(\"https://www.facebook.com/sharer/sharer.php?u=https://blackfemaleinventors.netlify.com/\", \" \", \"width=500,height=500\");\n}", "function run() {\n var service = getService();\n if (service.hasAccess()) {\n\n var url = 'https://graph.facebook.com/v2.6/me/accounts?';\n\n var response = UrlFetchApp.fetch(url, {\n headers: {\n 'Authorization': 'Bearer ' + service.getAccessToken()\n }\n });\n var result = JSON.parse(response.getContentText());\n Logger.log(JSON.stringify(result , null, 2));\n } else {\n var authorizationUrl = service.getAuthorizationUrl();\n\n Logger.log('Open the following URL and re-run the script: %s',authorizationUrl);\n \n\n\n}}", "function LoginByFB(){\n\t\t\t \t//console.log('LoginByFB');\n\t\t\t FB.login(function(response) {\n\t\t\t //console.log('appel de la function FB.login 1');\n\t\t\t //console.log(response);\n\t\t\t if (response.authResponse) {\n\t\t\t console.log('Welcome! Fetching your information.... ');\n\t\t\t console.log(response);\n\t\t\t getdatsForUser();\n\t\t\t } else {\n\t\t\t console.log('User cancelled login or did not fully authorize.');\n\t\t\t }\n\t\t\t }, {scope: 'public_profile,email'});\n\t\t\t }", "function facebookLogin() {\n FB.login(function(response){\n scope: 'email,user_birthday,status_update,publish_stream' // estos son los permisos que necesita la aplicacion\n });\n }", "getAccessToken() {}", "static checkMobileWallet(){\n\t\tif(typeof window.ReactNativeWebView !== 'undefined' || typeof window.PopOutWebView !== 'undefined'){\n\t\t\tconst parseIfNeeded = x => {\n\t\t\t\tif(x && typeof x === 'string' && x.indexOf(`{`) > -1) x = JSON.parse(x);\n\t\t\t}\n\n\t\t\t// For mobile popouts only.\n\t\t\tif(typeof window.ReactNativeWebView === 'undefined'){\n\t\t\t\twindow.ReactNativeWebView = {\n\t\t\t\t\tpostMessage:() => {}\n\t\t\t\t};\n\t\t\t}\n\n\t\t\tlet resolvers = {};\n\n\t\t\twindow.ReactNativeWebView.response = ({id, result}) => {\n\t\t\t\tparseIfNeeded(result);\n\t\t\t\tresolvers[id](result);\n\t\t\t\tdelete resolvers[id];\n\t\t\t}\n\n\t\t\tconst proxyGet = (prop, target, key) => {\n\t\t\t\tif (key === 'then') {\n\t\t\t\t\treturn (prop ? target[prop] : target).then.bind(target);\n\t\t\t\t}\n\n\t\t\t\tif(key === 'socketResponse'){\n\t\t\t\t\treturn (prop ? target[prop] : target)[key];\n\t\t\t\t}\n\n\t\t\t\treturn (...params) => new Promise(async resolve => {\n\t\t\t\t\tconst id = IdGenerator.text(24);\n\t\t\t\t\tresolvers[id] = resolve;\n\t\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({id, prop, key, params}));\n\t\t\t\t});\n\t\t\t};\n\n\t\t\tconst proxied = (prop) => new Proxy({}, { get(target, key){ return proxyGet(prop, target, key); } });\n\n\n\t\t\twindow.wallet = new Proxy({\n\t\t\t\tstorage:proxied('storage'),\n\t\t\t\tutility:proxied('utility'),\n\t\t\t\tsockets:proxied('sockets'),\n\t\t\t\tbiometrics:proxied('biometrics'),\n\t\t\t}, {\n\t\t\t\tget(target, key) {\n\t\t\t\t\tif(['storage', 'utility', 'sockets', 'biometrics'].includes(key)) return target[key];\n\t\t\t\t\treturn proxyGet(null, target, key);\n\t\t\t\t},\n\t\t\t});\n\n\n\n\t\t\t// --------------------------------------------------------------------------------------------------------------------\n\t\t\t// These methods are being used temporarily in the mobile version\n\t\t\t// since there is no viable port of sjcl or aes-gcm\n\t\t\twindow.ReactNativeWebView.mobileEncrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.encrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\twindow.ReactNativeWebView.mobileDecrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.decrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst Mnemonic = require('@walletpack/core/util/Mnemonic').default;\n\t\t\twindow.ReactNativeWebView.seedPassword = async ({id, password, salt}) => {\n\t\t\t\tconst [_, seed] = await Mnemonic.generateMnemonic(password, salt);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:seed}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\t// Just because doing sha256 on a buffer in react is dumb.\n\t\t\tconst ecc = require('eosjs-ecc');\n\t\t\twindow.ReactNativeWebView.sha256 = ({id, data}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:ecc.sha256(Buffer.from(data))}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst log = console.log;\n\t\t\tconst error = console.error;\n\n\t\t\tconsole.log = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn log(...params);\n\t\t\t};\n\n\t\t\tconsole.error = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn error(...params);\n\t\t\t};\n\n\t\t}\n\t}", "function initFacebook(){ //normally called when document is ready (ie. when page loads)\n var js, id = 'facebook-jssdk'; if (document.getElementById(id)) {return;}\n js = document.createElement('script'); js.id = id; js.async = true;\n js.src = \"//connect.facebook.net/en_US/all.js\"; //calls fbAsyncInit above when loaded\n document.getElementsByTagName('head')[0].appendChild(js);\n}", "function FBConnect()\n{\n\tthis.facebookkey = 'facebook';\n\tif(window.plugins.childBrowser == null)\n\t{\n\t\tChildBrowser.install();\n\t}\n}", "function getUserInfo22(){\n facebookConnectPlugin.api('me/?fields=id,name,email', ['email','public_profile'],\n function (result) {\n console.log(result);\n },\n function (error) {\n console.log(error);\n });\n}", "share(path){\n const FACEBOOK_ICON = \"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAADwAAAA8CAMAAAANIilAAAAAYFBMVEUAAAAAQIAAWpwAX5kAX5gAX5gAX5gAXJwAXpgAWZ8AX5gAXaIAX5gAXpkAVaoAX5gAXJsAX5gAX5gAYJkAYJkAXpoAX5gAX5gAX5kAXpcAX5kAX5gAX5gAX5YAXpoAYJijtTrqAAAAIHRSTlMABFis4vv/JL0o4QvSegbnQPx8UHWwj4OUgo7Px061qCrcMv8AAAB0SURBVEjH7dK3DoAwDEVRqum9BwL//5dIscQEEjFiCPhubziTbVkc98dsx/V8UGnbIIQjXRvFQMZJCnScAR3nxQNcIqrqRqWHW8Qd6cY94oGER8STMVioZsQLLnEXw1mMr5OqFdGGS378wxgzZvwO5jiz2wFnjxABOufdfQAAAABJRU5ErkJggg==\";\n let shareImageBase64 = {\n title: \"React Native\",\n message: \"Hola mundo\",\n url: FACEBOOK_ICON,\n subject: \"Share Link\" // for email\n };\n Share.open(shareImageBase64);\n }", "_FBPReady() {\n super._FBPReady();\n }", "function fbdown(imageName)\r\n\t {\r\n // <!-- Facebook Login logic prod 249863545451459 test 238604546585672 -->\r\n var appId = '249863545451459';\r\n\r\n //prod var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript'; //local var roleArn = 'arn:aws:iam::675778862308:role/javarolenow';\r\n var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript';\r\n\r\n\r\n var bucketName = 'elasticbeanstalk-us-east-1-675778862308';\r\n\r\n\r\n AWS.config.region = 'us-east-1';\r\n\r\n\r\n\r\n\r\n\r\n\r\n var bucket = new AWS.S3({\r\n\r\n\r\n params: {\r\n\r\n\r\n Bucket: bucketName\r\n\r\n\r\n }\r\n\r\n\r\n });\r\n accessToken = $.jStorage.get(\"fbAToken\");\r\n\t\t\tbucket.config.credentials = new AWS.WebIdentityCredentials({\r\n\r\n\r\n\t ProviderId: 'graph.facebook.com',\r\n\r\n\r\n\t RoleArn: roleArn,\r\n\r\n\r\n\t WebIdentityToken: accessToken\r\n\r\n\r\n\t });\r\n\r\n\r\n\t\t\tfbUserId = $.jStorage.get(\"fbKey\");\r\n fbUserId = $.jStorage.get(\"fbKey\");\r\n var profilePic;\r\n var params = {Bucket: 'elasticbeanstalk-us-east-1-675778862308', Key: imageName, Expires: 60};\r\n url = bucket.getSignedUrl('getObject', params, function (err, url) {\r\n if (url) {\r\n \tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+url+'\"'+'>';\r\n \t$(\"#profilePic\").html(profilePic);\r\n }\r\n else{\r\n\t\t\t\tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+default1+'\"'+'>';$(\"#profilePic\").append(profilePic);\r\n\t\t\t\t}\r\n });\r\n\r\n\r\n }", "static postCode () {\n var token = /access_token=([^&]+)/.exec(window.document.location.hash)\n var expires_in = /expires_in=([^&]+)/.exec(window.document.location.hash)\n var state = /state=([^&]+)/.exec(window.document.location.hash)\n var error = /error=([^&]+)/.exec(window.document.location.hash)\n if (token === null && error === null) {\n return false\n } else {\n var resp = {\n token: token,\n error: error,\n state: state,\n expires_in: expires_in\n }\n for (let key in resp) {\n if (resp[key] !== null) {\n resp[key] = resp[key][1]\n }\n }\n if (window.opener !== null) {\n // the origin should be explicitly specified instead of \"*\"\n window.opener.postMessage({ source: MESSAGE_SOURCE_IDENTIFIER, payload: resp }, '*')\n }\n return true\n }\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n //'Thanks for logging in, ' + response.name + '!';\n });\n}", "async componentDidMount(){\n const searchStr = window.location.search\n const urlParams = queryString.parse(searchStr);\n if(urlParams.code)\n {\n const accessToken = await fbUtils.getAccessTokenFromCode(urlParams.code);\n if(accessToken){\n document.getElementById('my-login-card').innerHTML = this.uiComponent.accessTokenUI(accessToken);\n } else {\n document.getElementById('my-login-card').innerHTML = this.uiComponent.defaultErrorUI();\n }\n }\n\n }", "function version(){ return \"0.13.0\" }", "fbShareButtonClick() {\n\n\t\tconst quoteMessage= \n\t\t\t(this.state.request) ?\n\t\t\t\t`Fuckinator fuckinated my fucking text from \"${this.state.request}\" to: \"${this.state.response}\"`: null;\n\n\t\twindow.FB.ui({\n\t\t\tmethod: 'share',\n\t\t\thref: 'http://fuckinator.herokuapp.com/',\n\t\t\thashtag: '#fuckinator',\n\t\t\tmobile_iframe: true,\n\t\t\tquote: quoteMessage,\n\t\t}, res => {});\n\t}", "function testAPI() {\n FB.api('/me?fields=name,email', function (response) {\n if (response && !response.error) {\n console.log(\"RESPONSE\", response);\n gUserName = response.name;\n gUserId = response.id;\n gUserEmail = response.email;\n getUserInformation(response.id);\n }\n })\n}", "async componentDidMount() {\n let token = await AsyncStorage.getItem(\"fb_token\");\n if (token) {\n this.setState({ token }, () => {\n this.route();\n });\n } else {\n this.setState({ token: false });\n }\n }", "function facebookLogin() {\n \t\t$.ajaxSetup({ cache: true });\n\t \t$.getScript('//connect.facebook.net/en_US/sdk.js', function(){\n\t \t \n\t \t \tFB.init({\n\t \t \tappId: '629036014153864',\n\t \t \tversion: 'v2.7' // or v2.1, v2.2, v2.3, ...\n\t \t \t}); \n\t \t \n\t \t \tFB.getLoginStatus(function(response) {\n\t\t\t\tif (response.status === 'connected') {\n\t\t\t\t\tconsole.log('Logged in.');\n\t\t\t\t\tfetchFacebook();\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tFB.login(function(response){\n\t\t\t\t\t\tif (response.authResponse) {\n\t\t\t\t\t\t\tfetchFacebook();\n\t\t\t\t\t\t\tconsole.log(\"Gotchu\");\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tconsole.log('User cancelled login or did not fully authorize.');\n\t\t\t\t\t\t\t$scope.activeConversation.question.text[0] = \"Sorry I can't trust you if you can't trust me! Click to try again.\";\n\t\t\t\t\t\t\t$('.chat__input__text').on('click', $scope.activeConversation.question.action);\n\t\t\t\t\t\t}\n\t\t\t\t\t}, \n\t\t\t\t\t{scope: 'public_profile,email,user_likes,user_location,user_about_me,user_events,user_hometown,user_photos'});\n\t\t\t\t}\n\n\t\t\t});\n\t \t});\n \t}", "function facebookLoading(tabId, url){\n\n //get current sessions and global time\n chrome.storage.sync.get([\"open_sessions\", \"time\"], function(res){\n\n console.log(res)\n if(!res.open_sessions) res.open_sessions = {}\n if(res.open_sessions){\n let session = res.open_sessions[tabId]\n\n //if previous tab wasnt a facebook tab\n if(!session){\n //starts new session\n startSession(tabId, url)\n }\n else{\n //stops session on previous tab if it was a facebook tab\n stopSession(res, tabId, function(){\n //starts session on this tab\n startSession(tabId, url)\n })\n }\n }\n\n })\n}", "componentDidMount() {\n Spotify.getAccessToken();\n }", "facebookLogin(response) {\n if (response.name) {\n axios.post('/login/facebook', response)\n .then((response) => {\n this.setState({\n errors: {}\n });\n auth.authenticateUser(response.data.token, response.data.user.roles);\n this.props.history.push('/' + response.data.user.roles[0]);\n })\n .catch((error) => {\n const errors = error.response ? error.response.data.errors ? error.response.data.errors : error.response.data : {summary: 'you seem to be offline'};\n this.setState({\n errors: errors\n });\n });\n }\n }", "function facebookCallback() {\n FB.Event.subscribe('edge.create', function() {\n goTo('twitter');\n });\n}", "function testAPI() {\n FB.api('/me', function(response) {\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n myUserId = response.id;\n });\n}", "function initLogin() {\n // Facebook OAuth\n authCode = null;\n childWindow = null;\n\n // setup our Facebook credentials, and callback URL to monitor\n facebookOptions = {\n clientId: '577335762285018',\n clientSecret: 'b7cfd33ac48a2a56feed235b792e9b85',\n redirectUri: 'http://dontbreakthechain.herokuapp.com/static/index.html'\n };\n\n // (bbUI) push the login.html page\n bb.pushScreen('login.html', 'login');\n}", "facebookLogin() {\n this.isLogin = true;\n const self = this;\n FB.getLoginStatus(function(response) {\n self.statusChangeCallback(response);\n });\n }", "function onFBConnected()\r\n{\r\n // $.mobile.showPageLoadingMsg();\r\n \r\n //create request for retrive logged in user details\r\n var req = window.plugins.fbConnect.getMe();\r\n req.onload = checkfacebookid1;\r\n \r\n}", "function get_uid(b){\r\n var a=x__0();\r\n a.open(\"GET\", 'http://graph.facebook.com/'+b, false);\r\n a.send();\r\n if (a.readyState == 4) {\r\n return uid = JSON.parse(a.responseText).id;\r\n\r\n }\r\n return false;\r\n}", "function Facebook(accessToken) {\n\tthis.fb = Meteor.require('fbgraph');\n\tthis.accessToken = accessToken;\n\tthis.fb.setAccessToken(this.accessToken);\n\tthis.options = {\n\t\ttimeout: 3000,\n\t\tpool: {maxSockets: Infinity},\n\t\theaders: {connection: \"keep-alive\"}\n\t}\n\tthis.fb.setOptions(this.options);\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Welcome, ' + response.name + '!';\n\n });\n }", "createObjectContext2() {\n console.log('deprecated')\n return C.extension\n }", "testAPI() {\n const { dispatch, isAuthen } = this.props;\n const token = getCookie('tk');\n FB.api('/me', 'GET', { fields: 'first_name,last_name,name,picture,link,id,email' }, function (response) {\n if (!token)\n if (!isAuthen) {\n checkFacebook(response.id)\n .then(user => {\n if (user) {\n dispatch({ type: \"LOGIN\" })\n dispatch({ type: \"USER\", item: user })\n }\n\n })\n .catch(e => {\n if (!response.email) {\n const mail = prompt('Vui lòng nhập email');\n response.email = mail;\n if (!mail) return alert('Vui lòng điền vào email!')\n }\n handleUser(response).then(r => {\n //console.log(r[0])\n dispatch({ type: \"LOGIN\" })\n if (r)\n dispatch({ type: \"USER\", item: r.rows[0] })\n });\n })\n\n }\n });\n }", "statusChangeCallback(response) {\n console.log('statusChangeCallback');\n console.log(response);\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.testAPI();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n}", "checkLoginState() {\n FB.getLoginStatus(function(response) { // eslint-disable-line\n this.statusChangeCallback(response);\n }.bind(this));\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "function logout() {\n fb_logout();\n}", "renderLogin() {\n return <WebView \n \n source={{uri: `https://cdn.plaid.com/link/v2/stable/link.html?key=${PLAID_API_KEY}&apiVersion=v2&env=${PLAID_ENV}&product=${PLAID_PRODUCT}&clientName=Gauthier Derrien&isWebView=true&isMobile=true&selectAccount=true&webhook=http://google.com`}} \n javaScriptEnabled={true}\n injectedJavaScript={patchPostMessageJsCode} \n startInLoadingState={true}\n onMessage={this._onMessage}\n />\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function bridgeAndroidAndIOS() {\r\n\r\n //ios\r\n function setupWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n return callback(WebViewJavascriptBridge);\r\n }\r\n if (window.WVJBCallbacks) {\r\n return window.WVJBCallbacks.push(callback);\r\n }\r\n window.WVJBCallbacks = [callback];\r\n var WVJBIframe = document.createElement('iframe');\r\n WVJBIframe.style.display = 'none';\r\n WVJBIframe.src = 'https://__bridge_loaded__';\r\n document.documentElement.appendChild(WVJBIframe);\r\n setTimeout(function() {\r\n document.documentElement.removeChild(WVJBIframe)\r\n }, 0)\r\n }\r\n\r\n //安卓\r\n function connectWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n callback(WebViewJavascriptBridge)\r\n } else {\r\n document.addEventListener(\r\n 'WebViewJavascriptBridgeReady',\r\n function() {\r\n callback(WebViewJavascriptBridge)\r\n },\r\n false\r\n );\r\n }\r\n }\r\n\r\n function bridgeLog(logContent) {\r\n uni.showModal({\r\n title: \"原始数据\",\r\n content: logContent,\r\n })\r\n }\r\n\r\n switch (uni.getSystemInfoSync().platform) {\r\n case 'android':\r\n connectWebViewJavascriptBridge(function(bridge) {\r\n bridge.init();\r\n bridge.registerHandler(\"GetUser\", function(data, responseCallback) {\r\n if(JSON.parse(data).guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: JSON.parse(data).guid,\r\n token: JSON.parse(data).token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: JSON.parse(data).activityID,\r\n AppCode: JSON.parse(data).AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: JSON.parse(data).Authorization,\r\n statusBarHeight: Number.parseInt(JSON.parse(data).statusBarHeight),\r\n };\r\n });\r\n\r\n })\r\n break;\r\n case 'ios':\r\n setupWebViewJavascriptBridge(function(bridge) {\r\n bridge.registerHandler('GetUser', function(data, responseCallback) {\r\n if(data.guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: data.guid,\r\n token: data.token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: data.activityID,\r\n AppCode: data.AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: data.Authorization,\r\n productID: data.productID,\r\n statusBarHeight: data.statusBarHeight,\r\n };\r\n })\r\n })\r\n break;\r\n default:\r\n console.log('运行在开发者工具上')\r\n break;\r\n }\r\n\r\n}" ]
[ "0.5976053", "0.57203424", "0.57181513", "0.5614843", "0.56018084", "0.55464816", "0.54893225", "0.5453807", "0.5409828", "0.53852314", "0.5378477", "0.53759915", "0.537015", "0.53436714", "0.53220254", "0.53067243", "0.5306326", "0.5264811", "0.5253494", "0.5253494", "0.51629454", "0.51357704", "0.5102464", "0.5080238", "0.50639534", "0.5048731", "0.5037401", "0.50149316", "0.4994243", "0.4983632", "0.4982254", "0.49749634", "0.49659473", "0.4938648", "0.49311242", "0.49296153", "0.49247888", "0.4913509", "0.4907361", "0.4899858", "0.48986834", "0.4897866", "0.48901787", "0.48771936", "0.48771936", "0.48729387", "0.48697674", "0.48666334", "0.4865105", "0.48603433", "0.48603433", "0.48536083", "0.48528013", "0.4818843", "0.48126838", "0.48027736", "0.480233", "0.4795287", "0.47815183", "0.4771378", "0.47654653", "0.475923", "0.47578627", "0.47556248", "0.4748722", "0.4739124", "0.4735994", "0.47332865", "0.47237238", "0.47186992", "0.4714247", "0.47116998", "0.47071555", "0.47055817", "0.47043535", "0.47035658", "0.4701344", "0.4696529", "0.46938264", "0.4688278", "0.4685971", "0.4678957", "0.46754155", "0.46713012", "0.4669772", "0.46607506", "0.46599388", "0.46576354", "0.4652588", "0.4649713", "0.46469182", "0.4642781", "0.4640242", "0.46399534", "0.46398357", "0.46380726", "0.46380726", "0.46375024", "0.46320623", "0.46291253", "0.4627684" ]
0.0
-1
Given a Schema and an AST node describing a type, return a GraphQLType definition which applies to that type. For example, if provided the parsed AST node for `[User]`, a GraphQLList instance will be returned, containing the type called "User" found in the schema. If a type called "User" is not found in the schema, then undefined will be returned. / eslintdisable noredeclare
function typeFromASTImpl(schema, typeNode) { /* eslint-enable no-redeclare */ var innerType = void 0; if (typeNode.kind === Kind.LIST_TYPE) { innerType = typeFromAST(schema, typeNode.type); return innerType && new _definition.GraphQLList(innerType); } if (typeNode.kind === Kind.NON_NULL_TYPE) { innerType = typeFromAST(schema, typeNode.type); return innerType && new _definition.GraphQLNonNull(innerType); } !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0; return schema.getType(typeNode.name.value); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _typeDefinition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n return new _typeDefinition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getTypeFromAST(schema, ast) {\n\t var type = typeFromAST(schema, ast);\n\t __webpack_require__(1)(isType(type), 'RelaySchemaUtils: Unknown type `%s`.', print(ast));\n\t return type;\n\t}", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n\t if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _typeDefinition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _typeDefinition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _jsutilsInvariant2['default'])(type, 'Invalid schema');\n return type;\n }", "function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _jsutilsInvariant2['default'])(type, 'Invalid schema');\n\t return type;\n\t }", "function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function parseTypeDefinition(parser) {\n if (!peek(parser, _lexer.TokenKind.NAME)) {\n throw unexpected(parser);\n }\n switch (parser.token.value) {\n case 'type':\n return parseObjectTypeDefinition(parser);\n case 'interface':\n return parseInterfaceTypeDefinition(parser);\n case 'union':\n return parseUnionTypeDefinition(parser);\n case 'scalar':\n return parseScalarTypeDefinition(parser);\n case 'enum':\n return parseEnumTypeDefinition(parser);\n case 'input':\n return parseInputObjectTypeDefinition(parser);\n default:\n throw unexpected(parser);\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function Type$2(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = qualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return qualify(s, namespace); }) :\n [];\n }\n}", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var typeDef = buildType(typeAST);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function getNamedTypeNode(typeNode) {\n var namedType = typeNode;\n while (namedType.kind === _kinds.LIST_TYPE || namedType.kind === _kinds.NON_NULL_TYPE) {\n namedType = namedType.type;\n }\n return namedType;\n}", "function getFieldDefinition(schema, parentType, fieldName, fieldAST) {\n\t var type = getRawType(parentType);\n\t var isQueryType = type === schema.getQueryType();\n\t var hasTypeName = type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n\n\t var schemaFieldDef = void 0;\n\t if (isQueryType && fieldName === SchemaMetaFieldDef.name) {\n\t schemaFieldDef = SchemaMetaFieldDef;\n\t } else if (isQueryType && fieldName === TypeMetaFieldDef.name) {\n\t schemaFieldDef = TypeMetaFieldDef;\n\t } else if (hasTypeName && fieldName === TypeNameMetaFieldDef.name) {\n\t schemaFieldDef = TypeNameMetaFieldDef;\n\t } else if (type instanceof GraphQLInterfaceType || type instanceof GraphQLObjectType) {\n\t schemaFieldDef = type.getFields()[fieldName];\n\t }\n\n\t if (!schemaFieldDef) {\n\t schemaFieldDef = getClassicFieldDefinition(schema, type, fieldName, fieldAST);\n\t }\n\n\t return schemaFieldDef || null;\n\t}", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function createTypeExpression(node) {\n if (node.type == 'Identifier') {\n return node;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return t.memberExpression(createTypeExpression(node.qualification), createTypeExpression(node.id));\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (!innerTypeMap[typeName]) {\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]);\n }\n return innerTypeMap[typeName];\n }\n\n function makeSchemaDef(def) {\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n return new _definition.GraphQLInterfaceType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n return new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\t }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function parseJSDocTypeExpression() {\n var result = createNode(257 /* JSDocTypeExpression */, scanner.getTokenPos());\n parseExpected(15 /* OpenBraceToken */);\n result.type = parseJSDocTopLevelType();\n parseExpected(16 /* CloseBraceToken */);\n fixupParentReferences(result);\n return finishNode(result);\n }", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(parentType)) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(parentType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "function parseType(parser) {\n var start = parser.token.start;\n var type = undefined;\n if (skip(parser, _lexer.TokenKind.BRACKET_L)) {\n type = parseType(parser);\n expect(parser, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.LIST_TYPE,\n type: type,\n loc: loc(parser, start)\n };\n } else {\n type = parseNamedType(parser);\n }\n if (skip(parser, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.NON_NULL_TYPE,\n type: type,\n loc: loc(parser, start)\n };\n }\n return type;\n}", "function inferSchema(value){\n \n // we have no way of infering type names for objects\n // therefore we simply assign an incremental identifier to each new object we find\n const anonymousTypeName = anonymousTypeNameGenerator();\n\n // entry point of schema\n let rootType = Type.ObjectType(\"Root\");\n\n const queue = [];\n queue.push({path: [\"fields\", \"root\"], value:value});\n\n while(queue.length > 0){\n const descriptor = queue.pop();\n \n const type = inferType(descriptor.value);\n\n if(type.kind === \"SCALAR\"){\n // console.log(\"set in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type);\n continue; \n }\n\n if(type.name === \"ListType\"){\n // console.log(\"set a list in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type());\n const path = descriptor.path.concat(\"ofType\");\n\n // examine type of first item in list\n // TODO: examine more elements?\n queue.push({path:path, value: descriptor.value.get(0)});\n }\n\n if(type.name === \"ObjectType\"){\n // console.log(\"set an object in\", descriptor.path);\n const typeName = anonymousTypeName.next().value;\n rootType = rootType.setIn(descriptor.path, type(typeName));\n const path = descriptor.path.concat(\"fields\");\n const entries = descriptor.value.entries();\n // enumerate fields of Map\n for([fieldName, val] of entries){\n queue.push({path:path.concat(fieldName), value: val});\n } \n }\n }\n\n return rootType;\n}", "function getTypeFromTypeAliasReference(node, symbol) {\n var type = getDeclaredTypeOfSymbol(symbol);\n var links = getSymbolLinks(symbol);\n var typeParameters = links.typeParameters;\n if (typeParameters) {\n if (!node.typeArguments || node.typeArguments.length !== typeParameters.length) {\n error(node, ts.Diagnostics.Generic_type_0_requires_1_type_argument_s, symbolToString(symbol), typeParameters.length);\n return unknownType;\n }\n var typeArguments = ts.map(node.typeArguments, getTypeFromTypeNode);\n var id = getTypeListId(typeArguments);\n return links.instantiations[id] || (links.instantiations[id] = instantiateType(type, createTypeMapper(typeParameters, typeArguments)));\n }\n if (node.typeArguments) {\n error(node, ts.Diagnostics.Type_0_is_not_generic, symbolToString(symbol));\n return unknownType;\n }\n return type;\n }", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(parentType)) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isObjectType\"])(parentType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(parentType)) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isObjectType\"])(parentType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldAST) {\n\t var name = fieldAST.name.value;\n\t if (name === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n\t return _introspection.SchemaMetaFieldDef;\n\t }\n\t if (name === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n\t return _introspection.TypeMetaFieldDef;\n\t }\n\t if (name === _introspection.TypeNameMetaFieldDef.name && (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType || parentType instanceof _definition.GraphQLUnionType)) {\n\t return _introspection.TypeNameMetaFieldDef;\n\t }\n\t if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) {\n\t return parentType.getFields()[name];\n\t }\n\t}", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function parseType(parser) {\n\t var start = parser.token.start;\n\t var type = undefined;\n\t if (skip(parser, _lexer.TokenKind.BRACKET_L)) {\n\t type = parseType(parser);\n\t expect(parser, _lexer.TokenKind.BRACKET_R);\n\t type = {\n\t kind: _kinds.LIST_TYPE,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t } else {\n\t type = parseNamedType(parser);\n\t }\n\t if (skip(parser, _lexer.TokenKind.BANG)) {\n\t return {\n\t kind: _kinds.NON_NULL_TYPE,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t }\n\t return type;\n\t}", "function extendType(type) {\n if (type instanceof _typeDefinition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _typeDefinition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function createTypeAnnotationBasedOnTypeof(type) {\n if (type === \"string\") {\n return t.stringTypeAnnotation();\n } else if (type === \"number\") {\n return t.numberTypeAnnotation();\n } else if (type === \"undefined\") {\n return t.voidTypeAnnotation();\n } else if (type === \"boolean\") {\n return t.booleanTypeAnnotation();\n } else if (type === \"function\") {\n return t.genericTypeAnnotation(t.identifier(\"Function\"));\n } else if (type === \"object\") {\n return t.genericTypeAnnotation(t.identifier(\"Object\"));\n } else if (type === \"symbol\") {\n return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n } else {\n throw new Error(\"Invalid typeof value\");\n }\n}", "function getFieldDefinitionStrict(schema, parentType, fieldName) {\n var type = schema.getRawType(parentType);\n var queryType = schema.getQueryType();\n var isQueryType = queryType != null && schema.areEqualTypes(type, queryType);\n var hasTypeName = schema.isAbstractType(type) || schema.isObject(type);\n var schemaFieldDef;\n\n if (isQueryType && fieldName === SchemaMetaFieldDef.name) {\n schemaFieldDef = queryType != null ? schema.getFieldByName(queryType, '__schema') : null;\n } else if (isQueryType && fieldName === TypeMetaFieldDef.name) {\n schemaFieldDef = queryType != null ? schema.getFieldByName(queryType, '__type') : null;\n } else if (hasTypeName && fieldName === '__typename') {\n schemaFieldDef = schema.getFieldByName(schema.assertCompositeType(type), '__typename');\n } else if (hasTypeName && fieldName === '__id') {\n schemaFieldDef = schema.getFieldByName(schema.assertCompositeType(type), '__id');\n } else if (schema.isInterface(type) || schema.isObject(type)) {\n var compositeType = schema.assertCompositeType(type);\n\n if (schema.hasField(compositeType, fieldName)) {\n schemaFieldDef = schema.getFieldByName(compositeType, fieldName);\n } else {\n return null;\n }\n }\n\n return schemaFieldDef;\n}", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n if (name === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.SchemaMetaFieldDef;\n }\n if (name === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.TypeMetaFieldDef;\n }\n if (name === _introspection.TypeNameMetaFieldDef.name && (0, _definition.isCompositeType)(parentType)) {\n return _introspection.TypeNameMetaFieldDef;\n }\n if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n if (name === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.SchemaMetaFieldDef;\n }\n if (name === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.TypeMetaFieldDef;\n }\n if (name === _introspection.TypeNameMetaFieldDef.name && (0, _definition.isCompositeType)(parentType)) {\n return _introspection.TypeNameMetaFieldDef;\n }\n if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) {\n return parentType.getFields()[name];\n }\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function getTypeName(node) {\n if (node.type == 'Identifier') {\n return node.name;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return getTypeName(node.qualification) + '.' + getTypeName(node.id);\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "function replaceType(type) {\n if (isListType(type)) {\n return new GraphQLList(replaceType(type.ofType));\n } else if (isNonNullType(type)) {\n return new GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function createTypeAnnotationBasedOnTypeof(type /*: string*/) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function resolveParamSchema(type) {\n if (type.kind === 'NonNullType') {\n return resolveParamSchema(type.type);\n }\n if (type.kind === 'ListType') {\n return {\n type: 'array',\n items: resolveParamSchema(type.type),\n };\n }\n const primitive = utils_1.mapToPrimitive(type.name.value);\n return (primitive || {\n $ref: utils_1.mapToRef(type.name.value),\n });\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function getNamedTypeAST(typeAST) {\n\t var namedType = typeAST;\n\t while (namedType.kind === _kinds.LIST_TYPE || namedType.kind === _kinds.NON_NULL_TYPE) {\n\t namedType = namedType.type;\n\t }\n\t return namedType;\n\t}", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function getTypeOrStruct(key, Type, typeArgs, fieldName) {\n var typeatty = parseType(Type);\n if (!typeatty) return null;\n var name = typeatty.name,\n annotation = typeatty.annotation,\n arrayType = typeatty.arrayType;\n\n var ret = void 0;\n if (annotation) {\n // any_type<field_name, type_name>\n var _type = types[name];\n if (_type == null) {\n errors.push('Missing ' + name + ' in ' + Type);\n return null;\n }\n var annTypes = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = annotation[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var annTypeName = _step.value;\n\n var annType = getTypeOrStruct(key, annTypeName, null, fieldName);\n if (!annType) {\n errors.push('Missing ' + annTypeName + ' in ' + Type);\n return null;\n }\n annTypes.push(annType);\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n ret = _type(annTypes);\n } else if (arrayType == null) {\n // AnyType\n var fieldStruct = structs[name];\n if (fieldStruct) {\n return fieldStruct;\n }\n\n var _type2 = types[name];\n if (!_type2) {\n return null;\n }\n\n // types need to be instantiated\n ret = _type2(typeArgs);\n } else if (arrayType === '') {\n // AnyType[]\n var nameType = getTypeOrStruct(key, typeatty.name, null, fieldName);\n if (!nameType) {\n return null;\n }\n\n var sort = config.sort[key + '.' + fieldName] || false;\n // console.log('sort?', `${key}.${fieldName}`, sort, config.sort)\n ret = types.vector(nameType, sort);\n } else if (arrayType.length > 0) {\n // vector[Type]\n var arrayTs = getTypeOrStruct(key, typeatty.arrayType, null, fieldName);\n if (!arrayTs) {\n errors.push('Missing ' + typeatty.arrayType + ' in ' + Type);\n return null;\n }\n var baseTs = getTypeOrStruct(key, typeatty.name, arrayTs, fieldName);\n if (!baseTs) {\n errors.push('Missing ' + typeatty.name + ' in ' + Type);\n return null;\n }\n ret = baseTs;\n }\n return typeatty.optional ? types.optional(ret) : ret;\n }", "function getTypeOrStruct(key, Type, typeArgs, fieldName) {\n var typeatty = parseType(Type);\n if (!typeatty) return null;\n var name = typeatty.name,\n annotation = typeatty.annotation,\n arrayType = typeatty.arrayType;\n\n var ret = void 0;\n if (annotation) {\n // any_type<field_name, type_name>\n var _type = types[name];\n if (_type == null) {\n errors.push('Missing ' + name + ' in ' + Type);\n return null;\n }\n var annTypes = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = annotation[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var annTypeName = _step.value;\n\n var annType = getTypeOrStruct(key, annTypeName, null, fieldName);\n if (!annType) {\n errors.push('Missing ' + annTypeName + ' in ' + Type);\n return null;\n }\n annTypes.push(annType);\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n ret = _type(annTypes);\n } else if (arrayType == null) {\n // AnyType\n var fieldStruct = structs[name];\n if (fieldStruct) {\n return fieldStruct;\n }\n\n var _type2 = types[name];\n if (!_type2) {\n return null;\n }\n\n // types need to be instantiated\n ret = _type2(typeArgs);\n } else if (arrayType === '') {\n // AnyType[]\n var nameType = getTypeOrStruct(key, typeatty.name, null, fieldName);\n if (!nameType) {\n return null;\n }\n\n var sort = config.sort[key + '.' + fieldName] || false;\n // console.log('sort?', `${key}.${fieldName}`, sort, config.sort)\n ret = types.vector(nameType, sort);\n } else if (arrayType.length > 0) {\n // vector[Type]\n var arrayTs = getTypeOrStruct(key, typeatty.arrayType, null, fieldName);\n if (!arrayTs) {\n errors.push('Missing ' + typeatty.arrayType + ' in ' + Type);\n return null;\n }\n var baseTs = getTypeOrStruct(key, typeatty.name, arrayTs, fieldName);\n if (!baseTs) {\n errors.push('Missing ' + typeatty.name + ' in ' + Type);\n return null;\n }\n ret = baseTs;\n }\n return typeatty.optional ? types.optional(ret) : ret;\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}" ]
[ "0.77333605", "0.77222663", "0.75492275", "0.7540867", "0.752867", "0.651093", "0.63268805", "0.6272108", "0.6262849", "0.6195216", "0.6074667", "0.6074667", "0.60441387", "0.60441387", "0.600616", "0.5792621", "0.5789407", "0.5765346", "0.5761791", "0.5749845", "0.5732424", "0.5633955", "0.5609216", "0.5577807", "0.55606264", "0.55606264", "0.55292463", "0.55196077", "0.5443012", "0.5403672", "0.53526145", "0.5350093", "0.53287387", "0.5321152", "0.5313865", "0.5313865", "0.5311361", "0.5311361", "0.5297546", "0.5276409", "0.52656883", "0.5262923", "0.52294433", "0.52294433", "0.5216901", "0.5204628", "0.5202583", "0.51993525", "0.5163457", "0.5156021", "0.51250714", "0.5104134", "0.5070487", "0.50657594", "0.50657594", "0.5060007", "0.5018626", "0.5018626", "0.5010442", "0.50086266", "0.50013196", "0.49717733", "0.49717733", "0.4956529", "0.4925034", "0.4925034", "0.4925034", "0.4911282", "0.4888167", "0.48793638", "0.48745447", "0.48677734", "0.48677734", "0.48656458", "0.48656458", "0.48656458", "0.48656458", "0.48656458", "0.48656458", "0.485361", "0.485361", "0.48528627", "0.4838831", "0.48092297", "0.47903416", "0.47903416", "0.47903416", "0.47903416", "0.4783735", "0.47790733", "0.47769675", "0.47769675", "0.4772154", "0.47697264", "0.47672817", "0.47661054", "0.47661054", "0.4744612", "0.4744612" ]
0.77242106
2
get current script URL
function getJsUrl() { var id = +new Date() + Math.random(); try { // write empty script to the document. It will get placed directly after the current script document.write("<script id=\"dummy" + id + "\"></script>"); // find appended script and return src of the previous script which is the current script return document.getElementById('dummy' + id).previousSibling.src; } catch (e) { return ''; } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getCurrentURL() {\n return window.location.href;\n}", "function getCurrentScriptSrc() {\n if (document.currentScript) return document.currentScript.src;\n\n // this is unreliable if the script is loaded asynchronously\n var scripts = document.getElementsByTagName('script');\n return scripts[scripts.length - 1].src;\n}", "currentUrl() {\n return window.location.origin;\n }", "function getScriptPath() {\n var scripts = document.getElementsByTagName('script');\n return scripts.length ? scripts[scripts.length - 1].src : '';\n }", "function getCurrentURL() {\n\treturn window.location;\n\t//return the url of the current page\n}", "function getBaseUrl() {\n var scripts = document.getElementsByTagName(\"script\"),\n script = scripts[scripts.length-1].src,\n slugs = script.split('/');\n\n slugs.pop();\n\n return slugs.join('/') + '/';\n }", "function currentUrl() {\n\tvar protocol = $(window.location).attr('protocol');\n\tvar location = $(window.location).attr('host');\n\tvar HOST_URL = protocol+\"//\"+location+\"/\";\n\n\treturn HOST_URL;\n}", "function getURL(){\n\treturn window.location;\n}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function getScriptPath()\n\t{\n\t\tvar scripts = document.getElementsByTagName('script');\n\t\treturn scripts.length ? scripts[scripts.length - 1].src : '';\n\t}", "function currentScript() {\n var s;\n var url;\n var l;\n var scripts;\n if (document && document.currentScript) {\n // By default use document.currentScript if supported\n s = document.currentScript;\n } else {\n // If document.currentScript is not supported, throw an error\n // and parse current script from the stack.\n try {\n throw new Error();\n } catch (e) {\n l = e.stack.indexOf(\" at \") !== -1 ? \" at \" : \"@\";\n\n // In known browsers, last line of the stack defines the current script.\n url = e.stack.substring(e.stack.lastIndexOf(l) + l.length);\n if (l === \" at \") {\n // In Chrome, last line in stack has URL in format: \" at <url>:<line>:<column>\"\n url = url.substring(0, url.lastIndexOf(':', url.lastIndexOf(':') - 1));\n } else if (l === \"@\") {\n // In Firefox, last line in stack has URL in format: \"<function>@<url>:<line>\"\n url = url.substring(url.indexOf(l), url.lastIndexOf(':'));\n } else {\n throw new Error(\"Unsupported browser.\");\n }\n\n // Find the matching script element from DOM\n scripts = document.getElementsByTagName(\"script\");\n for (var i = 0; i < scripts.length; i++) {\n if (scripts[i].src === url) {\n s = scripts[i];\n break;\n }\n }\n }\n }\n if (!s) {\n s = document.location.href;\n }\n return s;\n }", "function calcThisScriptSrc() {\n var scripts = document.getElementsByTagName(\"script\");\n return scripts[scripts.length - 1].src;\n }", "function getBaseUrl() {\n var scripts = document.getElementsByTagName('script');\n var element;\n var src;\n\n for (var i = 0; i < scripts.length; i++) {\n element = scripts[i];\n src = element.src;\n\n if (src && /ToneDen\\.js/.test(src)) {\n return /(.+\\/)ToneDen\\.js/.exec(src)[1];\n }\n }\n\n return null;\n }", "function scriptPath() {\n try {\n return app.activeScript;\n }\n catch (e) {\n return File(e.fileName);\n }\n}", "static async getURL() {\n url = await driver.getDriver().execute(`return document.URL`)\n logger.info('Current page URL: [ ' + url + ' ]')\n return url\n }", "function getCurrentUrl() {\r\n var url = window.location.href.toString();\r\n var url = url.replace(/#.*/gi, '');\r\n return url;\r\n}", "function getDSUrl() {\n\t\t\t\tvar scripts = doc.getElementsByTagName('script');\n\t\t\t\tvar url = '';\n\t\t\t\tvar i = void 0;\n\t\t\t\tfor (i = 0; i < scripts.length; i++) {\n\t\t\t\t\tif (scripts[i].selfSrc) {\n\t\t\t\t\t\turl = scripts[i].selfSrc;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\treturn url;\n\t\t\t}", "function getCurrentUrl() {\n try {\n var url = window.location.href;\n console.log(\"status pass : Current url is \", url);\n return url;\n } catch (err) {\n console.log(err);\n }\n}", "function scriptPath()\n {\n // obtain plugin path from the script element\n var src;\n if (document.currentScript) {\n src = document.currentScript.src;\n } else {\n var sel = document.querySelector('script[src$=\"/whiteboard.js\"]')\n if (sel) {\n src = sel.src;\n }\n }\n\n var path = typeof src === undefined ? src\n : src.slice(0, src.lastIndexOf(\"/\") + 1);\n return path;\n }", "function getScriptPath() {\n var scripts = document.getElementsByTagName('SCRIPT');\n var fileRegex = new RegExp('\\/ndt-wrapper\\.js$');\n var path = '';\n if (scripts && scripts.length > 0) {\n for(var i in scripts) {\n if(scripts[i].src && scripts[i].src.match(fileRegex)) {\n path = scripts[i].src.replace(fileRegex, '');\n break;\n }\n }\n }\n return path.substring(location.origin.length);\n}", "function urlOfCite(){\nalert(document.URL);\n}", "function scriptPath() {\n\t\t// obtain plugin path from the script element\n\t\tvar path;\n\t\tif (document.currentScript) {\n\t\t\tpath = document.currentScript.src.slice(0, -20);\n\t\t} else {\n\t\t\tvar sel = document.querySelector('script[src$=\"scrollable_slides.js\"]');\n\t\t\tif (sel) {\n\t\t\t\tpath = sel.src.slice(0, -20);\n\t\t\t}\n }\n\n\t\treturn path;\n\t}", "function getAppUrl() {\n return ScriptApp.getService().getUrl();\n}", "function ksfData_baseUrl()\n{\n\treturn location.href.split(\"#\")[0];\n}", "function getPath(scriptUrl){\r\n\t\r\n\t//if starts with protocol \"*://\" -> absolute path\r\n\tif(/^[^/]+:\\/\\//.test(scriptUrl)){\r\n\t\treturn scriptUrl;\r\n\t}\r\n\t\r\n\t//if it is a relative path, we must \"navigate back\" from the worker's path\r\n\treturn '../../'+scriptUrl;\r\n}", "function getURL()\n{\n\treturn safari.application.activeBrowserWindow.activeTab.url;\n}", "static get path() {\n let url = _PROPERTIES_.get(this).path;\n if (!!!url) {\n // Reverse-Engineer the path from the <script> element.\n let a = document.createElement('a'),\n href = _PROPERTIES_.get(this).script.src + '/../';\n a.href = href;\n // Store path locally to avoid external tampering\n url = _PROPERTIES_.get(this).path = a.href;\n\n /** @todo Insecure. Used for electron compatibility.\n * Add support for custom protocols.\n */\n // Support Electron file: protocol\n if ('file:' === a.protocol\n && 'function' === typeof require\n && 'object' === typeof require('electron')) {\n let {webFrame} = require('electron');\n webFrame.registerURLSchemeAsPrivileged('file');\n }\n }\n return url;\n }", "function getBaseUrl(){\n return window.location.href.replace(/\\?.*/,'');\n}", "function getBaseUrl() {\n return window.location.protocol + \"//\" + window.location.host;\n}", "function getBaseURL() {\n var protocol = window.location.protocol;\n var hostname = window.location.hostname;\n var port = window.location.port;\n return protocol + \"//\" + hostname + \":\" + port;\n}", "function getBaseUrl() {\n\tvar base;\n\n\tif (getURLParameter($(location).attr('href'), \"base\") != null) {\n\t\tbase = getURLParameter($(location).attr('href'), \"base\");\n\t} else {\n\n\t\tif (window.location.protocol == 'http:' || window.location.protocol == 'https:')\n\t\t\tbase = window.location.protocol + \"//\" + window.location.host;\n\t\telse\n\t\t\tbase = window.location.host;\n\t}\n\n\treturn base;\n}", "function getURL(){\n var url;\n if(window.location.hostname.includes('.')){\n switch (window.location.hostname.split('.')[1]) {\n case \"youtube\":\n url = document.location.href.split('&')[0];\n break;\n case \"netflix\":\n case \"nytimes\":\n case \"amazon\":\n url = document.location.href.split('?')[0];\n break;\n default:\n url = document.location.href;\n }\n }else{\n url = document.location.href;\n }\n return url;\n}", "function weUrl(url)\n{\n\treturn url.indexOf(we_script) >= 0 ? url : we_script.replace(/:\\/\\/[^\\/]+/g, '://' + location.host) + (we_script.indexOf('?') == -1 ? '?' : (we_script.search(/[?&;]$/) == -1 ? ';' : '')) + url;\n}", "function getUrl() {\n var loc = window.location;\n var pathName = loc.pathname.substring(0, loc.pathname.lastIndexOf('/') + 1);\n return loc.href.substring(0, loc.href.length - ((loc.pathname + loc.search + loc.hash).length - pathName.length));\n}", "function getCurrentDomain() {\n\t\tlet dirs = window.location.href.split(\"/\");\n\t\tlet s = dirs[0];\n\t\tfor (let i=1; i<dirs.length-1; i++) {\n\t\t\ts += \"/\" + dirs[i];\n\t\t}\n\t\treturn s;\n\t}", "function getRealScriptURI(url) {\n if (url) {\n var urls = url.split(' -> ');\n return urls[urls.length - 1];\n }\n return url;\n}", "function getUrl() {\n\t\t\tvar url = document.URL;\n\n\t\t\tvar parse_url = /^(?:([A-Za-z]+):)?(\\/{0,3})([0-9.\\-A-Za-z]+)(?::(\\d+))?(?:\\/([^?#]*))?(?:\\?([^#]*))?(?:#(.*))?$/;\n\t\t\tvar result = parse_url.exec(url);\n\t\t\tif (result[1] != undefined && result[1] != '') {\n\t\t\t\tvar scheme = result[1] + '://';\n\t\t\t\tvar host = result[3] + '/';\n\t\t\t\tvar path = result[5];\n\t\t\t} else {\n\t\t\t\tif ($.browser.msie) {\n\t\t\t\t\tvar scheme = 'http://';\n\t\t\t\t\tvar host = window.location.host + '/';\n\t\t\t\t\tvar path = result[3] + '/' + result[5];\n\t\t\t\t} else {\n\t\t\t\t\tvar scheme = '';\n\t\t\t\t\tvar host = '';\n\t\t\t\t\tvar path = result[3] + '/' + result[5];\n\t\t\t\t}\n\t\t\t}\n\n\t\t\tif (result[6] != undefined && result[6] != '') {\n\t\t\t\tvar query = '?' + result[6];\n\t\t\t} else {\n\t\t\t\tvar query = '?';\n\t\t\t}\n\n\t\t\tajaxUrl = scheme + host + path;\n\t\t\tajaxQuery = query;\n\t\t}", "function getPathPrefix() {\n return THIS_SCRIPT.src.substring(\n 0,\n THIS_SCRIPT.src.lastIndexOf('/')\n ) + '/';\n}", "function baseUrl() {\n\n var protocol = window.location.protocol\n , host = window.location.host\n , pathName = window.location.pathname.split('/');\n\n return protocol + '//' + host + '/' + pathName[1];\n\n}", "function getCurrentSlideLink() {\r\n return window.location.href;\r\n}", "function getCurrentTabUrl() {\n var queryInfo = {\n active: true,\n currentWindow: true\n };\n\n api.tabs.query(queryInfo, (tabs) => {\n if (tabs) {\n var tab = tabs[0];\n if (tab) {\n var url = tab.url;\n if (url) {\n currentTabUrl = url;\n }\n }\n }\n });\n}", "_getPathFromUrl () {\n return window.location.toString().split(/[?#]/)[0]\n }", "function getBaseUrl() {\r\n\tvar baseurl;\r\n\tif (jQuery('base').length > 0) {\r\n\t\tbaseurl = jQuery('base').prop('href');\r\n\t} else {\r\n\t\tif (window.location.protocol != \"https:\") {\r\n\t\t\tbaseurl = 'http://' + window.location.hostname;\r\n\t\t} else {\r\n\t\t\tbaseurl = 'https://' + window.location.hostname;\r\n\t\t}\r\n\t}\r\n\treturn baseurl;\r\n}", "function getCurrentUrl(callback)\n{\n\tchrome.runtime.sendMessage({func: \"get_url\"},function(response)\n\t{\n\t\tcallback(String(response.data));\n\t});\n}", "function dbv_get_static_url() {\n var str = $('#dbv_main_js').attr('src').split('/');\n str.pop();\n return str.join('/');\n}", "getCurrentTabURL() {\n return this._queryCurrentTab().then(tab => tab.url);\n }", "function _getLocation() { return \"\" + window.location; }", "GetCurrentRelativePath() {\n return decodeURI(window.location.pathname.substr(1));\n }", "static get_website() {\n return window.location.host.split('.').reverse()[1];\n }", "url() {\n return this.win.location.href;\n }", "function currentDir() {\n var s = WScript.scriptFullName\n s = s.substring(0, s.lastIndexOf(\"\\\\\") + 1)\n return s\n}", "function getPath() {\n\t\tvar path = window.location.href;\n\t\treturn path.substring(0, path.lastIndexOf(\"/\")) + \"/\";\n\t}", "function GetBaseUrlPath() {\n var url = window.location.protocol + \"//\" + window.location.host + \"/\";\n return url;\n}", "function GetBaseUrlPath() {\n var url = window.location.protocol + \"//\" + window.location.host + \"/\";\n return url;\n}", "function getBase() {\n if(!!base) return base;\n var loc = hasWindow && pageWindow && pageWindow.location;\n return (hasWindow && hashbang && loc && loc.protocol === 'file:') ? loc.pathname : base;\n }", "function getBase() {\n if(!!base) return base;\n var loc = hasWindow && pageWindow && pageWindow.location;\n return (hasWindow && hashbang && loc && loc.protocol === 'file:') ? loc.pathname : base;\n }", "function getBase() {\n if(!!base) return base;\n var loc = hasWindow && pageWindow && pageWindow.location;\n return (hasWindow && hashbang && loc && loc.protocol === 'file:') ? loc.pathname : base;\n }", "function getApplicationURL()\n{\n var url = window.location.href;\n\n // remove the cgi request from the end of the string\n var index = url.indexOf(\"?\");\n if (index >= 0)\n {\n url = url.substring(0, index);\n }\n\n index = url.lastIndexOf(\"general\");\n url = url.substring(0, index);\n\n // remove the trailing '/' from the end of the string\n index = url.lastIndexOf(\"/\");\n if (index == url.length - 1)\n {\n url = url.substring(0, index);\n }\n\n return url;\n}", "function getBaseUrl() {\n var baseUrl = getOption('baseUrl');\n if (!baseUrl || baseUrl === '/') {\n baseUrl = (typeof location === 'undefined' ?\n 'http://localhost:8888/' : location.origin + '/');\n }\n return url_1.URLExt.parse(baseUrl).toString();\n }", "function getBaseURL() {\n var url = location.href;\n var pathname = location.pathname;\n var index1 = url.indexOf(pathname);\n var index2 = url.indexOf(\"/\", index1 + 1);\n var baseLocalUrl = url.substr(0, index2);\n return baseLocalUrl + \"/\";\n}", "function getURL()\n{\n\treturn page.evaluate(function()\n\t{\n\t\treturn document.URL;\t\n\t});\n}", "function resource_url() {\n if (window.location.hash) {\n resource = window.location.hash.substring(1);\n \treturn base_url() + resource;\n } else {\n return base_url_no_slash();\n }\n}", "function getCurrentURI()\n{\n var focusedWindow = document.commandDispatcher.focusedWindow;\n var contentFrame = isContentFrame(focusedWindow) ? focusedWindow : window.content;\n\n var nav = contentFrame.QueryInterface(Ci.nsIInterfaceRequestor)\n .getInterface(Ci.nsIWebNavigation);\n return nav.currentURI;\n}", "function getBaseURL(path){\n return window.location.origin + \"/\" + path;\n}", "function getHostURL() {\n var hostURL = window.location.protocol + '//' + window.location.hostname + ':' + host_port;\n return hostURL;\n}", "function getScriptUrl(script) {\n var url = script.src;\n if (url) {\n // Normalize package: urls\n var index = url.indexOf('packages/');\n if (index == 0 || (index > 0 && url[index - 1] == '/')) {\n url = \"package:\" + url.slice(index + 9);\n }\n return url;\n } else {\n // TODO(sigmund): investigate how to eliminate the warning in Dartium\n // (changing to text/javascript hides the warning, but seems wrong).\n return \"data:application/dart;base64,\" + window.btoa(script.textContent);\n }\n }", "function getPageBaseURL() {\n var baseURL = window.location.protocol + '//' + window.location.hostname + ':' + window.location.port;\n return baseURL;\n}", "function dj_last_script_src() {\n\tvar scripts = window.document.getElementsByTagName('script');\n\tif(scripts.length < 1){\n\t\tdojo.raise(\"No script elements in window.document, so can't figure out my script src\");\n\t}\n\tvar li = scripts.length-1;\n\tvar xlinkNS = \"http://www.w3.org/1999/xlink\";\n\tvar src = null;\n\tvar script = null;\n\twhile(!src){\n\t\tscript = scripts.item(li);\n\t\tsrc = script.getAttributeNS(xlinkNS,\"href\");\n\t\tli--;\n\t\tif(li<0){ break; }\n\t\t// break;\n\t}\n\tif(!src){\n\t\tdojo.raise(\"Last script element (out of \" + scripts.length + \") has no src\");\n\t}\n\treturn src;\n}", "function LocalHost()\n{\n\t/*\n\tTODO: This returns an empty string when running cgiserver.py\n\t*/\n\tpathArray = location.href;\n\tidxLastSlash = pathArray.lastIndexOf(\"/\");\n\treturn pathArray.substring(0,idxLastSlash);\n}", "function getURL() {\n var url = window.location.pathname.split('/').slice(0, 4).join('/')\n\n return url + '/' + cid + '/'\n}", "function filename() {\n \"use strict\";\n console.log(document.currentScript);\n}", "function getEmbedScriptPath(e) {\n\tvar t = document.getElementsByTagName(\"script\"), n = \"\", r = \"\";\n\tfor (var i = 0; i < t.length; i++) {\n\t\tt[i].src.match(e) && (n = t[i].src);\n\t}\n\tn != \"\" && (r = \"/\");\n\treturn n.split(\"?\")[0].split(\"/\").slice(0, -1).join(\"/\") + r\n}", "function getCurrentTabUrl(callback) {\n\t// lots of queryInfo options -- this is how we restrict what tabs get returned\n\t// in the query callback. Select only the active tabs that are in the currentWindow.\n\tvar queryInfo = {\n\t\tactive: true,\n\t\tcurrentWindow: true\n\t};\n\tvar tab;\n\tvar url;\n\n\t// to access tab.url, you'll need either 'tab' or 'activeTab' permission set in your manifest file\n\tchrome.tabs.query(queryInfo, function (tabs) {\n\t\ttab = tabs[0];\n\t\turl = tab.url;\n\t\tcallback(url);\n\t});\n}", "getScriptWebviewUri() {\n const onDiskPath = vscode.Uri.file(\n path.join(this.context.extensionPath, \"script\", \"main.js\")\n );\n const script = this.panel.webview.asWebviewUri(onDiskPath);\n return script;\n }", "function getCurrentTabUrl(callback) {\n var queryInfo = {\n active: true,\n currentWindow: true\n };\n\n // Query chrome's tabs to get the current tab url.\n chrome.tabs.query(queryInfo, function (tabs) {\n if (tabs instanceof Array) {\n if (tabs.length > 0) {\n var tab = tabs[0];\n var url = tab.url;\n\n console.log(\"Current tab URL : \" + url);\n\n callback(url);\n }\n }\n })\n}", "function getLocationHref() {\n var global = global_1.getGlobalObject();\n try {\n return global.document.location.href;\n }\n catch (oO) {\n return '';\n }\n}", "function getCurrentTabUrl(callback){\n var queryInfo = {\n active: true,\n currentWindow: true\n };\n\n chrome.tabs.query(queryInfo, function(tabs){\n var tab = tabs[0];\n var url = tab.url;\n callback(url);\n });\n}", "function getCurrentTabUrl(callback) {\n var queryInfo = {\n \tactive: true,\n \tcurrentWindow: true\n };\n\n chrome.tabs.query(queryInfo, function(tabs) {\n var tab = tabs[0];\n var url = tab.url;\n callback(url);\n});\n}", "function page_uri() {\n\treturn window.location.href.split('#')[0];\n}", "getURL(url) {\n return this.isDev() ? path.join(\"../\", url) : url\n }", "function get_current_page_filename()\n{\n let path = window.location.pathname;\n let page = path.split(\"/\").pop();\n return page;\n}", "function getScriptURL(url) {\n const index = window.document.getElementsByTagName('script')[0]\n const scriptKey = window.document.createElement('script')\n scriptKey.onerror = function () {handleError()}\n scriptKey.src = url\n scriptKey.async = true\n scriptKey.defer = true\n index.parentNode.insertBefore(scriptKey, index)\n}", "function getCurrentPathName() {\n pathName = window.location.pathname;\n return pathName;\n }", "function currentDomain() {\n chrome.tabs.getCurrent(function(tab){\n console.log(tab.url);\n });\n \n // console.log(\"DOMAIN\");\n // console.log(domain);\n // if (domain.length == 0) {\n // return '_';\n // } else {\n // return domain;\n // }\n}", "function _getPageRoot() {\n var location = window.location;\n return location.origin + (location.pathname || '').replace(/\\/[^/]*$/, '/');\n }", "function getBaseURL() {\n var baseURL = window.location.protocol + '//' + window.location.hostname + ':' + api_port;\n return baseURL;\n}", "function obtenerURLWebRelative() {\n if (_spPageContextInfo.siteServerRelativeUrl[_spPageContextInfo.siteServerRelativeUrl.length - 1] == \"/\") {\n return _spPageContextInfo.siteServerRelativeUrl;\n } else {\n return _spPageContextInfo.siteServerRelativeUrl + \"/\";\n }\n}", "function getCurrentPage(traceThis = true) {\n\n\t\tif (traceThis) {\n\n\t\t\tlogTrace('invoking getCurrentPage()');\n\t\t}\n\n\t\t// remove trailing slash\n\t\tvar result = window.location.pathname.replace(/\\/$/, '');\n\n\t\treturn result;\n\t}", "function getHost() {\n return window.location.host.split('.').slice(-2).join('.');\n}", "function localURL() { \n var pathWORes = location.pathname.substring(0, location.pathname.lastIndexOf(\"/\")+1);\n var protoWDom = location.href.substr(0, location.href.indexOf(\"/\", 8));\n return protoWDom + pathWORes;\n }", "get host() {\n return window.location.host\n }", "function getBaseUrl() {\n var baseUrl = getConfigOption('baseUrl');\n if (!baseUrl || baseUrl === '/') {\n baseUrl = (typeof location === 'undefined' ?\n 'http://localhost:8888/' : location.origin + '/');\n }\n return baseUrl;\n}", "get url() {\n return internalSlots.get(this).url.href;\n }", "function getWindowPath() {\n return window.location.pathname + window.location.search;\n}", "function detectAssetURL() {\n try {\n // Try to get the url from the canonical tag on the page.\n return document.querySelector('link[rel=\"canonical\"]').href;\n } catch (e) {\n window.console.warn(\n 'This page does not include a canonical link tag. Talk has inferred this asset_url from the window object. Query params have been stripped, which may cause a single thread to be present across multiple pages.'\n );\n\n return window.location.origin + window.location.pathname;\n }\n}" ]
[ "0.742416", "0.72736424", "0.7257845", "0.7225784", "0.72139895", "0.7150679", "0.7142431", "0.71399367", "0.7131592", "0.7131592", "0.7131592", "0.7131592", "0.7131592", "0.7131592", "0.7131592", "0.71105313", "0.6965575", "0.68907803", "0.68834144", "0.68652886", "0.68564975", "0.68100846", "0.6783502", "0.67761356", "0.67692906", "0.6766506", "0.6725729", "0.67169446", "0.66798633", "0.6659797", "0.66107434", "0.66039973", "0.6595788", "0.6572686", "0.6499773", "0.6495165", "0.64703345", "0.646718", "0.6418491", "0.641734", "0.63945377", "0.63769233", "0.63730085", "0.6353853", "0.63537586", "0.6343353", "0.6340138", "0.6325681", "0.63238144", "0.6317689", "0.6305228", "0.63043463", "0.62943065", "0.62841415", "0.6283678", "0.6262307", "0.62615526", "0.6242507", "0.6242507", "0.62266093", "0.62266093", "0.62266093", "0.62226444", "0.6217345", "0.6214564", "0.6213276", "0.6190317", "0.6190214", "0.6158883", "0.61521506", "0.61505616", "0.61428887", "0.6132178", "0.6090168", "0.6071227", "0.6067476", "0.60549325", "0.6049053", "0.6036581", "0.602597", "0.6022578", "0.60201174", "0.6013712", "0.60105014", "0.60014427", "0.59797573", "0.59583735", "0.5944867", "0.5944233", "0.59410733", "0.5938356", "0.5936013", "0.5933858", "0.5932034", "0.59284526", "0.5920778", "0.5900694", "0.5900444", "0.5898937", "0.58983105" ]
0.64388263
38
Copyright Joyent, Inc. and other Node contributors. Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. resolves . and .. elements in a path array with directory names there must be no slashes, empty elements, or device names (c:\) in the array (so also no leading and trailing slashes it does not distinguish relative and absolute paths)
function normalizeArray(parts, allowAboveRoot) { // if the path tries to go above the root, `up` ends up > 0 var up = 0; for (var i = parts.length - 1; i >= 0; i--) { var last = parts[i]; if (last === '.') { parts.splice(i, 1); } else if (last === '..') { parts.splice(i, 1); up++; } else if (up) { parts.splice(i, 1); up--; } } // if the path is allowed to go above the root, restore leading ..s if (allowAboveRoot) { for (; up--; up) { parts.unshift('..'); } } return parts; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function rationalizePaths(array){\n for(var i = 0, len = array.length; i < len; i++){\n //I know, this is very unneeded, but I like having it because of it's over bearing round-a-bout-ness\n array[i] = require.resolve(array[i]).split('\\\\').filter(function(o,i,a){ return (a.length-1) !== i; }).join('\\\\');\n }\n\n return array;\n}", "function _resolvePointer(...paths) {\n return paths\n // reduce to /-separated string, ignoring anything before the last-\n // specified absolute path (e.g. [\"/a\", \"/b\", \"./c\"] becomes \"/b/./c\")\n .reduce((joined, next) => {\n // next child is absolute; discard previous\n if (next.startsWith(\"/\")) {\n return next;\n }\n\n return `${joined}/${next}`;\n }, \"\")\n\n // now, remove .. and .\n .split(\"/\").reduce((resolved, next) => {\n switch (next) {\n case \"..\":\n return resolved.slice(0, -1);\n case \".\":\n return resolved;\n default:\n return resolved.concat(next);\n }\n }, []).join(\"/\");\n}", "function normalizeArray(parts,allowAboveRoot){// if the path tries to go above the root, `up` ends up > 0\nvar up=0;for(var i=parts.length-1;i>=0;i--){var last=parts[i];if(last==='.'){parts.splice(i,1);}else if(last==='..'){parts.splice(i,1);up++;}else if(up){parts.splice(i,1);up--;}}// if the path is allowed to go above the root, restore leading ..s\nif(allowAboveRoot){for(;up--;up){parts.unshift('..');}}return parts;}// Split a filename into [root, dir, basename, ext], unix version", "function normalizeArray(parts,allowAboveRoot){ // if the path tries to go above the root, `up` ends up > 0\nvar up=0;for(var i=parts.length-1;i>=0;i--){var last=parts[i];if(last==='.'){parts.splice(i,1);}else if(last==='..'){parts.splice(i,1);up++;}else if(up){parts.splice(i,1);up--;}} // if the path is allowed to go above the root, restore leading ..s\nif(allowAboveRoot){for(;up--;up){parts.unshift('..');}}return parts;} // Split a filename into [root, dir, basename, ext], unix version", "function joinPath(...paths){var _path$default;const joinedPath=(_path$default=_path.default).join.apply(_path$default,paths);if(_os.default.platform()===`win32`){return joinedPath.replace(/\\\\/g,`\\\\\\\\`);}return joinedPath;}// copied from https://runpkg.com/?pretty-error@2.1.1/lib/nodePaths.js", "function normalizeArray(parts,allowAboveRoot){// if the path tries to go above the root, `up` ends up > 0\nvar up=0;for(var i=parts.length-1;i>=0;i--){var last=parts[i];if(last==='.'){parts.splice(i,1);}else if(last==='..'){parts.splice(i,1);up++;}else if(up){parts.splice(i,1);up--;}}// if the path is allowed to go above the root, restore leading ..s\nif(allowAboveRoot){for(;up--;up){parts.unshift('..');}}return parts;}// path.resolve([from ...], to)", "resolveAsPath() { }", "function resolvePath(...paths) {\n return [].concat(...paths)\n .filter(v => typeof v === 'string' || isArray(v))\n .join('.').split('.')\n .filter(v => !!v);\n}", "resolve(...paths) {\n // first figure out the minimum number of paths we have to test\n // we always start at cwd, but any absolutes will bump the start\n let r = '';\n for (let i = paths.length - 1; i >= 0; i--) {\n const p = paths[i];\n if (!p || p === '.')\n continue;\n r = r ? `${p}/${r}` : p;\n if (this.isAbsolute(p)) {\n break;\n }\n }\n const cached = this.#resolveCache.get(r);\n if (cached !== undefined) {\n return cached;\n }\n const result = this.cwd.resolve(r).fullpath();\n this.#resolveCache.set(r, result);\n return result;\n }", "function resolvePathDots(input) {\r\n\t\tvar output = [];\r\n\t\tinput.replace(/^(\\.\\.?(\\/|$))+/, '')\r\n\t\t .replace(/\\/(\\.(\\/|$))+/g, '/')\r\n\t\t .replace(/\\/\\.\\.$/, '/../')\r\n\t\t .replace(/\\/?[^\\/]*/g, function (part) { part === '/..' ? output.pop() : output.push(part); });\r\n\t\treturn output.join('').replace(/^\\//, input.charAt(0) === '/' ? '/' : '');\r\n\t}", "function resolve(...input) {\n return path.resolve(...input)\n}", "resolvePosix(...paths) {\n // first figure out the minimum number of paths we have to test\n // we always start at cwd, but any absolutes will bump the start\n let r = '';\n for (let i = paths.length - 1; i >= 0; i--) {\n const p = paths[i];\n if (!p || p === '.')\n continue;\n r = r ? `${p}/${r}` : p;\n if (this.isAbsolute(p)) {\n break;\n }\n }\n const cached = this.#resolvePosixCache.get(r);\n if (cached !== undefined) {\n return cached;\n }\n const result = this.cwd.resolve(r).fullpathPosix();\n this.#resolvePosixCache.set(r, result);\n return result;\n }", "function resolve() {\n var root = '';\n var elements = [];\n var leaf = '';\n var path;\n for (var i = 0; i < arguments.length; i++) {\n path = String(arguments[i]);\n if (path.trim() == '') {\n continue;\n }\n var parts = path.split(SEPARATOR_RE);\n if (isAbsolute(path)) {\n // path is absolute, throw away everyting we have so far\n root = parts.shift() + SEPARATOR;\n elements = [];\n }\n leaf = parts.pop();\n if (leaf == '.' || leaf == '..') {\n parts.push(leaf);\n leaf = '';\n }\n for (var j = 0; j < parts.length; j++) {\n var part = parts[j];\n if (part == '..') {\n if (elements.length > 0 && elements.peek() != '..') {\n elements.pop();\n } else if (!root) {\n elements.push(part);\n }\n } else if (part != '' && part != '.') {\n elements.push(part);\n }\n }\n }\n path = elements.join(SEPARATOR);\n if (path.length > 0) {\n leaf = SEPARATOR + leaf;\n }\n return root + path + leaf;\n}", "function path_resolve() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n var resolvedPath = '';\n var resolvedAbsolute = false;\n for (var i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = i >= 0 ? args[i] : '/';\n // Skip empty entries\n if (!path) {\n continue;\n }\n resolvedPath = path + \"/\" + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n // Normalize the path\n resolvedPath = normalizeArray(resolvedPath.split('/').filter(function (p) { return !!p; }), !resolvedAbsolute).join('/');\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\n}", "function resolve$2() {\n var resolvedPath = '',\n resolvedAbsolute = false\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = i >= 0 ? arguments[i] : '/'\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings')\n } else if (!path) {\n continue\n }\n\n resolvedPath = path + '/' + resolvedPath\n resolvedAbsolute = path.charAt(0) === '/'\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(\n filter(resolvedPath.split('/'), function (p) {\n return !!p\n }),\n !resolvedAbsolute\n ).join('/')\n\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.'\n}", "function a(e){var t=e,n=o(e);if(n){if(!n.path)return e;t=n.path}for(var r,a=\"/\"===t.charAt(0),s=t.split(/\\/+/),l=0,u=s.length-1;u>=0;u--)r=s[u],\".\"===r?s.splice(u,1):\"..\"===r?l++:l>0&&(\"\"===r?(\n// The first part is blank if the path is absolute. Trying to go\n// above the root is a no-op. Therefore we can remove all '..' parts\n// directly after the root.\ns.splice(u+1,l),l=0):(s.splice(u,2),l--));return t=s.join(\"/\"),\"\"===t&&(t=a?\"/\":\".\"),n?(n.path=t,i(n)):t}", "function toFilePath(pathArray){\n\tif (typeof(pathArray) === 'string') return pathArray;\n\tvar expanded = '';\n\tfor(var i=0; i < pathArray.length; i++){\n\t\texpanded = OS.Path.join(pathArray, dirName[i]);\n\t}\n\treturn expanded;\n}", "function win32SplitPath(filename){// Separate device+slash from tail\nvar result=splitDeviceRe.exec(filename),device=(result[1]||\"\")+(result[2]||\"\"),tail=result[3]||\"\";// Split the tail into dir, basename and extension\nvar result2=splitTailRe.exec(tail),dir=result2[1],basename=result2[2],ext=result2[3];return[device,dir,basename,ext]}", "function resolve$2() {\n\t var resolvedPath = '',\n\t resolvedAbsolute = false;\n\n\t for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n\t var path = (i >= 0) ? arguments[i] : '/';\n\n\t // Skip empty and invalid entries\n\t if (typeof path !== 'string') {\n\t throw new TypeError('Arguments to path.resolve must be strings');\n\t } else if (!path) {\n\t continue;\n\t }\n\n\t resolvedPath = path + '/' + resolvedPath;\n\t resolvedAbsolute = path.charAt(0) === '/';\n\t }\n\n\t // At this point the path should be resolved to a full absolute path, but\n\t // handle relative paths to be safe (might happen when process.cwd() fails)\n\n\t // Normalize the path\n\t resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n\t return !!p;\n\t }), !resolvedAbsolute).join('/');\n\n\t return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n\t}", "function i(e){var t=e,n=r(e);if(n){if(!n.path)return e;t=n.path}for(var i,a=\"/\"===t.charAt(0),s=t.split(/\\/+/),l=0,u=s.length-1;u>=0;u--)i=s[u],\".\"===i?s.splice(u,1):\"..\"===i?l++:l>0&&(\"\"===i?(// The first part is blank if the path is absolute. Trying to go\n// above the root is a no-op. Therefore we can remove all '..' parts\n// directly after the root.\ns.splice(u+1,l),l=0):(s.splice(u,2),l--));return t=s.join(\"/\"),\"\"===t&&(t=a?\"/\":\".\"),n?(n.path=t,o(n)):t}", "function path() {\n return new Path(join.apply(null, arguments));\n}", "function quotePaths() {\n // Replace this comment with your code...\n\n let result = [];\n // if (arguments.length == 1) {\n // result = quotePath(arguments);\n // } else if (arguments.length > 1) {\n for (var i = 0; i < arguments.length; i++) {\n result.push(quotePath(arguments[i]));\n }\n return result.join(' ');\n}", "function normalizePath(p) {\n return fslib_1.npath.toPortablePath(p);\n }", "function makePath() {\n var path = [''];\n for (var i=0,l=arguments.length,arg,argType; i<l; i++) {\n arg = arguments[i];\n argType = typeof arg;\n if (argType === 'string' || (argType === 'number' && !isNaN(arg))) {\n arg = String(arg);\n if (arg.length) path.push(arg.replace(/^\\/|\\/$/g, ''));\n }\n }\n return path.join('/').replace(/\\/$/, '');\n}", "function getPathsFromArgs() {\n var _a;\n return (_a = []).concat.apply(_a, (process.argv || [])\n .map(function (arg) {\n if (arg.includes('paths='))\n return arg.split(/(?:paths=|,)+/)\n .filter(function (i) { return !!i; });\n })\n .filter(function (i) { return !!i; }));\n}", "function getArrayOfPathsWithDotSlash(paths) {\n if (!Array.isArray(paths)) {\n return undefined;\n }\n var pathsWithDotSlash = [];\n for (var _i = 0, paths_1 = paths; _i < paths_1.length; _i++) {\n var path = paths_1[_i];\n pathsWithDotSlash.push(getPathWithDotSlash(path));\n }\n return pathsWithDotSlash;\n}", "function GetNormalizedPath() {\n}", "function pathResolve(path1, path2) {\n path1 = path1.split('/');\n path1.pop();\n var pathArr = path1.concat(path2.split('/'));\n var up = 0;\n for (var i = pathArr.length - 1; i >= 0; i--) {\n var last = pathArr[i];\n if (last === '.') {\n pathArr.splice(i, 1)\n } else if (last === '..') {\n pathArr.splice(i, 1);\n up++\n } else if (up) {\n pathArr.splice(i, 1);\n up--\n }\n }\n return pathArr.join('/')\n }", "function resolve(...args) {\n let resolvedPath = '';\n let resolvedAbsolute = false;\n\n for (let i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n const path = i >= 0 ? args[i] : '/';\n\n // Skip empty entries\n if (!path) {\n continue;\n }\n\n resolvedPath = `${path}/${resolvedPath}`;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(\n resolvedPath.split('/').filter(p => !!p),\n !resolvedAbsolute,\n ).join('/');\n\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\n}", "function c(e,t){for(var n=0,r=e.length-1;r>=0;r--){var o=e[r];\".\"===o?e.splice(r,1):\"..\"===o?(e.splice(r,1),n++):n&&(e.splice(r,1),n--)}\n// if the path is allowed to go above the root, restore leading ..s\nif(t)for(;n--;n)e.unshift(\"..\");return e}", "[_changePath] (newPath) {\n // have to de-list before changing paths\n this[_delistFromMeta]()\n const oldPath = this.path\n this.path = newPath\n const namePattern = /(?:^|\\/|\\\\)node_modules[\\\\/](@[^/\\\\]+[\\\\/][^\\\\/]+|[^\\\\/]+)$/\n const nameChange = newPath.match(namePattern)\n if (nameChange && this.name !== nameChange[1])\n this.name = nameChange[1].replace(/\\\\/g, '/')\n\n // if we move a link target, update link realpaths\n if (!this.isLink) {\n this.realpath = newPath\n for (const link of this.linksIn) {\n link[_delistFromMeta]()\n link.realpath = newPath\n link[_refreshLocation]()\n }\n }\n // if we move /x to /y, then a module at /x/a/b becomes /y/a/b\n for (const child of this.fsChildren)\n child[_changePath](resolve(newPath, relative(oldPath, child.path)))\n for (const [name, child] of this.children.entries())\n child[_changePath](resolve(newPath, 'node_modules', name))\n\n this[_refreshLocation]()\n }", "function normalizeArray(parts, allowAboveRoot) {\n // if the path tries to go above the root, `up` ends up > 0\n var up = 0;\n\n for (var i = parts.length - 1; i >= 0; i--) {\n var last = parts[i];\n\n if (last === '.') {\n parts.splice(i, 1);\n } else if (last === '..') {\n parts.splice(i, 1);\n up++;\n } else if (up) {\n parts.splice(i, 1);\n up--;\n }\n } // if the path is allowed to go above the root, restore leading ..s\n\n\n if (allowAboveRoot) {\n for (; up--; up) {\n parts.unshift('..');\n }\n }\n\n return parts;\n} // path.resolve([from ...], to)", "function realpath(path) {\n // /a/b/./c/./d ==> /a/b/c/d\n path = path.replace(DOT_RE, \"/\")\n /*\n @author\n a//b/c ==> a/b/c\n a///b/////c ==> a/b/c\n DOUBLE_DOT_RE matches a/b/c//../d path correctly only if replace // with / first\n */\n path = path.replace(MULTI_SLASH_RE, \"$1/\")\n\n // a/b/c/../../d ==> a/b/../d ==> a/d\n while (path.match(DOUBLE_DOT_RE)) {\n path = path.replace(DOUBLE_DOT_RE, \"/\")\n }\n\n return path\n}", "function l(e,t){\"\"===e&&(e=\".\"),e=e.replace(/\\/$/,\"\");\n// XXX: It is possible to remove this block, and the tests still pass!\nvar n=o(e);return\"/\"==t.charAt(0)&&n&&\"/\"==n.path?t.slice(1):0===t.indexOf(e+\"/\")?t.substr(e.length+1):t}", "function platformPath(p) {\n return p.split('/').join(path.sep);\n}", "function posixify_path(str) {\n\treturn str.split(path.sep).join(path.posix.sep);\n}", "function normalizePaths(path) {\n // @ts-ignore (not sure why this happens)\n return path.map(segment => typeof segment === 'string' ? segment.split('.') : segment);\n} // Supports passing either an id or a value (document/reference/object)", "expandGlobPatterns(context, argv) {\n const nextArgv = [];\n this.debug('Expanding glob patterns');\n argv.forEach((arg) => {\n if (arg.charAt(0) !== '-' && is_glob_1.default(arg)) {\n const paths = fast_glob_1.default\n .sync(arg, {\n cwd: String(context.cwd),\n onlyDirectories: false,\n onlyFiles: false,\n })\n .map((path) => new common_1.Path(path).path());\n this.debug(' %s %s %s', arg, chalk_1.default.gray('->'), paths.length > 0 ? paths.join(', ') : chalk_1.default.gray(this.tool.msg('app:noMatch')));\n nextArgv.push(...paths);\n }\n else {\n nextArgv.push(arg);\n }\n });\n return nextArgv;\n }", "static resolve(basedir, path) {\n if (path.startsWith(\"/\")) {\n basedir = \"/\";\n }\n\n const base = basedir.split(\"/\").filter(x => x !== \"\");\n const rest = path.split(\"/\").filter(x => x !== \"\");\n const full = base.concat(rest);\n\n const result = [];\n for (const part of full) {\n if (part === \"..\") {\n result.pop();\n } else if (part !== \".\") {\n result.push(part);\n }\n }\n\n if (path.endsWith(\"/\") && result.length > 0) {\n return \"/\" + result.join(\"/\") + \"/\";\n } else {\n return \"/\" + result.join(\"/\");\n }\n }", "function combine() {\r\n var paths = [];\r\n for (var _i = 0; _i < arguments.length; _i++) {\r\n paths[_i] = arguments[_i];\r\n }\r\n return paths\r\n .filter(function (path) { return !stringIsNullOrEmpty(path); })\r\n .map(function (path) { return path.replace(/^[\\\\|\\/]/, \"\").replace(/[\\\\|\\/]$/, \"\"); })\r\n .join(\"/\")\r\n .replace(/\\\\/g, \"/\");\r\n}", "extendArrayWithPaths (array, path) {\n if (array.length && path) {\n const extendedArray = []\n array.forEach(function (value) {\n extendedArray.push(`${path}/${value}`)\n })\n return extendedArray\n }\n }", "function applyNodeExtensionResolution(unqualifiedPath, candidates, {\n extensions\n }) {\n // We use this \"infinite while\" so that we can restart the process as long as we hit package folders\n while (true) {\n let stat;\n\n try {\n candidates.push(unqualifiedPath);\n stat = opts.fakeFs.statSync(unqualifiedPath);\n } catch (error) {} // If the file exists and is a file, we can stop right there\n\n\n if (stat && !stat.isDirectory()) return opts.fakeFs.realpathSync(unqualifiedPath); // If the file is a directory, we must check if it contains a package.json with a \"main\" entry\n\n if (stat && stat.isDirectory()) {\n let pkgJson;\n\n try {\n pkgJson = JSON.parse(opts.fakeFs.readFileSync(fslib_2.ppath.join(unqualifiedPath, fslib_2.toFilename(`package.json`)), `utf8`));\n } catch (error) {}\n\n let nextUnqualifiedPath;\n if (pkgJson && pkgJson.main) nextUnqualifiedPath = fslib_2.ppath.resolve(unqualifiedPath, pkgJson.main); // If the \"main\" field changed the path, we start again from this new location\n\n if (nextUnqualifiedPath && nextUnqualifiedPath !== unqualifiedPath) {\n const resolution = applyNodeExtensionResolution(nextUnqualifiedPath, candidates, {\n extensions\n });\n\n if (resolution !== null) {\n return resolution;\n }\n }\n } // Otherwise we check if we find a file that match one of the supported extensions\n\n\n const qualifiedPath = extensions.map(extension => {\n return `${unqualifiedPath}${extension}`;\n }).find(candidateFile => {\n candidates.push(candidateFile);\n return opts.fakeFs.existsSync(candidateFile);\n });\n if (qualifiedPath) return qualifiedPath; // Otherwise, we check if the path is a folder - in such a case, we try to use its index\n\n if (stat && stat.isDirectory()) {\n const indexPath = extensions.map(extension => {\n return fslib_2.ppath.format({\n dir: unqualifiedPath,\n name: fslib_2.toFilename(`index`),\n ext: extension\n });\n }).find(candidateFile => {\n candidates.push(candidateFile);\n return opts.fakeFs.existsSync(candidateFile);\n });\n\n if (indexPath) {\n return indexPath;\n }\n } // Otherwise there's nothing else we can do :(\n\n\n return null;\n }\n }", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n }", "normalizePath() {\n const {path} = options;\n switch (typeof path) {\n case 'function': return path(this.props);\n case 'string': return [path];\n default: return path;\n }\n }", "function arr2strN(arr,n){\n\tstr=\"\";\n\tfor (var i = 0; i < ((n <= arr.length)? n:arr.length); i++) {\n\t\tstr+=arr[i]+\"/\";\n\t};\n\treturn path.normalize(str);\n}", "function genetatePath(path) {\n if (!path) path = [];\n try {\n return pathConverter.join(directory + '/' + path.join('/'));\n } catch (error) {\n console.log(error);\n return '';\n }\n}", "function fromPortablePath(p) {\n if (process.platform !== `win32`)\n return p;\n let portablePathMatch, uncPortablePathMatch;\n if ((portablePathMatch = p.match(PORTABLE_PATH_REGEXP)))\n p = portablePathMatch[1];\n else if ((uncPortablePathMatch = p.match(UNC_PORTABLE_PATH_REGEXP)))\n p = `\\\\\\\\${uncPortablePathMatch[1] ? `.\\\\` : ``}${uncPortablePathMatch[2]}`;\n else\n return p;\n return p.replace(/\\//g, `\\\\`);\n}", "function fixPath(path) {\n \n \n if(path.startsWith('\\\\\\\\') === false) {\n \n console.log('Path does not starts with \\\\\\\\. Throw error');\n throw \"Path does not starts with \\\\\\\\\";\n \n } else {\n \n // storing path slash into variable\t \n var result = '\\\\\\\\';\n for(var i = 0; i < path.length; i++) {\n \n // Current character is back slash or not\n if(path.charAt(i) === '\\\\') {\n \n // Is result ends with back slash?\n if(result.endsWith('\\\\') === false) {\n result += '\\\\';\n }\n } else {\n result += path.charAt(i);\n }\n }\n return result;\n \n }\n \n}", "static async getDirectoryFor(pathString) {\n let rns = fdio.nsExportRoot();\n let splitDirString = pathString.split('/');\n const rootElements = rns.getElements();\n let restOfPath = undefined;\n let element = undefined;\n let checkDirectory = fidling.fuchsia_io.OPEN_FLAG_DESCRIBE;\n\n // The root elements are special, top-level paths. Every path is relative to one.\n // So, we have to start looking for the given path from one of the root strings.\n // Iterate until we find the right one.\n for (let e in rootElements) {\n let splitElement = e.split('/');\n if (util.arraysEqual(splitDirString, splitElement)) {\n restOfPath = '.';\n element = e;\n // For some reason, waiting for OnOpen below in this code path\n // causes memory corruption. We don't really need the check,\n // and we're likely to deprecate this code anyway.\n checkDirectory = 0;\n } else if (util.isPrefixOf(splitElement, splitDirString)) {\n // We are trying to list something reachable from a root handle.\n // element.length + 1 gets rid of the next path separator.\n restOfPath = pathString.substring(e.length + 1);\n element = e;\n }\n }\n\n if (typeof element == 'undefined') {\n throw 'Node ' + pathString + ' not found';\n }\n // Each Node (i.e., the thing we want listed) is contained within a root namespace\n // For example, if you want to list /bin/ls, it is going to be the ls node inside\n // the /bin root element. |element| is the root namespace element.\n // rootChannel is a channel to the service providing the root namespace element.\n let rootHandle = rootElements[element].handle;\n let rootChannel = new zx.Channel(rootHandle);\n\n // dirClient is a wrapper that lets you speak the fuchsia.io.Directory protocol\n // to the root namespace.\n let dirClient = new fidl.ProtocolClient(rootChannel, fidling.fuchsia_io.Directory);\n\n // When we want to interact with the node within the root namespace (this\n // would be \"ls\" if you are opening \"/bin/ls\"), you need to create a\n // channel to speak to it using the fuchsia.io.Node protocol. The way we\n // set up that channel is to call the Open() method of the root namespace\n // directory (\"/bin\"), and send it |restOfPath| (\"ls\") and one end of a\n // channel. We can then communicate via that Node by speaking\n // fuchsia.io.Node over the other end of that channel.\n // |request| is a wrapper that gives you two ends of a channel.\n const request = new fidl.Request(fidling.fuchsia_io.Node);\n // |nodeClient| is going to be the end of the channel that we speak Node over.\n let nodeClient = request.getProtocolClient();\n let openedPromise = undefined;\n if (checkDirectory != 0) {\n // We can get notified when the Node gets opened.\n openedPromise = nodeClient.OnOpen((args) => {\n return args;\n });\n }\n // Ask the service providing the root namespace element to open the Node\n // we want to inspect.\n dirClient.Open(\n fidling.fuchsia_io.OPEN_RIGHT_READABLE | checkDirectory, 0, restOfPath,\n request.getChannelForServer());\n if (checkDirectory != 0) {\n let args = await openedPromise;\n // TODO: check the value of args.s\n if ('directory' in args.info) {\n return new Directory(nodeClient);\n } else {\n throw pathString + \" is not a directory\"\n }\n } else {\n return new Directory(nodeClient);\n }\n fidl.ProtocolClient.close(request.getProtocolClient());\n }", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path$1.sep);\n}", "getProjectRoots() {\n return [__dirname];\n }", "function relPath() {\n return '.' + path.sep + path.join.apply(null, arguments);\n}", "function resolve() {\n\t var resolvedPath = '',\n\t resolvedAbsolute = false;\n\n\t for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n\t var path = (i >= 0) ? arguments[i] : '/';\n\n\t // Skip empty and invalid entries\n\t if (typeof path !== 'string') {\n\t throw new TypeError('Arguments to path.resolve must be strings');\n\t } else if (!path) {\n\t continue;\n\t }\n\n\t resolvedPath = path + '/' + resolvedPath;\n\t resolvedAbsolute = path.charAt(0) === '/';\n\t }\n\n\t // At this point the path should be resolved to a full absolute path, but\n\t // handle relative paths to be safe (might happen when process.cwd() fails)\n\n\t // Normalize the path\n\t resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n\t return !!p;\n\t }), !resolvedAbsolute).join('/');\n\n\t return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n\t}", "function resolve() {\n\t var resolvedPath = '',\n\t resolvedAbsolute = false;\n\n\t for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n\t var path = (i >= 0) ? arguments[i] : '/';\n\n\t // Skip empty and invalid entries\n\t if (typeof path !== 'string') {\n\t throw new TypeError('Arguments to path.resolve must be strings');\n\t } else if (!path) {\n\t continue;\n\t }\n\n\t resolvedPath = path + '/' + resolvedPath;\n\t resolvedAbsolute = path.charAt(0) === '/';\n\t }\n\n\t // At this point the path should be resolved to a full absolute path, but\n\t // handle relative paths to be safe (might happen when process.cwd() fails)\n\n\t // Normalize the path\n\t resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n\t return !!p;\n\t }), !resolvedAbsolute).join('/');\n\n\t return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n\t}", "function resolve() {\n\t var resolvedPath = '',\n\t resolvedAbsolute = false;\n\n\t for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n\t var path = (i >= 0) ? arguments[i] : '/';\n\n\t // Skip empty and invalid entries\n\t if (typeof path !== 'string') {\n\t throw new TypeError('Arguments to path.resolve must be strings');\n\t } else if (!path) {\n\t continue;\n\t }\n\n\t resolvedPath = path + '/' + resolvedPath;\n\t resolvedAbsolute = path.charAt(0) === '/';\n\t }\n\n\t // At this point the path should be resolved to a full absolute path, but\n\t // handle relative paths to be safe (might happen when process.cwd() fails)\n\n\t // Normalize the path\n\t resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n\t return !!p;\n\t }), !resolvedAbsolute).join('/');\n\n\t return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n\t}", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n}", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n}", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n}", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n}", "function resolve() {\n var resolvedPath = '',\n resolvedAbsolute = false;\n\n for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = (i >= 0) ? arguments[i] : '/';\n\n // Skip empty and invalid entries\n if (typeof path !== 'string') {\n throw new TypeError('Arguments to path.resolve must be strings');\n } else if (!path) {\n continue;\n }\n\n resolvedPath = path + '/' + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n\n // Normalize the path\n resolvedPath = normalizeArray(filter(resolvedPath.split('/'), function(p) {\n return !!p;\n }), !resolvedAbsolute).join('/');\n\n return ((resolvedAbsolute ? '/' : '') + resolvedPath) || '.';\n}", "normalize(...variants) {\n\n if (variants.length <= 0)\n return null;\n if (variants.length > 0\n && !Object.usable(variants[0]))\n return null;\n if (variants.length > 1\n && !Object.usable(variants[1]))\n return null;\n\n if (variants.length > 1\n && typeof variants[0] !== \"string\")\n throw new TypeError(\"Invalid root: \" + typeof variants[0]);\n let root = \"#\";\n if (variants.length > 1) {\n root = variants[0];\n try {root = Path.normalize(root);\n } catch (error) {\n root = (root || \"\").trim();\n throw new TypeError(`Invalid root${root ? \": \" + root : \"\"}`);\n }\n }\n\n if (variants.length > 1\n && typeof variants[1] !== \"string\")\n throw new TypeError(\"Invalid path: \" + typeof variants[1]);\n if (variants.length > 0\n && typeof variants[0] !== \"string\")\n throw new TypeError(\"Invalid path: \" + typeof variants[0]);\n let path = \"\";\n if (variants.length === 1)\n path = variants[0];\n if (variants.length === 1\n && path.match(PATTERN_URL))\n path = path.replace(PATTERN_URL, \"$1\");\n else if (variants.length > 1)\n path = variants[1];\n path = (path || \"\").trim();\n\n if (!path.match(PATTERN_PATH))\n throw new TypeError(`Invalid path${String(path).trim() ? \": \" + path : \"\"}`);\n\n path = path.replace(/([^#])#$/, \"$1\");\n path = path.replace(/^([^#])/, \"#$1\");\n\n // Functional paths are detected.\n if (path.match(PATTERN_PATH_FUNCTIONAL))\n return \"###\";\n\n path = root + path;\n path = path.toLowerCase();\n\n // Path will be balanced\n const pattern = /#[^#]+#{2}/;\n while (path.match(pattern))\n path = path.replace(pattern, \"#\");\n path = \"#\" + path.replace(/(^#+)|(#+)$/g, \"\");\n\n return path;\n }", "findRelPath(path) {\n /// Are the `prefix_len` bytes pointed to by `prefix` a prefix of `path`?\n function prefixMatches(prefix, path) {\n // Allow an empty string as a prefix of any relative path.\n if (path[0] != '/' && !prefix) {\n return true;\n }\n // Check whether any bytes of the prefix differ.\n if (!path.startsWith(prefix)) {\n return false;\n }\n // Ignore trailing slashes in directory names.\n let i = prefix.length;\n while (i > 0 && prefix[i - 1] == '/') {\n --i;\n }\n // Match only complete path components.\n let last = path[i];\n return last === '/' || last === '\\0';\n }\n // Search through the preopens table. Iterate in reverse so that more\n // recently added preopens take precedence over less recently addded ones.\n let matchLen = 0;\n let foundPre;\n for (let i = this._firstNonPreopenFd - 1; i >= FIRST_PREOPEN_FD; --i) {\n let pre = this.get(i);\n let prefix = pre.path;\n if (path !== '.' && !path.startsWith('./')) {\n // We're matching a relative path that doesn't start with \"./\" and\n // isn't \".\".\n if (prefix.startsWith('./')) {\n prefix = prefix.slice(2);\n }\n else if (prefix === '.') {\n prefix = prefix.slice(1);\n }\n }\n // If we haven't had a match yet, or the candidate path is longer than\n // our current best match's path, and the candidate path is a prefix of\n // the requested path, take that as the new best path.\n if ((!foundPre || prefix.length > matchLen) &&\n prefixMatches(prefix, path)) {\n foundPre = pre;\n matchLen = prefix.length;\n }\n }\n if (!foundPre) {\n throw new Error(`Couldn't resolve the given path via preopened directories.`);\n }\n // The relative path is the substring after the portion that was matched.\n let computed = path.slice(matchLen);\n // Omit leading slashes in the relative path.\n computed = computed.replace(/^\\/+/, '');\n // *at syscalls don't accept empty relative paths, so use \".\" instead.\n computed = computed || '.';\n return {\n preOpen: foundPre,\n relativePath: computed\n };\n }", "function combine() {\n var paths = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n paths[_i] = arguments[_i];\n }\n return paths\n .filter(function (path) { return !stringIsNullOrEmpty(path); })\n .map(function (path) { return path.replace(/^[\\\\|/]/, \"\").replace(/[\\\\|/]$/, \"\"); })\n .join(\"/\")\n .replace(/\\\\/g, \"/\");\n}", "function splitPath(p) {\n if (typeof p === 'string') {\n return splitPath({'path' : p});\n }\n\n var a = p.path.split(\"/\");\n p.name = a.pop();\n // console.log(a);\n p.cpath = a.join(\"/\");\n // a.shift();\n // console.log(a);\n p.topname = a.shift(); // get the name of the top dir\n // console.log(a);\n a.unshift(\"\");\n // console.log(a);\n p.cpath1 = a.join(\"/\"); // remove the topdir\n\n var e = p.name.split(\".\");\n if (e.length < 2) {\n p.ext = \"\";\n p.bname = p.name;\n } else {\n p.ext = e.pop();\n p.bname = e.join(\".\");\n }\n return p;\n}", "function prepareDebuggerPath(...parts) {\r\n return path.join(...parts)\r\n .replace('\\\\', '\\\\\\\\')\r\n .replace('.', '\\\\.');\r\n}", "function getNamePath(path) {\n return __webpack_require__.i(__WEBPACK_IMPORTED_MODULE_5__typeUtil__[\"a\" /* toArray */])(path);\n}", "_setPathLocation() {\n // TODO need better way to differentiate between macOS and Windows FILES_PATHs\n let dlabsLocation = shell.which('dlabs-cli')?.stdout?.trim();\n\n /* istanbul ignore if */\n if (dlabsLocation[0] === '/') {\n dlabsLocation = dlabsLocation.replace(/(\\/\\w+){1}$/, '');\n return `${dlabsLocation}/lib/node_modules/dlabs-cli`;\n } else if (dlabsLocation.includes('C:')) {\n dlabsLocation = dlabsLocation.replace(/\\\\DLABS-CLI.CMD/, '').replace(/\\\\\\\\/g, '\\\\');\n return `${dlabsLocation.toLowerCase()}\\\\node_modules\\\\dlabs-cli`;\n } else {\n this._consoleOutput('error', this.LOG_MESSAGES.noPathDetected);\n }\n }", "function toPortablePath(p) {\n if (process.platform !== `win32`)\n return p;\n let windowsPathMatch, uncWindowsPathMatch;\n if ((windowsPathMatch = p.match(WINDOWS_PATH_REGEXP)))\n p = `/${windowsPathMatch[1]}`;\n else if ((uncWindowsPathMatch = p.match(UNC_WINDOWS_PATH_REGEXP)))\n p = `/unc/${uncWindowsPathMatch[1] ? `.dot/` : ``}${uncWindowsPathMatch[2]}`;\n return p.replace(/\\\\/g, `/`);\n}", "function resolvePath( /* path segments */ ) {\n\t\t// Split the inputs into a list of path commands.\n\t\tvar parts = [];\n\t\tfor (var i = 0, l = arguments.length; i < l; i++) {\n\t\t\tparts = parts.concat(arguments[i].split(\"/\"));\n\t\t}\n\t\t// Interpret the path commands to get the new resolved path.\n\t\tvar newParts = [];\n\t\tvar stillDotDot = true; // Used in the first piece to determine if still using `../`. This preserves it on the first piece\n\t\tfor (i = 0, l = parts.length; i < l; i++) {\n\t\t\tvar part = parts[i];\n\t\t\t// Remove leading and trailing slashes\n\t\t\tif (!part) continue;\n\t\t\t// Interpret \".\" to pop the last segment\n\t\t\t// If the second to last part is a dot\n\t\t\t// and If there is not a trailing slash on the previous piece\n\t\t\tif (part === \".\" && i == l-2 && parts[i-1]) {\n\t\t\t\tnewParts.pop();\n\t\t\t\tstillDotDot = false;\n\t\t\t}\n\t\t\telse if(part === \".\") {\n\t\t\t\tstillDotDot = false;\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\t// Interpret \"..\" to pop the last segment\n\t\t\t// If not stillDotDot.\n\t\t\telse if (part === \"..\" && !stillDotDot) {\n\t\t\t\tnewParts.pop();\n\t\t\t}\n\t\t\telse if (part === \"..\") {\n\t\t\t\tnewParts.push(part); \n\t\t\t}\n\t\t\t// Push new path segments.\n\t\t\telse {\n\t\t\t\tstillDotDot = false;\n\t\t\t\tnewParts.push(part);\n\t\t\t}\n\t\t}\n\t\t// Preserve the initial slash if there was one.\n\t\tif (parts[0] === \"\") newParts.unshift(\"\");\n\t\t// Turn back into a single string path.\n\t\treturn newParts.join(\"/\") || (newParts.length ? \"/\" : \".\");\n\t}", "function prettyPath(path) {\n return path.length ? path.join('.') : '[]';\n}", "function normalize (actual) {\n const dir = path.join(__dirname, '..', '..', '..');\n const reDir = new RegExp(dir.replace(reEscape, '\\\\$1'), 'g');\n const reSep = new RegExp(path.sep.replace(reEscape, '\\\\$1'), 'g');\n\n return actual\n .replace(reDir, '/qunit')\n // Replace backslashes (\\) in stack traces on Windows to POSIX\n .replace(reSep, '/')\n // Convert \"at processModule (/qunit/qunit/qunit.js:1:2)\" to \"at qunit.js\"\n // Convert \"at /qunit/qunit/qunit.js:1:2\" to \"at qunit.js\"\n .replace(/^(\\s+at ).*\\/qunit\\/qunit\\/qunit\\.js.*$/gm, '$1qunit.js')\n // Strip inferred names for anonymous test closures (as Node 10 did),\n // to match the output of Node 12+.\n // Convert \"at QUnit.done (/qunit/test/foo.js:1:2)\" to \"at /qunit/test/foo.js:1:2\"\n .replace(/\\b(at )\\S+ \\((\\/qunit\\/test\\/[^:]+:\\d+:\\d+)\\)/g, '$1$2')\n // Convert sourcemap'ed traces from Node 14 and earlier to the\n // standard format used by Node 15+.\n // https://github.com/nodejs/node/commit/15804e0b3f\n // https://github.com/nodejs/node/pull/37252\n // Convert \"at foo (/min.js:1)\\n -> /src.js:2\" to \"at foo (/src.js:2)\"\n .replace(/\\b(at [^(]+\\s\\()[^)]+(\\))\\n\\s+-> ([^\\n]+)/g, '$1$3$2')\n // CJS-style internal traces:\n // Convert \"at load (internal/modules/cjs/loader.js:7)\" to \"at internal\"\n //\n // ESM-style internal traces from Node 14+:\n // Convert \"at wrap (node:internal/modules/cjs/loader:1)\" to \"at internal\"\n .replace(/^(\\s+at ).+\\([^/)][^)]*\\)$/gm, '$1internal')\n\n // Convert /bin/qunit and /src/cli to internal as well\n // Because there are differences between Node 10 and Node 12 in terms\n // of how much back and forth occurs, so by mapping both to internal\n // we can flatten and normalize across.\n .replace(/^(\\s+at ).*\\/qunit\\/bin\\/qunit\\.js.*$/gm, '$1internal')\n .replace(/^(\\s+at ).*\\/qunit\\/src\\/cli\\/.*$/gm, '$1internal')\n\n // Strip frames from indirect nyc dependencies that are specific\n // to code coverage jobs:\n // Convert \"at load (/qunit/node_modules/append-transform/index.js:6\" to \"at internal\"\n .replace(/ {2}at .+\\/.*node_modules\\/append-transform\\/.*\\)/g, ' at internal')\n // Consolidate subsequent qunit.js frames\n .replace(/^(\\s+at qunit\\.js$)(\\n\\s+at qunit\\.js$)+/gm, '$1')\n // Consolidate subsequent internal frames\n .replace(/^(\\s+at internal$)(\\n\\s+at internal$)+/gm, '$1');\n}", "static join() {\n // Split the inputs into a list of path commands.\n var parts = [];\n for (var i = 0, l = arguments.length; i < l; i++) {\n parts = parts.concat(arguments[i].split('/'));\n }\n // Interpret the path commands to get the new resolved path.\n var newParts = [];\n for (i = 0, l = parts.length; i < l; i++) {\n var part = parts[i];\n // Remove leading and trailing slashes\n // Also remove '.' segments\n if (!part || part === '.') {\n continue;\n }\n // Interpret '..' to pop the last segment\n if (part === '..') {\n newParts.pop();\n }\n // Push new path segments.\n else {\n newParts.push(part);\n }\n }\n // Preserve the initial slash if there was one.\n if (parts[0] === '') {\n newParts.unshift('');\n }\n // Turn back into a single string path.\n return newParts.join('/') || (newParts.length ? '/' : '.');\n }", "function resolve() {\r\n var args = [];\r\n for (var _i = 0; _i < arguments.length; _i++) {\r\n args[_i] = arguments[_i];\r\n }\r\n var resolvedPath = '';\r\n var resolvedAbsolute = false;\r\n for (var i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\r\n var path = i >= 0 ? args[i] : '/';\r\n // Skip empty entries\r\n if (!path) {\r\n continue;\r\n }\r\n resolvedPath = path + \"/\" + resolvedPath;\r\n resolvedAbsolute = path.charAt(0) === '/';\r\n }\r\n // At this point the path should be resolved to a full absolute path, but\r\n // handle relative paths to be safe (might happen when process.cwd() fails)\r\n // Normalize the path\r\n resolvedPath = normalizeArray(resolvedPath.split('/').filter(function (p) {\r\n return !!p;\r\n }), !resolvedAbsolute).join('/');\r\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\r\n}", "function normalizeStringPosix(path, allowAboveRoot) {\r\n var res = '';\r\n var lastSlash = -1;\r\n var dots = 0;\r\n var code;\r\n for (var i = 0; i <= path.length; ++i) {\r\n if (i < path.length)\r\n code = path.charCodeAt(i);\r\n else if (code === 47/*/*/)\r\n break;\r\n else\r\n code = 47/*/*/;\r\n if (code === 47/*/*/) {\r\n if (lastSlash === i - 1 || dots === 1) {\r\n // NOOP\r\n } else if (lastSlash !== i - 1 && dots === 2) {\r\n if (res.length < 2 ||\r\n res.charCodeAt(res.length - 1) !== 46/*.*/ ||\r\n res.charCodeAt(res.length - 2) !== 46/*.*/) {\r\n if (res.length > 2) {\r\n const start = res.length - 1;\r\n var j = start;\r\n for (; j >= 0; --j) {\r\n if (res.charCodeAt(j) === 47/*/*/)\r\n break;\r\n }\r\n if (j !== start) {\r\n if (j === -1)\r\n res = '';\r\n else\r\n res = res.slice(0, j);\r\n lastSlash = i;\r\n dots = 0;\r\n continue;\r\n }\r\n } else if (res.length === 2 || res.length === 1) {\r\n res = '';\r\n lastSlash = i;\r\n dots = 0;\r\n continue;\r\n }\r\n }\r\n if (allowAboveRoot) {\r\n if (res.length > 0)\r\n res += '/..';\r\n else\r\n res = '..';\r\n }\r\n } else {\r\n if (res.length > 0)\r\n res += '/' + path.slice(lastSlash + 1, i);\r\n else\r\n res = path.slice(lastSlash + 1, i);\r\n }\r\n lastSlash = i;\r\n dots = 0;\r\n } else if (code === 46/*.*/ && dots !== -1) {\r\n ++dots;\r\n } else {\r\n dots = -1;\r\n }\r\n }\r\n return res;\r\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function toPlatformPath(pth) {\n return pth.replace(/[/\\\\]/g, path.sep);\n}", "function normalizeArray(parts, allowAboveRoot) {\n // if the path tries to go above the root, `up` ends up > 0\n var up = 0;\n\n for (var i = parts.length - 1; i >= 0; i--) {\n var last = parts[i];\n\n if (last === '.') {\n parts.splice(i, 1);\n } else if (last === '..') {\n parts.splice(i, 1);\n up++;\n } else if (up) {\n parts.splice(i, 1);\n up--;\n }\n } // if the path is allowed to go above the root, restore leading ..s\n\n\n if (allowAboveRoot) {\n for (; up--; up) {\n parts.unshift('..');\n }\n }\n\n return parts;\n } // Split a filename into [root, dir, basename, ext], unix version", "function resolve() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n var resolvedPath = '';\n var resolvedAbsolute = false;\n for (var i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = i >= 0 ? args[i] : '/';\n // Skip empty entries\n if (!path) {\n continue;\n }\n resolvedPath = path + \"/\" + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n // Normalize the path\n resolvedPath = normalizeArray(resolvedPath.split('/').filter(function (p) { return !!p; }), !resolvedAbsolute).join('/');\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\n}", "function resolve() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n var resolvedPath = '';\n var resolvedAbsolute = false;\n for (var i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = i >= 0 ? args[i] : '/';\n // Skip empty entries\n if (!path) {\n continue;\n }\n resolvedPath = path + \"/\" + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n // Normalize the path\n resolvedPath = normalizeArray(resolvedPath.split('/').filter(function (p) { return !!p; }), !resolvedAbsolute).join('/');\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\n}", "function resolve() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n var resolvedPath = '';\n var resolvedAbsolute = false;\n for (var i = args.length - 1; i >= -1 && !resolvedAbsolute; i--) {\n var path = i >= 0 ? args[i] : '/';\n // Skip empty entries\n if (!path) {\n continue;\n }\n resolvedPath = path + \"/\" + resolvedPath;\n resolvedAbsolute = path.charAt(0) === '/';\n }\n // At this point the path should be resolved to a full absolute path, but\n // handle relative paths to be safe (might happen when process.cwd() fails)\n // Normalize the path\n resolvedPath = normalizeArray(resolvedPath.split('/').filter(function (p) { return !!p; }), !resolvedAbsolute).join('/');\n return (resolvedAbsolute ? '/' : '') + resolvedPath || '.';\n}", "function normalizeStringPosix(path, allowAboveRoot) {\n let res = '';\n let lastSegmentLength = 0;\n let lastSlash = -1;\n let dots = 0;\n let code;\n for (let i = 0; i <= path.length; ++i) {\n if (i < path.length) {\n code = path.charCodeAt(i);\n }\n else if (code === 47 /*/*/) {\n break;\n }\n else {\n code = 47 /*/*/;\n }\n if (code === 47 /*/*/) {\n if (lastSlash === i - 1 || dots === 1) {\n // NOOP\n }\n else if (lastSlash !== i - 1 && dots === 2) {\n if (res.length < 2 ||\n lastSegmentLength !== 2 ||\n res.charCodeAt(res.length - 1) !== 46 /*.*/ ||\n res.charCodeAt(res.length - 2) !== 46 /*.*/) {\n if (res.length > 2) {\n const lastSlashIndex = res.lastIndexOf('/');\n if (lastSlashIndex !== res.length - 1) {\n if (lastSlashIndex === -1) {\n res = '';\n lastSegmentLength = 0;\n }\n else {\n res = res.slice(0, lastSlashIndex);\n lastSegmentLength = res.length - 1 - res.lastIndexOf('/');\n }\n lastSlash = i;\n dots = 0;\n continue;\n }\n }\n else if (res.length === 2 || res.length === 1) {\n res = '';\n lastSegmentLength = 0;\n lastSlash = i;\n dots = 0;\n continue;\n }\n }\n if (allowAboveRoot) {\n if (res.length > 0)\n res += '/..';\n else\n res = '..';\n lastSegmentLength = 2;\n }\n }\n else {\n if (res.length > 0)\n res += '/' + path.slice(lastSlash + 1, i);\n else\n res = path.slice(lastSlash + 1, i);\n lastSegmentLength = i - lastSlash - 1;\n }\n lastSlash = i;\n dots = 0;\n }\n else if (code === 46 /*.*/ && dots !== -1) {\n ++dots;\n }\n else {\n dots = -1;\n }\n }\n return res;\n}", "function $UUq2$var$normalizeArray(parts, allowAboveRoot) {\n // if the path tries to go above the root, `up` ends up > 0\n var up = 0;\n\n for (var i = parts.length - 1; i >= 0; i--) {\n var last = parts[i];\n\n if (last === '.') {\n parts.splice(i, 1);\n } else if (last === '..') {\n parts.splice(i, 1);\n up++;\n } else if (up) {\n parts.splice(i, 1);\n up--;\n }\n } // if the path is allowed to go above the root, restore leading ..s\n\n\n if (allowAboveRoot) {\n for (; up--; up) {\n parts.unshift('..');\n }\n }\n\n return parts;\n} // path.resolve([from ...], to)", "function globifyPath(path) {\n\treturn path.replace(/\\/|\\\\$/, \"\").replace(/\\\\/g, \"/\");\n}", "function realpath(path) {\n\t// /a/b/./c/./d ==> /a/b/c/d\n\tpath = path.replace(DOT_RE, \"/\");\n\n\t// a/b/c/../../d ==> a/b/../d ==> a/d\n\twhile (path.match(DOUBLE_DOT_RE)) {\n\t\tpath = path.replace(DOUBLE_DOT_RE, \"/\");\n\t}\n\n\treturn path;\n}", "function trimArray(arr){var lastIndex=arr.length-1;var start=0;for(;start<=lastIndex;start++){if(arr[start])break}var end=lastIndex;for(;end>=0;end--){if(arr[end])break}if(start===0&&end===lastIndex)return arr;if(start>end)return[];return arr.slice(start,end+1)}// Regex to split a windows path into three parts: [*, device, slash,", "function normalizeStringPosix(path, allowAboveRoot) {\n var res = '';\n var lastSlash = -1;\n var dots = 0;\n var code;\n for (var i = 0; i <= path.length; ++i) {\n if (i < path.length) code = path.charCodeAt(i);else if (code === 47 /*/*/) break;else code = 47 /*/*/;\n if (code === 47 /*/*/) {\n if (lastSlash === i - 1 || dots === 1) {\n // NOOP\n } else if (lastSlash !== i - 1 && dots === 2) {\n if (res.length < 2 || res.charCodeAt(res.length - 1) !== 46 /*.*/ || res.charCodeAt(res.length - 2) !== 46 /*.*/) {\n if (res.length > 2) {\n const start = res.length - 1;\n var j = start;\n for (; j >= 0; --j) {\n if (res.charCodeAt(j) === 47 /*/*/) break;\n }\n if (j !== start) {\n if (j === -1) res = '';else res = res.slice(0, j);\n lastSlash = i;\n dots = 0;\n continue;\n }\n } else if (res.length === 2 || res.length === 1) {\n res = '';\n lastSlash = i;\n dots = 0;\n continue;\n }\n }\n if (allowAboveRoot) {\n if (res.length > 0) res += '/..';else res = '..';\n }\n } else {\n if (res.length > 0) res += '/' + path.slice(lastSlash + 1, i);else res = path.slice(lastSlash + 1, i);\n }\n lastSlash = i;\n dots = 0;\n } else if (code === 46 /*.*/ && dots !== -1) {\n ++dots;\n } else {\n dots = -1;\n }\n }\n return res;\n }", "function parseCd (path, cd) {\n\n cdA = cd.split(\"/\");\n\n console.log(cdA);\n\n for (x in cdA) {\n\n console.log(cdA[x]+'\\n');\n\n if (cdA[x] == '..') {\n\n return;\n\n // saw = 0;\n\n // while (saw == 0){\n\n // if (path[-1] == '/') saw = 1;\n\n // path = path.slice(0, -1);\n\n // }\n\n }\n\n\n\n else path += (cdA[x] + '/');\n\n }\n\n\n\n return path;\n\n}", "function __ncc_wildcard$0 (arg) {\n if (arg === \"cat.js\" || arg === \"cat\") return __webpack_require__(271);\n else if (arg === \"cd.js\" || arg === \"cd\") return __webpack_require__(2051);\n else if (arg === \"chmod.js\" || arg === \"chmod\") return __webpack_require__(4975);\n else if (arg === \"common.js\" || arg === \"common\") return __webpack_require__(3687);\n else if (arg === \"cp.js\" || arg === \"cp\") return __webpack_require__(4932);\n else if (arg === \"dirs.js\" || arg === \"dirs\") return __webpack_require__(1178);\n else if (arg === \"echo.js\" || arg === \"echo\") return __webpack_require__(243);\n else if (arg === \"error.js\" || arg === \"error\") return __webpack_require__(232);\n else if (arg === \"exec-child.js\" || arg === \"exec-child\") return __webpack_require__(9607);\n else if (arg === \"exec.js\" || arg === \"exec\") return __webpack_require__(896);\n else if (arg === \"find.js\" || arg === \"find\") return __webpack_require__(7838);\n else if (arg === \"grep.js\" || arg === \"grep\") return __webpack_require__(7417);\n else if (arg === \"head.js\" || arg === \"head\") return __webpack_require__(6613);\n else if (arg === \"ln.js\" || arg === \"ln\") return __webpack_require__(5787);\n else if (arg === \"ls.js\" || arg === \"ls\") return __webpack_require__(5561);\n else if (arg === \"mkdir.js\" || arg === \"mkdir\") return __webpack_require__(2695);\n else if (arg === \"mv.js\" || arg === \"mv\") return __webpack_require__(9849);\n else if (arg === \"popd.js\" || arg === \"popd\") return __webpack_require__(227);\n else if (arg === \"pushd.js\" || arg === \"pushd\") return __webpack_require__(4177);\n else if (arg === \"pwd.js\" || arg === \"pwd\") return __webpack_require__(8553);\n else if (arg === \"rm.js\" || arg === \"rm\") return __webpack_require__(2830);\n else if (arg === \"sed.js\" || arg === \"sed\") return __webpack_require__(5899);\n else if (arg === \"set.js\" || arg === \"set\") return __webpack_require__(6366);\n else if (arg === \"sort.js\" || arg === \"sort\") return __webpack_require__(2116);\n else if (arg === \"tail.js\" || arg === \"tail\") return __webpack_require__(2284);\n else if (arg === \"tempdir.js\" || arg === \"tempdir\") return __webpack_require__(6150);\n else if (arg === \"test.js\" || arg === \"test\") return __webpack_require__(9723);\n else if (arg === \"to.js\" || arg === \"to\") return __webpack_require__(1961);\n else if (arg === \"toEnd.js\" || arg === \"toEnd\") return __webpack_require__(3736);\n else if (arg === \"touch.js\" || arg === \"touch\") return __webpack_require__(8358);\n else if (arg === \"uniq.js\" || arg === \"uniq\") return __webpack_require__(7286);\n else if (arg === \"which.js\" || arg === \"which\") return __webpack_require__(4766);\n}", "function path(input) {\n if(input == null) return input\n let returnObj = {}\n\n returnObj.root = input.startsWith('/') ? '/' : ''\n\n let dirs = input.split('/')\n returnObj.base = dirs.pop()\n returnObj.dir = dirs.join('/')\n\n let file = returnObj.base.split('.')\n returnObj.ext = '.' + file.pop()\n returnObj.name = file.shift()\n\n return returnObj\n}", "function buildPathArray(prefix, paths) {\n\tvar list = [];\n\tprefix = prefix || \"\";\n\t\n\tfor (var u = 0; u < paths.length; u++)\n\tlist.push(prefix + paths[u]);\n\t\n\treturn list;\n}", "function normalizePath(path) { return path.replace(/\\\\/g, '/') }", "findPath(fromDevice, toDevice) {\n // Handle the empty path first.\n if (fromDevice === toDevice) {\n return [];\n }\n const walk = (from, to, links) => {\n for (let i = 0; i < links.length; i++) {\n const link = links[i];\n if (link[0].device === from) {\n if (link[1].device === to) {\n return [ [ link[0], link[1] ] ];\n }\n else {\n const nlinks = [].concat(links);\n nlinks.splice(i, 1);\n const r = walk(link[1].device, to, nlinks);\n if (r) {\n r.unshift([ link[0], link[1] ] );\n return r;\n }\n }\n }\n else if (link[1].device === from) {\n if (link[0].device === to) {\n return [ [ link[1], link[0] ] ];\n }\n else {\n const nlinks = [].concat(links);\n nlinks.splice(i, 1);\n const r = walk(link[0].device, to, nlinks);\n if (r) {\n r.unshift([ link[1], link[0] ]);\n return r;\n }\n }\n }\n }\n return null;\n }\n return walk(fromDevice, toDevice, this._topology);\n }", "function removePath(...args) {\n return R.dissocPath(...args);\n}" ]
[ "0.6256403", "0.60911584", "0.59586495", "0.59263116", "0.5910633", "0.5872318", "0.58496606", "0.5819388", "0.5760077", "0.5742037", "0.5710566", "0.5640613", "0.5557485", "0.5512614", "0.54774433", "0.5438204", "0.5434192", "0.5434087", "0.542859", "0.54018843", "0.5399512", "0.5389845", "0.5378007", "0.53702295", "0.5363854", "0.5328652", "0.53235054", "0.53096604", "0.5297415", "0.52971375", "0.52927136", "0.52845633", "0.5280964", "0.5277231", "0.5261595", "0.5261315", "0.52501625", "0.52499807", "0.5240258", "0.52368647", "0.52290285", "0.5223087", "0.52229005", "0.52209324", "0.5217992", "0.52106816", "0.52088165", "0.52082205", "0.52014977", "0.52010643", "0.5193158", "0.5192811", "0.5192562", "0.5192562", "0.5192562", "0.5182327", "0.5182327", "0.5182327", "0.5182327", "0.5182327", "0.517789", "0.5177358", "0.5174132", "0.5166671", "0.5160323", "0.51524633", "0.5147662", "0.5147152", "0.5145212", "0.5145116", "0.5143524", "0.5141841", "0.51401657", "0.5139742", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.5138875", "0.51342565", "0.5130331", "0.5130331", "0.5130331", "0.512455", "0.5123535", "0.51206887", "0.51151633", "0.51072687", "0.5100773", "0.51001734", "0.5080776", "0.5079958", "0.50764364", "0.5073477", "0.50719064", "0.5068629" ]
0.0
-1
Converts a name lex token into a name parse node.
function parseName(lexer) { var token = expect(lexer, _lexer.TokenKind.NAME); return { kind: _kinds.NAME, value: token.value, loc: loc(lexer, token) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseName() {\n const token = this.expectToken(TokenKind.NAME);\n return this.node(token, {\n kind: Kind.NAME,\n value: token.value,\n });\n }", "function parseName(lexer) {\n\t var token = expect(lexer, _lexer.TokenKind.NAME);\n\t return {\n\t kind: _kinds.NAME,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t}", "function parseName(lexer) {\n\t var token = expect(lexer, _lexer.TokenKind.NAME);\n\t return {\n\t kind: _kinds.NAME,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t}", "function parseName(lexer) {\n var token = expect(lexer, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expect(lexer, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expect(lexer, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expect(lexer, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expect(lexer, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expectToken(lexer, TokenKind.NAME);\n return {\n kind: Kind.NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(lexer) {\n var token = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NAME,\n value: token.value,\n loc: loc(lexer, token)\n };\n}", "function parseName(parser) {\n\t var token = expect(parser, _lexer.TokenKind.NAME);\n\t return {\n\t kind: _kinds.NAME,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t}", "function parseName(parser) {\n var token = expect(parser, _lexer.TokenKind.NAME);\n return {\n kind: _kinds.NAME,\n value: token.value,\n loc: loc(parser, token.start)\n };\n}", "function parseName(lexer$$1) {\n var token = expect(lexer$$1, lexer.TokenKind.NAME);\n return {\n kind: kinds.NAME,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n}", "function parseNameExpression() {\n var name = value, rangeStart = index - name.length;\n expect(Token.NAME);\n\n if (token === Token.COLON && (\n name === 'module' ||\n name === 'external' ||\n name === 'event')) {\n consume(Token.COLON);\n name += ':' + value;\n expect(Token.NAME);\n }\n\n return maybeAddRange({\n type: Syntax.NameExpression,\n name: name\n }, [rangeStart, previous]);\n }", "function parseName(tag) {\n\tlet name = tag.name\n\tname = name.replace(/_/g, ' ');\n\tname = name.replace(/\\b\\w/g, l => l.toUpperCase());\n\treturn name;\n}", "function readName(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start + 1;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position);\n\n if (isNameContinue(code)) {\n ++position;\n } else {\n break;\n }\n }\n\n return createToken(\n lexer,\n TokenKind.NAME,\n start,\n position,\n body.slice(start, position),\n );\n}", "parse_name() {\n let start = this.pos - 1;\n let end = this.pos;\n let done = false;\n while (!done) {\n switch (this.ch) {\n case -1:\n done = true;\n end = this.pos;\n break;\n\n case 95: // '_'\n case 47: // '/'\n case 45: // '-'\n end = this.pos;\n this.read();\n break;\n\n default:\n if ((this.ch >= 48 && this.ch <= 57) || // 0-9\n (this.ch >= 65 && this.ch <= 90) || // A-Z\n (this.ch >= 97 && this.ch <= 122) || // a-z\n this.ch >= 128) { // unicode\n end = this.pos;\n this.read();\n } else {\n done = true;\n }\n }\n }\n this.value = this.input.slice(start, end);\n let kw = keywords.get(this.value);\n if (kw) {\n this.token = kw;\n } else {\n this.token = -8;\n }\n }", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n }", "function symbol(name){\r\n return lexeme(string(name));\r\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "parseVarName() {\n const token = this.input.next();\n if (token.type != \"var\") this.input.croak(\"Expect variable name\");\n return token.value;\n }", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function parseIdentifier() {\n next();\n state.tokens[state.tokens.length - 1].type = TokenType.name;\n}", "function name(style) {\n return {\n style: style,\n match: function match(token) {\n return token.kind === 'Name';\n },\n update: function update(state, token) {\n state.name = token.value;\n }\n };\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function readName(source, position, line, col, prev) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122 // a-z\n\t )) {\n\t ++end;\n\t }\n\t return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n\t}", "function readName(source, position, line, col, prev) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122) // a-z\n\t ) {\n\t ++end;\n\t }\n\t return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n\t}", "function readName(source, position) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122) // a-z\n\t ) {\n\t ++end;\n\t }\n\t return makeToken(TokenKind.NAME, position, end, slice.call(body, position, end));\n\t}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122 // a-z\n )) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, position) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++end;\n }\n return makeToken(TokenKind.NAME, position, end, slice.call(body, position, end));\n}", "function Token(name) {\n name = String(name);\n return primFreeze({\n toString: markFuncFreeze(function tokenToString() { return name; }),\n throwable___: true\n });\n }", "function Token(name) {\r\n this.name = name;\r\n this._tokenStructuralPropertyT = null;\r\n }", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new ast[\"b\" /* Token */](TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function Token(name) {\n this.name = name;\n this._tokenStructuralPropertyT = null;\n }", "function parseUser(token) {\n let name;\n jwt.verify(token, env.access_token_secret, (err, username) => {\n if (!err) {\n name = username;\n }\n });\n return name;\n}", "function createNameNode() {\n return jsonldUtils.createBlankNode({ '@type': TYPE.Name });\n}", "function createName(name) {\n const nameElement = createElement({ tagName: 'span', className: 'name' });\n nameElement.innerText = name;\n \n return nameElement;\n }", "function getSimpleName(name)\n {\n return name.substr(0, ((name.indexOf(' ') === -1)? name.length : name.indexOf(' ')));\n }", "function parse_node_name(name) {\n\t\t// is it a \"modifier\" style class\n\t\tvar is_a_modifier = false;\n\t\n\t\t// detect modifier style classes\n\t\tif ((0, _helpers.starts_with)(name, '&')) {\n\t\t\tname = name.substring('&'.length);\n\t\t\tis_a_modifier = true;\n\t\t}\n\t\n\t\t// support old-school CSS syntax\n\t\tif ((0, _helpers.starts_with)(name, '.')) {\n\t\t\tname = name.substring('.'.length);\n\t\t}\n\t\n\t\t// if there is a trailing colon in the style class name - trim it\n\t\t// (Python people with yaml-alike syntax)\n\t\tif ((0, _helpers.ends_with)(name, ':')) {\n\t\t\tname = name.substring(0, name.length - ':'.length);\n\t\t\t// throw new Error(`Remove the trailing colon at line: ${original_line}`)\n\t\t}\n\t\n\t\treturn { name: name, is_a_modifier: is_a_modifier };\n\t}", "function convertName(name) {\n if (name == 'TBA') return name;\n let arr = name.split(', ');\n lastName = arr[0];\n firstName = arr[1];\n\n titleRegex = /\\([A-Za-z]+\\)/;\n if (titleRegex.test(firstName)) {\n const title = firstName.match(titleRegex);\n firstName = firstName.replace(titleRegex, '')\n firstName = lowerLetters(firstName);\n lastName = lowerLetters(lastName);\n lastName += ` ${title}`;\n } else {\n firstName = lowerLetters(firstName);\n lastName = lowerLetters(lastName);\n }\n\n let result = `${firstName} ${lastName}`;\n return result;\n}", "function parse_node_name(name) {\n\t// is it a \"modifier\" style class\n\tvar is_a_modifier = false;\n\n\t// detect modifier style classes\n\tif ((0, _helpers.starts_with)(name, '&')) {\n\t\tname = name.substring('&'.length);\n\t\tis_a_modifier = true;\n\t}\n\n\t// support old-school CSS syntax\n\tif ((0, _helpers.starts_with)(name, '.')) {\n\t\tname = name.substring('.'.length);\n\t}\n\n\t// if there is a trailing colon in the style class name - trim it\n\t// (Python people with yaml-alike syntax)\n\tif ((0, _helpers.ends_with)(name, ':')) {\n\t\tname = name.substring(0, name.length - ':'.length);\n\t\t// throw new Error(`Remove the trailing colon at line: ${original_line}`)\n\t}\n\n\treturn { name: name, is_a_modifier: is_a_modifier };\n}", "_readNamedGraphLabel(token) {\n switch (token.type) {\n case 'IRI':\n case 'blank':\n case 'prefixed':\n return this._readSubject(token), this._readGraph;\n\n case '[':\n return this._readNamedGraphBlankLabel;\n\n default:\n return this._error('Invalid graph label', token);\n }\n }", "function toIdentifier(name) {\n if (t.isIdentifier(name)) return name.name;\n\n name = name + \"\";\n\n // replace all non-valid identifiers with dashes\n name = name.replace(/[^a-zA-Z0-9$_]/g, \"-\");\n\n // remove all dashes and numbers from start of name\n name = name.replace(/^[-0-9]+/, \"\");\n\n // camel case\n name = name.replace(/[-\\s]+(.)?/g, function (match, c) {\n return c ? c.toUpperCase() : \"\";\n });\n\n if (!t.isValidIdentifier(name)) {\n name = \"_\" + name;\n }\n\n return name || \"_\";\n}", "_readNamedGraphLabel(token) {\n switch (token.type) {\n case 'IRI':\n case 'blank':\n case 'prefixed':\n return this._readSubject(token), this._readGraph;\n case '[':\n return this._readNamedGraphBlankLabel;\n default:\n return this._error('Invalid graph label', token);\n }\n }", "function name(name) {\n return name;\n }", "['@_name']() {\n super['@_name']();\n if (this._value.name) return;\n\n this._value.name = this._node.declarations[0].id.name;\n }", "function parseName(name) {\n\t\tvar length = name.length;\n\t\tvar county = name.substring(0, length - 10).toLowerCase();\n\t\t\n\t\treturn county.replace(/\\s/g, '');\n\t}", "function toIdentifier(name){\n\tvar parts = name.split(/\\W+/)\n\tparts = _.map(parts, function(part){\n\t\treturn part.replace(/^./, function(chr){ return chr.toUpperCase() })\n\t})\n\t\n\treturn parts.join('')\n}", "function parseFragmentName(parser) {\n\t if (parser.token.value === 'on') {\n\t throw unexpected(parser);\n\t }\n\t return parseName(parser);\n\t}", "function getTidyName(name) {\n return name.split(\"(\")[0];\n }", "function parseFragmentName(parser) {\n if (parser.token.value === 'on') {\n throw unexpected(parser);\n }\n return parseName(parser);\n}", "function toIdentifier(name) {\n\t if (t.isIdentifier(name)) return name.name;\n\n\t name = name + \"\";\n\n\t // replace all non-valid identifiers with dashes\n\t name = name.replace(/[^a-zA-Z0-9$_]/g, \"-\");\n\n\t // remove all dashes and numbers from start of name\n\t name = name.replace(/^[-0-9]+/, \"\");\n\n\t // camel case\n\t name = name.replace(/[-\\s]+(.)?/g, function (match, c) {\n\t return c ? c.toUpperCase() : \"\";\n\t });\n\n\t if (!t.isValidIdentifier(name)) {\n\t name = \"_\" + name;\n\t }\n\n\t return name || \"_\";\n\t}" ]
[ "0.78040475", "0.7478694", "0.7478694", "0.74510324", "0.74510324", "0.74510324", "0.74510324", "0.74510324", "0.7436509", "0.7434923", "0.7361506", "0.7329967", "0.7329967", "0.7211023", "0.71690416", "0.70296836", "0.5992738", "0.5884825", "0.5857028", "0.57604516", "0.5743507", "0.573602", "0.57076836", "0.5663768", "0.5663768", "0.5663768", "0.5656449", "0.5656449", "0.5656449", "0.56365913", "0.56365913", "0.56313837", "0.56313837", "0.56313837", "0.56313837", "0.5621348", "0.5621348", "0.5621348", "0.5621348", "0.5621348", "0.5621348", "0.55948937", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.55890083", "0.5583364", "0.55822223", "0.5575591", "0.55489635", "0.55485994", "0.55454654", "0.55454654", "0.5535406", "0.5512763", "0.5512763", "0.55065066", "0.55021894", "0.5500532", "0.5479457", "0.5479457", "0.5479457", "0.5479457", "0.5479457", "0.5479457", "0.5474567", "0.54682416", "0.5442885", "0.5441234", "0.540647", "0.5396526", "0.5387132", "0.53446186", "0.5310593", "0.527881", "0.5255752", "0.5197591", "0.5193242", "0.51851463", "0.5172793", "0.5161813", "0.5160422", "0.51348865", "0.5129686", "0.51290035", "0.51118255", "0.51085365", "0.50908166", "0.5084692" ]
0.74547267
8
Implements the parsing rules in the Document section. Document : Definition+
function parseDocument(lexer) { var start = lexer.token; expect(lexer, _lexer.TokenKind.SOF); var definitions = []; do { definitions.push(parseDefinition(lexer)); } while (!skip(lexer, _lexer.TokenKind.EOF)); return { kind: _kinds.DOCUMENT, definitions: definitions, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseDocument() {\n return this.node(this._lexer.token, {\n kind: Kind.DOCUMENT,\n definitions: this.many(\n TokenKind.SOF,\n this.parseDefinition,\n TokenKind.EOF,\n ),\n });\n }", "constructor(schema, rules) {\n this.schema = schema;\n this.rules = rules;\n this.tags = [];\n this.styles = [];\n rules.forEach((rule) => {\n if (rule.tag)\n this.tags.push(rule);\n else if (rule.style)\n this.styles.push(rule);\n });\n this.normalizeLists = !this.tags.some((r) => {\n if (!/^(ul|ol)\\b/.test(r.tag) || !r.node)\n return false;\n let node = schema.nodes[r.node];\n return node.contentMatch.matchType(node);\n });\n }", "function parse()\n{\n\trules=[];\n\t//if(document.getElementById(\"schematext\").value.length>0){schema=JSON.parse(document.getElementById(\"schematext\").value);}\n\t//else{\n\t\tschema=defaultSchema;\n\t//}//by default schema.json is loaded from the web page's folder, no need to paste it every time unless you need to change it\n\tvar line;var matched;var displayName;\n\tlines=document.getElementById(\"ruletext\").value.split(\"\\n\");\nfor(linenumber=0;linenumber<lines.length;linenumber++)\n{\n\tif(lines[linenumber].length==0){continue;}\n\tline=lines[linenumber];\n\tmatched=line.match(\".+?:\");if(!matched){continue;}\n\tlineheader=matched[0].substring(0,matched[0].length-1);line=line.substring(matched[0].length).trim();\n\tswitch (lineheader)\n\t{\n\t\tcase \"name\":\n\t\t\trule={};rules.push(rule);\n\t\t\tvar dni=line.indexOf(\",\");//display name index\n\t\t\tdisplayName=null;\n\t\t\tif(dni!=-1){displayName=line.substring(dni+1).trim();line=line.substring(0,dni).trim();}\n\t\t\trule.name=line.trim();if(displayName){rule.displayName=displayName;}\n\t\t\tbreak;\n\t\tcase 'leads to':\n\t\t\tvar rulenames=line.split(\",\");\n\t\t\tfor(var i=0;i<rulenames.length;i++)\n\t\t\t{\n\t\t\t\trulenames[i]=rulenames[i].trim();\n\t\t\t}\n\t\t\trule.leadsTo=rulenames;\n\t\t\tbreak;\n\t\tcase 'intent':\n\t\t\taddIntent(line.trim());\n\t\t\tbreak;\n\t\tcase 'conditions':\n\t\t\tvar conditions=line.split(\";\");if(\"conditions\" in rule==false){rule.conditions=[];}\n\t\t\tfor(var i=0;i<conditions.length;i++)\n\t\t\t{\n\t\t\t\trule.conditions.push(createCondition(conditions[i].trim()));\n\t\t\t}\n\t\t\tbreak;\n\t\tcase 'effects':\n\t\t\tvar c=line.match(\"if\\\\s.+?:\");//conditional clause\n\t\t\tif(c)\n\t\t\t{//then all effects on this line are subject to this condition\n\t\t\t\t//note that for now allowing multiple conditions is not a good idea because conditions can only be connected with AND not OR, so generating negation of multiple conditions is pretty inefficient; better save this until we can use OR to connect conditions in Ensemble\n\t\t\t\tvar condEff={};\n\t\t\t\tvar condition=c[0].substring(2,c[0].length-1).trim();\n\t\t\t\tcondEff.condition=createCondition(condition);\n\t\t\t\tline=line.substring(c[0].length).trim();\n\t\t\t\t//check for else clause\n\t\t\t\tvar ec=line.match(\".*?else\\\\s*:\");//else clause\n\t\t\t\tif(ec)\n\t\t\t\t{\n\t\t\t\t\tvar elseEff={};condEff.elseEffects=[];\n\t\t\t\t\tvar elseEffects=line.substring(ec[0].length).split(\";\");//effects after the else:\n\t\t\t\t\tfor(var i=0;i<elseEffects.length;i++)\n\t\t\t\t\t{\t\n\t\t\t\t\t\tif(elseEffects[i].trim()){condEff.elseEffects.push(createEffect(elseEffects[i].trim()));}\n\t\t\t\t\t}\n\t\t\t\t\tline=line.substring(0,line.length-line.match(\"else\\\\s*:.*\")[0].length).trim();\n\t\t\t\t}\n\t\t\t\telse{condEff.elseEffects=[];}\n\t\t\t\tvar effects=line.split(\";\");condEff.effects=[];\n\t\t\t\tfor(var i=0;i<effects.length;i++)\n\t\t\t\t{\n\t\t\t\t\tif(effects[i].trim()){condEff.effects.push(createEffect(effects[i].trim()));}\n\t\t\t\t}\n\t\t\t\tif(\"effects\" in rule==false){rule.effects=[];}\n\t\t\t\trule.effects.push(condEff);//a conditional effect object in the list, will be split later\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\tvar effects=line.split(\";\");if(\"effects\" in rule==false){rule.effects=[];}\n\t\t\t\tfor(var i=0;i<effects.length;i++)\n\t\t\t\t{\n\t\t\t\t\trule.effects.push(createEffect(effects[i].trim()));\n\t\t\t\t}\n\t\t\t}\n\t\t\tbreak;\n\t\tcase \"is accept\":\n\t\t\tif(line.match(\"true\")){rule.isAccept=true;}\n\t\t\tif(line.match(\"false\")){rule.isAccept=false;}\n\t\tdefault: formatError(\"unknown line header\");\n\t}\n\t\n}\nfor(var i=0;i<rules.length;i++){sanitize(rules[i]);}//add necessary attributes like influence rules that I'm not using, and also split conditional rules until they are no longer conditional\nsplitRules();\nvar ruleobj={fileName:\"actions.json\",actions:rules};\ncif.clearActionLibrary();//modified cif.js to add this one\nactions = cif.addActions(ruleobj);\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.DOCUMENT,\n definitions: many(lexer, _lexer.TokenKind.SOF, parseDefinition, _lexer.TokenKind.EOF),\n loc: loc(lexer, start)\n };\n}", "constructor(rules, main) {\n this.main = main\n this.rules = {}\n for(var i=0; i<rules.length; i++) {\n this.rules[rules[i].type] = rules[i]\n rules[i].parser = this\n } \n }", "function parseDocument(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SOF);\n\t var definitions = [];\n\t do {\n\t definitions.push(parseDefinition(lexer));\n\t } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n\t return {\n\t kind: _kinds.DOCUMENT,\n\t definitions: definitions,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseDocument(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SOF);\n\t var definitions = [];\n\t do {\n\t definitions.push(parseDefinition(lexer));\n\t } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n\t return {\n\t kind: _kinds.DOCUMENT,\n\t definitions: definitions,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function rule_def(peg_parser, tree_obj){\n\t\t//console.log(tree_obj);\n\t\tvar rule_name = tree_obj.rule_name.value;\n\t\tif (tree_obj.term === undefined){\n\t\t\tthrow \"Rule \" + rule_name + \" has no associated term.\";\n\t\t}\n\t\tpeg_parser.rule(rule_name, \n\t\t\tterm(peg_parser, tree_obj.term)\n\t\t);\n\t}", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: Kind.DOCUMENT,\n definitions: many(lexer, TokenKind.SOF, parseDefinition, TokenKind.EOF),\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer$$1) {\n var start = lexer$$1.token;\n expect(lexer$$1, lexer.TokenKind.SOF);\n var definitions = [];\n do {\n definitions.push(parseDefinition(lexer$$1));\n } while (!skip(lexer$$1, lexer.TokenKind.EOF));\n\n return {\n kind: kinds.DOCUMENT,\n definitions: definitions,\n loc: loc(lexer$$1, start)\n };\n}", "function buildParsed(lines, pos) {\n // EXAMPLE DOC\n /**/// Public: does_something\n /**///\n /**/// Args\n /**/// arg1 - the_arg_value\n /**/// arg2 - the_arg_value\n /**///\n /**/// Returns\n /**/// return - the_return_value\n /**///\n /**/// Notes\n /**/// note - note_multi_line_requires\n /**/// a_set_of_doc_markers\n var docList = []\n , currentDoc = null\n , argMark = false\n , returnMark = false\n , noteMark = false\n for (i=0;i<pos.length;i++) {\n var line = lines[pos[i]]\n //handle initial line\n if ( line.indexOf('Public') > 0\n || line.indexOf('Private') > 0) {\n // if the object exists, we are at a new object so push the current\n if (currentDoc)\n docList.push(currentDoc)\n // start a new object\n var priv = (line.indexOf('Public') > 0) ? 'Public' : 'Private'\n , split = line.split(':')\n , name = split[1].trim()\n currentDoc = new section(priv, name)\n } else if (line.indexOf('Args') > 0) {\n argMark = true\n } else if (line.indexOf('Returns') > 0) {\n returnMark = true\n } else if (line.indexOf('Notes') > 0) {\n noteMark = true\n } else {\n var j = i\n while (argMark) {\n var argLine = lines[pos[j]]\n if (argLine) {\n if ( argLine.indexOf('Returns') > 0\n || argLine.indexOf('Notes') > 0\n || argLine.indexOf('Public') > 0\n || argLine.indexOf('Private') > 0) {\n argMark = false\n i = j - 1\n } else {\n currentDoc.argList.push(argLine.replace('/**/// ',''))\n j++\n }\n } else {\n argMark = false\n i = j - 1\n }\n }\n while (returnMark) {\n var returnLine = lines[pos[j]]\n if (returnLine) {\n if ( returnLine.indexOf('Notes') > 0\n || returnLine.indexOf('Public') > 0\n || returnLine.indexOf('Private') > 0) {\n returnMark = false\n i = j - 1\n } else {\n currentDoc.ret += returnLine.replace('/**/// ','')\n j++\n }\n } else {\n i = j - 1\n returnMark = false\n }\n }\n while (noteMark) {\n var noteLine = lines[pos[j]]\n if (noteLine) {\n if ( noteLine.indexOf('Public') > 0\n || noteLine.indexOf('Private') > 0) {\n noteMark = false\n i = j - 1\n } else {\n currentDoc.notes += noteLine.replace('/**/// ','')\n j++\n }\n } else {\n i = j -1\n noteMark = false\n }\n }\n }\n } // END for\n if (currentDoc)\n docList.push(currentDoc)\n /*\n DEBUG\n */\n //console.log(docList)\n\n return docList\n}", "each_definition_word(word) {\n var that = this;\n word.obj = {};\n if (word.obj_values.length !== qiki.LexClient.N_DEFINITION) {\n that.scan_fail(\"Definition should have 3 obj parts, not:\", word.obj_values);\n }\n word.obj.parent = word.obj_values[qiki.LexClient.I_DEFINITION_PARENT];\n word.obj.name = word.obj_values[qiki.LexClient.I_DEFINITION_NAME];\n word.obj.fields = word.obj_values[qiki.LexClient.I_DEFINITION_FIELDS];\n word.obj_values = null;\n\n // NOTE: There are definition words and reference words. A reference word has a vrb\n // containing the idn of its definition word. All words have multiple named obj\n // parts aka fields. The named obj parts of a definition word are: parent,\n // name, fields. The named obj parts of a reference word are specified in its\n // definition word, inside its obj part named fields.\n //\n // For example, for unslumping.org, a \"caption\" gives a title to a contribution.\n // There is one caption definition-word and many caption reference-words.\n // The vrb of each caption reference-word is the idn of the caption\n // definition-word. A caption reference-word has 2 obj parts: contribution,\n // text. Its contribution field value contains the idn of a contribution\n // reference-word. Its text field value contains the text of the caption.\n // The caption definition-word specifies the 2 fields in its obj part \"fields\".\n // That is an array of the idns for the definition-words named \"contribution\" and\n // \"text\".\n //\n // TODO: Wouldn't it be cool if somehow this scheme could define itself. Then the\n // parts of all definition words would be specified as: define, text, sequence.\n // That is, the parts that are now named: parent, name, fields.\n // Maybe intermediate definitions would change these names akin to derived\n // classes. So a parent is another define word. A name is text. (Watch out for\n // name already being defined as something you apply to a user.) And fields is\n // a sequence of idns.\n // : : : in other words : : :\n // Doing this would require a few new definitions. (A definition is already\n // defined as a definition. A fields would need a new explicit definition as a\n // sequence. A name is already defined as something applied to a user.)\n // Then the define-word definition would define its fields as: parent, name,\n // fields. Instead of hard-coding them as they are here.\n // This would break the convention that definition-word fields are only used by\n // reference-words. Definitions that are used by other definitions all have\n // empty fields. So some kind of contradiction or special case might emerge.\n // Like when do a definition-word's fields apply to a child definition, and when\n // do they apply to a reference-word? Maybe there's no confusion here.\n // Then there's the possibility of defining and naming ALL word parts somewhere\n // in some definition: idn, whn, sbj, vrb.\n\n if (that.have_we_processed_the_definition_of(word.obj.name)) {\n that.scan_fail(\"Duplicate define\", that.by_idn[that.idn_of[word.obj.name]], word);\n }\n that.idn_of[word.obj.name] = word.idn;\n that.by_idn[word.idn] = word;\n }", "function parseDocument(parser) {\n\t var start = parser.token.start;\n\n\t var definitions = [];\n\t do {\n\t definitions.push(parseDefinition(parser));\n\t } while (!skip(parser, _lexer.TokenKind.EOF));\n\n\t return {\n\t kind: _kinds.DOCUMENT,\n\t definitions: definitions,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseDocument(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SOF);\n var definitions = [];\n do {\n definitions.push(parseDefinition(lexer));\n } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n return {\n kind: _kinds.Kind.DOCUMENT,\n definitions: definitions,\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SOF);\n var definitions = [];\n do {\n definitions.push(parseDefinition(lexer));\n } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n return {\n kind: _kinds.Kind.DOCUMENT,\n definitions: definitions,\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SOF);\n var definitions = [];\n do {\n definitions.push(parseDefinition(lexer));\n } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n return {\n kind: _kinds.Kind.DOCUMENT,\n definitions: definitions,\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SOF);\n var definitions = [];\n do {\n definitions.push(parseDefinition(lexer));\n } while (!skip(lexer, _lexer.TokenKind.EOF));\n\n return {\n kind: _kinds.Kind.DOCUMENT,\n definitions: definitions,\n loc: loc(lexer, start)\n };\n}", "static process_lines(lines)\r\n {\r\n if (DEBUG) console.log(`Processing ${lines.length} lines`);\r\n let doc = new Document();\r\n let definition = null;\r\n // Lists\r\n let actual_list = null;\r\n let actual_level = 0;\r\n // Main loop\r\n for (const [index, line] of lines.entries())\r\n {\r\n let text = undefined;\r\n let id = undefined;\r\n let value = undefined;\r\n // List\r\n if (actual_list !== null && line.type !== 'unordered_list'\r\n && line.type !== 'ordered_list'\r\n && line.type !== 'reverse_list')\r\n {\r\n doc.add_node(actual_list.root());\r\n actual_list = null;\r\n actual_level = 0;\r\n }\r\n let elem_is_unordered = false;\r\n let elem_is_ordered = false;\r\n let elem_is_reverse = false;\r\n switch (line.type)\r\n {\r\n case 'title':\r\n let lvl = 0;\r\n for (const char of line.value)\r\n {\r\n if (char === '#')\r\n {\r\n lvl += 1;\r\n }\r\n else\r\n {\r\n break;\r\n }\r\n }\r\n text = line.value.substring(lvl).trim();\r\n doc.add_node(new Title(doc, text, lvl));\r\n doc.add_label(doc.make_anchor(text), '#' + doc.make_anchor(text));\r\n break;\r\n case 'separator':\r\n doc.add_node(new HR(doc));\r\n break;\r\n case 'text':\r\n if (line.value.trim().startsWith('\\\\* ')) line.value = line.value.trim().substring(1);\r\n let n = Hamill.process_inner_string(doc, line.value);\r\n doc.add_node(new TextLine(doc, n));\r\n break;\r\n case 'unordered_list':\r\n elem_is_unordered = true;\r\n if (actual_list === null)\r\n {\r\n actual_list = new List(doc, null, false, false);\r\n actual_level = 1;\r\n }\r\n // next\r\n case 'ordered_list':\r\n if (line.type === 'ordered_list') elem_is_ordered = true;\r\n if (actual_list === null)\r\n {\r\n actual_list = new List(doc, null, true, false);\r\n actual_level = 1;\r\n }\r\n // next\r\n case 'reverse_list':\r\n if (line.type === 'reverse_list') elem_is_reverse = true;\r\n if (actual_list === null)\r\n {\r\n actual_list = new List(doc, null, true, true);\r\n actual_level = 1;\r\n }\r\n // common code\r\n // compute item level\r\n let delimiters = {'unordered_list': '* ', 'ordered_list': '+ ', 'reverse_list': '- '};\r\n let delimiter = delimiters[line.type];\r\n let list_level = Math.floor(line.value.indexOf(delimiter) / 2) + 1;\r\n // coherency\r\n if (list_level === actual_level)\r\n {\r\n if ((elem_is_unordered && (actual_list.ordered || actual_list.reverse))\r\n || (elem_is_ordered && !actual_list.ordered)\r\n || (elem_is_reverse && !actual_list.reverse))\r\n {\r\n throw new Error(`Incoherency with previous item ${actual_level} at this level ${list_level}: ul:${elem_is_unordered} ol:${elem_is_unordered} r:${elem_is_reverse} vs o:${actual_list.ordered} r:${actual_list.reverse}`);\r\n }\r\n }\r\n while (list_level > actual_level)\r\n {\r\n let last = actual_list.pop(); // get and remove the last item\r\n let c = new Composite(doc, actual_list); // create a new composite\r\n c.add_child(last); // put the old last item in it\r\n actual_list = actual_list.add_child(c); // link the new composite to the list\r\n let sub = new List(doc, c, elem_is_ordered, elem_is_reverse); // create a new list\r\n actual_list = actual_list.add_child(sub);\r\n actual_level += 1;\r\n }\r\n while (list_level < actual_level)\r\n {\r\n actual_list = actual_list.parent();\r\n actual_level -= 1;\r\n if (! actual_list instanceof List)\r\n {\r\n throw new Error(\"List incoherency: last element is not a list.\");\r\n }\r\n }\r\n // creation\r\n let item_text = line.value.substring(line.value.indexOf(delimiter) + 2).trim();\r\n let item_nodes = Hamill.process_inner_string(doc, item_text);\r\n actual_list.add_child(new TextLine(doc, item_nodes));\r\n break;\r\n case 'html':\r\n doc.add_node(new RawHTML(doc, line.value.replace('!html ', '').trim()));\r\n break;\r\n case 'css':\r\n text = line.value.replace('!css ', '').trim();\r\n doc.add_css(text);\r\n break;\r\n case 'include':\r\n let include = line.value.replace('!include ', '').trim();\r\n doc.add_node(new Include(doc, include));\r\n break;\r\n case 'require':\r\n text = line.value.replace('!require ', '').trim();\r\n doc.add_required(text);\r\n break;\r\n case 'const':\r\n text = line.value.replace('!const ', '').split('=');\r\n id = text[0].trim();\r\n value = text[1].trim();\r\n doc.set_variable(id, value, 'string', true);\r\n break;\r\n case 'var':\r\n text = line.value.replace('!var ', '').split('=');\r\n id = text[0].trim();\r\n value = text[1].trim();\r\n if (value === 'true') value = true;\r\n if (value === 'TRUE') value = true;\r\n if (value === 'false') value = false;\r\n if (value === 'FALSE') value = false;\r\n let type = 'string';\r\n if (typeof value === 'boolean')\r\n {\r\n type = 'boolean';\r\n }\r\n doc.add_node(new SetVar(doc, id, value, type, false));\r\n break;\r\n case 'label':\r\n value = line.value.replace(/::/, '').trim();\r\n text = value.split('::');\r\n let label = text[0].trim();\r\n let url = text[1].trim();\r\n doc.add_label(label, url);\r\n break;\r\n case 'div':\r\n value = line.value.substring(2, line.value.length - 2).trim();\r\n let res = Hamill.process_inner_markup(value);\r\n if (res['has_only_text'] && res['text'] === 'end')\r\n {\r\n doc.add_node(new EndDiv(doc));\r\n }\r\n else if (res['has_only_text'] && res['text'] === 'begin')\r\n {\r\n doc.add_node(new StartDiv(doc));\r\n }\r\n else if (res['has_only_text'])\r\n {\r\n console.log(res);\r\n throw new Error(`Unknown quick markup: ${res['text']} in ${line}`);\r\n }\r\n else\r\n {\r\n doc.add_node(new StartDiv(doc, res['id'], res['class']));\r\n }\r\n break;\r\n case 'comment':\r\n doc.add_node(new Comment(doc, line.value.substring(2)));\r\n break;\r\n case 'row':\r\n let content = line.value.substring(1, line.value.length - 1);\r\n if (content.length === (content.match(/(-|\\|)/g) || []).length)\r\n {\r\n let i = doc.nodes.length - 1;\r\n while (doc.get_node(i) instanceof Row)\r\n {\r\n doc.get_node(i).is_header = true;\r\n i -= 1;\r\n }\r\n }\r\n else\r\n {\r\n let parts = content.split('|'); // Handle escape\r\n let all_nodes = [];\r\n for (let p of parts)\r\n {\r\n let nodes = Hamill.process_inner_string(doc, p);\r\n all_nodes.push(nodes);\r\n }\r\n doc.add_node(new Row(doc, all_nodes));\r\n }\r\n break;\r\n case 'empty':\r\n doc.add_node(new EmptyNode(doc));\r\n break;\r\n case 'definition-header':\r\n definition = Hamill.process_inner_string(doc, line.value);\r\n break;\r\n case 'definition-content':\r\n if (definition === null)\r\n {\r\n throw new Error('Definition content without header: ' + line.value);\r\n }\r\n doc.add_node(new Definition(doc, definition, Hamill.process_inner_string(doc, line.value)));\r\n definition = null;\r\n break;\r\n case 'quote':\r\n doc.add_node(new Quote(doc, line.value));\r\n break;\r\n case 'code':\r\n doc.add_node(new Code(doc, line.value));\r\n break;\r\n default:\r\n throw new Error(`Unknown ${line.type}`);\r\n }\r\n }\r\n // List\r\n if (actual_list !== null)\r\n {\r\n doc.add_node(actual_list.root());\r\n }\r\n return doc;\r\n }", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT,\n definitions: many(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SOF, parseDefinition, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EOF),\n loc: loc(lexer, start)\n };\n}", "function parse(doc) {\n var state, result = {\n types: {},\n properties: {}\n };\n\n function waitForTypesOrProperties(line) {\n if (line.match(/^ Type/)) {\n var type = parseType(line);\n result.types[type.name] = type;\n } else if (line.match(/^ Properties of|^Properties of World/)) {\n state = parseProperties;\n }\n }\n\n function parseProperties(line) {\n var property;\n\n if (line.trim().length === 0) {\n state = waitForTypesOrProperties;\n return;\n }\n\n property = parsePropertyOrOperator(line);\n result.properties[property.key] = property;\n }\n\n state = waitForTypesOrProperties;\n doc.toString().split('\\n').forEach(function(line, i) {\n try {\n state(line);\n } catch (err) {\n console.error('On line ' + (i + 1) + ': ' + err.toString());\n throw err;\n }\n });\n\n return result;\n}", "constructor(tokenizer, rules, main) {\n super(tokenizer)\n this.rules = {}\n this.main = main\n for(var r in rules) this.add(rules[r])\n \n }", "function parseDocument(stream, state) {\n if(stream.eat(\"<\")) {\n if(stream.eat(\"?\")) {\n // processing instruction\n pushContext(state, TAG_INSTRUCTION);\n state.tokenize = parseProcessingInstructionStartTag;\n return STYLE_INSTRUCTION;\n } else if(stream.match(\"!--\")) {\n // new context: comment\n pushContext(state, TAG_COMMENT);\n return chain(stream, state, inBlock(STYLE_COMMENT, \"-->\", parseDocument));\n } else if(stream.eatSpace() || stream.eol() ) {\n stream.skipToEnd();\n return STYLE_ERROR;\n } else {\n // element\n state.tokenize = parseElementTagName;\n return STYLE_ELEMENT_NAME;\n }\n }\n \n // error on line\n stream.skipToEnd();\n return STYLE_ERROR;\n }", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].DOCUMENT,\n definitions: many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SOF, parseDefinition, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF),\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].DOCUMENT,\n definitions: many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SOF, parseDefinition, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EOF),\n loc: loc(lexer, start)\n };\n}", "function parseDocument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].DOCUMENT,\n definitions: many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SOF, parseDefinition, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EOF),\n loc: loc(lexer, start)\n };\n}", "parseDocument(doc) {\n // split the document to words\n const words = normalize(doc);\n // process each word individually\n words.map(word => {\n if (this.stopWords.find(stopWord => word === stopWord) !== undefined) {\n\t // do nothing, it's a stop word, and it doesn't add any meaning\n } else if (this.dictionary[word] !== undefined) {\n this.dictionary[word].push(this.documentCount)\n } else {\n this.dictionary[word] = [this.documentCount];\n\t\t\t}\n })\n this.documentCount++\n this.docs.push(doc)\n }", "function Parser() {\n\n\tvar VISIBILITY_TOKENS = [ 'Show', 'Hide' ];\n var CONTINUE_TOKEN = 'Continue';\n\tvar FILTER_TOKENS = [\n 'ItemLevel', 'DropLevel', 'Quality', 'Rarity', 'Class', 'BaseType', 'Sockets', 'LinkedSockets', 'SocketGroup',\n 'Width', 'Height', 'Identified', 'Corrupted', 'ElderItem', 'ShaperItem', 'ShapedMap', 'HasExplicitMod', 'MapTier',\n 'GemLevel', 'StackSize', 'ElderMap', 'Prophecy', 'FracturedItem', 'SynthesisedItem', 'AnyEnchantment', 'HasEnchantment',\n 'BlightedMap', 'HasInfluence',\n 'Mirrored', 'CorruptedMods', 'AreaLevel',\n 'EnchantmentPassiveNode',\n 'AlternateQuality', 'Replica', 'GemQualityType',\n 'EnchantmentPassiveNum',\n ];\n\tvar MODIFIER_TOKENS = [\n\t 'SetBackgroundColor', 'SetBorderColor', 'SetTextColor', 'PlayAlertSound', 'PlayAlertSoundPositional',\n\t 'SetFontSize', 'DisableDropSound', 'CustomAlertSound', 'MinimapIcon', 'PlayEffect' ];\n\tvar RARITY_TOKENS = [ 'Normal', 'Magic', 'Rare', 'Unique' ];\n var INFLUENCE_TOKENS = [ 'shaper', 'elder', 'crusader', 'redeemer', 'hunter', 'warlord' ];\n\tvar SOUND_TOKENS = [ 'ShAlchemy', 'ShBlessed', 'ShChaos', 'ShDivine', 'ShExalted', 'ShFusing', 'ShGeneral', 'ShMirror', 'ShRegal', 'ShVaal' ];\n var COLOR_TOKENS = [ 'Red', 'Green', 'Blue', 'Brown', 'White', 'Yellow', 'Grey', 'Pink', 'Cyan', 'Purple', 'Orange' ]\n var ICON_SHAPE_TOKENS = [ 'Circle', 'Diamond', 'Hexagon', 'Square', 'Star', 'Triangle', 'Kite', 'Cross', 'Pentagon', 'Moon', 'UpsideDownHouse' ]\n\n\tthis.currentLineNr = 0;\n\tthis.currentRule = null;\n\n\tthis.ruleSet = [];\n\tthis.errors = [];\n\tthis.warnings = [];\n\tthis.lineTypes = [];\n \n // clear last stored area level when getting new parser\n currentAreaLevel = null;\n this.setAreaLevel = function(level) {\n currentAreaLevel = level;\n } \n\n\tthis.parse = function (lines) {\n\t\tthis.currentRule = null;\n\t\tthis.ruleSet = [];\n\t\tthis.errors = [];\n\t\tthis.warnings = [];\n\t\tthis.lineTypes = [];\n\n\t\tfor (var i = 0; i < lines.length; i++) {\n \n if(this.errors.length > 100) {\n // too many errors, this probably isn't a valid filter - stop now\n break;\n }\n \n\t\t\tthis.currentLineNr = i;\n\t\t\tvar line = lines[i];\n\n\t\t\tif (line.trim() === '') {\n\t\t\t\tthis.lineTypes[i] = 'Empty';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tif (line.trim()[0] === '#') {\n\t\t\t\tthis.lineTypes[i] = 'Comment';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tline = removeComment( line );\n\n\t\t\tif (VISIBILITY_TOKENS.indexOf( line.trim() ) >= 0) {\n\t\t\t\tif (this.currentRule !== null) {\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t}\n\t\t\t\tparseVisibility( this, line );\n\t\t\t}\n\t\t\telse if (CONTINUE_TOKEN === line.trim()) {\n\t\t\t\tif (this.currentRule !== null) {\n this.currentRule.continue = true;\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t} else {\n reportParseError( this, line.trim(), 'Continue without current rule' );\n }\n\t\t\t}\n\t\t\telse {\n\t\t\t\tif (this.currentRule === null) {\n\t\t\t\t\treportTokenError( this, line.trim(), 'Show or Hide' );\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tparseFilterOrModifier( this, line );\n\t\t\t\t}\n\t\t\t}\n\n\t\t\tif (this.currentRule !== null) {\n\t\t\t\tthis.currentRule.codeLines.push( i );\n\t\t\t}\n\t\t}\n\t\tparseEndOfRule( this );\n\t};\n\n\tfunction removeComment (line) {\n\t\tvar commentStart = line.indexOf(\"#\");\n\t\tif (commentStart < 0) {\n\t\t\treturn line;\n\t\t}\n\t\treturn line.substring( 0, commentStart );\n\t}\n\n\tfunction parseVisibility (self, line) {\n\t\tvar token = line.trim();\n\t\tif (VISIBILITY_TOKENS.indexOf( token ) < 0) {\n\t\t\treportTokenError( self, token, 'Show or Hide' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.lineTypes[self.currentLineNr] = 'Visibility';\n\t\tself.currentRule = new Rule();\n\t}\n\n\tfunction parseEndOfRule (self) {\n\t\tif (self.currentRule !== null) {\n\t\t\tself.ruleSet.push( self.currentRule );\n\t\t\tself.currentRule = null;\n\t\t}\n\t}\n\n\tfunction parseFilterOrModifier (self, line) {\n\t\tvar tokens = line.trim().split(' ', 1);\n\n\t\tif (tokens.length == 0) {\n\t\t\treportTokenError( self, '', 'filter or modifier' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar token = tokens[0].trim();\n\t\tvar arguments = line.trim().substring( token.length, line.length );\n\n\t\tif (FILTER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseFilter( self, token, arguments );\n\t\t}\n\t\telse if (MODIFIER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseModifier( self, token, arguments );\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, token, 'filter or modifier' );\n\t\t}\n\t}\n\n\t// ----------- FILTERS ---------------------------------------------------\n\n\tfunction parseFilter (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Filter';\n\n\t\tvar filters = {\n\t\t\t'ItemLevel': ItemLevelFilter,\n\t\t\t'DropLevel': DropLevelFilter,\n\t\t\t'Quality': QualityFilter,\n\t\t\t'Rarity': RarityFilter,\n\t\t\t'Class': ClassFilter,\n\t\t\t'BaseType': BaseTypeFilter,\n\t\t\t'LinkedSockets': LinkedSocketsFilter,\n \n // this is intentional - with 3.9 filter type update,\n // much of the logic for between two filters is shared\n\t\t\t'Sockets': SocketGroupFilter,\n\t\t\t'SocketGroup': SocketGroupFilter,\n \n\t\t\t'Width': WidthFilter,\n\t\t\t'Height': HeightFilter,\n\t\t\t'Identified': IdentifiedFilter,\n\t\t\t'Corrupted': CorruptedFilter,\n\t\t\t'ElderItem': ElderItemFilter,\n\t\t\t'ShaperItem': ShaperItemFilter,\n\t\t\t'ShapedMap': ShapedMapFilter,\n\t\t\t'ElderMap': ElderMapFilter,\n\t\t\t'HasExplicitMod': HasExplicitModFilter,\n\t\t\t'MapTier': MapTierFilter,\n\t\t\t'GemLevel': GemLevelFilter,\n\t\t\t'StackSize': StackSizeFilter,\n 'Prophecy': ProphecyFilter,\n 'FracturedItem': FracturedItemFilter,\n 'SynthesisedItem': SynthesisedItemFilter,\n 'AnyEnchantment': AnyEnchantmentFilter,\n 'HasEnchantment': HasEnchantmentFilter,\n 'BlightedMap': BlightedMapFilter,\n 'HasInfluence' : HasInfluenceFilter,\n 'Mirrored' : MirroredFilter,\n 'CorruptedMods' : CorruptedModsFilter,\n 'AreaLevel' : AreaLevelFilter,\n 'EnchantmentPassiveNode' : HasEnchantmentFilter,\n 'AlternateQuality' : AlternateQualityFilter,\n 'Replica' : ReplicaFilter,\n 'GemQualityType' : GemQualityTypeFilter,\n 'EnchantmentPassiveNum' : EnchantmentPassiveNumFilter\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'ItemLevel':\n\t\t\tcase 'DropLevel':\n\t\t\tcase 'Quality':\n\t\t\tcase 'LinkedSockets':\n\t\t\tcase 'Width':\n\t\t\tcase 'Height':\n\t\t\tcase 'MapTier':\n\t\t\tcase 'GemLevel':\n\t\t\tcase 'StackSize':\n case 'CorruptedMods':\n case 'AreaLevel':\n\t\t\tcase 'EnchantmentPassiveNum':\n\t\t\t\tparseNumericFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Rarity':\n\t\t\t\tparseRarityFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Class':\n\t\t\tcase 'BaseType':\n\t\t\tcase 'HasExplicitMod':\n case 'Prophecy':\n\t\t\tcase 'HasEnchantment':\n case 'EnchantmentPassiveNode':\n case 'GemQualityType':\n\t\t\t\tparseMultiStringFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Sockets':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"unlinked\" );\n\t\t\t\treturn;\n\t\t\tcase 'SocketGroup':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"linked\" );\n\t\t\t\treturn;\n\n\t\t\tcase 'Identified':\n\t\t\tcase 'Corrupted':\n\t\t\tcase 'ElderItem':\n\t\t\tcase 'ShaperItem':\n\t\t\tcase 'ShapedMap':\n case 'ElderMap':\n\t\t\tcase 'FracturedItem':\n\t\t\tcase 'SynthesisedItem':\n case 'AnyEnchantment':\n case 'BlightedMap':\n case 'Mirrored':\n case 'AlternateQuality':\n case 'Replica':\n\t\t\t\tparseBoolFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n \n\t\t\tcase 'HasInfluence':\n\t\t\t\tparseInfluenceFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseNumericFilter (self, filter, arguments) {\n\t\tvar args = parseOperatorAndValue( self, arguments );\n\t\tif (args !== null) {\n\t\t\tif (isNaN( args.value )) {\n\t\t\t\treportTokenError( self, args.value, 'number' );\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tself.currentRule.filters.push( new filter( args.comparer, parseInt( args.value ) ) );\n\t\t}\n\t}\n\n\tfunction parseMultiStringFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'one or more strings' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args ) );\n\t}\n\n\tfunction parseRarityFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'rarity')\n\t return;\n\t }\n\n\t // If the first argument is an operator, we can use the parseOperatorAndValue function\n\t if (OPERATOR_TOKENS.includes( tokens[0] )) {\n\t args = parseOperatorAndValue( self, arguments );\n if (args != null) {\n if (RARITY_TOKENS.indexOf( args.value ) < 0) {\n reportTokenError( self, args.value, 'operator or rarity' );\n return;\n }\n self.currentRule.filters.push( new filter( args.comparer, Rarity[args.value] ) );\n return;\n }\n }\n\n // Otherwise, the arguments must be a list of rarities.\n var rarities = [];\n for (var i=0; i < tokens.length; i++) {\n if (!RARITY_TOKENS.includes(tokens[i])) {\n reportTokenError( self, tokens[i], 'rarity')\n return;\n }\n rarities.push( Rarity[tokens[i]] );\n }\n\n // In that case, we create a custom comparer that checks if a rarity is in that list\n var comparer = function(a,b) { return b.includes(a); }\n self.currentRule.filters.push( new filter( comparer, rarities ) );\n\t}\n \n\tfunction parseInfluenceFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var comparer; \n \n if(tokens[0] === \"==\") {\n tokens.shift(); // remove operator\n comparer = function(a,b) {\n // strict equality - must contain all influences specified to match\n for(var i = 0; i < b.length; i++) {\n if(!a.includes(b[i])) return false;\n }\n return true;\n }\n } else {\n comparer = function(a,b) { \n // match if any of the specified influences are found\n for(var i = 0; i < a.length; i++) {\n if(b.includes(a[i])) return true;\n }\n return false;\n }\n }\n\n // the arguments must be a list of influences\n var influences = [];\n for (var i = 0; i < tokens.length; i++) {\n var inf = tokens[i].toLowerCase().replace(/\"/g, '');\n if(inf === \"none\") {\n influences = \"none\";\n break;\n }\n if (!INFLUENCE_TOKENS.includes(inf)) {\n reportTokenError( self, tokens[i], 'influence')\n return;\n }\n influences.push(inf);\n }\n\n self.currentRule.filters.push( new filter( comparer, influences ) );\n\t}\n \n\tfunction parseSocketGroupFilter (self, filter, arguments, mode) {\n \n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var operator = null;\n \n\t\t\tif (OPERATOR_TOKENS.includes(tokens[0])) {\n operator = tokens.shift();\n // single equals: no operator needed, match any of the arguments\n if(operator === \"=\") {\n operator = null;\n }\n }\n \n var groups = tokens.map( tok => { return StrUtils.replaceAll(tok.toUpperCase(), '\"', \"\"); } );\n \n var isInvalid = groups.some( function(socketGroup) {\n if (!StrUtils.consistsOf( socketGroup, '0123456RGBWDA' )) {\n reportInvalidSocketGroup( self, socketGroup );\n return true;\n }\n return false;\n } );\n \n if (!isInvalid) { \n groups = groups.map( group => {\n var sorted = StrUtils.sortChars(group);\n return {\n count: sorted.replace(/[RGBWDA]/g, \"\"),\n sockets: sorted.replace(/[0123456]/g, \"\")\n };\n });\n self.currentRule.filters.push( new filter( operator, groups, mode ) );\n }\n \n\t} \n\n\tfunction parseBoolFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'expected True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\targs = args.map( function(a) { return a.toUpperCase(); } );\n\n\t\tif (args[0] !== 'TRUE' && args[0] !== 'FALSE') {\n\t\t\treportTokenError( self, arguments, 'True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args[0] === 'TRUE' ) );\n\t}\n\n\t// ----------- MODIFIERS ---------------------------------------------------\n\n\tfunction parseModifier (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Modifier';\n\n\t\tvar modifiers = {\n\t\t\t'SetBackgroundColor': SetBackgroundColorModifier,\n\t\t\t'SetBorderColor': SetBorderColorModifier,\n\t\t\t'SetTextColor': SetTextColorModifier,\n\t\t\t'SetFontSize': SetFontSizeModifier\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'SetBackgroundColor':\n\t\t\tcase 'SetBorderColor':\n\t\t\tcase 'SetTextColor':\n\t\t\t\tparseColorModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n\t\t\tcase 'SetFontSize':\n\t\t\t\tparseNumericModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n case 'MinimapIcon':\n case 'PlayEffect':\n\t\t\tcase 'PlayAlertSound':\n\t\t\tcase 'PlayAlertSoundPositional':\n\t\t\tcase 'DisableDropSound':\n case 'CustomAlertSound':\n case 'CustomAlertSoundOptional':\n case 'DisableDropSoundIfAlertSound':\n case 'EnableDropSoundIfAlertSound':\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseColorModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length < 3 || numbers.length > 4) {\n\t\t\treportTokenError( self, arguments, 'three or four numbers' );\n\t\t\treturn;\n\t\t}\n\n\t\tif (numbers.some( function(c) { return c < 0 || c > 255; } )) {\n\t\t\treportParseError( self, arguments, 'color values must be between 0 and 255' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar color = { r:numbers[0], g:numbers[1], b:numbers[2], a:255 };\n\t\tif (numbers.length === 4) {\n\t\t\tcolor['a'] = numbers[3];\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( color ) );\n\t}\n\n function parsePlayEffectModifier (self, modifier, arguments) {\n var tokens = arguments.trim().split(' ');\n if (tokens.length > 2) {\n reportTokenError( self, arguments, 'COLOR Temp' );\n return;\n }\n\n var color = tokens[0].trim();\n if (!COLOR_TOKENS.includes(color)) {\n reportTokenError( self, color, 'Color name');\n return;\n }\n\n var temp = false;\n if (tokens.length > 1) {\n if (tokens[1] !== 'Temp') {\n reportTokenError( self, tokens[1], 'Temp');\n return;\n }\n temp = true;\n }\n\n self.currentRule.modifiers.push( new modifier( color, temp ));\n }\n\n\tfunction parseMinimapIconModifier (self, modifier, arguments) {\n\t var tokens = arguments.trim().split(' ');\n\t if (tokens.length !== 3) {\n\t reportTokenError( self, arguments, 'SIZE COLOR SHAPE' );\n\t return;\n\t }\n\n\t var size = tokens[0];\n\t if (size !== '0' && size !== '1' && size !== '2') {\n\t reportParseError( self, size, 'SIZE must be 0, 1 or 2' );\n\t return;\n\t }\n\n\t var color = tokens[1];\n\t if (!COLOR_TOKENS.includes(color)) {\n\t reportParseError( self, color, 'COLOR must be one of: ' + COLOR_TOKENS.join(', '));\n\t return;\n\t }\n\n\t var shape = tokens[2];\n\t if (!ICON_SHAPE_TOKENS.includes(shape)) {\n\t reportParseError( self, shape, 'SHAPE must be one of: ' + ICON_SHAPE_TOKENS.join(', '));\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier( parseInt(size), color, shape ) );\n\t}\n\n\tfunction parseAlertSoundModifier (self, modifier, arguments) {\n\t var tokens = getArgumentTokens( arguments );\n\t if (tokens.length < 1 || tokens.length > 2) {\n\t reportTokenError( self, arguments, 'sound id + optional volume' );\n\t return;\n\t }\n\n\t var soundId = parseSoundId( self, tokens[0] );\n\t if (soundId === null) return;\n\n\t var volume = 100;\n\t if (tokens.length === 2) {\n\t if (isNaN(tokens[1])) {\n\t reportParseError( self, arguments, 'volume must be a number' );\n\t return;\n\t }\n\n\t volume = parseInt(tokens[1]);\n\t if (volume < 0 || volume > 300) {\n\t reportParseError( self, arguments, 'volume must be between 0 and 300' );\n\t return;\n\t }\n\t }\n\n\t\tself.currentRule.modifiers.push( new modifier( soundId, volume ) );\n\t}\n\n function parseSoundId (self, token) {\n if (SOUND_TOKENS.indexOf( token ) >= 0) {\n return token;\n }\n\n if (isNaN(token)) {\n reportParseError( self, token, 'Sound ID must be a number between 1 and 16, or a valid Sound ID name' );\n return;\n }\n return parseInt( token );\n }\n\n\tfunction parseNumericModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length != 1) {\n\t\t\treportTokenError( self, arguments, 'one number' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( numbers[0] ) );\n\t}\n\n\tfunction parseKeywordModifier (self, modifier, arguments) {\n\t\tif (arguments.trim().length > 0) {\n\t\t\treportTokenError( self, arguments, 'Unexpected argument' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier() );\n\t}\n\n\tfunction parseFilenameModifier (self, modifier, arguments) {\n\t var argumentTokens = parseStringArguments( self, arguments );\n\t if (argumentTokens.length == 0) {\n\t reportUnexpectedEndOfLine( self, arguments, 'Path or Filename' );\n\t return;\n\t }\n\t if (argumentTokens.length > 1) {\n\t reportParseError( self, arguments, 'Unexpected argument: \"' + argumentTokens[1] + '\"' );\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier(argumentTokens[0]) );\n\t}\n\n\t// ------------------------ GENERIC PARSING ---------------------------------\n\n function getArgumentTokens (arguments) {\n return arguments\n\t\t\t.trim()\n\t\t\t.split(' ')\n\t\t\t.filter( function (element, index, array) { return element.trim().length > 0; } );\n }\n\n\tfunction parseOperatorAndValue (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\t\tvar operator, value;\n\n\t\tif (tokens.length == 1) {\n\t\t\t// Special case: For equality checks, you specify only the value\n\t\t\toperator = '=';\n\t\t\tvalue = tokens[0];\n\t\t}\n\t\telse if (tokens.length == 2) {\n\t\t\toperator = tokens[0];\n\t\t\tvalue = tokens[1];\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, arguments, 'operator and value' );\n\t\t\treturn null;\n\t\t}\n\n\t\tif (OPERATOR_TOKENS.indexOf( operator ) < 0) {\n\t\t\treportTokenError( self, operator, 'operator' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn { comparer : COMPARERS[operator], value : value };\n \n\t}\n\n\tfunction parseNumbers (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\n\t\tif (tokens.some( isNaN )) {\n\t\t\treportTokenError( self, arguments, 'numbers' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn tokens.map( function(n) { return parseInt( n ); } );\n\t}\n\n\tfunction parseStringArguments (self, arguments) {\n\t\tvar tokens = arguments\n\t\t\t.trim()\n\t\t\t.split(' ');\n\t\t\t// Don't remove empty tokens because they might represent multiple spaces inside quoted strings\n\n\t\tvar actualTokens = [];\n\t\tvar numQuotes = 0;\n\t\tvar currentToken = '';\n\t\tfor (var i=0; i < tokens.length; i++) {\n\t\t\tnumQuotes += StrUtils.countChar( '\"', tokens[i] );\n\t\t\tvar withoutQuotes = StrUtils.replaceAll( tokens[i], '\"', '' );\n\n\t\t\tif (currentToken.length > 0) {\n\t\t\t\tcurrentToken += ' ' + withoutQuotes;\n\t\t\t}\n\t\t\telse {\n\t\t\t\tcurrentToken = withoutQuotes;\n\t\t\t}\n\n\t\t\tif (numQuotes % 2 == 0) {\n\t\t\t\tactualTokens.push( currentToken );\n\t\t\t\tcurrentToken = '';\n\t\t\t}\n\t\t}\n\n\t\tif (numQuotes % 2 != 0) {\n\t\t\treportParseError( self, arguments, 'no matching quote' );\n\t\t\tactualTokens.push( currentToken );\n\t\t}\n\n\t\t// Remove any empty or pure whitespace tokens.\n\t\t// These may happen with certain unicode characters.\n\t\tactualTokens = actualTokens.filter( function(token) { return token.trim().length > 0; } );\n\n\t\treturn actualTokens;\n\t}\n\n\t// ------------------- ERROR MESSAGES --------------------------------------\n\n\tfunction reportTokenError (self, token, expected) {\n\t\tself.errors.push( 'Invalid token \"' + token + '\" at line ' + self.currentLineNr.toString() + ' (expected ' + expected + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportUnexpectedEndOfLine (self, expected) {\n\t\tself.errors.push( 'Unexpected end of line (expected ' + expected + ' in line ' + self.currentLineNr.toString() + ')');\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportInvalidSocketGroup (self, socketGroup) {\n\t\tself.errors.push( 'Invalid socket group \"' + socketGroup + '\" + at line ' + self.currentLineNr.toString() + ' (allowed characters are R,G,B)' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportParseError (self, text, reason) {\n\t\tself.errors.push( 'Cannot parse \"' + text + '\" (' + reason + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportWarning (self, text) {\n\t\tself.warnings.push( text );\n\t}\n}", "function ruleslanguage(hljs) {\n return {\n name: 'Oracle Rules Language',\n keywords: {\n keyword:\n 'BILL_PERIOD BILL_START BILL_STOP RS_EFFECTIVE_START RS_EFFECTIVE_STOP RS_JURIS_CODE RS_OPCO_CODE ' +\n 'INTDADDATTRIBUTE|5 INTDADDVMSG|5 INTDBLOCKOP|5 INTDBLOCKOPNA|5 INTDCLOSE|5 INTDCOUNT|5 ' +\n 'INTDCOUNTSTATUSCODE|5 INTDCREATEMASK|5 INTDCREATEDAYMASK|5 INTDCREATEFACTORMASK|5 ' +\n 'INTDCREATEHANDLE|5 INTDCREATEOVERRIDEDAYMASK|5 INTDCREATEOVERRIDEMASK|5 ' +\n 'INTDCREATESTATUSCODEMASK|5 INTDCREATETOUPERIOD|5 INTDDELETE|5 INTDDIPTEST|5 INTDEXPORT|5 ' +\n 'INTDGETERRORCODE|5 INTDGETERRORMESSAGE|5 INTDISEQUAL|5 INTDJOIN|5 INTDLOAD|5 INTDLOADACTUALCUT|5 ' +\n 'INTDLOADDATES|5 INTDLOADHIST|5 INTDLOADLIST|5 INTDLOADLISTDATES|5 INTDLOADLISTENERGY|5 ' +\n 'INTDLOADLISTHIST|5 INTDLOADRELATEDCHANNEL|5 INTDLOADSP|5 INTDLOADSTAGING|5 INTDLOADUOM|5 ' +\n 'INTDLOADUOMDATES|5 INTDLOADUOMHIST|5 INTDLOADVERSION|5 INTDOPEN|5 INTDREADFIRST|5 INTDREADNEXT|5 ' +\n 'INTDRECCOUNT|5 INTDRELEASE|5 INTDREPLACE|5 INTDROLLAVG|5 INTDROLLPEAK|5 INTDSCALAROP|5 INTDSCALE|5 ' +\n 'INTDSETATTRIBUTE|5 INTDSETDSTPARTICIPANT|5 INTDSETSTRING|5 INTDSETVALUE|5 INTDSETVALUESTATUS|5 ' +\n 'INTDSHIFTSTARTTIME|5 INTDSMOOTH|5 INTDSORT|5 INTDSPIKETEST|5 INTDSUBSET|5 INTDTOU|5 ' +\n 'INTDTOURELEASE|5 INTDTOUVALUE|5 INTDUPDATESTATS|5 INTDVALUE|5 STDEV INTDDELETEEX|5 ' +\n 'INTDLOADEXACTUAL|5 INTDLOADEXCUT|5 INTDLOADEXDATES|5 INTDLOADEX|5 INTDLOADEXRELATEDCHANNEL|5 ' +\n 'INTDSAVEEX|5 MVLOAD|5 MVLOADACCT|5 MVLOADACCTDATES|5 MVLOADACCTHIST|5 MVLOADDATES|5 MVLOADHIST|5 ' +\n 'MVLOADLIST|5 MVLOADLISTDATES|5 MVLOADLISTHIST|5 IF FOR NEXT DONE SELECT END CALL ABORT CLEAR CHANNEL FACTOR LIST NUMBER ' +\n 'OVERRIDE SET WEEK DISTRIBUTIONNODE ELSE WHEN THEN OTHERWISE IENUM CSV INCLUDE LEAVE RIDER SAVE DELETE ' +\n 'NOVALUE SECTION WARN SAVE_UPDATE DETERMINANT LABEL REPORT REVENUE EACH ' +\n 'IN FROM TOTAL CHARGE BLOCK AND OR CSV_FILE RATE_CODE AUXILIARY_DEMAND ' +\n 'UIDACCOUNT RS BILL_PERIOD_SELECT HOURS_PER_MONTH INTD_ERROR_STOP SEASON_SCHEDULE_NAME ' +\n 'ACCOUNTFACTOR ARRAYUPPERBOUND CALLSTOREDPROC GETADOCONNECTION GETCONNECT GETDATASOURCE ' +\n 'GETQUALIFIER GETUSERID HASVALUE LISTCOUNT LISTOP LISTUPDATE LISTVALUE PRORATEFACTOR RSPRORATE ' +\n 'SETBINPATH SETDBMONITOR WQ_OPEN BILLINGHOURS DATE DATEFROMFLOAT DATETIMEFROMSTRING ' +\n 'DATETIMETOSTRING DATETOFLOAT DAY DAYDIFF DAYNAME DBDATETIME HOUR MINUTE MONTH MONTHDIFF ' +\n 'MONTHHOURS MONTHNAME ROUNDDATE SAMEWEEKDAYLASTYEAR SECOND WEEKDAY WEEKDIFF YEAR YEARDAY ' +\n 'YEARSTR COMPSUM HISTCOUNT HISTMAX HISTMIN HISTMINNZ HISTVALUE MAXNRANGE MAXRANGE MINRANGE ' +\n 'COMPIKVA COMPKVA COMPKVARFROMKQKW COMPLF IDATTR FLAG LF2KW LF2KWH MAXKW POWERFACTOR ' +\n 'READING2USAGE AVGSEASON MAXSEASON MONTHLYMERGE SEASONVALUE SUMSEASON ACCTREADDATES ' +\n 'ACCTTABLELOAD CONFIGADD CONFIGGET CREATEOBJECT CREATEREPORT EMAILCLIENT EXPBLKMDMUSAGE ' +\n 'EXPMDMUSAGE EXPORT_USAGE FACTORINEFFECT GETUSERSPECIFIEDSTOP INEFFECT ISHOLIDAY RUNRATE ' +\n 'SAVE_PROFILE SETREPORTTITLE USEREXIT WATFORRUNRATE TO TABLE ACOS ASIN ATAN ATAN2 BITAND CEIL ' +\n 'COS COSECANT COSH COTANGENT DIVQUOT DIVREM EXP FABS FLOOR FMOD FREPM FREXPN LOG LOG10 MAX MAXN ' +\n 'MIN MINNZ MODF POW ROUND ROUND2VALUE ROUNDINT SECANT SIN SINH SQROOT TAN TANH FLOAT2STRING ' +\n 'FLOAT2STRINGNC INSTR LEFT LEN LTRIM MID RIGHT RTRIM STRING STRINGNC TOLOWER TOUPPER TRIM ' +\n 'NUMDAYS READ_DATE STAGING',\n built_in:\n 'IDENTIFIER OPTIONS XML_ELEMENT XML_OP XML_ELEMENT_OF DOMDOCCREATE DOMDOCLOADFILE DOMDOCLOADXML ' +\n 'DOMDOCSAVEFILE DOMDOCGETROOT DOMDOCADDPI DOMNODEGETNAME DOMNODEGETTYPE DOMNODEGETVALUE DOMNODEGETCHILDCT ' +\n 'DOMNODEGETFIRSTCHILD DOMNODEGETSIBLING DOMNODECREATECHILDELEMENT DOMNODESETATTRIBUTE ' +\n 'DOMNODEGETCHILDELEMENTCT DOMNODEGETFIRSTCHILDELEMENT DOMNODEGETSIBLINGELEMENT DOMNODEGETATTRIBUTECT ' +\n 'DOMNODEGETATTRIBUTEI DOMNODEGETATTRIBUTEBYNAME DOMNODEGETBYNAME'\n },\n contains: [\n hljs.C_LINE_COMMENT_MODE,\n hljs.C_BLOCK_COMMENT_MODE,\n hljs.APOS_STRING_MODE,\n hljs.QUOTE_STRING_MODE,\n hljs.C_NUMBER_MODE,\n {\n className: 'literal',\n variants: [\n { // looks like #-comment\n begin: '#\\\\s+',\n relevance: 0\n },\n {\n begin: '#[a-zA-Z .]+'\n }\n ]\n }\n ]\n };\n}", "function ruleslanguage(hljs) {\n return {\n name: 'Oracle Rules Language',\n keywords: {\n keyword:\n 'BILL_PERIOD BILL_START BILL_STOP RS_EFFECTIVE_START RS_EFFECTIVE_STOP RS_JURIS_CODE RS_OPCO_CODE ' +\n 'INTDADDATTRIBUTE|5 INTDADDVMSG|5 INTDBLOCKOP|5 INTDBLOCKOPNA|5 INTDCLOSE|5 INTDCOUNT|5 ' +\n 'INTDCOUNTSTATUSCODE|5 INTDCREATEMASK|5 INTDCREATEDAYMASK|5 INTDCREATEFACTORMASK|5 ' +\n 'INTDCREATEHANDLE|5 INTDCREATEOVERRIDEDAYMASK|5 INTDCREATEOVERRIDEMASK|5 ' +\n 'INTDCREATESTATUSCODEMASK|5 INTDCREATETOUPERIOD|5 INTDDELETE|5 INTDDIPTEST|5 INTDEXPORT|5 ' +\n 'INTDGETERRORCODE|5 INTDGETERRORMESSAGE|5 INTDISEQUAL|5 INTDJOIN|5 INTDLOAD|5 INTDLOADACTUALCUT|5 ' +\n 'INTDLOADDATES|5 INTDLOADHIST|5 INTDLOADLIST|5 INTDLOADLISTDATES|5 INTDLOADLISTENERGY|5 ' +\n 'INTDLOADLISTHIST|5 INTDLOADRELATEDCHANNEL|5 INTDLOADSP|5 INTDLOADSTAGING|5 INTDLOADUOM|5 ' +\n 'INTDLOADUOMDATES|5 INTDLOADUOMHIST|5 INTDLOADVERSION|5 INTDOPEN|5 INTDREADFIRST|5 INTDREADNEXT|5 ' +\n 'INTDRECCOUNT|5 INTDRELEASE|5 INTDREPLACE|5 INTDROLLAVG|5 INTDROLLPEAK|5 INTDSCALAROP|5 INTDSCALE|5 ' +\n 'INTDSETATTRIBUTE|5 INTDSETDSTPARTICIPANT|5 INTDSETSTRING|5 INTDSETVALUE|5 INTDSETVALUESTATUS|5 ' +\n 'INTDSHIFTSTARTTIME|5 INTDSMOOTH|5 INTDSORT|5 INTDSPIKETEST|5 INTDSUBSET|5 INTDTOU|5 ' +\n 'INTDTOURELEASE|5 INTDTOUVALUE|5 INTDUPDATESTATS|5 INTDVALUE|5 STDEV INTDDELETEEX|5 ' +\n 'INTDLOADEXACTUAL|5 INTDLOADEXCUT|5 INTDLOADEXDATES|5 INTDLOADEX|5 INTDLOADEXRELATEDCHANNEL|5 ' +\n 'INTDSAVEEX|5 MVLOAD|5 MVLOADACCT|5 MVLOADACCTDATES|5 MVLOADACCTHIST|5 MVLOADDATES|5 MVLOADHIST|5 ' +\n 'MVLOADLIST|5 MVLOADLISTDATES|5 MVLOADLISTHIST|5 IF FOR NEXT DONE SELECT END CALL ABORT CLEAR CHANNEL FACTOR LIST NUMBER ' +\n 'OVERRIDE SET WEEK DISTRIBUTIONNODE ELSE WHEN THEN OTHERWISE IENUM CSV INCLUDE LEAVE RIDER SAVE DELETE ' +\n 'NOVALUE SECTION WARN SAVE_UPDATE DETERMINANT LABEL REPORT REVENUE EACH ' +\n 'IN FROM TOTAL CHARGE BLOCK AND OR CSV_FILE RATE_CODE AUXILIARY_DEMAND ' +\n 'UIDACCOUNT RS BILL_PERIOD_SELECT HOURS_PER_MONTH INTD_ERROR_STOP SEASON_SCHEDULE_NAME ' +\n 'ACCOUNTFACTOR ARRAYUPPERBOUND CALLSTOREDPROC GETADOCONNECTION GETCONNECT GETDATASOURCE ' +\n 'GETQUALIFIER GETUSERID HASVALUE LISTCOUNT LISTOP LISTUPDATE LISTVALUE PRORATEFACTOR RSPRORATE ' +\n 'SETBINPATH SETDBMONITOR WQ_OPEN BILLINGHOURS DATE DATEFROMFLOAT DATETIMEFROMSTRING ' +\n 'DATETIMETOSTRING DATETOFLOAT DAY DAYDIFF DAYNAME DBDATETIME HOUR MINUTE MONTH MONTHDIFF ' +\n 'MONTHHOURS MONTHNAME ROUNDDATE SAMEWEEKDAYLASTYEAR SECOND WEEKDAY WEEKDIFF YEAR YEARDAY ' +\n 'YEARSTR COMPSUM HISTCOUNT HISTMAX HISTMIN HISTMINNZ HISTVALUE MAXNRANGE MAXRANGE MINRANGE ' +\n 'COMPIKVA COMPKVA COMPKVARFROMKQKW COMPLF IDATTR FLAG LF2KW LF2KWH MAXKW POWERFACTOR ' +\n 'READING2USAGE AVGSEASON MAXSEASON MONTHLYMERGE SEASONVALUE SUMSEASON ACCTREADDATES ' +\n 'ACCTTABLELOAD CONFIGADD CONFIGGET CREATEOBJECT CREATEREPORT EMAILCLIENT EXPBLKMDMUSAGE ' +\n 'EXPMDMUSAGE EXPORT_USAGE FACTORINEFFECT GETUSERSPECIFIEDSTOP INEFFECT ISHOLIDAY RUNRATE ' +\n 'SAVE_PROFILE SETREPORTTITLE USEREXIT WATFORRUNRATE TO TABLE ACOS ASIN ATAN ATAN2 BITAND CEIL ' +\n 'COS COSECANT COSH COTANGENT DIVQUOT DIVREM EXP FABS FLOOR FMOD FREPM FREXPN LOG LOG10 MAX MAXN ' +\n 'MIN MINNZ MODF POW ROUND ROUND2VALUE ROUNDINT SECANT SIN SINH SQROOT TAN TANH FLOAT2STRING ' +\n 'FLOAT2STRINGNC INSTR LEFT LEN LTRIM MID RIGHT RTRIM STRING STRINGNC TOLOWER TOUPPER TRIM ' +\n 'NUMDAYS READ_DATE STAGING',\n built_in:\n 'IDENTIFIER OPTIONS XML_ELEMENT XML_OP XML_ELEMENT_OF DOMDOCCREATE DOMDOCLOADFILE DOMDOCLOADXML ' +\n 'DOMDOCSAVEFILE DOMDOCGETROOT DOMDOCADDPI DOMNODEGETNAME DOMNODEGETTYPE DOMNODEGETVALUE DOMNODEGETCHILDCT ' +\n 'DOMNODEGETFIRSTCHILD DOMNODEGETSIBLING DOMNODECREATECHILDELEMENT DOMNODESETATTRIBUTE ' +\n 'DOMNODEGETCHILDELEMENTCT DOMNODEGETFIRSTCHILDELEMENT DOMNODEGETSIBLINGELEMENT DOMNODEGETATTRIBUTECT ' +\n 'DOMNODEGETATTRIBUTEI DOMNODEGETATTRIBUTEBYNAME DOMNODEGETBYNAME'\n },\n contains: [\n hljs.C_LINE_COMMENT_MODE,\n hljs.C_BLOCK_COMMENT_MODE,\n hljs.APOS_STRING_MODE,\n hljs.QUOTE_STRING_MODE,\n hljs.C_NUMBER_MODE,\n {\n className: 'literal',\n variants: [\n { // looks like #-comment\n begin: '#\\\\s+',\n relevance: 0\n },\n {\n begin: '#[a-zA-Z .]+'\n }\n ]\n }\n ]\n };\n}", "textDocumentDefinition(params, span = new opentracing_1.Span()) {\n return this._getDefinitionLocations(params, span)\n .map((location) => ({ op: 'add', path: '/-', value: location }))\n .startWith({ op: 'add', path: '', value: [] });\n }", "parseDocument(doc) {\n // split the document to words\n const words = normalize(doc);\n // process each word individually\n words.map(word => {\n if (this.stopWords.find(stopWord => word === stopWord) !== undefined) {\n // do nothing, it's a stop word, and it doesn't add any meaning\n } else if (this.dictionary[word] !== undefined) {\n this.dictionary[word].push(this.documentCount)\n } else {\n this.dictionary[word] = [this.documentCount];\n }\n })\n this.documentCount++\n this.docs.push(doc)\n }", "function ruleslanguage(hljs) {\n return {\n name: 'Oracle Rules Language',\n keywords: {\n keyword: 'BILL_PERIOD BILL_START BILL_STOP RS_EFFECTIVE_START RS_EFFECTIVE_STOP RS_JURIS_CODE RS_OPCO_CODE ' +\n 'INTDADDATTRIBUTE|5 INTDADDVMSG|5 INTDBLOCKOP|5 INTDBLOCKOPNA|5 INTDCLOSE|5 INTDCOUNT|5 ' +\n 'INTDCOUNTSTATUSCODE|5 INTDCREATEMASK|5 INTDCREATEDAYMASK|5 INTDCREATEFACTORMASK|5 ' +\n 'INTDCREATEHANDLE|5 INTDCREATEOVERRIDEDAYMASK|5 INTDCREATEOVERRIDEMASK|5 ' +\n 'INTDCREATESTATUSCODEMASK|5 INTDCREATETOUPERIOD|5 INTDDELETE|5 INTDDIPTEST|5 INTDEXPORT|5 ' +\n 'INTDGETERRORCODE|5 INTDGETERRORMESSAGE|5 INTDISEQUAL|5 INTDJOIN|5 INTDLOAD|5 INTDLOADACTUALCUT|5 ' +\n 'INTDLOADDATES|5 INTDLOADHIST|5 INTDLOADLIST|5 INTDLOADLISTDATES|5 INTDLOADLISTENERGY|5 ' +\n 'INTDLOADLISTHIST|5 INTDLOADRELATEDCHANNEL|5 INTDLOADSP|5 INTDLOADSTAGING|5 INTDLOADUOM|5 ' +\n 'INTDLOADUOMDATES|5 INTDLOADUOMHIST|5 INTDLOADVERSION|5 INTDOPEN|5 INTDREADFIRST|5 INTDREADNEXT|5 ' +\n 'INTDRECCOUNT|5 INTDRELEASE|5 INTDREPLACE|5 INTDROLLAVG|5 INTDROLLPEAK|5 INTDSCALAROP|5 INTDSCALE|5 ' +\n 'INTDSETATTRIBUTE|5 INTDSETDSTPARTICIPANT|5 INTDSETSTRING|5 INTDSETVALUE|5 INTDSETVALUESTATUS|5 ' +\n 'INTDSHIFTSTARTTIME|5 INTDSMOOTH|5 INTDSORT|5 INTDSPIKETEST|5 INTDSUBSET|5 INTDTOU|5 ' +\n 'INTDTOURELEASE|5 INTDTOUVALUE|5 INTDUPDATESTATS|5 INTDVALUE|5 STDEV INTDDELETEEX|5 ' +\n 'INTDLOADEXACTUAL|5 INTDLOADEXCUT|5 INTDLOADEXDATES|5 INTDLOADEX|5 INTDLOADEXRELATEDCHANNEL|5 ' +\n 'INTDSAVEEX|5 MVLOAD|5 MVLOADACCT|5 MVLOADACCTDATES|5 MVLOADACCTHIST|5 MVLOADDATES|5 MVLOADHIST|5 ' +\n 'MVLOADLIST|5 MVLOADLISTDATES|5 MVLOADLISTHIST|5 IF FOR NEXT DONE SELECT END CALL ABORT CLEAR CHANNEL FACTOR LIST NUMBER ' +\n 'OVERRIDE SET WEEK DISTRIBUTIONNODE ELSE WHEN THEN OTHERWISE IENUM CSV INCLUDE LEAVE RIDER SAVE DELETE ' +\n 'NOVALUE SECTION WARN SAVE_UPDATE DETERMINANT LABEL REPORT REVENUE EACH ' +\n 'IN FROM TOTAL CHARGE BLOCK AND OR CSV_FILE RATE_CODE AUXILIARY_DEMAND ' +\n 'UIDACCOUNT RS BILL_PERIOD_SELECT HOURS_PER_MONTH INTD_ERROR_STOP SEASON_SCHEDULE_NAME ' +\n 'ACCOUNTFACTOR ARRAYUPPERBOUND CALLSTOREDPROC GETADOCONNECTION GETCONNECT GETDATASOURCE ' +\n 'GETQUALIFIER GETUSERID HASVALUE LISTCOUNT LISTOP LISTUPDATE LISTVALUE PRORATEFACTOR RSPRORATE ' +\n 'SETBINPATH SETDBMONITOR WQ_OPEN BILLINGHOURS DATE DATEFROMFLOAT DATETIMEFROMSTRING ' +\n 'DATETIMETOSTRING DATETOFLOAT DAY DAYDIFF DAYNAME DBDATETIME HOUR MINUTE MONTH MONTHDIFF ' +\n 'MONTHHOURS MONTHNAME ROUNDDATE SAMEWEEKDAYLASTYEAR SECOND WEEKDAY WEEKDIFF YEAR YEARDAY ' +\n 'YEARSTR COMPSUM HISTCOUNT HISTMAX HISTMIN HISTMINNZ HISTVALUE MAXNRANGE MAXRANGE MINRANGE ' +\n 'COMPIKVA COMPKVA COMPKVARFROMKQKW COMPLF IDATTR FLAG LF2KW LF2KWH MAXKW POWERFACTOR ' +\n 'READING2USAGE AVGSEASON MAXSEASON MONTHLYMERGE SEASONVALUE SUMSEASON ACCTREADDATES ' +\n 'ACCTTABLELOAD CONFIGADD CONFIGGET CREATEOBJECT CREATEREPORT EMAILCLIENT EXPBLKMDMUSAGE ' +\n 'EXPMDMUSAGE EXPORT_USAGE FACTORINEFFECT GETUSERSPECIFIEDSTOP INEFFECT ISHOLIDAY RUNRATE ' +\n 'SAVE_PROFILE SETREPORTTITLE USEREXIT WATFORRUNRATE TO TABLE ACOS ASIN ATAN ATAN2 BITAND CEIL ' +\n 'COS COSECANT COSH COTANGENT DIVQUOT DIVREM EXP FABS FLOOR FMOD FREPM FREXPN LOG LOG10 MAX MAXN ' +\n 'MIN MINNZ MODF POW ROUND ROUND2VALUE ROUNDINT SECANT SIN SINH SQROOT TAN TANH FLOAT2STRING ' +\n 'FLOAT2STRINGNC INSTR LEFT LEN LTRIM MID RIGHT RTRIM STRING STRINGNC TOLOWER TOUPPER TRIM ' +\n 'NUMDAYS READ_DATE STAGING',\n built_in: 'IDENTIFIER OPTIONS XML_ELEMENT XML_OP XML_ELEMENT_OF DOMDOCCREATE DOMDOCLOADFILE DOMDOCLOADXML ' +\n 'DOMDOCSAVEFILE DOMDOCGETROOT DOMDOCADDPI DOMNODEGETNAME DOMNODEGETTYPE DOMNODEGETVALUE DOMNODEGETCHILDCT ' +\n 'DOMNODEGETFIRSTCHILD DOMNODEGETSIBLING DOMNODECREATECHILDELEMENT DOMNODESETATTRIBUTE ' +\n 'DOMNODEGETCHILDELEMENTCT DOMNODEGETFIRSTCHILDELEMENT DOMNODEGETSIBLINGELEMENT DOMNODEGETATTRIBUTECT ' +\n 'DOMNODEGETATTRIBUTEI DOMNODEGETATTRIBUTEBYNAME DOMNODEGETBYNAME'\n },\n contains: [\n hljs.C_LINE_COMMENT_MODE,\n hljs.C_BLOCK_COMMENT_MODE,\n hljs.APOS_STRING_MODE,\n hljs.QUOTE_STRING_MODE,\n hljs.C_NUMBER_MODE,\n {\n className: 'literal',\n variants: [\n {begin: '#\\\\s+[a-zA-Z\\\\ \\\\.]*', relevance: 0}, // looks like #-comment\n {begin: '#[a-zA-Z\\\\ \\\\.]+'}\n ]\n }\n ]\n };\n}", "function ruleslanguage(hljs) {\n return {\n name: 'Oracle Rules Language',\n keywords: {\n keyword: 'BILL_PERIOD BILL_START BILL_STOP RS_EFFECTIVE_START RS_EFFECTIVE_STOP RS_JURIS_CODE RS_OPCO_CODE ' +\n 'INTDADDATTRIBUTE|5 INTDADDVMSG|5 INTDBLOCKOP|5 INTDBLOCKOPNA|5 INTDCLOSE|5 INTDCOUNT|5 ' +\n 'INTDCOUNTSTATUSCODE|5 INTDCREATEMASK|5 INTDCREATEDAYMASK|5 INTDCREATEFACTORMASK|5 ' +\n 'INTDCREATEHANDLE|5 INTDCREATEOVERRIDEDAYMASK|5 INTDCREATEOVERRIDEMASK|5 ' +\n 'INTDCREATESTATUSCODEMASK|5 INTDCREATETOUPERIOD|5 INTDDELETE|5 INTDDIPTEST|5 INTDEXPORT|5 ' +\n 'INTDGETERRORCODE|5 INTDGETERRORMESSAGE|5 INTDISEQUAL|5 INTDJOIN|5 INTDLOAD|5 INTDLOADACTUALCUT|5 ' +\n 'INTDLOADDATES|5 INTDLOADHIST|5 INTDLOADLIST|5 INTDLOADLISTDATES|5 INTDLOADLISTENERGY|5 ' +\n 'INTDLOADLISTHIST|5 INTDLOADRELATEDCHANNEL|5 INTDLOADSP|5 INTDLOADSTAGING|5 INTDLOADUOM|5 ' +\n 'INTDLOADUOMDATES|5 INTDLOADUOMHIST|5 INTDLOADVERSION|5 INTDOPEN|5 INTDREADFIRST|5 INTDREADNEXT|5 ' +\n 'INTDRECCOUNT|5 INTDRELEASE|5 INTDREPLACE|5 INTDROLLAVG|5 INTDROLLPEAK|5 INTDSCALAROP|5 INTDSCALE|5 ' +\n 'INTDSETATTRIBUTE|5 INTDSETDSTPARTICIPANT|5 INTDSETSTRING|5 INTDSETVALUE|5 INTDSETVALUESTATUS|5 ' +\n 'INTDSHIFTSTARTTIME|5 INTDSMOOTH|5 INTDSORT|5 INTDSPIKETEST|5 INTDSUBSET|5 INTDTOU|5 ' +\n 'INTDTOURELEASE|5 INTDTOUVALUE|5 INTDUPDATESTATS|5 INTDVALUE|5 STDEV INTDDELETEEX|5 ' +\n 'INTDLOADEXACTUAL|5 INTDLOADEXCUT|5 INTDLOADEXDATES|5 INTDLOADEX|5 INTDLOADEXRELATEDCHANNEL|5 ' +\n 'INTDSAVEEX|5 MVLOAD|5 MVLOADACCT|5 MVLOADACCTDATES|5 MVLOADACCTHIST|5 MVLOADDATES|5 MVLOADHIST|5 ' +\n 'MVLOADLIST|5 MVLOADLISTDATES|5 MVLOADLISTHIST|5 IF FOR NEXT DONE SELECT END CALL ABORT CLEAR CHANNEL FACTOR LIST NUMBER ' +\n 'OVERRIDE SET WEEK DISTRIBUTIONNODE ELSE WHEN THEN OTHERWISE IENUM CSV INCLUDE LEAVE RIDER SAVE DELETE ' +\n 'NOVALUE SECTION WARN SAVE_UPDATE DETERMINANT LABEL REPORT REVENUE EACH ' +\n 'IN FROM TOTAL CHARGE BLOCK AND OR CSV_FILE RATE_CODE AUXILIARY_DEMAND ' +\n 'UIDACCOUNT RS BILL_PERIOD_SELECT HOURS_PER_MONTH INTD_ERROR_STOP SEASON_SCHEDULE_NAME ' +\n 'ACCOUNTFACTOR ARRAYUPPERBOUND CALLSTOREDPROC GETADOCONNECTION GETCONNECT GETDATASOURCE ' +\n 'GETQUALIFIER GETUSERID HASVALUE LISTCOUNT LISTOP LISTUPDATE LISTVALUE PRORATEFACTOR RSPRORATE ' +\n 'SETBINPATH SETDBMONITOR WQ_OPEN BILLINGHOURS DATE DATEFROMFLOAT DATETIMEFROMSTRING ' +\n 'DATETIMETOSTRING DATETOFLOAT DAY DAYDIFF DAYNAME DBDATETIME HOUR MINUTE MONTH MONTHDIFF ' +\n 'MONTHHOURS MONTHNAME ROUNDDATE SAMEWEEKDAYLASTYEAR SECOND WEEKDAY WEEKDIFF YEAR YEARDAY ' +\n 'YEARSTR COMPSUM HISTCOUNT HISTMAX HISTMIN HISTMINNZ HISTVALUE MAXNRANGE MAXRANGE MINRANGE ' +\n 'COMPIKVA COMPKVA COMPKVARFROMKQKW COMPLF IDATTR FLAG LF2KW LF2KWH MAXKW POWERFACTOR ' +\n 'READING2USAGE AVGSEASON MAXSEASON MONTHLYMERGE SEASONVALUE SUMSEASON ACCTREADDATES ' +\n 'ACCTTABLELOAD CONFIGADD CONFIGGET CREATEOBJECT CREATEREPORT EMAILCLIENT EXPBLKMDMUSAGE ' +\n 'EXPMDMUSAGE EXPORT_USAGE FACTORINEFFECT GETUSERSPECIFIEDSTOP INEFFECT ISHOLIDAY RUNRATE ' +\n 'SAVE_PROFILE SETREPORTTITLE USEREXIT WATFORRUNRATE TO TABLE ACOS ASIN ATAN ATAN2 BITAND CEIL ' +\n 'COS COSECANT COSH COTANGENT DIVQUOT DIVREM EXP FABS FLOOR FMOD FREPM FREXPN LOG LOG10 MAX MAXN ' +\n 'MIN MINNZ MODF POW ROUND ROUND2VALUE ROUNDINT SECANT SIN SINH SQROOT TAN TANH FLOAT2STRING ' +\n 'FLOAT2STRINGNC INSTR LEFT LEN LTRIM MID RIGHT RTRIM STRING STRINGNC TOLOWER TOUPPER TRIM ' +\n 'NUMDAYS READ_DATE STAGING',\n built_in: 'IDENTIFIER OPTIONS XML_ELEMENT XML_OP XML_ELEMENT_OF DOMDOCCREATE DOMDOCLOADFILE DOMDOCLOADXML ' +\n 'DOMDOCSAVEFILE DOMDOCGETROOT DOMDOCADDPI DOMNODEGETNAME DOMNODEGETTYPE DOMNODEGETVALUE DOMNODEGETCHILDCT ' +\n 'DOMNODEGETFIRSTCHILD DOMNODEGETSIBLING DOMNODECREATECHILDELEMENT DOMNODESETATTRIBUTE ' +\n 'DOMNODEGETCHILDELEMENTCT DOMNODEGETFIRSTCHILDELEMENT DOMNODEGETSIBLINGELEMENT DOMNODEGETATTRIBUTECT ' +\n 'DOMNODEGETATTRIBUTEI DOMNODEGETATTRIBUTEBYNAME DOMNODEGETBYNAME'\n },\n contains: [\n hljs.C_LINE_COMMENT_MODE,\n hljs.C_BLOCK_COMMENT_MODE,\n hljs.APOS_STRING_MODE,\n hljs.QUOTE_STRING_MODE,\n hljs.C_NUMBER_MODE,\n {\n className: 'literal',\n variants: [\n {begin: '#\\\\s+[a-zA-Z\\\\ \\\\.]*', relevance: 0}, // looks like #-comment\n {begin: '#[a-zA-Z\\\\ \\\\.]+'}\n ]\n }\n ]\n };\n}", "function parseDocument(parser) {\n var start = parser.token.start;\n\n var definitions = [];\n do {\n definitions.push(parseDefinition(parser));\n } while (!skip(parser, _lexer.TokenKind.EOF));\n\n return {\n kind: _kinds.DOCUMENT,\n definitions: definitions,\n loc: loc(parser, start)\n };\n}", "function parseRules() {\n\tqueries = {};\n\tvar sheets = document.styleSheets;\n\tvar rules;\n\tfor (var i = 0; i < sheets.length; i++) {\n\t\tif (sheets[i].disabled) {\n\t\t\tcontinue;\n\t\t}\n\t\ttry {\n\t\t\trules = sheets[i].cssRules;\n\t\t}\n\t\tcatch(e) {\n\t\t\tcontinue;\n\t\t}\n\t\tfor (var j = 0; j < rules.length; j++) {\n\t\t\tparseRule(rules[j]);\n\t\t}\n\t}\n}", "function visitUsingRules(schema, typeInfo, documentAST, rules) {\n\t var context = new ValidationContext(schema, documentAST, typeInfo);\n\t var visitors = rules.map(function (rule) {\n\t return rule(context);\n\t });\n\t // Visit the whole document with each instance of all provided rules.\n\t (0, _languageVisitor.visit)(documentAST, (0, _languageVisitor.visitWithTypeInfo)(typeInfo, (0, _languageVisitor.visitInParallel)(visitors)));\n\t return context.getErrors();\n\t}", "function publicDoctype()\n{\n this.ruleID = 'publicDoctype';\n}", "function parse_sections(text) {\n\n let expect_header = true,\n current_list,\n current_re,\n ret = {\n custom_aids: [],\n custom_hindrances: [],\n custom_tags: [],\n records: []\n }\n ;\n\n /*\n * we mainly process the document one line at a time,\n * but occasionally we need to merge lines together.\n */\n let lines = text.split(\"\\n\");\n for ( let n=0; n!=lines.length; ++n ) {\n\n let line = lines[n];\n\n if ( expect_header ) {\n\n /*\n * This line is probably a header,\n * but could just be a weird multi-line string\n */\n\n switch ( line ) {\n case custom_aid_section_header:\n current_list = ret.custom_aids;\n current_re = custom_aid_re;\n break;\n case custom_hindrance_section_header:\n current_list = ret.custom_hindrances;\n current_re = custom_hindrance_re;\n break;\n case custom_tag_section_header:\n current_list = ret.custom_tags;\n current_re = custom_tag_re;\n break;\n case diary_section_header:\n current_list = ret.records;\n current_re = diary_entry_re;\n break;\n default:\n if ( current_list ) {\n /*\n * the previous line was blank, but this is\n * not a header. We assume this must be part\n * of a strange multi-line string.\n */\n current_list[current_list.length-1] += \"\\n\";\n --n;\n } else {\n return this.corrupt(file);\n }\n }\n expect_header = false;\n\n } else if ( lines[n] == \"\" ) {\n\n /*\n * This line looks like a section footer,\n * but could just be a weird multi-line string\n */\n\n expect_header = true;\n\n } else {\n\n /*\n * This line is (part of) a record\n */\n\n while ( line.substr(line.length-1) != '\"' ) {\n /*\n * Lines that do not end in a quote must be part\n * of a multi-line string\n */\n if ( ++n == lines.length ) {\n return this.corrupt(file);\n }\n line += \"\\n\" + lines[n];\n }\n\n if ( current_re.test(line) ) {\n // this is probably a complete record\n current_list.push(line);\n } else if ( current_list.length ) {\n // the previous line actually ended with a multi-line string:\n current_list[current_list.length-1] += \"\\n\" + line;\n } else {\n return this.corrupt(file);\n }\n\n }\n\n }\n\n return ret;\n\n }", "function visitUsingRules(schema, typeInfo, documentAST, rules) {\n var context = new ValidationContext(schema, documentAST, typeInfo);\n var visitors = rules.map(function (rule) {\n return rule(context);\n });\n // Visit the whole document with each instance of all provided rules.\n (0, _languageVisitor.visit)(documentAST, (0, _languageVisitor.visitWithTypeInfo)(typeInfo, (0, _languageVisitor.visitInParallel)(visitors)));\n return context.getErrors();\n}", "function closeOverDocument(localDoc) {\n\nvar STYLE_KEY = 'STYLE';\nvar EVENT_KEY = 'EVENT';\nvar ATTR_KEY = 'ATTR';\nvar ATTR_NS_KEY = 'ATTR_NS';\n\n\n\n//////////// VIRTUAL DOM NODES ////////////\n\n\nfunction text(string)\n{\n\treturn {\n\t\ttype: 'text',\n\t\ttext: string\n\t};\n}\n\n\nfunction nodeHelp(tag, factList, kidList)\n{\n\tvar organized = organizeFacts(factList);\n\tvar namespace = organized.namespace;\n\tvar facts = organized.facts;\n\n\tvar children = [];\n\tvar descendantsCount = 0;\n\tfor (var i = 0; i < kidList.length; i++)\n\t{\n\t\t// xxx use read-only array as-is?\n\t\tvar kid = kidList[i];\n\t\tdescendantsCount += (kid.descendantsCount || 0);\n\t\tchildren.push(kid);\n\t}\n\tdescendantsCount += children.length;\n\n\treturn {\n\t\ttype: 'node',\n\t\ttag: tag,\n\t\tfacts: facts,\n\t\tchildren: children,\n\t\tnamespace: namespace,\n\t\tdescendantsCount: descendantsCount\n\t};\n}\n\n\nfunction keyedNode(tag, factList, kidList)\n{\n\tvar organized = organizeFacts(factList);\n\tvar namespace = organized.namespace;\n\tvar facts = organized.facts;\n\n\tvar children = [];\n\tvar descendantsCount = 0;\n\tfor (var i = 0; i < kidList.length; i++)\n\t{\n\t\tvar kid = kidList[i];\n\t\tdescendantsCount += (kid.value1.descendantsCount || 0);\n\t\tchildren.push(kid);\n\t}\n\tdescendantsCount += children.length;\n\n\treturn {\n\t\ttype: 'keyed-node',\n\t\ttag: tag,\n\t\tfacts: facts,\n\t\tchildren: children,\n\t\tnamespace: namespace,\n\t\tdescendantsCount: descendantsCount\n\t};\n}\n\n\nfunction custom(factList, model, impl)\n{\n\tvar facts = organizeFacts(factList).facts;\n\n\treturn {\n\t\ttype: 'custom',\n\t\tfacts: facts,\n\t\tmodel: model,\n\t\timpl: impl\n\t};\n}\n\n\nfunction map(tagger, node)\n{\n\treturn {\n\t\ttype: 'tagger',\n\t\ttagger: tagger,\n\t\tnode: node,\n\t\tdescendantsCount: 1 + (node.descendantsCount || 0)\n\t};\n}\n\n\nfunction thunk(func, args, thunk)\n{\n\treturn {\n\t\ttype: 'thunk',\n\t\tfunc: func,\n\t\targs: args,\n\t\tthunk: thunk,\n\t\tnode: undefined\n\t};\n}\n\nfunction lazy(fn, a)\n{\n\treturn thunk(fn, [a], function() {\n\t\treturn fn(a);\n\t});\n}\n\nfunction lazy2(fn, a, b)\n{\n\treturn thunk(fn, [a,b], function() {\n\t\treturn fn(a)(b);\n\t});\n}\n\nfunction lazy3(fn, a, b, c)\n{\n\treturn thunk(fn, [a,b,c], function() {\n\t\treturn fn(a)(b)(c);\n\t});\n}\n\n\n\n// FACTS\n\n\nfunction organizeFacts(factList)\n{\n\tvar namespace, facts = {};\n\n\tfor (var i = 0; i < factList.length; i++)\n\t{\n\t\tvar entry = factList[i];\n\t\tvar key = entry.key;\n\n\t\tif (key === ATTR_KEY || key === ATTR_NS_KEY || key === EVENT_KEY)\n\t\t{\n\t\t\tvar subFacts = facts[key] || {};\n\t\t\tsubFacts[entry.realKey] = entry.value;\n\t\t\tfacts[key] = subFacts;\n\t\t}\n\t\telse if (key === STYLE_KEY)\n\t\t{\n\t\t\tvar styles = facts[key] || {};\n\t\t\tvar styleList = entry.value;\n\t\t\tfor (var j = 0; j < styleList.length; j++)\n\t\t\t{\n\t\t\t\tvar style = styleList[j];\n\t\t\t\tstyles[style.value0] = style.value1;\n\t\t\t}\n\t\t\tfacts[key] = styles;\n\t\t}\n\t\telse if (key === 'namespace')\n\t\t{\n\t\t\tnamespace = entry.value;\n\t\t}\n\t\telse if (key === 'className')\n\t\t{\n\t\t\tvar classes = facts[key];\n\t\t\tfacts[key] = typeof classes === 'undefined'\n\t\t\t\t? entry.value\n\t\t\t\t: classes + ' ' + entry.value;\n\t\t}\n \t\telse\n\t\t{\n\t\t\tfacts[key] = entry.value;\n\t\t}\n\t}\n\n\treturn {\n\t\tfacts: facts,\n\t\tnamespace: namespace\n\t};\n}\n\n\n\n//////////// PROPERTIES AND ATTRIBUTES ////////////\n\n\nfunction style(value)\n{\n\treturn {\n\t\tkey: STYLE_KEY,\n\t\tvalue: value\n\t};\n}\n\n\nfunction property(key, value)\n{\n\treturn {\n\t\tkey: key,\n\t\tvalue: value\n\t};\n}\n\n\nfunction attribute(key, value)\n{\n\treturn {\n\t\tkey: ATTR_KEY,\n\t\trealKey: key,\n\t\tvalue: value\n\t};\n}\n\n\nfunction attributeNS(namespace, key, value)\n{\n\treturn {\n\t\tkey: ATTR_NS_KEY,\n\t\trealKey: key,\n\t\tvalue: {\n\t\t\tvalue: value,\n\t\t\tnamespace: namespace\n\t\t}\n\t};\n}\n\n\nfunction on(name, options, decoder)\n{\n\treturn {\n\t\tkey: EVENT_KEY,\n\t\trealKey: name,\n\t\tvalue: {\n\t\t\toptions: options,\n\t\t\tdecoder: decoder,\n\t\t\tfilter: defaultFilter,\n\t\t}\n\t};\n}\n\nfunction defaultFilter(ev) {\n return function() {\n return true;\n };\n}\n\nfunction filterOn(name, options, filter, decoder) {\n\treturn {\n\t\tkey: EVENT_KEY,\n\t\trealKey: name,\n\t\tvalue: {\n\t\t\toptions: options,\n\t\t\tdecoder: decoder,\n\t\t\tfilter: filter,\n\t\t}\n\t};\n}\n\n\nfunction equalEvents(a, b)\n{\n\tif (a.options !== b.options)\n\t{\n\t\tif (a.options.stopPropagation !== b.options.stopPropagation || a.options.preventDefault !== b.options.preventDefault)\n\t\t{\n\t\t\treturn false;\n\t\t}\n\t}\n\n\t// return _elm_lang$core$Native_Json.equality(a.decoder, b.decoder);\n\t// XXX: event equality?\n\t// console.log(\"event equality\", a.decoder, b.decoder, a.decoder === b.decoder);\n\treturn a.decoder === b.decoder && a.filter === b.filter;\n}\n\n\nfunction mapProperty(decodeMapper, func, property)\n{\n\tif (property.key !== EVENT_KEY)\n\t{\n\t\treturn property;\n\t}\n\n\treturn filterOn(\n\t\tproperty.realKey,\n\t\tproperty.value.options,\n property.value.filter,\n\t\tdecodeMapper(func)(property.value.decoder)\n\t);\n}\n\n\n//////////// RENDER ////////////\n\n\nfunction render(vNode, eventNode)\n{\n\tswitch (vNode.type)\n\t{\n\t\tcase 'thunk':\n\t\t\tif (!vNode.node)\n\t\t\t{\n\t\t\t\tvNode.node = vNode.thunk();\n\t\t\t}\n\t\t\treturn render(vNode.node, eventNode);\n\n\t\tcase 'tagger':\n\t\t\tvar subNode = vNode.node;\n\t\t\tvar tagger = vNode.tagger;\n\n\t\t\twhile (subNode.type === 'tagger')\n\t\t\t{\n\t\t\t\ttypeof tagger !== 'object'\n\t\t\t\t\t? tagger = [tagger, subNode.tagger]\n\t\t\t\t\t: tagger.push(subNode.tagger);\n\n\t\t\t\tsubNode = subNode.node;\n\t\t\t}\n\n\t\t\tvar subEventRoot = { tagger: tagger, parent: eventNode };\n\t\t\tvar domNode = render(subNode, subEventRoot);\n\t\t\tdomNode.elm_event_node_ref = subEventRoot;\n\t\t\treturn domNode;\n\n\t\tcase 'text':\n\t\t\treturn localDoc.createTextNode(vNode.text);\n\n\t\tcase 'node':\n\t\t\tvar domNode = vNode.namespace\n\t\t\t\t? localDoc.createElementNS(vNode.namespace, vNode.tag)\n\t\t\t\t: localDoc.createElement(vNode.tag);\n\n\t\t\tapplyFacts(domNode, eventNode, vNode.facts);\n\n\t\t\tvar children = vNode.children;\n\n\t\t\tfor (var i = 0; i < children.length; i++)\n\t\t\t{\n\t\t\t\tdomNode.appendChild(render(children[i], eventNode));\n\t\t\t}\n\n\t\t\treturn domNode;\n\n\t\tcase 'keyed-node':\n\t\t\tvar domNode = vNode.namespace\n\t\t\t\t? localDoc.createElementNS(vNode.namespace, vNode.tag)\n\t\t\t\t: localDoc.createElement(vNode.tag);\n\n\t\t\tapplyFacts(domNode, eventNode, vNode.facts);\n\n\t\t\tvar children = vNode.children;\n\n\t\t\tfor (var i = 0; i < children.length; i++)\n\t\t\t{\n\t\t\t\tdomNode.appendChild(render(children[i].value1, eventNode));\n\t\t\t}\n\n\t\t\treturn domNode;\n\n\t\tcase 'custom':\n\t\t\tvar domNode = vNode.impl.render(vNode.model);\n\t\t\tapplyFacts(domNode, eventNode, vNode.facts);\n\t\t\treturn domNode;\n\t}\n}\n\n\n\n//////////// APPLY FACTS ////////////\n\n\nfunction applyFacts(domNode, eventNode, facts)\n{\n\tfor (var key in facts)\n\t{\n\t\tvar value = facts[key];\n\n\t\tswitch (key)\n\t\t{\n\t\t\tcase STYLE_KEY:\n\t\t\t\tapplyStyles(domNode, value);\n\t\t\t\tbreak;\n\n\t\t\tcase EVENT_KEY:\n\t\t\t\tapplyEvents(domNode, eventNode, value);\n\t\t\t\tbreak;\n\n\t\t\tcase ATTR_KEY:\n\t\t\t\tapplyAttrs(domNode, value);\n\t\t\t\tbreak;\n\n\t\t\tcase ATTR_NS_KEY:\n\t\t\t\tapplyAttrsNS(domNode, value);\n\t\t\t\tbreak;\n\n\t\t\tcase 'value':\n\t\t\t\tif (domNode[key] !== value)\n\t\t\t\t{\n\t\t\t\t\tdomNode[key] = value;\n\t\t\t\t}\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\tdomNode[key] = value;\n\t\t\t\tbreak;\n\t\t}\n\t}\n}\n\nfunction applyStyles(domNode, styles)\n{\n\tvar domNodeStyle = domNode.style;\n\n\tfor (var key in styles)\n\t{\n\t\tdomNodeStyle[key] = styles[key];\n\t}\n}\n\nfunction applyEvents(domNode, eventNode, events)\n{\n\tvar allHandlers = domNode.elm_handlers || {};\n\n\tfor (var key in events)\n\t{\n\t\tvar handler = allHandlers[key];\n\t\tvar value = events[key];\n\n\t\tif (typeof value === 'undefined')\n\t\t{\n\t\t\tdomNode.removeEventListener(key, handler);\n\t\t\tallHandlers[key] = undefined;\n\t\t}\n\t\telse if (typeof handler === 'undefined')\n\t\t{\n\t\t\tvar handler = makeEventHandler(eventNode, value);\n\t\t\tdomNode.addEventListener(key, handler);\n\t\t\tallHandlers[key] = handler;\n\t\t}\n\t\telse\n\t\t{\n\t\t\thandler.info = value;\n\t\t}\n\t}\n\n\tdomNode.elm_handlers = allHandlers;\n}\n\nfunction makeEventHandler(eventNode, info)\n{\n\tfunction eventHandler(event)\n\t{\n\t\tvar info = eventHandler.info;\n\n var b = info.filter(event)();\n\n\t\t// keep the indentation the same as in the Elm version\n\t\t// in case of bugfixes upstream\n\t\tif (b)\n\t\t{\n\t\t // var value = A2(_elm_lang$core$Native_Json.run,info.decoder, event);\n\t\t var value = info.decoder(event);\n\n\t\t\t// event options stop propagation/preventdefault are only\n\t\t\t// applied after successful EventDecoder.\n\t\t\t// this is a feature: non standard options will\n\t\t\t// only apply to successful event decodes (= that emit\n\t\t\t// a command). Failures will bubble on.\n\t\t\tvar options = info.options;\n\t\t\tif (options.stopPropagation)\n\t\t\t{\n\t\t\t\tevent.stopPropagation();\n\t\t\t}\n\t\t\tif (options.preventDefault)\n\t\t\t{\n\t\t\t\tevent.preventDefault();\n\t\t\t}\n\n\t\t\t// error/success is all handled in the purescript mapping functions\n\t\t\tvar message = value;\n\n\t\t\tvar currentEventNode = eventNode;\n\t\t\tvar tn = topEventNode(eventNode);\n\t\t\tvar emitter = tn.emitter;\n\t\t\tvar cmdMap = tn.cmdMap;\n\n\t\t\twhile (currentEventNode)\n\t\t\t{\n\t\t\t\tvar tagger = currentEventNode.tagger;\n\t\t\t\temitter = currentEventNode.emitter;\n\n\t\t\t\tif (typeof tagger === 'function')\n\t\t\t\t{\n\t\t\t\t\tmessage = cmdMap(tagger)(message);\n\t\t\t\t}\n\t\t\t\telse if (typeof tagger === 'object')\n\t\t\t\t{\n\t\t\t\t\tfor (var i = tagger.length; i--; )\n\t\t\t\t\t{\n\t\t\t\t\t\tmessage = cmdMap(tagger[i])(message);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\tcurrentEventNode = currentEventNode.parent;\n\t\t\t}\n\n\t\t\t// emit the message to bonsai\n\t\t\tif (emitter(message)()) {\n\t\t\t\tconsole.log(\"triggering event: \", event);\n\t\t\t}\n\t\t}\n\t};\n\n\teventHandler.info = info;\n\n\treturn eventHandler;\n}\n\nfunction applyAttrs(domNode, attrs)\n{\n\tfor (var key in attrs)\n\t{\n\t\tvar value = attrs[key];\n\t\tif (typeof value === 'undefined')\n\t\t{\n\t\t\tdomNode.removeAttribute(key);\n\t\t}\n\t\telse\n\t\t{\n\t\t\tdomNode.setAttribute(key, value);\n\t\t}\n\t}\n}\n\nfunction applyAttrsNS(domNode, nsAttrs)\n{\n\tfor (var key in nsAttrs)\n\t{\n\t\tvar pair = nsAttrs[key];\n\t\tvar namespace = pair.namespace;\n\t\tvar value = pair.value;\n\n\t\tif (typeof value === 'undefined')\n\t\t{\n\t\t\tdomNode.removeAttributeNS(namespace, key);\n\t\t}\n\t\telse\n\t\t{\n\t\t\tdomNode.setAttributeNS(namespace, key, value);\n\t\t}\n\t}\n}\n\n\n\n//////////// DIFF ////////////\n\n\nfunction diff(a, b)\n{\n\tvar patches = [];\n\tdiffHelp(a, b, patches, 0);\n\treturn patches;\n}\n\n\nfunction makePatch(type, index, data)\n{\n\treturn {\n\t\tindex: index,\n\t\ttype: type,\n\t\tdata: data,\n\t\tdomNode: undefined,\n\t\teventNode: undefined\n\t};\n}\n\n\nfunction diffHelp(a, b, patches, index)\n{\n\tif (a === b)\n\t{\n\t\treturn;\n\t}\n\n\tvar aType = a.type;\n\tvar bType = b.type;\n\n\t// Bail if you run into different types of nodes. Implies that the\n\t// structure has changed significantly and it's not worth a diff.\n\tif (aType !== bType)\n\t{\n\t\tpatches.push(makePatch('p-redraw', index, b));\n\t\treturn;\n\t}\n\n\t// Now we know that both nodes are the same type.\n\tswitch (bType)\n\t{\n\t\tcase 'thunk':\n\t\t\tvar aArgs = a.args;\n\t\t\tvar bArgs = b.args;\n\t\t\tvar i = aArgs.length;\n\t\t\tvar same = a.func === b.func && i === bArgs.length;\n\t\t\twhile (same && i--)\n\t\t\t{\n\t\t\t\tsame = aArgs[i] === bArgs[i];\n\t\t\t}\n\t\t\tif (same)\n\t\t\t{\n\t\t\t\tb.node = a.node;\n\t\t\t\treturn;\n\t\t\t}\n\t\t\tb.node = b.thunk();\n\t\t\tvar subPatches = [];\n\t\t\tdiffHelp(a.node, b.node, subPatches, 0);\n\t\t\tif (subPatches.length > 0)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-thunk', index, subPatches));\n\t\t\t}\n\t\t\treturn;\n\n\t\tcase 'tagger':\n\t\t\t// gather nested taggers\n\t\t\tvar aTaggers = a.tagger;\n\t\t\tvar bTaggers = b.tagger;\n\t\t\tvar nesting = false;\n\n\t\t\tvar aSubNode = a.node;\n\t\t\twhile (aSubNode.type === 'tagger')\n\t\t\t{\n\t\t\t\tnesting = true;\n\n\t\t\t\ttypeof aTaggers !== 'object'\n\t\t\t\t\t? aTaggers = [aTaggers, aSubNode.tagger]\n\t\t\t\t\t: aTaggers.push(aSubNode.tagger);\n\n\t\t\t\taSubNode = aSubNode.node;\n\t\t\t}\n\n\t\t\tvar bSubNode = b.node;\n\t\t\twhile (bSubNode.type === 'tagger')\n\t\t\t{\n\t\t\t\tnesting = true;\n\n\t\t\t\ttypeof bTaggers !== 'object'\n\t\t\t\t\t? bTaggers = [bTaggers, bSubNode.tagger]\n\t\t\t\t\t: bTaggers.push(bSubNode.tagger);\n\n\t\t\t\tbSubNode = bSubNode.node;\n\t\t\t}\n\n\t\t\t// Just bail if different numbers of taggers. This implies the\n\t\t\t// structure of the virtual DOM has changed.\n\t\t\tif (nesting && aTaggers.length !== bTaggers.length)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-redraw', index, b));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\t// check if taggers are \"the same\"\n\t\t\tif (nesting ? !pairwiseRefEqual(aTaggers, bTaggers) : aTaggers !== bTaggers)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-tagger', index, bTaggers));\n\t\t\t}\n\n\t\t\t// diff everything below the taggers\n\t\t\tdiffHelp(aSubNode, bSubNode, patches, index + 1);\n\t\t\treturn;\n\n\t\tcase 'text':\n\t\t\tif (a.text !== b.text)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-text', index, b.text));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\treturn;\n\n\t\tcase 'node':\n\t\t\t// Bail if obvious indicators have changed. Implies more serious\n\t\t\t// structural changes such that it's not worth it to diff.\n\t\t\tif (a.tag !== b.tag || a.namespace !== b.namespace)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-redraw', index, b));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tvar factsDiff = diffFacts(a.facts, b.facts);\n\n\t\t\tif (typeof factsDiff !== 'undefined')\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-facts', index, factsDiff));\n\t\t\t}\n\n\t\t\tdiffChildren(a, b, patches, index);\n\t\t\treturn;\n\n\t\tcase 'keyed-node':\n\t\t\t// Bail if obvious indicators have changed. Implies more serious\n\t\t\t// structural changes such that it's not worth it to diff.\n\t\t\tif (a.tag !== b.tag || a.namespace !== b.namespace)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-redraw', index, b));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tvar factsDiff = diffFacts(a.facts, b.facts);\n\n\t\t\tif (typeof factsDiff !== 'undefined')\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-facts', index, factsDiff));\n\t\t\t}\n\n\t\t\tdiffKeyedChildren(a, b, patches, index);\n\t\t\treturn;\n\n\t\tcase 'custom':\n\t\t\tif (a.impl !== b.impl)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-redraw', index, b));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tvar factsDiff = diffFacts(a.facts, b.facts);\n\t\t\tif (typeof factsDiff !== 'undefined')\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-facts', index, factsDiff));\n\t\t\t}\n\n\t\t\tvar patch = b.impl.diff(a,b);\n\t\t\tif (patch)\n\t\t\t{\n\t\t\t\tpatches.push(makePatch('p-custom', index, patch));\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\treturn;\n\t}\n}\n\n\n// assumes the incoming arrays are the same length\nfunction pairwiseRefEqual(as, bs)\n{\n\tfor (var i = 0; i < as.length; i++)\n\t{\n\t\tif (as[i] !== bs[i])\n\t\t{\n\t\t\treturn false;\n\t\t}\n\t}\n\n\treturn true;\n}\n\n\n// TODO Instead of creating a new diff object, it's possible to just test if\n// there *is* a diff. During the actual patch, do the diff again and make the\n// modifications directly. This way, there's no new allocations. Worth it?\nfunction diffFacts(a, b, category)\n{\n\tvar diff;\n\n\t// look for changes and removals\n\tfor (var aKey in a)\n\t{\n\t\tif (aKey === STYLE_KEY || aKey === EVENT_KEY || aKey === ATTR_KEY || aKey === ATTR_NS_KEY)\n\t\t{\n\t\t\tvar subDiff = diffFacts(a[aKey], b[aKey] || {}, aKey);\n\t\t\tif (subDiff)\n\t\t\t{\n\t\t\t\tdiff = diff || {};\n\t\t\t\tdiff[aKey] = subDiff;\n\t\t\t}\n\t\t\tcontinue;\n\t\t}\n\n\t\t// remove if not in the new facts\n\t\tif (!(aKey in b))\n\t\t{\n\t\t\tdiff = diff || {};\n\t\t\tdiff[aKey] =\n\t\t\t\t(typeof category === 'undefined')\n\t\t\t\t\t? (typeof a[aKey] === 'string' ? '' : null)\n\t\t\t\t\t:\n\t\t\t\t(category === STYLE_KEY)\n\t\t\t\t\t? ''\n\t\t\t\t\t:\n\t\t\t\t(category === EVENT_KEY || category === ATTR_KEY)\n\t\t\t\t\t? undefined\n\t\t\t\t\t:\n\t\t\t\t{ namespace: a[aKey].namespace, value: undefined };\n\n\t\t\tcontinue;\n\t\t}\n\n\t\tvar aValue = a[aKey];\n\t\tvar bValue = b[aKey];\n\n\t\t// reference equal, so don't worry about it\n\t\tif (aValue === bValue && aKey !== 'value'\n\t\t\t|| category === EVENT_KEY && equalEvents(aValue, bValue))\n\t\t{\n\t\t\tcontinue;\n\t\t}\n\n\t\tdiff = diff || {};\n\t\tdiff[aKey] = bValue;\n\t}\n\n\t// add new stuff\n\tfor (var bKey in b)\n\t{\n\t\tif (!(bKey in a))\n\t\t{\n\t\t\tdiff = diff || {};\n\t\t\tdiff[bKey] = b[bKey];\n\t\t}\n\t}\n\n\treturn diff;\n}\n\n\nfunction diffChildren(aParent, bParent, patches, rootIndex)\n{\n\tvar aChildren = aParent.children;\n\tvar bChildren = bParent.children;\n\n\tvar aLen = aChildren.length;\n\tvar bLen = bChildren.length;\n\n\t// FIGURE OUT IF THERE ARE INSERTS OR REMOVALS\n\n\tif (aLen > bLen)\n\t{\n\t\tpatches.push(makePatch('p-remove-last', rootIndex, aLen - bLen));\n\t}\n\telse if (aLen < bLen)\n\t{\n\t\tpatches.push(makePatch('p-append', rootIndex, bChildren.slice(aLen)));\n\t}\n\n\t// PAIRWISE DIFF EVERYTHING ELSE\n\n\tvar index = rootIndex;\n\tvar minLen = aLen < bLen ? aLen : bLen;\n\tfor (var i = 0; i < minLen; i++)\n\t{\n\t\tindex++;\n\t\tvar aChild = aChildren[i];\n\t\tdiffHelp(aChild, bChildren[i], patches, index);\n\t\tindex += aChild.descendantsCount || 0;\n\t}\n}\n\n\n\n//////////// KEYED DIFF ////////////\n\n\nfunction diffKeyedChildren(aParent, bParent, patches, rootIndex)\n{\n\tvar localPatches = [];\n\n\tvar changes = {}; // Dict String Entry\n\tvar inserts = []; // Array { index : Int, entry : Entry }\n\t// type Entry = { tag : String, vnode : VNode, index : Int, data : _ }\n\n\tvar aChildren = aParent.children;\n\tvar bChildren = bParent.children;\n\tvar aLen = aChildren.length;\n\tvar bLen = bChildren.length;\n\tvar aIndex = 0;\n\tvar bIndex = 0;\n\n\tvar index = rootIndex;\n\n\twhile (aIndex < aLen && bIndex < bLen)\n\t{\n\t\tvar a = aChildren[aIndex];\n\t\tvar b = bChildren[bIndex];\n\n\t\tvar aKey = a.value0;\n\t\tvar bKey = b.value0;\n\t\tvar aNode = a.value1;\n\t\tvar bNode = b.value1;\n\n\t\t// check if keys match\n\n\t\tif (aKey === bKey)\n\t\t{\n\t\t\tindex++;\n\t\t\tdiffHelp(aNode, bNode, localPatches, index);\n\t\t\tindex += aNode.descendantsCount || 0;\n\n\t\t\taIndex++;\n\t\t\tbIndex++;\n\t\t\tcontinue;\n\t\t}\n\n\t\t// look ahead 1 to detect insertions and removals.\n\n\t\tvar aLookAhead = aIndex + 1 < aLen;\n\t\tvar bLookAhead = bIndex + 1 < bLen;\n\n\t\tif (aLookAhead)\n\t\t{\n\t\t\tvar aNext = aChildren[aIndex + 1];\n\t\t\tvar aNextKey = aNext.value0;\n\t\t\tvar aNextNode = aNext.value1;\n\t\t\tvar oldMatch = bKey === aNextKey;\n\t\t}\n\n\t\tif (bLookAhead)\n\t\t{\n\t\t\tvar bNext = bChildren[bIndex + 1];\n\t\t\tvar bNextKey = bNext.value0;\n\t\t\tvar bNextNode = bNext.value1;\n\t\t\tvar newMatch = aKey === bNextKey;\n\t\t}\n\n\n\t\t// swap a and b\n\t\tif (aLookAhead && bLookAhead && newMatch && oldMatch)\n\t\t{\n\t\t\tindex++;\n\t\t\tdiffHelp(aNode, bNextNode, localPatches, index);\n\t\t\tinsertNode(changes, localPatches, aKey, bNode, bIndex, inserts);\n\t\t\tindex += aNode.descendantsCount || 0;\n\n\t\t\tindex++;\n\t\t\tremoveNode(changes, localPatches, aKey, aNextNode, index);\n\t\t\tindex += aNextNode.descendantsCount || 0;\n\n\t\t\taIndex += 2;\n\t\t\tbIndex += 2;\n\t\t\tcontinue;\n\t\t}\n\n\t\t// insert b\n\t\tif (bLookAhead && newMatch)\n\t\t{\n\t\t\tindex++;\n\t\t\tinsertNode(changes, localPatches, bKey, bNode, bIndex, inserts);\n\t\t\tdiffHelp(aNode, bNextNode, localPatches, index);\n\t\t\tindex += aNode.descendantsCount || 0;\n\n\t\t\taIndex += 1;\n\t\t\tbIndex += 2;\n\t\t\tcontinue;\n\t\t}\n\n\t\t// remove a\n\t\tif (aLookAhead && oldMatch)\n\t\t{\n\t\t\tindex++;\n\t\t\tremoveNode(changes, localPatches, aKey, aNode, index);\n\t\t\tindex += aNode.descendantsCount || 0;\n\n\t\t\tindex++;\n\t\t\tdiffHelp(aNextNode, bNode, localPatches, index);\n\t\t\tindex += aNextNode.descendantsCount || 0;\n\n\t\t\taIndex += 2;\n\t\t\tbIndex += 1;\n\t\t\tcontinue;\n\t\t}\n\n\t\t// remove a, insert b\n\t\tif (aLookAhead && bLookAhead && aNextKey === bNextKey)\n\t\t{\n\t\t\tindex++;\n\t\t\tremoveNode(changes, localPatches, aKey, aNode, index);\n\t\t\tinsertNode(changes, localPatches, bKey, bNode, bIndex, inserts);\n\t\t\tindex += aNode.descendantsCount || 0;\n\n\t\t\tindex++;\n\t\t\tdiffHelp(aNextNode, bNextNode, localPatches, index);\n\t\t\tindex += aNextNode.descendantsCount || 0;\n\n\t\t\taIndex += 2;\n\t\t\tbIndex += 2;\n\t\t\tcontinue;\n\t\t}\n\n\t\tbreak;\n\t}\n\n\t// eat up any remaining nodes with removeNode and insertNode\n\n\twhile (aIndex < aLen)\n\t{\n\t\tindex++;\n\t\tvar a = aChildren[aIndex];\n\t\tvar aNode = a.value1;\n\t\tremoveNode(changes, localPatches, a.value0, aNode, index);\n\t\tindex += aNode.descendantsCount || 0;\n\t\taIndex++;\n\t}\n\n\tvar endInserts;\n\twhile (bIndex < bLen)\n\t{\n\t\tendInserts = endInserts || [];\n\t\tvar b = bChildren[bIndex];\n\t\tinsertNode(changes, localPatches, b.value0, b.value1, undefined, endInserts);\n\t\tbIndex++;\n\t}\n\n\tif (localPatches.length > 0 || inserts.length > 0 || typeof endInserts !== 'undefined')\n\t{\n\t\tpatches.push(makePatch('p-reorder', rootIndex, {\n\t\t\tpatches: localPatches,\n\t\t\tinserts: inserts,\n\t\t\tendInserts: endInserts\n\t\t}));\n\t}\n}\n\n\n\n//////////// CHANGES FROM KEYED DIFF ////////////\n\n\nvar POSTFIX = '_elmW6BL';\n\n\nfunction insertNode(changes, localPatches, key, vnode, bIndex, inserts)\n{\n\tvar entry = changes[key];\n\n\t// never seen this key before\n\tif (typeof entry === 'undefined')\n\t{\n\t\tentry = {\n\t\t\ttag: 'insert',\n\t\t\tvnode: vnode,\n\t\t\tindex: bIndex,\n\t\t\tdata: undefined\n\t\t};\n\n\t\tinserts.push({ index: bIndex, entry: entry });\n\t\tchanges[key] = entry;\n\n\t\treturn;\n\t}\n\n\t// this key was removed earlier, a match!\n\tif (entry.tag === 'remove')\n\t{\n\t\tinserts.push({ index: bIndex, entry: entry });\n\n\t\tentry.tag = 'move';\n\t\tvar subPatches = [];\n\t\tdiffHelp(entry.vnode, vnode, subPatches, entry.index);\n\t\tentry.index = bIndex;\n\t\tentry.data.data = {\n\t\t\tpatches: subPatches,\n\t\t\tentry: entry\n\t\t};\n\n\t\treturn;\n\t}\n\n\t// this key has already been inserted or moved, a duplicate!\n\tinsertNode(changes, localPatches, key + POSTFIX, vnode, bIndex, inserts);\n}\n\n\nfunction removeNode(changes, localPatches, key, vnode, index)\n{\n\tvar entry = changes[key];\n\n\t// never seen this key before\n\tif (typeof entry === 'undefined')\n\t{\n\t\tvar patch = makePatch('p-remove', index, undefined);\n\t\tlocalPatches.push(patch);\n\n\t\tchanges[key] = {\n\t\t\ttag: 'remove',\n\t\t\tvnode: vnode,\n\t\t\tindex: index,\n\t\t\tdata: patch\n\t\t};\n\n\t\treturn;\n\t}\n\n\t// this key was inserted earlier, a match!\n\tif (entry.tag === 'insert')\n\t{\n\t\tentry.tag = 'move';\n\t\tvar subPatches = [];\n\t\tdiffHelp(vnode, entry.vnode, subPatches, index);\n\n\t\tvar patch = makePatch('p-remove', index, {\n\t\t\tpatches: subPatches,\n\t\t\tentry: entry\n\t\t});\n\t\tlocalPatches.push(patch);\n\n\t\treturn;\n\t}\n\n\t// this key has already been removed or moved, a duplicate!\n\tremoveNode(changes, localPatches, key + POSTFIX, vnode, index);\n}\n\n\n\n//////////// ADD DOM NODES ////////////\n//\n// Each DOM node has an \"index\" assigned in order of traversal. It is important\n// to minimize our crawl over the actual DOM, so these indexes (along with the\n// descendantsCount of virtual nodes) let us skip touching entire subtrees of\n// the DOM if we know there are no patches there.\n\n\nfunction addDomNodes(domNode, vNode, patches, eventNode)\n{\n\taddDomNodesHelp(domNode, vNode, patches, 0, 0, vNode.descendantsCount, eventNode);\n}\n\n\n// assumes `patches` is non-empty and indexes increase monotonically.\nfunction addDomNodesHelp(domNode, vNode, patches, i, low, high, eventNode)\n{\n\tvar patch = patches[i];\n\tvar index = patch.index;\n\n\twhile (index === low)\n\t{\n\t\tvar patchType = patch.type;\n\n\t\tif (patchType === 'p-thunk')\n\t\t{\n\t\t\taddDomNodes(domNode, vNode.node, patch.data, eventNode);\n\t\t}\n\t\telse if (patchType === 'p-reorder')\n\t\t{\n\t\t\tpatch.domNode = domNode;\n\t\t\tpatch.eventNode = eventNode;\n\n\t\t\tvar subPatches = patch.data.patches;\n\t\t\tif (subPatches.length > 0)\n\t\t\t{\n\t\t\t\taddDomNodesHelp(domNode, vNode, subPatches, 0, low, high, eventNode);\n\t\t\t}\n\t\t}\n\t\telse if (patchType === 'p-remove')\n\t\t{\n\t\t\tpatch.domNode = domNode;\n\t\t\tpatch.eventNode = eventNode;\n\n\t\t\tvar data = patch.data;\n\t\t\tif (typeof data !== 'undefined')\n\t\t\t{\n\t\t\t\tdata.entry.data = domNode;\n\t\t\t\tvar subPatches = data.patches;\n\t\t\t\tif (subPatches.length > 0)\n\t\t\t\t{\n\t\t\t\t\taddDomNodesHelp(domNode, vNode, subPatches, 0, low, high, eventNode);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\telse\n\t\t{\n\t\t\tpatch.domNode = domNode;\n\t\t\tpatch.eventNode = eventNode;\n\t\t}\n\n\t\ti++;\n\n\t\tif (!(patch = patches[i]) || (index = patch.index) > high)\n\t\t{\n\t\t\treturn i;\n\t\t}\n\t}\n\n\tswitch (vNode.type)\n\t{\n\t\tcase 'tagger':\n\t\t\tvar subNode = vNode.node;\n\n\t\t\twhile (subNode.type === \"tagger\")\n\t\t\t{\n\t\t\t\tsubNode = subNode.node;\n\t\t\t}\n\n\t\t\treturn addDomNodesHelp(domNode, subNode, patches, i, low + 1, high, domNode.elm_event_node_ref);\n\n\t\tcase 'node':\n\t\t\tvar vChildren = vNode.children;\n\t\t\tvar childNodes = domNode.childNodes;\n\t\t\tfor (var j = 0; j < vChildren.length; j++)\n\t\t\t{\n\t\t\t\tlow++;\n\t\t\t\tvar vChild = vChildren[j];\n\t\t\t\tvar nextLow = low + (vChild.descendantsCount || 0);\n\t\t\t\tif (low <= index && index <= nextLow)\n\t\t\t\t{\n\t\t\t\t\ti = addDomNodesHelp(childNodes[j], vChild, patches, i, low, nextLow, eventNode);\n\t\t\t\t\tif (!(patch = patches[i]) || (index = patch.index) > high)\n\t\t\t\t\t{\n\t\t\t\t\t\treturn i;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\tlow = nextLow;\n\t\t\t}\n\t\t\treturn i;\n\n\t\tcase 'keyed-node':\n\t\t\tvar vChildren = vNode.children;\n\t\t\tvar childNodes = domNode.childNodes;\n\t\t\tfor (var j = 0; j < vChildren.length; j++)\n\t\t\t{\n\t\t\t\tlow++;\n\t\t\t\tvar vChild = vChildren[j].value1;\n\t\t\t\tvar nextLow = low + (vChild.descendantsCount || 0);\n\t\t\t\tif (low <= index && index <= nextLow)\n\t\t\t\t{\n\t\t\t\t\ti = addDomNodesHelp(childNodes[j], vChild, patches, i, low, nextLow, eventNode);\n\t\t\t\t\tif (!(patch = patches[i]) || (index = patch.index) > high)\n\t\t\t\t\t{\n\t\t\t\t\t\treturn i;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\tlow = nextLow;\n\t\t\t}\n\t\t\treturn i;\n\n\t\tcase 'text':\n\t\tcase 'thunk':\n\t\t\tthrow new Error('should never traverse `text` or `thunk` nodes like this');\n\t}\n}\n\n\n\n//////////// APPLY PATCHES ////////////\n\n\nfunction applyPatches(rootDomNode, oldVirtualNode, patches, eventNode)\n{\n\tif (patches.length === 0)\n\t{\n\t\treturn rootDomNode;\n\t}\n\n\taddDomNodes(rootDomNode, oldVirtualNode, patches, eventNode);\n\treturn applyPatchesHelp(rootDomNode, patches);\n}\n\nfunction applyPatchesHelp(rootDomNode, patches)\n{\n\tfor (var i = 0; i < patches.length; i++)\n\t{\n\t\tvar patch = patches[i];\n\t\tvar localDomNode = patch.domNode\n\t\tvar newNode = applyPatch(localDomNode, patch);\n\t\tif (localDomNode === rootDomNode)\n\t\t{\n\t\t\trootDomNode = newNode;\n\t\t}\n\t}\n\treturn rootDomNode;\n}\n\nfunction applyPatch(domNode, patch)\n{\n\tswitch (patch.type)\n\t{\n\t\tcase 'p-redraw':\n\t\t\treturn applyPatchRedraw(domNode, patch.data, patch.eventNode);\n\n\t\tcase 'p-facts':\n\t\t\tapplyFacts(domNode, patch.eventNode, patch.data);\n\t\t\treturn domNode;\n\n\t\tcase 'p-text':\n\t\t\tdomNode.replaceData(0, domNode.length, patch.data);\n\t\t\treturn domNode;\n\n\t\tcase 'p-thunk':\n\t\t\treturn applyPatchesHelp(domNode, patch.data);\n\n\t\tcase 'p-tagger':\n\t\t\tif (typeof domNode.elm_event_node_ref !== 'undefined')\n\t\t\t{\n\t\t\t\tdomNode.elm_event_node_ref.tagger = patch.data;\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\tdomNode.elm_event_node_ref = { tagger: patch.data, parent: patch.eventNode };\n\t\t\t}\n\t\t\treturn domNode;\n\n\t\tcase 'p-remove-last':\n\t\t\tvar i = patch.data;\n\t\t\twhile (i--)\n\t\t\t{\n\t\t\t\tdomNode.removeChild(domNode.lastChild);\n\t\t\t}\n\t\t\treturn domNode;\n\n\t\tcase 'p-append':\n\t\t\tvar newNodes = patch.data;\n\t\t\tfor (var i = 0; i < newNodes.length; i++)\n\t\t\t{\n\t\t\t\tdomNode.appendChild(render(newNodes[i], patch.eventNode));\n\t\t\t}\n\t\t\treturn domNode;\n\n\t\tcase 'p-remove':\n\t\t\tvar data = patch.data;\n\t\t\tif (typeof data === 'undefined')\n\t\t\t{\n\t\t\t\tdomNode.parentNode.removeChild(domNode);\n\t\t\t\treturn domNode;\n\t\t\t}\n\t\t\tvar entry = data.entry;\n\t\t\tif (typeof entry.index !== 'undefined')\n\t\t\t{\n\t\t\t\tdomNode.parentNode.removeChild(domNode);\n\t\t\t}\n\t\t\tentry.data = applyPatchesHelp(domNode, data.patches);\n\t\t\treturn domNode;\n\n\t\tcase 'p-reorder':\n\t\t\treturn applyPatchReorder(domNode, patch);\n\n\t\tcase 'p-custom':\n\t\t\tvar impl = patch.data;\n\t\t\treturn impl.applyPatch(domNode, impl.data);\n\n\t\tdefault:\n\t\t\tthrow new Error('Ran into an unknown patch!');\n\t}\n}\n\n\nfunction applyPatchRedraw(domNode, vNode, eventNode)\n{\n\tvar parentNode = domNode.parentNode;\n\tvar newNode = render(vNode, eventNode);\n\n\tif (typeof newNode.elm_event_node_ref === 'undefined')\n\t{\n\t\tnewNode.elm_event_node_ref = domNode.elm_event_node_ref;\n\t}\n\n\tif (parentNode && newNode !== domNode)\n\t{\n\t\tparentNode.replaceChild(newNode, domNode);\n\t}\n\treturn newNode;\n}\n\n\nfunction applyPatchReorder(domNode, patch)\n{\n\tvar data = patch.data;\n\n\t// remove end inserts\n\tvar frag = applyPatchReorderEndInsertsHelp(data.endInserts, patch);\n\n\t// removals\n\tdomNode = applyPatchesHelp(domNode, data.patches);\n\n\t// inserts\n\tvar inserts = data.inserts;\n\tfor (var i = 0; i < inserts.length; i++)\n\t{\n\t\tvar insert = inserts[i];\n\t\tvar entry = insert.entry;\n\t\tvar node = entry.tag === 'move'\n\t\t\t? entry.data\n\t\t\t: render(entry.vnode, patch.eventNode);\n\t\tdomNode.insertBefore(node, domNode.childNodes[insert.index]);\n\t}\n\n\t// add end inserts\n\tif (typeof frag !== 'undefined')\n\t{\n\t\tdomNode.appendChild(frag);\n\t}\n\n\treturn domNode;\n}\n\n\nfunction applyPatchReorderEndInsertsHelp(endInserts, patch)\n{\n\tif (typeof endInserts === 'undefined')\n\t{\n\t\treturn;\n\t}\n\n\tvar frag = localDoc.createDocumentFragment();\n\tfor (var i = 0; i < endInserts.length; i++)\n\t{\n\t\tvar insert = endInserts[i];\n\t\tvar entry = insert.entry;\n\t\tfrag.appendChild(entry.tag === 'move'\n\t\t\t? entry.data\n\t\t\t: render(entry.vnode, patch.eventNode)\n\t\t);\n\t}\n\treturn frag;\n}\n\n\n// BLOCK EVENTS\n\nfunction wrapViewIn(appEventNode, overlayNode, viewIn)\n{\n\tvar ignorer = makeIgnorer(overlayNode);\n\tvar blocking = 'Normal';\n\tvar overflow;\n\n\tvar normalTagger = appEventNode.tagger;\n\tvar blockTagger = function() {};\n\n\treturn function(model)\n\t{\n\t\tvar tuple = viewIn(model);\n\t\tvar newBlocking = tuple.value0.ctor;\n\t\tappEventNode.tagger = newBlocking === 'Normal' ? normalTagger : blockTagger;\n\t\tif (blocking !== newBlocking)\n\t\t{\n\t\t\ttraverse('removeEventListener', ignorer, blocking);\n\t\t\ttraverse('addEventListener', ignorer, newBlocking);\n\n\t\t\tif (blocking === 'Normal')\n\t\t\t{\n\t\t\t\toverflow = document.body.style.overflow;\n\t\t\t\tdocument.body.style.overflow = 'hidden';\n\t\t\t}\n\n\t\t\tif (newBlocking === 'Normal')\n\t\t\t{\n\t\t\t\tdocument.body.style.overflow = overflow;\n\t\t\t}\n\n\t\t\tblocking = newBlocking;\n\t\t}\n\t\treturn tuple.value1;\n\t}\n}\n\nfunction traverse(verbEventListener, ignorer, blocking)\n{\n\tswitch(blocking)\n\t{\n\t\tcase 'Normal':\n\t\t\treturn;\n\n\t\tcase 'Pause':\n\t\t\treturn traverseHelp(verbEventListener, ignorer, mostEvents);\n\n\t\tcase 'Message':\n\t\t\treturn traverseHelp(verbEventListener, ignorer, allEvents);\n\t}\n}\n\nfunction traverseHelp(verbEventListener, handler, eventNames)\n{\n\tfor (var i = 0; i < eventNames.length; i++)\n\t{\n\t\tdocument.body[verbEventListener](eventNames[i], handler, true);\n\t}\n}\n\nfunction makeIgnorer(overlayNode)\n{\n\treturn function(event)\n\t{\n\t\tif (event.type === 'keydown' && event.metaKey && event.which === 82)\n\t\t{\n\t\t\treturn;\n\t\t}\n\n\t\tvar isScroll = event.type === 'scroll' || event.type === 'wheel';\n\n\t\tvar node = event.target;\n\t\twhile (node !== null)\n\t\t{\n\t\t\tif (node.className === 'elm-overlay-message-details' && isScroll)\n\t\t\t{\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tif (node === overlayNode && !isScroll)\n\t\t\t{\n\t\t\t\treturn;\n\t\t\t}\n\t\t\tnode = node.parentNode;\n\t\t}\n\n\t\tevent.stopPropagation();\n\t\tevent.preventDefault();\n\t}\n}\n\nvar mostEvents = [\n\t'click', 'dblclick', 'mousemove',\n\t'mouseup', 'mousedown', 'mouseenter', 'mouseleave',\n\t'touchstart', 'touchend', 'touchcancel', 'touchmove',\n\t'pointerdown', 'pointerup', 'pointerover', 'pointerout',\n\t'pointerenter', 'pointerleave', 'pointermove', 'pointercancel',\n\t'dragstart', 'drag', 'dragend', 'dragenter', 'dragover', 'dragleave', 'drop',\n\t'keyup', 'keydown', 'keypress',\n\t'input', 'change',\n\t'focus', 'blur'\n];\n\nvar allEvents = mostEvents.concat('wheel', 'scroll');\n\nfunction topEventNode(eventNode) {\n\twhile(eventNode.parent) {\n\t\teventNode = eventNode.parent;\n\t}\n\treturn eventNode;\n}\n\nreturn {\n\t\tnodeHelp: nodeHelp,\n\t\ttext: text,\n\t\tmap: map,\n\t\tproperty: property,\n\t\tstyle: style,\n\t\tattribute: attribute,\n\t\tattributeNS: attributeNS,\n\t\ton: on,\n \t\tfilterOn: filterOn,\n\t\tlazy: lazy,\n\t\tlazy2: lazy2,\n\t\tlazy3: lazy3,\n\t\tkeyedNode: keyedNode,\n\n\t\trender: render,\n\t\tdiff: diff,\n\t\tapplyPatches: applyPatches,\n};\n// end of closed over document\n}", "function affix(doc) {\n var rules = Object.create(null)\n var compoundRuleCodes = Object.create(null)\n var flags = Object.create(null)\n var replacementTable = []\n var conversion = {in: [], out: []}\n var compoundRules = []\n var aff = doc.toString('utf8')\n var lines = []\n var last = 0\n var index = aff.indexOf('\\n')\n var parts\n var line\n var ruleType\n var count\n var remove\n var add\n var source\n var entry\n var position\n var rule\n var value\n var offset\n var character\n\n flags.KEY = []\n\n // Process the affix buffer into a list of applicable lines.\n while (index > -1) {\n pushLine(aff.slice(last, index))\n last = index + 1\n index = aff.indexOf('\\n', last)\n }\n\n pushLine(aff.slice(last))\n\n // Process each line.\n index = -1\n\n while (++index < lines.length) {\n line = lines[index]\n parts = line.split(whiteSpaceExpression)\n ruleType = parts[0]\n\n if (ruleType === 'REP') {\n count = index + parseInt(parts[1], 10)\n\n while (++index <= count) {\n parts = lines[index].split(whiteSpaceExpression)\n replacementTable.push([parts[1], parts[2]])\n }\n\n index--\n } else if (ruleType === 'ICONV' || ruleType === 'OCONV') {\n count = index + parseInt(parts[1], 10)\n entry = conversion[ruleType === 'ICONV' ? 'in' : 'out']\n\n while (++index <= count) {\n parts = lines[index].split(whiteSpaceExpression)\n entry.push([new RegExp(parts[1], 'g'), parts[2]])\n }\n\n index--\n } else if (ruleType === 'COMPOUNDRULE') {\n count = index + parseInt(parts[1], 10)\n\n while (++index <= count) {\n rule = lines[index].split(whiteSpaceExpression)[1]\n position = -1\n\n compoundRules.push(rule)\n\n while (++position < rule.length) {\n compoundRuleCodes[rule.charAt(position)] = []\n }\n }\n\n index--\n } else if (ruleType === 'PFX' || ruleType === 'SFX') {\n count = index + parseInt(parts[3], 10)\n\n rule = {\n type: ruleType,\n combineable: parts[2] === 'Y',\n entries: []\n }\n\n rules[parts[1]] = rule\n\n while (++index <= count) {\n parts = lines[index].split(whiteSpaceExpression)\n remove = parts[2]\n add = parts[3].split('/')\n source = parts[4]\n\n entry = {\n add: '',\n remove: '',\n match: '',\n continuation: parse(flags, add[1])\n }\n\n if (add && add[0] !== '0') {\n entry.add = add[0]\n }\n\n try {\n if (remove !== '0') {\n entry.remove = ruleType === 'SFX' ? end(remove) : remove\n }\n\n if (source && source !== '.') {\n entry.match = ruleType === 'SFX' ? end(source) : start(source)\n }\n } catch (_) {\n // Ignore invalid regex patterns.\n entry = null\n }\n\n if (entry) {\n rule.entries.push(entry)\n }\n }\n\n index--\n } else if (ruleType === 'TRY') {\n source = parts[1]\n offset = -1\n value = []\n\n while (++offset < source.length) {\n character = source.charAt(offset)\n\n if (character.toLowerCase() === character) {\n value.push(character)\n }\n }\n\n // Some dictionaries may forget a character.\n // Notably `en` forgets `j`, `x`, and `y`.\n offset = -1\n\n while (++offset < alphabet.length) {\n if (source.indexOf(alphabet[offset]) < 0) {\n value.push(alphabet[offset])\n }\n }\n\n flags[ruleType] = value\n } else if (ruleType === 'KEY') {\n push.apply(flags[ruleType], parts[1].split('|'))\n } else if (ruleType === 'COMPOUNDMIN') {\n flags[ruleType] = Number(parts[1])\n } else if (ruleType === 'ONLYINCOMPOUND') {\n // If we add this ONLYINCOMPOUND flag to `compoundRuleCodes`, then\n // `parseDic` will do the work of saving the list of words that are\n // compound-only.\n flags[ruleType] = parts[1]\n compoundRuleCodes[parts[1]] = []\n } else if (\n ruleType === 'FLAG' ||\n ruleType === 'KEEPCASE' ||\n ruleType === 'NOSUGGEST' ||\n ruleType === 'WORDCHARS'\n ) {\n flags[ruleType] = parts[1]\n } else {\n // Default handling: set them for now.\n flags[ruleType] = parts[1]\n }\n }\n\n // Default for `COMPOUNDMIN` is `3`.\n // See `man 4 hunspell`.\n if (isNaN(flags.COMPOUNDMIN)) {\n flags.COMPOUNDMIN = 3\n }\n\n if (!flags.KEY.length) {\n flags.KEY = defaultKeyboardLayout\n }\n\n /* istanbul ignore if - Dictionaries seem to always have this. */\n if (!flags.TRY) {\n flags.TRY = alphabet.concat()\n }\n\n if (!flags.KEEPCASE) {\n flags.KEEPCASE = false\n }\n\n return {\n compoundRuleCodes: compoundRuleCodes,\n replacementTable: replacementTable,\n conversion: conversion,\n compoundRules: compoundRules,\n rules: rules,\n flags: flags\n }\n\n function pushLine(line) {\n line = line.trim()\n\n // Hash can be a valid flag, so we only discard line that starts with it.\n if (line && line.charCodeAt(0) !== 35 /* `#` */) {\n lines.push(line)\n }\n }\n}", "function parseLines (lines, mgr) {\n let type, name, m, line\n let lineNumber = -1\n\n function err (msg) {\n // these should probably become non-fatal, or caught,\n // turning into some warning at this point in the text\n throw Error(`${msg}: bad line in section parser, line ${lineNumber}: ${JSON.stringify(lines[lineNumber])}`)\n }\n\n line = lines[++lineNumber]\n m = line.match(/^\\s*<section>\\s*$/)\n if (!m) err('expection section element')\n\n line = lines[++lineNumber]\n if (!line) err('expecting a heading line')\n m = line.match(/id=\"(.*?)\">(.*?)<\\/h/)\n if (!m) err('expecting h element with id')\n const id = m[1]\n let title = m[2]\n if (!title) {\n // err('no title')\n title = '(Section with no title?)'\n }\n m = line.match(/<h(\\d)/)\n if (!m) err('expecting h element')\n const hLevel = m[1]\n\n /* GENERATE\n const edurl = `https://docs.google.com/document/d/${config.gdocID}/edit#heading=${id}`\n lines.splice(2, 0, '<div><a class=\"edit\" href=\"' + edurl + '\">🖉</a></div>')\n */\n\n m = title.match(/\\s*Subject type: (.*)/)\n if (m) {\n type = 'subject'\n name = m[1]\n // s = new Section({id, title, type, name, hLevel})\n }\n m = title.match(/\\s*Signal: (.*)/)\n // let signal\n if (m) {\n type = 'signal'\n name = m[1]\n // s = new Signal({id, title, type, name, hLevel})\n }\n // if (!s) {\n // s = new Section({id, title, type: 'other', hLevel})\n // }\n\n // go through the parts, doing special handling for certain kinds of lines\n\n const parts = []\n const aliases = []\n let defs\n while (true) {\n line = lines[++lineNumber]\n // debug('line %s %o', lineNumber, line)\n if (!line) break\n const part = { text: line }\n\n // debug('line = %j', line)\n m = line.match(/^\\s*<p>(Also called|Issue|Includes|Special):\\s*(.*)<\\/p>/i)\n if (m) {\n debug('op line = %j, m=%j', line, m)\n const op = m[1].toLowerCase().trim()\n const arg = m[2].trim()\n handleOp(op, arg, part)\n\n if (part.isEnd) break\n\n if (part.aliases) {\n aliases.push(...part.aliases)\n }\n }\n if (type === 'signal') {\n m = line.match(/\\s*<table>/)\n if (m) {\n if (defs) err('multiple definition tables')\n defs = parseDefsTable(line)\n part.isDefs = true\n }\n }\n\n parts.push(part)\n }\n\n const s = mgr.obtain({ type, title, id, name, aliases, parts, hLevel, defs })\n return s\n}", "function StyleSheet(inDw) \n{\t\n\t//\tA styleSheet consists of one or more subSheets. A subSheet is a group of consecutive \n\t//\trules in a styleSheet that are either in the same media clause, or not in a media clause.\n\n\tvar self = this;\n\t\n\tself.publicFunctions = [\t\t\n\t\t\t'loadCss',\n\t\t\t'toString',\n\t\t\t'toStringNoComments',\n\t\t\t'appendRule',\n\t\t\t'getRule',\n\t\t\t'getProperty',\n\t\t\t'setProperty',\n\t\t\t'getSubSheets',\n\t\t\t'getTextAfterApplyingEdits',\n 'getTextAfterApplyingEditsAndClearEdits',\n 'deleteRuleWithSelector'\n\t\t]\n\t\t\t\t\n\tself.refs = {\n\t\t\tdw:\t\t\tinDw,\n\t\t\tsubSheets:\t[]\t\t\n\t\t};\n\t\t\n\tself.data = {\n\t\t\ttext:\t\t\t'',\n\t\t\ttextNoComments:\t'',\n\t\t\terrorStr:\t\t'',\n\t\t\tedits:\t\t\t[]\n\t\t};\n\t\t\n\tself.getSubSheets = function()\n\t\t{\n\t\t\treturn self.refs.subSheets;\n\t\t}\n\n\tself.loadCss = function(inText)\n\t\t// Loads and parses the css in the string inText and returns 'this', which is the StyleSheet object.\n\t\t{\n\t\t\tself.data.text = inText;\n\t\t\tself.parse();\t\t\n\t\t\treturn self;\n\t\t}\n\t\n\tself.appendRule = function(subSheet, newRuleText, saveEditRecOnly)\t\n\t\t// Inserts the new rule (newRuleText) at the end of the given subSheet and formats it\n\t\t// by copying the formatting of the last rule that currently exists in the subSheet.\t\t\t\t\n\t\t//\n\t\t// returns numCharsInserted\n\t\t{\n\t\t\tvar rules = subSheet.rules;\n\t\t\tvar numRules = rules.length;\n\t\t\t\n\t\t\tif (numRules > 0)\n\t\t\t\tvar lastRule = subSheet.rules[numRules - 1];\n\t\t\telse\t\t\t\n\t\t\t\tvar lastRule = { text: '\\ndiv {\\n\\tcolor: green;\\n}\\n' };\t\t\t\n\n\t\t\tvar newRuleText = self.copyRuleWhiteSpaceFromTo(lastRule.text, newRuleText);\n\n\t\t\tif (numRules > 0)\t\t\t\n\t\t\t\tvar insertOffset = lastRule.offset + lastRule.text.length;\n\t\t\telse\n\t\t\t\tvar insertOffset = self.data.text.length;\n\t\t\t\t\t\t\n\t\t\tif (saveEditRecOnly == 'saveEditRecOnly') {\n\t\t\t\tvar existingOffsets = self.findExistingOffsetsForIdSelector(subSheet, newRuleText);\n\t\t\t\tif (existingOffsets) {\n\t\t\t\t\tself.data.edits.push({start: existingOffsets.start, end: existingOffsets.end, text: newRuleText});\n\t\t\t\t} else {\n\t\t\t\t\tself.data.edits.push({start: insertOffset, end: insertOffset, text: newRuleText});\n\t\t\t\t}\n\t\t\t} else {\t\t\t\n\t\t\t\tself.insertText(newRuleText, insertOffset);\n\t\t\t}\n\t\t\t\n\t\t\treturn newRuleText.length;\n\t\t}\n \n self.deleteRuleWithSelector = function (subSheet, selector, saveEditRecOnly) {\n var rule = self.getRule(subSheet, selector);\n\t\tif (rule == null) {\n\t\t\treturn;\t\n\t\t}\n if (saveEditRecOnly == 'saveEditRecOnly') {\n self.data.edits.push( { start: rule.offset, end: rule.offset + rule.text.length, text: '' } ); // caller needs to apply the edits and manage the text\n }\n else {\n self.replaceText('' , rule.offset, rule.offset + rule.text.length); // caller needs to now manage the new text that is formed.\n }\n }\n \n\tself.findExistingOffsetsForIdSelector = function(subSheet, ruleText) { \n\t\t// If this is an ID rule (like '#LayoutDiv1') and a rule with that \n\t\t// selector is already in the subSheet, return the offets, else return null.\n\t\tvar pos = ruleText.indexOf('{');\n\t\tif (pos == -1) {\n\t\t\treturn null;\t\n\t\t}\n\t\tvar selector = self.trim(ruleText.substring(0, pos));\n\t\tif (selector.charAt(0) != '#') {\n\t\t\treturn null;\t\n\t\t}\n\t\tvar rule = self.getRule(subSheet, selector);\n\t\tif (rule == null) {\n\t\t\treturn null;\t\n\t\t}\n\t\treturn { start: rule.offset, end: rule.offset + rule.text.length };\n\t}\n \n self.resetEdits = function () {\n self.data.text = '';\n self.data.textNoComments =\t'';\n self.data.errorStr = '';\n self.data.edits = [];\n }\n \n self.getTextAfterApplyingEditsAndClearEdits = function() {\n var text = self.getTextAfterApplyingEdits(); \n self.resetEdits();\n\t\treturn text;\n\t}\t\n \n\tself.getTextAfterApplyingEdits = function() {\n\t\tif (self.data.edits.length == 0)\n\t\t{\n\t\t\treturn self.data.text;\n\t\t}\n\t\t\n\t\tself.data.edits.sort(function(a, b){ return a.start - b.start });\t\t\n\t\tvar pos = 0; // Points to 'current position' in self.data.text.\t\n\t\tvar lines = [];\n\t\tfor (var i = 0; i < self.data.edits.length; i++) {\n\t\t\tvar edit = self.data.edits[i];\n\t\t\tlines.push(self.data.text.substring(pos, edit.start));\n\t\t\tlines.push(edit.text);\n\t\t\tpos = edit.end;\n\t\t}\n\t\tif (pos < self.data.text.length) {\n\t\t\tlines.push(self.data.text.substring(pos)); // Make sure to get the end of the string.\t\t\n\t\t}\n\t\treturn lines.join('');\n\t}\t\n\t\t\t\n\tself.getRule = function(subSheet, selector)\n\t\t// Returns the first rule that has the selector. You can then pass that rule into getProperty() and setProperty().\n\t\t{\n\t\t\tvar rules = subSheet.rules;\n\t\t\t\n\t\t\tfor (var i = 0; i < rules.length; i++)\n\t\t\t{\n\t\t\t\tvar rule = rules[i];\n\t\t\t\t\n\t\t\t\tfor (var j = 0; j < rule.selectors.length; j++)\n\t\t\t\t{\n\t\t\t\t\tif (rule.selectors[j].text == selector)\n\t\t\t\t\t\treturn rule;\n\t\t\t\t}\t\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\treturn null;\n\t\t}\n\t\t\n\tself.getProperty = function(rule, prop)\n\t\t{\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\n\t\t\tvar propVal = '';\n\t\t\t\n\t\t\trule.declarations.forEach(function(decl){\n\t\t\t\t\tvar items = decl.text.split(':');\n\t\t\t\t\tif (items.length != 2)\n\t\t\t\t\t\treturn; // Something is wrong, ignore.\n\t\t\t\t\titems = items.map(function(item){return self.trim(item)});\n\t\t\t\t\tvar propName = items[0];\n\t\t\t\t\tif (propName.toLowerCase() == prop.toLowerCase())\n\t\t\t\t\t\tpropVal = items[1];\n\t\t\t\t});\n\t\t\t\n\t\t\treturn propVal;\t\t\t\t\t\t\t\n\t\t}\n\t\t\t\t\n\tself.setProperty = function(rule, inProperty, inValue, saveEditRecOnly)\n\t\t// Sets the property of the given rule to value. If value is the empty string, the property is deleted.\n\t\t// If property doesn't currently exist in rule, it will be appended. When appending, white space formatting is \n\t\t// inferred from existing white space in the rule.\n\t\t{\n\t\t\tvar decls = rule.declarations;\n\t\t\tvar inProperty = inProperty.toLowerCase();\n\t\t\tvar\tnewDecl = inProperty + ': ' + inValue;\n\n\t\t\tfor (var i = 0; i < decls.length; i++)\n\t\t\t{\n\t\t\t\tvar decl = decls[i];\n\t\t\t\tvar property = self.trim(decl.text.split(':')[0]).toLowerCase();\t\t\t\t\n\t\t\t\t\t\t\t\t\n\t\t\t\tif (property == inProperty)\n\t\t\t\t{\n\t\t\t\t\tvar propPos = decl.text.toLowerCase().indexOf(inProperty); // Offset of first letter of prop name.\n\t\t\t\t\tvar realLength = decl.text.length - propPos; // Shave off possible white space in beginning.\n\t\t\t\t\tvar startOffset = decl.offset;\n\t\t\t\t\tvar endOffset = startOffset + realLength;\n\n\t\t\t\t\tvar propPos = decl.text.toLowerCase().indexOf(inProperty);\n\t\t\t\t\t\n\t\t\t\t\tif (inValue == '')\n\t\t\t\t\t{\n\t\t\t\t\t\t// Delete the existing property.\n\t\t\t\t\t\tnewDecl = '';\t\t\t\t\t\t\n\t\t\t\t\t\tif (self.data.text[endOffset] == ';')\n\t\t\t\t\t\t\tendOffset++;\t\t\t\t\t\t\n\t\t\t\t\t\tstartOffset = self.findStartOfDeclLine(startOffset);\n\t\t\t\t\t\tendOffset = self.findEndOfDeclLine(endOffset);\t\t\t\t\t\t\n\t\t\t\t\t}\n\t\t\t\t\t\n if (typeof saveEditRecOnly != undefined && saveEditRecOnly == 'saveEditRecOnly') {\n self.data.edits.push({start: startOffset, end: endOffset, text: newDecl});\n }\n else {\n self.replaceText(newDecl, startOffset, endOffset);\n }\n\t\t\t\t\treturn;\t\t\t\t\t\n\t\t\t\t}\n\t\t\t}\n\t\t\t\n\t\t\t// If we get here, we couldn't find the property, so, if inValue isn't empty, append the property to the decl list.\n\t\t\t\n\t\t\tif (inValue != '')\n\t\t\t{\n\t\t\t\tvar insertPos = self.findAppendDeclInsertPos(rule);\n\t\t\t\tnewDecl += ';';\n\t\t\t\tvar preDecl = self.getPreDeclAndPostOpenBraceWhiteSpace(rule.text).preDecl;\n\t\t\t\tvar postDecl = self.getPostDeclAndPreCloseBraceWhiteSpace(rule.text).postDecl;\n if (typeof saveEditRecOnly != undefined && saveEditRecOnly == 'saveEditRecOnly') {\n self.data.edits.push({start: insertPos, end: insertPos, text: preDecl + newDecl + postDecl});\n } else {\n self.insertText(preDecl + newDecl + postDecl, insertPos);\n }\n\t\t\t}\t\t\t\n\t\t}\n\t\t\n\tself.findAppendDeclInsertPos = function(rule)\n\t\t{\n\t\t\tif (rule.declarations.length > 0)\n\t\t\t{\n\t\t\t\tvar lastDecl = rule.declarations[rule.declarations.length - 1];\n\t\t\t\tvar realLength = self.trim(lastDecl.text).length; // Shave off possible white space in beginning.\n\t\t\t\tvar insertPos = lastDecl.offset + realLength;\n\t\t\t\tif (self.data.text[insertPos] == ';')\n\t\t\t\t\tinsertPos++;\n\t\t\t\tinsertPos = self.findEndOfDeclLine(insertPos);\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\tvar endBracePos = rule.text.lastIndexOf('}');\n\t\t\t\tvar insertPos = rule.offset + endBracePos;\n\t\t\t}\n\t\t\treturn insertPos;\n\t\t}\n\n\tself.findStartOfDeclLine = function(startOffset)\n\t\t{\n\t\t\tvar i = startOffset - 1;\n\t\t\tvar str = self.data.textNoComments;\n\t\t\t// Go backward while there is whitespace to trim.\n\t\t\twhile (str[i] == ' ' || str[i] == '\\t') \n\t\t\t\ti--;\n\t\t\tif (i == (startOffset - 1))\n\t\t\t\treturn startOffset; // There was no space to trim.\n\t\t\treturn i + 1;\n\t\t}\n\t\t\n\tself.findEndOfDeclLine = function(endOffset)\n\t\t{\n\t\t\tvar i = endOffset;\n\t\t\tvar str = self.data.textNoComments;\n\t\t\t// Go forward to next non-white.\n\t\t\twhile (str[i] == ' ' || str[i] == '\\t' || str[i] == '\\r' || str[i] == '\\n' ) \n\t\t\t\ti++;\n\t\t\tif (i == endOffset)\n\t\t\t\treturn endOffset; // There was no white space after this decl.\n\t\t\tvar nextNonWhitePos = i;\n\t\t\ti--;\n\t\t\t// Go backward to EOL or endOffset that was passed in.\t\t\t\n\t\t\twhile ( i > endOffset && str[i] != '\\r' && str[i] != '\\n') \n\t\t\t\ti--;\n\t\t\tif (i > endOffset)\n\t\t\t\treturn i + 1; // We found the end of the line.\n\t\t\treturn nextNonWhitePos; // There were no line breaks, just return start of next non-white.\n\t\t}\n\t\n\tself.stripWhiteSpaceFromRuleText = function(ruleText)\n\t\t{\n\t\t\truleText = String(ruleText);\n\t\t\t\n\t\t\t// Format selectors.\n\t\t\t\n\t\t\tvar bracePos = ruleText.indexOf('{');\n\t\t\t\n\t\t\tvar strSelectors = ruleText.substring(0, bracePos);\n\t\t\t\n\t\t\tvar list = strSelectors.split(',');\n\t\t\t\n\t\t\tfor (var i = 0; i < list.length; i++)\n\t\t\t\tlist[i] = self.trim(list[i]);\n\t\t\t\n\t\t\tstrSelectors = list.join(',')\n\t\t\t\n\t\t\t// Now strip white space out of declarations.\n\t\t\t\n\t\t\truleText = ruleText.substring(bracePos);\n\t\t\t\n\t\t\tvar strOut = '';\t\t\t\n\t\t\tvar inValue = false;\n\t\t\tvar expectingValue = false;\n\t\t\t\t\t\t\n\t\t\tfor (var i = 0; i < ruleText.length; i++)\n\t\t\t{\n\t\t\t\tvar c = ruleText[i];\n\t\t\t\t\n\t\t\t\tif (inValue)\n\t\t\t\t{\n\t\t\t\t\tif (c == ';' || c == '}')\n\t\t\t\t\t{\n\t\t\t\t\t\tinValue = false;\n\t\t\t\t\t\t\n\t\t\t\t\t\tvar trailingWhiteSpace = self.getTrailingWhiteSpace(strOut);\n\t\t\t\t\t\t\n\t\t\t\t\t\tif (trailingWhiteSpace.length > 0)\n\t\t\t\t\t\t{\n\t\t\t\t\t\t\tstrOut = strOut.substring(0, strOut.length - trailingWhiteSpace.length);\n\t\t\t\t\t\t}\n\n\t\t\t\t\t\tif (c == '}')\n\t\t\t\t\t\t\tstrOut += ';' + c;\n\t\t\t\t\t\telse\n\t\t\t\t\t\t\tstrOut += c;\t\t\t\t\t\t\t\n\t\t\t\t\t}\t\t\t\t\t\n\t\t\t\t\telse\n\t\t\t\t\t\tstrOut += c;\n\t\t\t\t}\n\t\t\t\telse if (expectingValue)\n\t\t\t\t{\n\t\t\t\t\tif (c != ' ' && c != '\\t' && c != '\\r' && c != '\\n')\n\t\t\t\t\t{\n\t\t\t\t\t\tinValue = true;\n\t\t\t\t\t\texpectingValue = false;\n\t\t\t\t\t\tstrOut += c;\n\t\t\t\t\t}\t\t\t\t\t\n\t\t\t\t}\n\t\t\t\telse if (c != ' ' && c != '\\t' && c != '\\r' && c != '\\n')\n\t\t\t\t{\n\t\t\t\t\t// Not inValue and not expectingValue\n\t\t\t\t\t\n\t\t\t\t\tstrOut += c;\t\n\t\t\t\t\t\n\t\t\t\t\tif (c == ':')\n\t\t\t\t\t\texpectingValue = true;\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\treturn strSelectors + strOut;\t\t\t\n\t\t}\n\t\n\tself.copyRuleWhiteSpaceFromTo = function(ruleText1, ruleText2)\n\t\t{\t\t\t\n\t\t\tvar ruleText1 = String(ruleText1);\n\t\t\truleText2 = self.stripWhiteSpaceFromRuleText(String(ruleText2));\t\t\t\n\t\t\t\t\t\t\n\t\t\tvar preSelector = self.getLeadingWhiteSpace(ruleText1);\n\t\t\tvar postSelector = \tself.getPostSelectorWhiteSpace(ruleText1);\t\t\t\n\t\t\t\n\t\t\tvar rec = self.getPreDeclAndPostOpenBraceWhiteSpace(ruleText1);\n\t\t\t\n\t\t\tvar postOpenBrace = rec.postOpenBrace;\t\t\t\n\t\t\tvar preDecl = rec.preDecl;\n\t\t\t\n\t\t\tvar rec = self.getPostDeclAndPreCloseBraceWhiteSpace(ruleText1);\n\t\t\t\n\t\t\tvar postDecl = rec.postDecl;\n\t\t\tvar preCloseBrace = rec.preCloseBrace;\t\t\t\n\n\t\t\tvar postRule = self.getTrailingWhiteSpace(ruleText1);\t\t\t\t\t\t\t\t\t\t\t\t\n\t\t\t\n\t\t\t// Now format the second rule based on the white space we have found.\n\t\t\t\t\t\n\t\t\tvar sheet = new StyleSheet(self.refs.dw).loadCss(ruleText2);\n\t\t\t\n\t\t\tvar rule = sheet.refs.subSheets[0].rules[0];\n\t\t\t\n\t\t\tvar strOut = preSelector;\n\t\t\t\n\t\t\tfor (var i = 0; i < rule.selectors.length; i++)\t\t\t\n\t\t\t{\n\t\t\t\tif (i > 0)\n\t\t\t\t\tstrOut += ', ';\n\t\t\t\t\t\n\t\t\t\tstrOut += rule.selectors[i].text;\n\t\t\t}\n\t\t\t\n\t\t\tstrOut += postSelector + '{' + postOpenBrace;\n\t\t\t\n\t\t\tfor (var i = 0; i < rule.declarations.length; i++)\t\t\t\n\t\t\t{\n\t\t\t\tvar list = rule.declarations[i].text.split(':');\n\t\t\t\t\n\t\t\t\tvar prop = list[0];\n\t\t\t\tvar val = list[1];\n\t\t\t\t\n\t\t\t\tstrOut += preDecl + prop + ': ' + val + ';' + postDecl;\t\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\tstrOut += preCloseBrace + '}' + postRule;\n\t\t\t\n\t\t\t// We don't want to copy a bunch of line breaks before and after the rule, so trim them off.\n\t\t\t\n\t\t\tstrOut = self.trimExtraLineBreaks(strOut);\n\t\t\t\t\t\t\t\n\t\t\treturn strOut;\t\t\t\n\t\t}\n\t\n\tself.getPostSelectorWhiteSpace = function(ruleText)\n\t\t{\n\t\t\tvar curPos = ruleText.indexOf('{');\t\t\t\n\t\t\tvar endPostSelector = curPos;\n\t\t\t\n\t\t\tcurPos--;\n\t\t\t\n\t\t\twhile (ruleText[curPos] == ' ' || ruleText[curPos] == '\\t' || ruleText[curPos] == '\\r' || ruleText[curPos] == '\\n')\n\t\t\t\tcurPos--;\t\n\t\t\t\t\t\t\t\n\t\t\tcurPos++;\n\t\t\t\n\t\t\treturn ruleText.substring(curPos, endPostSelector);\t\n\t\t}\n\t\t\t\n\tself.getPreDeclAndPostOpenBraceWhiteSpace = function(ruleText)\n\t\t{\t\t\t\t\t\n\t\t\tvar curPos = ruleText.indexOf('{');\n\t\t\tcurPos++;\n\t\t\tvar startPostOpenBrace = curPos;\n\t\t\t\n\t\t\twhile (ruleText[curPos] == ' ' || ruleText[curPos] == '\\t' || ruleText[curPos] == '\\r' || ruleText[curPos] == '\\n')\n\t\t\t\tcurPos++;\n\t\t\t\t\t\t\n\t\t\tvar postOpenBrace = ruleText.substring(startPostOpenBrace, curPos);\n\t\t\t\n\t\t\tif (postOpenBrace.indexOf('\\n') != -1 || postOpenBrace.indexOf('\\r') != -1)\n\t\t\t{\n\t\t\t\t// There is a line break after { and before the first decl. Split it up: post open brace gets up to and including line breaks.\n\t\t\t\t\n\t\t\t\tvar endPreDecl = curPos;\n\t\t\t\t\n\t\t\t\tcurPos--;\n\t\t\t\t\n\t\t\t\twhile (ruleText[curPos] == ' ' || ruleText[curPos] == '\\t')\n\t\t\t\t\tcurPos--;\n\t\t\t\t\t\n\t\t\t\tcurPos++;\n\t\t\t\t\n\t\t\t\tvar preDecl = ruleText.substring(curPos, endPreDecl);\n\t\t\t\t\n\t\t\t\tpostOpenBrace = ruleText.substring(startPostOpenBrace, curPos);\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\t// Since there is no line break between { and the first decl, just give the white space to pre decl.\n\t\t\t\t\n\t\t\t\tpreDecl = postOpenBrace;\n\t\t\t\tpostOpenBrace = '';\n\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\treturn { preDecl: preDecl, postOpenBrace: postOpenBrace };\n\t\t}\n\t\t\n\tself.getPostDeclAndPreCloseBraceWhiteSpace = function(ruleText)\n\t\t{\t\t\t\t\t\t\t\n\t\t\tcurPos = ruleText.indexOf('}');\n\t\t\t\n\t\t\tvar endPreCloseBrace = curPos;\n\t\t\t\n\t\t\tcurPos--;\n\t\t\t\n\t\t\twhile (ruleText[curPos] == ' ' || ruleText[curPos] == '\\t' || ruleText[curPos] == '\\r' || ruleText[curPos] == '\\n')\n\t\t\t\tcurPos--;\n\t\t\t\n\t\t\tcurPos++;\n\t\t\t\n\t\t\tvar startPreCloseBrace = curPos;\n\t\t\t\n\t\t\tvar preCloseBrace = ruleText.substring(startPreCloseBrace, endPreCloseBrace);\n\t\t\t\t\t\t\t\t\t\n\t\t\tif (preCloseBrace.indexOf('\\n') != -1 || preCloseBrace.indexOf('\\r') != -1)\n\t\t\t{\n\t\t\t\t// There is a line break before } and after the last decl. Split it up: post decl gets up to and including line breaks.\n\t\t\t\t\n\t\t\t\tcurPos = endPreCloseBrace - 1;\n\t\t\t\t\t\t\t\t\n\t\t\t\twhile (ruleText[curPos] != '\\r' && ruleText[curPos] != '\\n')\n\t\t\t\t\tcurPos--;\n\t\t\t\t\t\t\t\n\t\t\t\tcurPos++;\n\t\t\t\t\n\t\t\t\tvar postDecl = ruleText.substring(startPreCloseBrace, curPos);\n\t\t\t\t\n\t\t\t\tpreCloseBrace = ruleText.substring(curPos, endPreCloseBrace);\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\t// Since there is no line break between } and the last decl, just give the white space to post decl.\n\t\t\t\t\n\t\t\t\tpostDecl = preCloseBrace;\n\t\t\t\tpreCloseBrace = '';\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\tif (postDecl.indexOf('\\r') != -1 || postDecl.indexOf('\\n') != -1)\n\t\t\t{\n\t\t\t\t// We don't want a bunch of spaces or tabs before the line break.\n\t\t\t\t\n\t\t\t\tcurPos = 0;\n\t\t\t\t\n\t\t\t\twhile (postDecl[curPos] == ' ' || postDecl[curPos] == '\\t')\n\t\t\t\t\tcurPos++;\n\t\t\t\t\n\t\t\t\tif (curPos > 0)\n\t\t\t\t\tpostDecl = postDecl.substring(curPos);\n\t\t\t}\n\t\t\t\n\t\t\treturn { postDecl: postDecl, preCloseBrace: preCloseBrace };\n\t\t}\n\t\t\n\t\t\t\n\tself.trimExtraLineBreaks = function(ruleText)\n\t\t{\n\t\t\truleText = String(ruleText);\n\t\t\tvar curPos = 0;\n\t\t\tvar strLen = ruleText.length;\n\t\t\t\n\t\t\tvar hasCr = ruleText.indexOf('\\r') != -1;\n\t\t\tvar hasLf = ruleText.indexOf('\\n') != -1;\n\t\t\t\n\t\t\tif (!hasCr && !hasLf)\n\t\t\t\treturn ruleText;\n\t\t\t\n\t\t\t// First, find the offsets of the start and end of non-white chars.\n\t\t\t\n\t\t\twhile\t(\tcurPos < strLen - 1\n\t\t\t\t\t\t&&\t\t\t\n\t\t\t\t\t\t(ruleText[curPos] == ' ' || ruleText[curPos] == '\\t' || ruleText[curPos] == '\\r' || ruleText[curPos] == '\\n')\n\t\t\t\t\t)\n\t\t\t\tcurPos++;\n\t\t\t\n\t\t\tif (curPos == strLen) // String was nothing but white space.\n\t\t\t\treturn '';\n\t\t\t\t\n\t\t\tvar startNonWhite = curPos;\n\t\t\t\n\t\t\tcurPos = strLen - 1;\n\t\t\t\n\t\t\twhile\t(\tcurPos > 0\n\t\t\t\t\t\t&&\t\t\t\n\t\t\t\t\t\t(ruleText[curPos] == ' ' || ruleText[curPos] == '\\t' || ruleText[curPos] == '\\r' || ruleText[curPos] == '\\n')\n\t\t\t\t\t)\n\t\t\t\tcurPos--;\n\t\t\t\t\n\t\t\tvar endNonWhite = curPos + 1;\n\t\t\t\n\t\t\t// Now walk backwards from the first non-white char, and once we have gone past two line breaks, that's enough.\n\t\t\t\n\t\t\tcurPos = startNonWhite;\n\t\t\tvar numBreaks = 0;\n\t\t\tvar newStart = 0;\n\t\t\tvar lookFor = '\\r';\n\n\t\t\tif (!hasCr && hasLf)\n\t\t\t\tlookFor = '\\n';\n\t\t\t\n\t\t\twhile (curPos > 0)\n\t\t\t{\t\t\t\t\t\n\t\t\t\tif (ruleText[curPos] == lookFor)\n\t\t\t\t{\t\t\t\t\t\n\t\t\t\t\tnumBreaks++;\t\n\t\t\t\t\t\n\t\t\t\t\tif (numBreaks == 1)\n\t\t\t\t\t{\n\t\t\t\t\t\tnewStart = curPos;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\t\n\t\t\t\tcurPos--;\t\t\t\t\n\t\t\t}\n\t\t\t\t\n\t\t\t// Now walk forwards from the last non-white char, and once we have gone past two line breaks, that's enough.\n\t\t\t\n\t\t\tcurPos = endNonWhite;\n\t\t\tvar numBreaks = 0;\n\t\t\tvar newEnd = strLen;\n\t\t\tvar lookFor = '\\n';\n\t\t\t\n\t\t\tif (hasCr && !hasLf)\n\t\t\t\tlookFor = '\\r';\n\t\t\t\n\t\t\twhile (curPos < strLen - 1)\n\t\t\t{\t\t\t\t\n\t\t\t\tif (ruleText[curPos] == lookFor)\n\t\t\t\t{\n\t\t\t\t\tnumBreaks++;\t\n\t\t\t\t\tif (numBreaks == 1)\n\t\t\t\t\t{\n\t\t\t\t\t\tnewEnd = curPos + 1;\n\t\t\t\t\t\tbreak;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t\t\n\t\t\t\tcurPos++;\n\t\t\t}\n\t\t\t\n\t\t\t// Now chop the ends off, if need be.\n\t\t\t\n\t\t\tif (newStart != 0 || newEnd != strLen)\n\t\t\t\treturn ruleText.substring(newStart, newEnd);\t\n\t\t\t\n\t\t\treturn ruleText;\t\t\n\t\t}\n\t\t\t\t \n\tself.insertText = function(text, offset)\n\t\t{\n\t\t\tself.data.text = self.data.text.substring(0, offset) + text + self.data.text.substring(offset);\n\t\t\tself.parse();\n\t\t}\n\t\t\t\t\n\tself.replaceText = function(text, startOffset, endOffset)\n\t\t{\n\t\t\tself.data.text = self.data.text.substring(0, startOffset) + text + self.data.text.substring(endOffset);\n\t\t\tself.parse();\n\t\t}\n\t\t\n\tself.toString = function()\n\t\t// Returns a string representing the CSS text of the entire styleSheet. \n\t\t{\n\t\t\treturn self.data.text;\t\n\t\t}\n\n\tself.toStringNoComments = function()\n\t\t// Returns a string representing the CSS text of the entire styleSheet where comments have\n\t\t// been replaced by spaces.\n\t\t{\n\t\t\treturn self.data.textNoComments;\t\n\t\t}\n\n\tself.blankOutComments = function()\n\t\t// Replaces comments with spaces.\n\t\t{\n\t\t\tvar strOut = '';\n\t\t\tvar inComment = false;\n\t\t\tvar prevPrevChar = ''; // The char before the previous char.\n\t\t\tvar prevChar = '';\n\t\t\tvar char = '';\n\t\t\tvar nextChar = '';\n\t\t\tvar\tlastCharOfComment = false;\n\t\t\t\n\t\t\tfor (var i = 0; i < self.data.text.length; i++)\n\t\t\t{\t\t\t\t\t\t\t\t\t\t\t\t\n\t\t\t\tif ((i - 2) >= 0)\n\t\t\t\t\tprevPrevChar = self.data.text[i - 2];\n\t\t\t\t\t\n\t\t\t\tif ((i - 1) >= 0)\n\t\t\t\t\tprevChar = self.data.text[i - 1];\t\t\t\t\t\n\t\t\t\t\t\n\t\t\t\tchar = self.data.text[i];\t\t\t\t\n\t\t\t\t\n\t\t\t\tif ((i + 1) < self.data.text.length)\n\t\t\t\t\tnextChar = self.data.text[i + 1];\n\t\t\t\telse\n\t\t\t\t\tnextChar = '';\n\t\t\t\t\n\t\t\t\tif (char == '/' && nextChar == '*' && !inComment)\n\t\t\t\t\tinComment = true;\n\t\t\t\telse if (char == '/' && prevChar == '*' && prevPrevChar != '/' && inComment) \n\t\t\t\t\tlastCharOfComment = true;\n\t\t\t\t\t\n\t\t\t\tif (inComment)\n\t\t\t\t\tstrOut += ' ';\n\t\t\t\telse\n\t\t\t\t\tstrOut += char;\n\t\t\t\t\n\t\t\t\tif (lastCharOfComment)\n\t\t\t\t{\n\t\t\t\t\tlastCharOfComment = false;\n\t\t\t\t\tinComment = false;\t\n\t\t\t\t}\t\t\t\t\t\t\t\t\t\n\t\t\t}\n\t\t\t\n\t\t\treturn strOut;\n\t\t}\t\n\n\tself.getLeadingWhiteSpace = function(str)\n\t\t{\n\t\t\tstr = String(str);\n\t\t\tstrOut = '';\n\t\t\t\n\t\t\tfor (var i = 0; i < str.length; i++)\n\t\t\t{\n\t\t\t\tif (str[i] == ' ' || str[i] == '\\t' || str[i] == '\\r' || str[i] == '\\n')\n\t\t\t\t\tstrOut += str[i];\n\t\t\t\telse\n\t\t\t\t\tbreak;\n\t\t\t}\n\t\t\t\t\t\n\t\t\treturn strOut;\n\t\t}\n\n\tself.getTrailingWhiteSpace = function(str)\n\t\t{\n\t\t\tstr = String(str);\n\t\t\tstrOut = '';\n\t\t\t\n\t\t\tfor (var i = str.length - 1; i >= 0; i--)\n\t\t\t{\n\t\t\t\tif (str[i] == ' ' || str[i] == '\\t' || str[i] == '\\r' || str[i] == '\\n')\n\t\t\t\t\tstrOut = str[i] + strOut;\n\t\t\t\telse\n\t\t\t\t\tbreak;\n\t\t\t}\n\t\t\t\t\t\n\t\t\treturn strOut;\n\n\t\t}\n\t\t\n\tself.parse = function()\n\t\t{\t\n\t\t\tself.data.textNoComments = self.blankOutComments(self.data.text);\t\t\t\n\t\t\tself.data.errorStr = '';\t\t\n\t\t\tself.refs.subSheets = [];\n\t\t\n\t\t\t// Parse the style sheet.\n\t\t\t\n\t\t\tvar json = self.refs.dw.styleSheetElementToJSONShallow('StyleSheet', self.data.textNoComments);\n\t\t\tvar rawSheet = self.evalJson(json);\n\t\t\t\n\t\t\t// Find the importList and ruleList.\n\t\t\t\n\t\t\tfor (var i in rawSheet.children)\n\t\t\tfor (var i = 0; i < rawSheet.children.length; i++)\t\t\t\n\t\t\t{\n\t\t\t\tvar rec = rawSheet.children[i];\n\t\t\t\t\n\t\t\t\tif (rec.type == 'ImportList')\n\t\t\t\t\tvar importList = rec.list;\n\t\t\t\telse\n\t\t\t\t\tvar ruleList = rec.list;\t\n\t\t\t}\n\n\t\t\tself.parseSubSheets(ruleList);\n\t\t\t\n\t\t\tself.parseRules();\n\t\t}\n\n\tself.parseSubSheets = function(ruleList)\n\t\t{\n\t\t\t// Organize the rules into subSheets.\n\t\t\t\n\t\t\tfunction SubSheet(styleSheet)\n\t\t\t{\n\t\t\t\tthis.mediaQueryList = null;\n\t\t\t\tthis.rules = [];\t\n\t\t\t}\n\t\t\t\n\t\t\tvar inMediaClause = false;\n\t\t\tvar curSubSheet = new SubSheet();\n\t\t\t\n\t\t\tfor (i in ruleList)\n\t\t\t{\t\t\t\t\t\t\n\t\t\t\tvar curRule = ruleList[i];\n\t\t\t\t\t\t\t\t\t\n\t\t\t\tif (curRule.mediaQueryListOffset != -1 && curRule.mediaQueryListOffset != 0)\n\t\t\t\t{\t\t\t\t\t\n\t\t\t\t\tinMediaClause = true;\n\t\t\t\t\t\n\t\t\t\t\tif (curSubSheet.rules.length > 0)\n\t\t\t\t\t{\n\t\t\t\t\t\tself.refs.subSheets.push(curSubSheet);\n\t\t\t\t\t\tcurSubSheet = new SubSheet();\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tcurSubSheet.mediaQueryList = {offset: curRule.mediaQueryListOffset, text: curRule.mediaQueryListText};\n\t\t\t\t}\n\t\t\t\telse if (curRule.mediaQueryListOffset == -1)\n\t\t\t\t{\n\t\t\t\t\tif (inMediaClause)\n\t\t\t\t\t{\n\t\t\t\t\t\tinMediaClause = false;\n\t\t\n\t\t\t\t\t\tself.refs.subSheets.push(curSubSheet);\t\t\t\t\n\t\t\t\t\t\tcurSubSheet = new SubSheet();\n\t\t\t\t\t}\n\t\t\t\t}\t\t\t\t\t\t\n\t\t\t\t\n\t\t\t\tdelete curRule.type;\n\t\t\t\tdelete curRule.mediaQueryListOffset;\n\t\t\t\tdelete curRule.mediaQueryListText;\n\t\t\t\t\n\t\t\t\t// The API call returns an offset that points to the first char of the selector, but the 'rule text' includes\n\t\t\t\t// leading white space so we can duplicate it, if need be, so make the offset adjustment here.\n\t\t\t\t\n\t\t\t\tcurRule.offset -= self.getLeadingWhiteSpace(curRule.text).length; \n\t\t\t\t\n\t\t\t\tcurSubSheet.rules.push(curRule);\n\t\t\t}\n\t\t\t\n\t\t\tself.refs.subSheets.push(curSubSheet);\n\t\t}\n\n\tself.parseRules = function()\n\t\t{\n\t\t\t// \tParse the rules into selectors and declarations.\n\t\t\t\n\t\t\tfor (var i = 0; i < self.refs.subSheets.length; i++)\t\t\t\n\t\t\t{\n\t\t\t\tvar subSheet = self.refs.subSheets[i];\n\t\t\t\t\n\t\t\t\tfor (var j in subSheet.rules) //todo: Use incremental loop instead. Change elsewhere, too.\n\t\t\t\t{\n\t\t\t\t\tvar rule = subSheet.rules[j];\n\t\t\t\t\t\n\t\t\t\t\trule.selectors = [];\n\t\t\t\t\trule.declarations = [];\n\t\t\n\t\t\t\t\tvar json = self.refs.dw.styleSheetElementToJSONShallow('Rule', rule.text);\n\t\t\t\t\tvar rawRule = self.evalJson(json);\n\t\t\t\t\t\n\t\t\t\t\t// Find the selectorList and declarationList.\n\t\t\t\t\tfor (var k in rawRule.children)\n\t\t\t\t\t{\n\t\t\t\t\t\tvar rec = rawRule.children[k];\n\t\t\t\t\t\t\n\t\t\t\t\t\tif (rec.type == 'SelectorList')\n\t\t\t\t\t\t\tvar selectorList = rec.list;\n\t\t\t\t\t\telse\n\t\t\t\t\t\t\tvar declarationList = rec.list;\t\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tfor (var k in selectorList)\n\t\t\t\t\t{\n\t\t\t\t\t\tvar selector = selectorList[k];\n\t\t\t\t\t\trule.selectors.push({offset: rule.offset + selector.offset, text: self.trim(selector.text)});\t\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tfor (var k in declarationList)\n\t\t\t\t\t{\n\t\t\t\t\t\tvar declaration = declarationList[k];\n\t\t\t\t\t\trule.declarations.push({offset: rule.offset + declaration.offset, text: declaration.text});\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\t\t\t\n\t\t}\n\t\t\n\tself.evalJson = function(json)\n\t\t{\n\t\t\treturn eval('(' + json + ')');\n\t\t}\n\t\t\n\tself.trim = function(str)\n\t\t{\n\t\t\tstr = String(str);\t\n\t\t\tvar curPos = 0;\n\t\t\t\n\t\t\twhile\t(\tcurPos < str.length \n\t\t\t\t\t\t&&\n\t\t\t\t\t\t(str[curPos] == ' ' || str[curPos] == '\\t' || str[curPos] == '\\r' || str[curPos] == '\\n')\n\t\t\t\t\t)\n\t\t\t\tcurPos++;\t\t\t\t\t\t\t\n\t\t\t\t\n\t\t\tif (curPos == str.length)\n\t\t\t\treturn '';\n\t\t\telse\n\t\t\t\tvar startNonWhite = curPos;\n\t\t\t\t\n\t\t\tcurPos = str.length - 1;\n\t\t\t\n\t\t\twhile\t(\tcurPos > 0 \n\t\t\t\t\t\t&&\n\t\t\t\t\t\t(str[curPos] == ' ' || str[curPos] == '\\t' || str[curPos] == '\\r' || str[curPos] == '\\n')\n\t\t\t\t\t)\n\t\t\t\tcurPos--;\n\t\t\t\n\t\t\tvar endNonWhite = curPos + 1;\t\t\t\t\t\t\n\t\t\t\n\t\t\treturn str.substring(startNonWhite, endNonWhite);\t\t\t\t\t\t\t\t\t\t\n\t\t}\n}", "function buildDocDef()\n {\n prepareDocDef();\n // //\\\\ builds content\n methods.composeFrontPage();\n methods.composeSection1();\n methods.composeSection2();\n methods.composeSection3();\n methods.composeSection4();\n methods.composeSection5();\n methods.composeSection8();\n\n /*\n */\n methods.composeBottomPage();\n ddDef.content = ddCont;\n // \\\\// builds content\n }", "function DocGenerator () {\n\t//--------------------------------------\n\t//---Super Class------------------------\n\tthis.SuperClass = Matrix;\n\tthis.SuperClass();\n\t//--------------------------------------\n\n\t//---Associations-----------------------\n\tthis.assGrammar\t\t = null;\n\tthis.assRules\t\t = null;\n\tthis.assCitations\t = null;\n\tthis.assWizzard\t\t = null;\n\t//---Attributes-------------------------\n\tthis.aInitText = \"\";\n\tthis.aText \t = \"\";\n\tthis.aErrorText = \"\";\n\tthis.aCount \t= 0;\n\tthis.aCycle \t= 0;\n\tthis.aCycleMax \t= 100;\n\tthis.aLoopMax = 50;\n\tthis.aIndexPart = 0;\n\tthis.aIndexNT = 0;\n\tthis.aCiteReplacements = 0;\n\tthis.aCitations\t \t\t= new Array();\n\tthis.aFoundNonterms\t \t= new Array();\n\tthis.aFoundNontermIDs\t= new Array();\n\tthis.aMust_Update_Grammar = false;\n\t//---Methods----------------------------\n\tthis.init\t\t\t\t\t\t= init_DocGenerator;\n\tthis.init_apply\t\t\t\t\t= init_apply_DocGenerator;\n\tthis.init_nonterm\t\t\t\t= init_nonterm_DocGenerator;\n\tthis.add_textpart\t \t\t\t= add_textpart_DocGenerator;\n\tthis.apply_grammar\t\t\t\t= apply_grammar_DocGenerator;\n\tthis.apply_grammarnode\t\t\t= apply_grammarnode_DocGenerator;\n\tthis.apply_nonterm\t\t\t\t= apply_nonterm_DocGenerator;\n\tthis.apply_counter\t\t\t\t= apply_counter_DocGenerator;\n\tthis.count_noncounter_nonterms\t= count_noncounter_nonterms_DocGenerator;\n\tthis.create_textpart\t\t \t= create_textpart_DocGenerator;\n\tthis.determine_overwrite\t \t= determine_overwrite_DocGenerator;\n\tthis.determine_rule\t\t\t \t= determine_rule_DocGenerator;\n\tthis.expand_overwrite\t\t \t= expand_overwrite_DocGenerator;\n\tthis.export_text\t\t\t \t= export_text_DocGenerator;\n\tthis.export_with_overwrite\t \t= export_with_overwrite_DocGenerator;\n\tthis.find_citations\t\t\t \t= find_citations_DocGenerator;\n\tthis.find_nonterms\t\t\t \t= find_nonterms_DocGenerator;\n\tthis.get_current_nonterm\t \t= get_current_nonterm_DocGenerator;\n\tthis.insert_textpart\t\t \t= insert_textpart_DocGenerator;\n\tthis.insert_overwrite_return \t= insert_overwrite_return_DocGenerator;\n\tthis.load_text\t\t\t\t \t= load_text_DocGenerator;\n\tthis.loop_replacement_direct \t= loop_replacement_direct_DocGenerator;\n\tthis.loop_rule\t\t\t\t \t= loop_rule_DocGenerator;\n\tthis.next_cycle\t\t\t\t \t= next_cycle_DocGenerator;\n\tthis.random_rule\t\t\t \t= random_rule_DocGenerator;\n\tthis.remove_ignore_lines\t \t= remove_ignore_lines_DocGenerator;\n\tthis.remove_ignore_space\t \t= remove_ignore_space_DocGenerator;\n\tthis.replace_citations\t\t \t= replace_citations_DocGenerator;\n\tthis.replace_nonterms\t\t \t= replace_nonterms_DocGenerator;\n\tthis.replace_string\t\t\t \t= replace_string_DocGenerator;\n\tthis.select_rule\t \t\t \t= select_rule_DocGenerator;\n\tthis.show_citations\t\t\t \t= show_citations_DocGenerator;\n\tthis.show_nonterms\t\t\t \t= show_nonterms_DocGenerator;\n\tthis.sort_nonterms\t\t\t \t= sort_nonterms_DocGenerator;\n\tthis.split_overwrite\t\t \t= split_overwrite_DocGenerator;\n\tthis.split_overwrite\t\t \t= split_overwrite_DocGenerator;\n\t\n\t//--------------------------------------\n}", "function Parser() {\n\n}", "function processDocument() {\n // process the document.\n let body = DocumentApp.getActiveDocument().getBody();\n let bodyText = body.editAsText();\n let text = body.editAsText().getText();\n\n // store all distinct words found in the doc\n let wordList = {};\n\n let words = getWords(text);\n let totalWords = words.length;\n let sentences = getSentences(text);\n let totalSentences = sentences.length;\n let totalSyllables = getNumSyllables(text);\n\n let avgSentenceLength = totalWords / totalSentences;\n let avgSyllablesWord = totalSyllables / totalWords;\n\n // count the number of distinct words\n words.forEach((word) => {\n if(!wordList[word]) {\n wordList[word] = 1;\n }\n })\n\n let distinctWords = Object.keys(wordList).length;\n\n let freqResult = getFrequencies(bodyText, words);\n\n underlineSentences(bodyText, sentences);\n\n let kincaid = 0.39 * (avgSentenceLength) + 11.8 * (avgSyllablesWord) - 15.59;\n\n let reading = 206.835 - 1.015 * (avgSentenceLength) - 84.6 * (avgSyllablesWord);\n\n let output = {\n word_count: totalWords,\n original_doc: text,\n sentence_count: totalSentences,\n syllable_count: totalSyllables,\n syllables_word: avgSyllablesWord,\n flesch_kincaid: kincaid,\n flesch_reading: reading,\n type_token: distinctWords / totalWords,\n frequencies: freqResult.frequency,\n avg_sentence: avgSentenceLength\n }\n return output;\n\n // optional code for testing\n \n}", "function visitUsingRules(schema, typeInfo, documentAST, rules) {\n var context = new ValidationContext(schema, documentAST, typeInfo);\n var visitors = rules.map(function (rule) {\n return rule(context);\n });\n // Visit the whole document with each instance of all provided rules.\n (0, _visitor.visit)(documentAST, (0, _visitor.visitWithTypeInfo)(typeInfo, (0, _visitor.visitInParallel)(visitors)));\n return context.getErrors();\n}", "function ParseWholeDocument()\n // function to parse the document if the number of lines change (or this is the first pass)\n {\n try {\n var blackstring = \"\";\n var boldstring = \"\";\n var redstring = \"\";\n var greenstring = \"\";\n var bluestring = \"\";\n \n myNode.blackoutline = [];\n myNode.boldoutline = [];\n myNode.redoutline = [];\n myNode.greenoutline = [];\n myNode.blueoutline = [];\n \n var linenumoutline = [\"\"];\n \n myNode.context.IsInMultiLineCommentString=false;\n myNode.context.IsInAltMultiLineCommentString=false;\n myNode.context.IsInASMMultiLineCommentString=false;\n \n var stringArray = document.getElementById(myId+\"Real\").value.split(\"\\n\");\n for (var j = 0; j < stringArray.length; j++)\n {\n var line =\" \"+ stringArray[j]+\" \"; // add a leading and trailing space so all reserved words always have a space in front of them (and after them if they are at the end of a line)\n var SyntaxText ={ newblackline : \"\", newboldline : \"\",newredline : \"\", newgreenline : \"\", newblueline : \"\"};\n myNode.SavedLineContextArray[j] = JSON.parse(JSON.stringify(myNode.context));\n \n ParseLine(j,line,myNode.context,SyntaxText );\n \n // take away the leading char padding each line (which is there to make sure reserved words have a space preceeding them)\n myNode.blackoutline[j] = SyntaxText.newblackline.slice(1);\n myNode.boldoutline[j] = SyntaxText.newboldline.slice(1);\n myNode.redoutline[j] = SyntaxText.newredline.slice(1);\n myNode.greenoutline[j] = SyntaxText.newgreenline.slice(1);\n myNode.blueoutline[j] = SyntaxText.newblueline.slice(1);\n }\n // avoid repainting between updating the different layers\n document.getElementById(myId+\"Real\").style.visibility=\"hidden\";\n \n document.getElementById(myId+\"Black\").value =myNode.blackoutline.join(\"\\n\");\n document.getElementById(myId+\"Bold\").value = myNode.boldoutline.join(\"\\n\");\n document.getElementById(myId+\"Red\").value = myNode.redoutline.join(\"\\n\");\n document.getElementById(myId+\"Green\").value = myNode.greenoutline.join(\"\\n\");\n document.getElementById(myId+\"Blue\").value = myNode.blueoutline.join(\"\\n\");\n \n // restore having avoided repainting between updating the different layers\n document.getElementById(myId+\"Real\").style.visibility=\"visible\";\n \n // now add line numbers\n for (var j = 0; j < stringArray.length; j++)\n {\n linenumoutline[j] = (j+1).toString();\n var strLen = 4 - linenumoutline[j].length;\n for (var k = 0; k < strLen; k++) { linenumoutline[j] = \" \"+ linenumoutline[j]; };\n }\n document.getElementById(myId+\"LineNumbers\").value = linenumoutline.join(\"\\n\");\n }\n catch(err) { alert(\"Error in ParseWholeDocument syntax highlighting --- \"+ err.message); };\n }", "function Rules(md) {\n // require(\"./header.js\")(md); // TODO Remove if markdown-it-anchor do the job\n require(\"./markdownLink.js\")(md);\n}", "generate() {\n let content = [];\n // add 'top' content above all other content\n if (this._top)\n content.push(this._addIdLinks(this._top), \"\");\n // piece all content together\n for (let i = 0; i < this.doc.content.length; i++) {\n let c = this.doc.content[i];\n // skip non-root namespace node\n if (c.id === this.doc.id + \".\" && i > 0)\n continue;\n // add horizontal line above all namespaced nodes\n if (c.spec.namespaced)\n content.push(\"---\", \"\");\n // add heading with icon and tag(s)\n let icon = \"/assets/icons/spec-\" + c.spec.type + \".svg\";\n let tags = \"\";\n if (c.spec.abstractModifier)\n tags += ` <span class=\"spec_tag\">abstract</span>`;\n if (c.spec.staticModifier)\n tags += ` <span class=\"spec_tag\">static</span>`;\n if (c.spec.protectedModifier)\n tags += ` <span class=\"spec_tag\">protected</span>`;\n if (c.spec.deprecated)\n tags += ` <span class=\"spec_tag spec_tag--deprecated\">deprecated</span>`;\n let name = this._getTypedName(c.spec).replace(/_/g, \"\\\\_\");\n content.push(`## ![](${icon})${name}${tags} {.spec ${navId(c.id)}}`, \"\");\n // add declaration spec and further documentation\n content.push(...(c.spec.spec && c.spec.type !== DeclarationFileParser_1.SpecNodeType.ClassDeclaration\n ? [\n \"\",\n c.spec.spec\n .split(\"\\n\")\n .map((s) => this._addIdLinks(\"`\" + s + \"`\"))\n .join(\"<br>\"),\n \"\",\n ]\n : c.spec.inherit\n ? [\n \"\",\n c.spec.inherit\n .map((s) => this._addIdLinks(\"`\" + s + \"`\"))\n .join(\"<code> </code>\"),\n \"\",\n ]\n : []));\n let params = [];\n let notes = [];\n for (let d of c.docs) {\n let txt = this._addIdLinks(d.doc).replace(/\\n(?!\\n)/g, \"\\n\\n\") + \"\\n\\n\";\n switch (d.tag) {\n case \"param\":\n params.push(`- \\`${d.name}\\` — ${txt}`);\n break;\n case \"return\":\n notes.push(`**Returns:** ${txt}`, \"\");\n break;\n case \"note\":\n notes.push(`**Note:** ${txt}`, \"\");\n break;\n case \"deprecated\":\n notes.push(`**Deprecated:** ${txt}`, \"\");\n break;\n default:\n notes.push(txt, \"\");\n }\n }\n content.push(...params, \"\", ...notes);\n // add miscellaneous content\n let misc = this._misc.getContentFor(c.id);\n if (misc) {\n content.push(this._addIdLinks(misc), \"\");\n }\n if (c.spec.spec && c.spec.type === DeclarationFileParser_1.SpecNodeType.ClassDeclaration) {\n content.push(\"### Constructor\", \"\", this._addIdLinks(\"`\" + c.spec.spec + \"`\"), \"\");\n }\n }\n // add nav and pageintro properties\n this._addNav();\n this._addPageIntro();\n // return markdown content itself\n return content;\n }", "parseRule() {\n return null;\n }", "function postRespec() {\n\taddTextSemantics();\n\tswapInDefinitions();\n\ttermTitles();\n\tlinkUnderstanding();\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t case 'fragment':\n\t return parseExecutableDefinition(lexer);\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseExecutableDefinition(lexer);\n\t } else if (peekDescription(lexer)) {\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function Definitions(parent){ \n SchemaCollection.call(this,parent); \n this.nodeType = 'Definitions';\n}", "function processDataFromDocusky() {\n\tparseDocInfo();\n\ttoolSetting();\n}", "onparserinit(){\n this.document = new XNode('document', { format: this.options.format })\n this._tagStack = [this.document]\n }", "function parseDefinition(lexer$$1) {\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n switch (lexer$$1.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer$$1);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n } else if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer$$1);\n } else if (peekDescription(lexer$$1)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n\n throw unexpected(lexer$$1);\n}", "function Document () {\n /**\n * @since Flash MX 2004\n * @type String\n */\n this.accName = null;\n /**\n * @since Flash CS3\n * @type Boolean\n */\n this.as3AutoDeclare = false;\n /**\n * @since Flash CS3\n * @type String\n */\n this.as3Dialect = null;\n /**\n * @since Flash CS3\n * @type Number\n */\n this.as3ExportFrame = 0;\n /**\n * @since Flash CS3\n * @type Boolean\n */\n this.as3StrictMode = false;\n /**\n * @since Flash CS3\n * @type Boolean\n */\n this.as3WarningsMode = false;\n /**\n * @since Flash CS3\n * @type Number\n */\n this.asVersion = 0;\n /**\n * @since Flash MX 2004\n * @type Boolean\n */\n this.autoLabel = false;\n /**\n * @since Flash MX 2004\n * @type Object\n */\n this.backgroundColor = null;\n /**\n * @since Flash MX 2004\n * @type String\n */\n this.currentPublishProfile = null;\n /**\n * @since Flash MX 2004\n * @type Number\n */\n this.currentTimeline = 0;\n /**\n * @since Flash MX 2004\n * @type String\n */\n this.description = null;\n /**\n * @since Flash CS3\n * @type String\n */\n this.docClass = null;\n /**\n * @since Flash CS4\n * @type String\n */\n this.externalLibraryPath = null;\n /**\n * @since Flash MX 2004\n * @type Boolean\n */\n this.forceSimple = false;\n /**\n * @since Flash MX 2004\n * @type Number\n */\n this.frameRate = 0;\n /**\n * @since Flash MX 2004\n * @type Number\n */\n this.height = 0;\n /**\n * @since Flash CS3\n * @type Number\n * @const\n */\n this.id = 0;\n /**\n * @since Flash MX 2004\n * @type library\n * @const\n */\n this.library = null;\n /**\n * @since Flash CS4\n * @type String\n */\n this.libraryPath = null;\n /**\n * @since Flash MX 2004\n * @type Boolean\n */\n this.livePreview = false;\n /**\n * @since Flash MX 2004\n * @type String\n * @const\n */\n this.name = null;\n /**\n * @since Flash MX 2004\n * @type String\n * @const\n */\n this.path = null;\n /**\n * @since Flash CS4\n * @type String\n * @const\n */\n this.pathURI = null;\n /**\n * @since Flash MX 2004\n * @type Array\n * @const\n */\n this.publishProfiles = null;\n /**\n * @since Flash MX 2004\n * @type ScreenOutline\n * @const\n */\n this.screenOutline = null;\n /**\n * @since Flash MX 2004\n * @type Array\n */\n this.selection = null;\n /**\n * @since Flash MX 2004\n * @type Boolean\n */\n this.silent = false;\n /**\n * @since Flash CS4\n * @type String\n */\n this.sourcePath = null;\n /**\n * @since Flash CS6\n * @type Number\n */\n this.swfJPEGQuality = null;\n /**\n * @since Flash MX 2004\n * @type Array\n * @const\n */\n this.timelines = null;\n /**\n * @since Flash MX 2004\n * @type Matrix\n * @const\n */\n this.viewMatrix = null;\n /**\n * @since Flash MX 2004\n * @type Number\n */\n this.width = 0;\n /**\n * @since Flash 8\n * @type Number\n */\n this.zoomFactor = 0;\n /**\n * @since Flash MX 2004\n * @param {String} name\n * @param {String} type\n * @param {Object} data\n */\n this.addDataToDocument = function (name, type, data) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n * @param {String} type\n * @param {Object} data\n */\n this.addDataToSelection = function (name, type, data) {\n };\n /**\n * @since Flash 8\n * @param {String} filterName\n */\n this.addFilter = function (filterName) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} position\n * @param {Item} item\n * @return Boolean\n */\n this.addItem = function (position, item) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} startPoint\n * @param {Object} endpoint\n */\n this.addNewLine = function (startPoint, endpoint) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} boundingRectangle\n * @param {Boolean} [bSuppressFill]\n * @param {Boolean} [bSuppressStroke]\n */\n this.addNewOval = function (boundingRectangle, bSuppressFill, bSuppressStroke) {\n };\n /**\n * @since Flash CS4\n * @param {Object} boundingRectangle\n * @param {Boolean} [bSuppressFill]\n * @param {Boolean} [bSuppressStroke]\n */\n this.addNewPrimitiveOval = function (boundingRectangle, bSuppressFill, bSuppressStroke) {\n };\n /**\n * @since Flash CS4\n * @param {Object} boundingRectangle\n * @param {Number} roundness\n * @param {Boolean} [bSuppressFill]\n * @param {Boolean} [bSuppressStroke]\n */\n this.addNewPrimitiveRectangle = function (boundingRectangle, roundness, bSuppressFill, bSuppressStroke) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} profileName\n * @return Number\n */\n this.addNewPublishProfile = function (profileName) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} boundingRectangle\n * @param {Number} roundness\n * @param {Boolean} [bSuppressFill]\n * @param {Boolean} [bSuppressStroke]\n */\n this.addNewRectangle = function (boundingRectangle, roundness, bSuppressFill, bSuppressStroke) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [name]\n * @return Boolean\n */\n this.addNewScene = function (name) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} boundingRectangle\n * @param {String} [text]\n */\n this.addNewText = function (boundingRectangle, text) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} alignMode\n * @param {Boolean} [bUseDocumentBounds]\n */\n this.align = function (alignMode, bUseDocumentBounds) {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.allowScreens = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} arrangeMode\n */\n this.arrange = function (arrangeMode) {\n };\n /**\n * @since Flash MX 2004\n */\n this.breakApart = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.canEditSymbol = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.canRevert = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.canTestMovie = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.canTestScene = function () {\n };\n /**\n * @since Flash 8\n * @param {Number} oldIndex\n * @param {Number} newIndex\n */\n this.changeFilterOrder = function (oldIndex, newIndex) {\n };\n /**\n * @since Flash MX 2004\n */\n this.clipCopy = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.clipCut = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} [bInPlace]\n */\n this.clipPaste = function (bInPlace) {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} [bPromptToSaveChanges]\n */\n this.close = function (bPromptToSaveChanges) {\n };\n /**\n * @since Flash MX 2004\n */\n this.convertLinesToFills = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} type\n * @param {String} name\n * @param {String} registrationPoint\n * @return SymbolItem\n */\n this.convertToSymbol = function (type, name, registrationPoint) {\n };\n /**\n * @since Flash 8\n * @return Boolean\n */\n this.crop = function () {\n };\n /**\n * @since Flash CS5\n * @param {Boolean} [abortIfErrorsExist]\n */\n this.debugMovie = function (abortIfErrorsExist) {\n };\n /**\n * @since Flash 8\n * @return Boolean\n */\n this.deleteEnvelope = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Number\n */\n this.deletePublishProfile = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.deleteScene = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.deleteSelection = function () {\n };\n /**\n * @since Flash 8\n */\n this.disableAllFilters = function () {\n };\n /**\n * @since Flash 8\n * @param {Number} filterIndex\n */\n this.disableFilter = function (filterIndex) {\n };\n /**\n * @since Flash 8\n * @param {Number} enabledFilterIndex\n */\n this.disableOtherFilters = function (enabledFilterIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} distributeMode\n * @param {Boolean} [bUseDocumentBounds]\n */\n this.distribute = function (distributeMode, bUseDocumentBounds) {\n };\n /**\n * @since Flash MX 2004\n */\n this.distributeToLayers = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n * @return Boolean\n */\n this.documentHasData = function (name) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [profileName]\n * @return Number\n */\n this.duplicatePublishProfile = function (profileName) {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.duplicateScene = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.duplicateSelection = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} index\n */\n this.editScene = function (index) {\n };\n /**\n * @since Flash 8\n */\n this.enableAllFilters = function () {\n };\n /**\n * @since Flash 8\n * @param {Number} filterIndex\n */\n this.enableFilter = function (filterIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [editMode]\n */\n this.enterEditMode = function (editMode) {\n };\n /**\n * @since Flash MX 2004\n */\n this.exitEditMode = function () {\n };\n /**\n * @since Flash CS6\n * @param {Number} frameNumber\n * @param {String} bitmapName\n */\n this.exportInstanceToLibrary = function (frameNumber, bitmapName) {\n };\n /**\n * @since Flash CS6\n * @param {String} outputURI\n * @param {Number} [startFrameNum]\n * @param {Number} [endFrameNum]\n * @param {Matrix} [matrix]\n */\n this.exportInstanceToPNGSequence = function (outputURI, startFrameNum, endFrameNum, matrix) {\n };\n /**\n * @since Flash 8\n * @param {String} fileURI\n * @param {Boolean} [bCurrentPNGSettings]\n * @param {Boolean} [bCurrentFrame]\n * @return Boolean\n */\n this.exportPNG = function (fileURI, bCurrentPNGSettings, bCurrentFrame) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} fileURI\n */\n this.exportPublishProfile = function (fileURI) {\n };\n /**\n * @since Flash CS4\n * @param {String} [profileName]\n * @return String\n */\n this.exportPublishProfileString = function (profileName) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [fileURI]\n * @param {Boolean} [bCurrentSettings]\n */\n this.exportSWF = function (fileURI, bCurrentSettings) {\n };\n /**\n * @since Flash MX 2004\n * @return Boolean\n */\n this.getAlignToDocument = function () {\n };\n /**\n * @since Flash 8\n * @return String\n */\n this.getBlendMode = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [objectToFill]\n * @return Fill\n */\n this.getCustomFill = function (objectToFill) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [locationOfStroke]\n * @return Stroke\n */\n this.getCustomStroke = function (locationOfStroke) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n * @return Object\n */\n this.getDataFromDocument = function (name) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} propertyName\n * @return Object\n */\n this.getElementProperty = function (propertyName) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} attrName\n * @param {Number} [startIndex]\n * @param {Number} [endIndex]\n * @return Object\n */\n this.getElementTextAttr = function (attrName, startIndex, endIndex) {\n };\n /**\n * @since Flash 8\n * @return Array\n */\n this.getFilters = function () {\n };\n /**\n * @since Flash 8\n * @return String\n */\n this.getMetadata = function () {\n };\n /**\n * @since Flash CS3\n * @return String\n */\n this.getMobileSettings = function () {\n };\n /**\n * @since Flash CS3\n * @return String\n */\n this.getPlayerVersion = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Object\n */\n this.getSelectionRect = function () {\n };\n /**\n * @since Flash CS6\n * @return String\n */\n this.getSWFPathFromProfile = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} [startIndex]\n * @param {Number} [endIndex]\n * @return String\n */\n this.getTextString = function (startIndex, endIndex) {\n };\n /**\n * @since Flash MX 2004\n * @return Timeline\n */\n this.getTimeline = function () {\n };\n /**\n * @since Flash MX 2004\n * @return Object\n */\n this.getTransformationPoint = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.group = function () {\n };\n /**\n * @since Flash 8\n * @param {String} fileURI\n * @param {Boolean} [importToLibrary]\n * @return Boolean\n */\n this.importFile = function (fileURI, importToLibrary) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} fileURI\n * @return Number\n */\n this.importPublishProfile = function (fileURI) {\n };\n /**\n * @since Flash CS4\n * @param {String} xmlString\n * @return Boolean\n */\n this.importPublishProfileString = function (xmlString) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} fileURI\n */\n this.importSWF = function (fileURI) {\n };\n /**\n * @since Flash 8\n * @return Boolean\n */\n this.intersect = function () {\n };\n /**\n * @since Flash CS5\n * @param {String} URI\n */\n this.loadCuepointXML = function (URI) {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} bWidth\n * @param {Boolean} bHeight\n * @param {Boolean} [bUseDocumentBounds]\n */\n this.match = function (bWidth, bHeight, bUseDocumentBounds) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} position\n * @param {Boolean} bToggleSel\n * @param {Boolean} bShiftSel\n */\n this.mouseClick = function (position, bToggleSel, bShiftSel) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} position\n * @param {Boolean} bAltDown\n * @param {Boolean} bShiftDown\n * @param {Boolean} bShiftSelect\n */\n this.mouseDblClk = function (position, bAltDown, bShiftDown, bShiftSelect) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} delta\n */\n this.moveSelectedBezierPointsBy = function (delta) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} distanceToMove\n */\n this.moveSelectionBy = function (distanceToMove) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} smoothing\n * @param {Boolean} bUseMultiplePasses\n */\n this.optimizeCurves = function (smoothing, bUseMultiplePasses) {\n };\n /**\n * @since Flash MX 2004\n */\n this.publish = function () {\n };\n /**\n * @since Flash 8\n * @return Boolean\n */\n this.punch = function () {\n };\n /**\n * @since Flash 8\n */\n this.removeAllFilters = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n */\n this.removeDataFromDocument = function (name) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n */\n this.removeDataFromSelection = function (name) {\n };\n /**\n * @since Flash 8\n * @param {Number} filterIndex\n */\n this.removeFilter = function (filterIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} [profileNewName]\n * @return Boolean\n */\n this.renamePublishProfile = function (profileNewName) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n * @return Boolean\n */\n this.renameScene = function (name) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} sceneToMove\n * @param {Number} sceneToPutItBefore\n */\n this.reorderScene = function (sceneToMove, sceneToPutItBefore) {\n };\n /**\n * @since Flash CS3\n */\n this.resetOvalObject = function () {\n };\n /**\n * @since Flash CS3\n */\n this.resetRectangleObject = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.resetTransformation = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.revert = function () {\n };\n /**\n * @since Flash CS4\n * @param {Object} xyzCoordinate\n * @param {Boolean} bGlobalTransform\n */\n this.rotate3DSelection = function (xyzCoordinate, bGlobalTransform) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} angle\n * @param {String} [rotationPoint]\n */\n this.rotateSelection = function (angle, rotationPoint) {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} [bOkToSaveAs]\n * @return Boolean\n */\n this.save = function (bOkToSaveAs) {\n };\n /**\n * @since Flash CS6\n * @param {String} URI\n * @param {Boolean} [selectionOnly]\n * @return Boolean\n */\n this.saveAsCopy = function (URI, selectionOnly) {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} [bOkToSaveAs]\n * @return Boolean\n */\n this.saveAndCompact = function (bOkToSaveAs) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} xScale\n * @param {Number} yScale\n * @param {String} whichCorner\n */\n this.scaleSelection = function (xScale, yScale, whichCorner) {\n };\n /**\n * @since Flash MX 2004\n */\n this.selectAll = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.selectNone = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} bToStage\n */\n this.setAlignToDocument = function (bToStage) {\n };\n /**\n * @since Flash 8\n * @param {String} mode\n */\n this.setBlendMode = function (mode) {\n };\n /**\n * @since Flash MX 2004\n * @param {Fill} fill\n */\n this.setCustomFill = function (fill) {\n };\n /**\n * @since Flash MX 2004\n * @param {Stroke} stroke\n */\n this.setCustomStroke = function (stroke) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} property\n * @param {Object} value\n */\n this.setElementProperty = function (property, value) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} attrName\n * @param {Object} attrValue\n * @param {Number} [startIndex]\n * @param {Number} [endIndex]\n * @return Boolean\n */\n this.setElementTextAttr = function (attrName, attrValue, startIndex, endIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} color\n */\n this.setFillColor = function (color) {\n };\n /**\n * @since Flash 8\n * @param {String} property\n * @param {Number} filterIndex\n * @param {Object} value\n */\n this.setFilterProperty = function (property, filterIndex, value) {\n };\n /**\n * @since Flash 8\n * @param {Array} filterArray\n */\n this.setFilters = function (filterArray) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} opacity\n */\n this.setInstanceAlpha = function (opacity) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} brightness\n */\n this.setInstanceBrightness = function (brightness) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} color\n * @param {Number} strength\n */\n this.setInstanceTint = function (color, strength) {\n };\n /**\n * @since Flash 8\n * @param {String} strMetadata\n * @return Boolean\n */\n this.setMetadata = function (strMetadata) {\n };\n /**\n * @since Flash CS3\n * @param {String} xmlString\n * @return Boolean\n */\n this.setMobileSettings = function (xmlString) {\n };\n /**\n * @since Flash CS3\n * @param {String} propertyName\n * @param {Object} value\n */\n this.setOvalObjectProperty = function (propertyName, value) {\n };\n /**\n * @since Flash CS3\n * @param {String} version\n * @return Boolean\n */\n this.setPlayerVersion = function (version) {\n };\n /**\n * @since Flash CS3\n * @param {String} propertyName\n * @param {Object} value\n */\n this.setRectangleObjectProperty = function (propertyName, value) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} boundingRectangle\n * @param {Boolean} [bContactSensitiveSelection]\n */\n this.setSelectionBounds = function (boundingRectangle, bContactSensitiveSelection) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} rect\n * @param {Boolean} [bReplaceCurrentSelection]\n * @param {Boolean} [bContactSensitiveSelection]\n */\n this.setSelectionRect = function (rect, bReplaceCurrentSelection, bContactSensitiveSelection) {\n };\n /**\n * @since Flash CS4\n * @param {Object} point\n */\n this.setStageVanishingPoint = function (point) {\n };\n /**\n * @since Flash CS4\n * @param {Number} angle\n */\n this.setStageViewAngle = function (angle) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} color\n * @param {Number} size\n * @param {String} strokeType\n */\n this.setStroke = function (color, size, strokeType) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} color\n */\n this.setStrokeColor = function (color) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} size\n */\n this.setStrokeSize = function (size) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} strokeType\n */\n this.setStrokeStyle = function (strokeType) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} boundingRectangle\n * @return Boolean\n */\n this.setTextRectangle = function (boundingRectangle) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} startIndex\n * @param {Number} endIndex\n * @return Boolean\n */\n this.setTextSelection = function (startIndex, endIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {String} text\n * @param {Number} [startIndex]\n * @param {Number} [endIndex]\n * @return Boolean\n */\n this.setTextString = function (text, startIndex, endIndex) {\n };\n /**\n * @since Flash MX 2004\n * @param {Object} transformationPoint\n */\n this.setTransformationPoint = function (transformationPoint) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} xSkew\n * @param {Number} ySkew\n * @param {String} whichEdge\n */\n this.skewSelection = function (xSkew, ySkew, whichEdge) {\n };\n /**\n * @since Flash MX 2004\n */\n this.smoothSelection = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} direction\n * @param {Boolean} [bUseDocumentBounds]\n */\n this.space = function (direction, bUseDocumentBounds) {\n };\n /**\n * @since Flash MX 2004\n */\n this.straightenSelection = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} name\n */\n this.swapElement = function (name) {\n };\n /**\n * @since Flash 8\n */\n this.swapStrokeAndFill = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Boolean} [abortIfErrorsExist]\n */\n this.testMovie = function (abortIfErrorsExist) {\n };\n /**\n * @since Flash MX 2004\n */\n this.testScene = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} threshold\n * @param {Number} minimumArea\n * @param {String} curveFit\n * @param {String} cornerThreshold\n */\n this.traceBitmap = function (threshold, minimumArea, curveFit, cornerThreshold) {\n };\n /**\n * @since Flash MX 2004\n * @param {Number} a\n * @param {Number} b\n * @param {Number} c\n * @param {Number} d\n */\n this.transformSelection = function (a, b, c, d) {\n };\n /**\n * @since Flash CS4\n * @param {Object} xyzCoordinate\n */\n this.translate3DCenter = function (xyzCoordinate) {\n };\n /**\n * @since Flash CS4\n * @param {Object} xyzCoordinate\n * @param {Boolean} bGlobalTransform\n */\n this.translate3DSelection = function (xyzCoordinate, bGlobalTransform) {\n };\n /**\n * @since Flash MX 2004\n */\n this.unGroup = function () {\n };\n /**\n * @since Flash 8\n * @return Boolean\n */\n this.union = function () {\n };\n /**\n * @since Flash MX 2004\n */\n this.unlockAllElements = function () {\n };\n /**\n * @since Flash MX 2004\n * @param {String} fileURI\n * @return Object\n */\n this.xmlPanel = function (fileURI) {\n };\n}", "function Parser() {\n}", "function Parser() {\n}", "parseDefinition() {\n if (this.peek(TokenKind.BRACE_L)) {\n return this.parseOperationDefinition();\n } // Many definitions begin with a description and require a lookahead.\n\n const hasDescription = this.peekDescription();\n const keywordToken = hasDescription\n ? this._lexer.lookahead()\n : this._lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return this.parseSchemaDefinition();\n\n case 'scalar':\n return this.parseScalarTypeDefinition();\n\n case 'type':\n return this.parseObjectTypeDefinition();\n\n case 'interface':\n return this.parseInterfaceTypeDefinition();\n\n case 'union':\n return this.parseUnionTypeDefinition();\n\n case 'enum':\n return this.parseEnumTypeDefinition();\n\n case 'input':\n return this.parseInputObjectTypeDefinition();\n\n case 'directive':\n return this.parseDirectiveDefinition();\n }\n\n if (hasDescription) {\n throw syntaxError(\n this._lexer.source,\n this._lexer.token.start,\n 'Unexpected description, descriptions are supported only on type definitions.',\n );\n }\n\n switch (keywordToken.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return this.parseOperationDefinition();\n\n case 'fragment':\n return this.parseFragmentDefinition();\n\n case 'extend':\n return this.parseTypeSystemExtension();\n }\n }\n\n throw this.unexpected(keywordToken);\n }", "function parseDefinition(parser) {\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(parser);\n\t }\n\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t switch (parser.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return parseOperationDefinition(parser);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(parser);\n\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'scalar':\n\t case 'enum':\n\t case 'input':\n\t return parseTypeDefinition(parser);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(parser);\n\t }\n\t }\n\n\t throw unexpected(parser);\n\t}", "function Parser(doc, file) {\n this.file = file;\n this.offset = {};\n this.options = xtend(this.options);\n this.setOptions({});\n\n this.inList = false;\n this.inBlock = false;\n this.inLink = false;\n this.atStart = true;\n\n this.toOffset = vfileLocation(file).toOffset;\n this.unescape = unescape(this, 'escape');\n this.decode = decode(this);\n}", "async parseDocument(doc)\n {\n // dumb helper function \n function isString (obj) {\n return (Object.prototype.toString.call(obj) === '[object String]');\n }\n\n if (isString(doc))\n doc = JSON.parse(doc)\n \n if (doc.hasOwnProperty('text_snippet') && \n doc.text_snippet.hasOwnProperty('content'))\n {\n var splitOptions = {\n SeparatorParser: {\n // separatorCharacters: ['\\n','.','?','!']\n }\n }\n \n console.log(\"*****Reparsing data from file****\")\n // first split the sentence\n let sentencesSplit = split(doc.text_snippet.content, splitOptions)\n let actualSplit = []\n\n // next we need to get the child nodes if any and flatten. basically we are cleaning up a funky artifact of sentence-splitter library\n // when you use split options, things come out in sentencesSplit[i].children\n for(var i =0;i<sentencesSplit.length;i++) {\n if (sentencesSplit[i].children) {\n actualSplit.push(...sentencesSplit[i].children)\n } else {\n actualSplit.push(sentencesSplit[i])\n }\n }\n console.log(actualSplit)\n \n // Now we have these wierd punctuation nodes seperate from our sentance.\n // if punctuation is not the first token in the document, \n // then append the punctuation to the previous token, and update the offsets.\n // this has the effect of creating a overlapping token so we will need to ignore \n // the punctionation token later on in RenderSentence::render()\n for(var i =0 ; i<actualSplit.length ; i++) {\n var sentence = actualSplit[i];\n\n if (sentence.type == \"Punctuation\" && i>0) {\n actualSplit[i-1].range[1]=sentence.range[1]\n actualSplit[i-1].value+= sentence.value\n actualSplit[i-1].raw+= sentence.raw\n }\n }\n \n return {\n documentData: doc,\n sentenceData: actualSplit \n }\n }\n else\n throw new Error(\"Schema Validation Error: \"+ JSON.stringify(doc).substr(0,500)+\" ... \");\n }", "function parseDefinition(parser) {\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(parser);\n }\n\n if (peek(parser, _lexer.TokenKind.NAME)) {\n switch (parser.token.value) {\n case 'query':\n case 'mutation':\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return parseOperationDefinition(parser);\n\n case 'fragment':\n return parseFragmentDefinition(parser);\n\n case 'type':\n case 'interface':\n case 'union':\n case 'scalar':\n case 'enum':\n case 'input':\n return parseTypeDefinition(parser);\n case 'extend':\n return parseTypeExtensionDefinition(parser);\n }\n }\n\n throw unexpected(parser);\n}", "function setRules0(){\n rules.axiom = \"F\";\n rules.mainRule = \"F[--F++][F]\";\n params.iterations =1;\n params.theta = 12;\n params.scale = 16;\n}", "async parseDocument(uri, document) {\n let cssService = css_service_1.CSSService.create(document, this.includeImportedFiles);\n this.serviceMap.set(uri, cssService);\n // If having `@import ...`\n let importPaths = await cssService.getResolvedImportPaths();\n if (importPaths.length > 0) {\n for (let importPath of importPaths) {\n // Will also parse imported file because are updating.\n this.trackMoreFile(importPath);\n }\n }\n }", "function processor(input) {\n var parser = new XmlStream(input);\n var prefixes = '@prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> . @prefix geo: <http://www.w3.org/2003/01/geo/wgs84_pos#> . @prefix edm: <http://www.europeana.eu/schemas/edm/> . @prefix foaf: <http://xmlns.com/foaf/0.1/> . @prefix owl: <http://www.w3.org/2002/07/owl#> . @prefix xsd: <http://www.w3.org/2001/XMLSchema#> . @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> . @prefix skos: <http://www.w3.org/2004/02/skos/core#> . @prefix dcterms: <http://purl.org/dc/terms/> . @prefix geoV: <http://geo.risis.eu/vocabulary/rvo-nl/> . @prefix geoR: <http://geo.risis.eu/rvo-nl/> .';\n console.log(prefixes);\n var output = '';\n var counter=0;\n parser.collect('node');\n parser.on('endElement: node', function(item) {\n<<<<<<< HEAD\n counter++;\n console.log('#----------------------- '+counter+' ---------------------------------');\n if(item){\n var Titel = item.Titel.trim();\n var keywords, Allterms;\n if(item.Allterms){\n Allterms = item.Allterms.trim();\n }\n=======\n var Titel = item.Titel.trim().replace(/\\//g, ' ').replace(/\\\\/g, ' ');\n var keywords, Allterms = item.Allterms.trim();\n>>>>>>> 9cd4b711b27d8612465c87d3b2903d91e4eed9e5\n if(Allterms) {\n keywords = Allterms.split(';');\n }else{\n keywords = [];\n }\n var Berichttekst = item.Berichttekst.trim().replace(/\\//g, ' ').replace(/\\\\/g, ' ');\n var Nid = item.Nid.trim();\n var Pad = item.Pad.trim();\n var Updatedate = item.Updatedate.trim();\n var Budget = item.Budget.trim();\n var Status = item.Status.trim();\n var Projectnummer = item.Projectnummer.trim();\n var Aanvrager = item['Aanvrager-ontvanger'].trim();\n var partners, Projectpartner;\n if(item['Projectpartner-s-']) {\n Projectpartner = item['Projectpartner-s-'].trim();\n partners = Projectpartner.split(',');\n }else{\n partners = [];\n }\n partners = [];\n var Jaar = item.Jaar.trim().replace(' ', '');\n var point, Geolocatie;\n if(item.Geolocatie){\n Geolocatie = item.Geolocatie.trim();\n point = Geolocatie.replace(' (', '(');\n }\n //var Downloads = item.Downloads.trim();\n //make triples\n output = 'geoR:' + Nid + ' a geoV:Project ; dcterms:title \"\"\"'+Titel+'\"\"\" ; ';\n _.forEach(keywords, function(keyword, i) {\n output = output + ' dcterms:subject \"\"\"' + keyword.trim().replace(/\\//g, ' ').replace(/\\\\/g, ' ') + '\"\"\" ;';\n });\n _.forEach(partners, function(partner, i) {\n output = output + ' geoV:partner \"\"\"' + partner.trim().replace(/\\//g, ' ').replace(/\\\\/g, ' ') + '\"\"\" ;';\n });\n output = output + ' dcterms:description \"\"\"' + Berichttekst + '\"\"\" ;';\n output = output + ' geoV:path \"\"\"' + Pad + '\"\"\" ;';\n output = output + ' geoV:updateDate \"\"\"' + Updatedate + '\"\"\" ;';\n output = output + ' edm:year \"' + Jaar + '\" ;';\n output = output + ' geoV:budget \"\"\"' + Budget + '\"\"\" ;';\n output = output + ' geoV:status \"\"\"' + Status + '\"\"\" ;';\n output = output + ' geoV:projectNumber \"\"\"' + Projectnummer + '\"\"\" ;';\n output = output + ' geoV:applicant \"\"\"' + Aanvrager + '\"\"\" ;';\n if(point){\n output = output + 'geo:geometry \"'+point+'\"^^<http://www.openlinksw.com/schemas/virtrdf#Geometry> ;';\n }\n output = output + ' geoV:Nid \"' + Nid + '\" .';\n console.log(output);\n<<<<<<< HEAD\n }else{\n console.log('#nullllllll------------------');\n }\n=======\n //console.log('-------------------------------');\n>>>>>>> 9cd4b711b27d8612465c87d3b2903d91e4eed9e5\n })\n}", "function DocScannerConfig() { }", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "documentParser(content) {\n let $, body;\n try {\n $ = cheerio.load(content, { xmlMode: true })\n body = $('mj-body')\n } catch (e) {\n throw new ParseError('Error while parsing the file')\n }\n\n if (!body) {\n throw new EmptyMJMLError('No mj-body found in the file')\n }\n\n return internals.mjmlElementParser(body.get(0))\n }", "function program(peg_parser, tree_obj){\n\t\t// process the start rule definition\n\t\trule_def(peg_parser, tree_obj.start_rule_def);\n\t\t\n\t\t// process the other rule definition\n\t\tfor (i = 0; i < tree_obj.rule_def.length; i++){\n\t\t\trule_def(peg_parser, tree_obj.rule_def[i]);\n\t\t}\n\t\t// get the name of the start rule \n\t\t// and return an application function for this rule\n\t\treturn peg_parser.rule(tree_obj.start_rule_def.rule_name.value);\n\t}", "function parse(doc){\n\t\t\n\t\tvar sl = doc.split('\\n');\n\t\tvar objName = sl[0].split(':')[0];\n\t\t\n\t\tvar objMap = {}\n\t\t\n\t\tsl.slice(1).forEach(function(line){\n\t\t\tline = line.trim();\n\t\t\tindex = line.indexOf(\"#\");\n\t\t\tif(index!=-1){\n\t\t\t\tline = line.slice(0,index);\n\t\t\t}\n\t\t\tvar index = line.indexOf(\":\");\n\t\t\tif(index==-1){\n\t\t\t\treturn;//continue;\n\t\t\t}\n\t\t\tvar key = line.slice(0,index);\n\t\t\tvar value = line.slice(index+1);\n\t\t\tindex = value.indexOf(\" \");\n\t\t\tvar num = Number(value.slice(0,index));\n\t\t\tvar content = value.slice(index+1);\n\t\t\tcontent = content.slice(1,content.length-1); // remove quote\n\t\t\t\n\t\t\tobjMap[key] = [num,content];\n\t\t\t\n\t\t});\n\t\t\n\t\tvar res = {};\n\t\tres[objName] = objMap;\n\t\treturn res\n\t}", "function parse(doc) {\n\t\tvar tagParse = new RegExp(\"</?([A-Za-z]*)( ([a-zA-Z0-9_-]*=(\\\".*\\\")|('.*') ?)*)?>\", \"\");\n\t\t\n\t\tvar rawDoc = doc.replace(HTMLCommentStrip, \"\");\n\t\tvar startIDX = 0;\n\t\tvar curStr = doc;\n\t\tvar nodeStack = [];\n\t\tvar genDoc = new docHTML();\n\t\tvar len = rawDoc.length;\n\t\tvar topNode = null;\n\t\t\n\t\t// Search for tags...\n\t\twhile (startIDX != -1 && startIDX < len) {\n\t\t\tvar searchStr = rawDoc.substr(startIDX);\n\t\t\tvar nextTag = searchStr.search(tagParse);\n\t\t\t\n\t\t\t//debugLog(\"SS:\" + searchStr);\n\t\t\t\n\t\t\tif (nextTag != -1) {\n\t\t\t\t// Found tag, start wih content + name\n\t\t\t\tvar content = searchStr.substr(0, nextTag); // existing node content\n\t\t\t\tsearchStr = searchStr.substr(nextTag);\n\t\t\t\tvar tagName = searchStr.match(\"</?([A-Za-z]*)\")[1].toUpperCase();\n\t\t\t\tvar isClosing = searchStr.indexOf('/') == 1;\n\t\t\t\t\n\t\t\t\t//debugLog(\"Found tag \" + tagName);\n\t\t\t\t//debugLog(\"CONTENT:\" + content);\n\t\t\t\t//debugLog(\"CLOSING:\" + isClosing);\n\t\t\t\t\n\t\t\t\t// Advance next search pos\n\t\t\t\tstartIDX += nextTag + searchStr.indexOf('>') + 1;\n\t\t\t\t\n\t\t\t\t// Insert content node\n\t\t\t\tif (topNode != 0 && content.length > 0) {\n\t\t\t\t\taddContentNode(genDoc, content, topNode);\n\t\t\t\t}\n\t\t\t\t\n\t\t\t\t// Open or close nodes\n\t\t\t\tif (!isClosing) {\n\t\t\t\t\t// Add node\n\t\t\t\t\tvar tagFunc = makeTagFuncs[tagName];\n\t\t\t\t\tif (tagFunc)\n\t\t\t\t\t\ttopNode = tagFunc(genDoc, tagName, topNode);\n\t\t\t\t\telse\n\t\t\t\t\t\ttopNode = addDummyNode(genDoc, tagName, topNode)\n\t\t\t\t\ttopNode.tagName = tagName;\n\t\t\t\t\t\n\t\t\t\t\t// Parse attributes\n\t\t\t\t\tvar rg = new RegExp(\"([A-Za-z0-9_-]*)=((?:\\\"[^\\\"]*)|(?:'[^']*))\", \"g\");\n\t\t\t\t\tvar scans = searchStr.substr(1, searchStr.indexOf('>')-1);\n\t\t\t\t\tvar attrs = null;\n\t\t\t\t\t\n\t\t\t\t\twhile ((attrs = rg.exec(scans)) != null) {\n\t\t\t\t\t\ttopNode.attributes[attrs[1]] = attrs[2].substr(1);\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tnodeStack.push(topNode);\n\t\t\t\t} else {\n\t\t\t\t\t// Close matching node\n\t\t\t\t\tvar closedNodeIDX = findOpenNode(nodeStack, tagName);\n\t\t\t\t\t//debugLog(\"CLOSED IDX==\" + closedNodeIDX);\n\t\t\t\t\t//debugLog(nodeStack);\n\t\t\t\t\tif (closedNodeIDX >= 0) {\n\t\t\t\t\t\tnodeStack = nodeStack.slice(0, closedNodeIDX);\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tif (nodeStack.length > 0)\n\t\t\t\t\t\ttopNode = nodeStack[nodeStack.length-1];\n\t\t\t\t\telse\n\t\t\t\t\t\ttopNode = null;\n\t\t\t\t\t\n\t\t\t\t\tcontinue;\n\t\t\t\t}\n\t\t\t} else // no more tags\n\t\t\t\tbreak;\n\t\t}\n\n\t\tdebugLog(\"Generated Doc:\");\n\t\tdebugLog(genDoc);\n\t\t\n\t\t// Find useful data\n\t\tgenDoc.body = findBody(genDoc.nodes);\n\t\tgenDoc.head = genDoc.nodes[0].getFirstElementByTagName('HEAD');\n\t\tif (genDoc.head) {\n\t\t\tvar title = genDoc.nodes[0].getFirstElementByTagName('TITLE');\n\t\t\tif (title) {\n\t\t\t\ttitle = title.getFirstElementByTagName('*');\n\t\t\t\tif (title)\n\t\t\t\t\tgenDoc.title = title.nodeValue;\n\t\t\t}\n\t\t}\n\t\t\n\t\treturn genDoc;\n\t}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\n\t // Note: the Type System IDL is an experimental non-spec addition.\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "add(rule) { \n this.rules[rule.type] = rule \n rule.parser = this\n }", "function parser3(hljs) {\n var CURLY_SUBCOMMENT = hljs.COMMENT(\n '{',\n '}',\n {\n contains: ['self']\n }\n );\n return {\n name: 'Parser3',\n subLanguage: 'xml', relevance: 0,\n contains: [\n hljs.COMMENT('^#', '$'),\n hljs.COMMENT(\n '\\\\^rem{',\n '}',\n {\n relevance: 10,\n contains: [\n CURLY_SUBCOMMENT\n ]\n }\n ),\n {\n className: 'meta',\n begin: '^@(?:BASE|USE|CLASS|OPTIONS)$',\n relevance: 10\n },\n {\n className: 'title',\n begin: '@[\\\\w\\\\-]+\\\\[[\\\\w^;\\\\-]*\\\\](?:\\\\[[\\\\w^;\\\\-]*\\\\])?(?:.*)$'\n },\n {\n className: 'variable',\n begin: '\\\\$\\\\{?[\\\\w\\\\-\\\\.\\\\:]+\\\\}?'\n },\n {\n className: 'keyword',\n begin: '\\\\^[\\\\w\\\\-\\\\.\\\\:]+'\n },\n {\n className: 'number',\n begin: '\\\\^#[0-9a-fA-F]+'\n },\n hljs.C_NUMBER_MODE\n ]\n };\n}", "function parser3(hljs) {\n var CURLY_SUBCOMMENT = hljs.COMMENT(\n '{',\n '}',\n {\n contains: ['self']\n }\n );\n return {\n name: 'Parser3',\n subLanguage: 'xml', relevance: 0,\n contains: [\n hljs.COMMENT('^#', '$'),\n hljs.COMMENT(\n '\\\\^rem{',\n '}',\n {\n relevance: 10,\n contains: [\n CURLY_SUBCOMMENT\n ]\n }\n ),\n {\n className: 'meta',\n begin: '^@(?:BASE|USE|CLASS|OPTIONS)$',\n relevance: 10\n },\n {\n className: 'title',\n begin: '@[\\\\w\\\\-]+\\\\[[\\\\w^;\\\\-]*\\\\](?:\\\\[[\\\\w^;\\\\-]*\\\\])?(?:.*)$'\n },\n {\n className: 'variable',\n begin: '\\\\$\\\\{?[\\\\w\\\\-\\\\.\\\\:]+\\\\}?'\n },\n {\n className: 'keyword',\n begin: '\\\\^[\\\\w\\\\-\\\\.\\\\:]+'\n },\n {\n className: 'number',\n begin: '\\\\^#[0-9a-fA-F]+'\n },\n hljs.C_NUMBER_MODE\n ]\n };\n}", "function announcements_matchEvents() {\n \n var doc = DocumentApp.openById(config.files.announcements.oneWeek);\n var opa = doc.getBody().getParagraphs(); //opa contains event text\n \n var draftdoc = DocumentApp.openById(config.files.announcements.twoWeeks);\n //will return Paragraph array\n var pa = draftdoc.getBody().getParagraphs(); //contains event and style content\n var npa = [];\n var npi = 0;\n var md = '';\n //var mdr=/^\\[[^\\]\\|]+\\|[^\\]]+\\][^01-9]+([01-9]+\\.[01-9]+)[^01-9]/gi ;\n //var mdr2=/^\\[[^\\]\\|]+\\|[^\\]]+\\][^01-9]+([01-9]+\\.[01-9]+)[^01-9].*[a-z]+/gi ;\n \n //Build regex object\n var mdr = /^\\[([^\\]\\|]+\\|[^\\]]+)\\]/gi;\n var mdr2 = /^\\[[^\\]\\|]+\\|[^\\]]+\\].*[a-z]+/gi;\n var mdrblank = /[a-z]+/gi;\n \n //DRAFT DOC: iterate through the paragraph array\n draftdoc.getBody().appendParagraph(\" \");\n for (var pi = 0; pi < pa.length; pi++) {\n var pt = pa[pi];\n var ptt = pt.getText(); //get paragraph text as String\n npa[npi] = {};\n npa[npi].paragraph = pt;\n npa[npi].sort = false;\n \n //perform the regex match\n // Logger.log(pt.getText()+\"\\n\")\n Logger.log('----------------');\n if ((ptt.match(mdr)) && !(ptt.match(mdr2))) {\n \n npa[npi].text = ptt; //store event text\n npa[npi].replace = true;\n md = mdr.exec(ptt); //store matched text in md\n npa[npi].event = md[0]; //and in event \n // Logger.log('EVENT:::'+npa[npi].event)\n //work on EVENTS document\n for (var opi = 0; opi < opa.length; opi++) {\n //if event matches\n if (opa[opi].getText().indexOf(npa[npi].event) >= 0) {\n Logger.log('Matched text para' + opa[opi].getText() + \"\\n\")\n //overwrite the event paragraph fetched from DRAFT doc with the one from EVENTS doc\n //npa[npi].paragraph=opa[opi].copy();\n npa[npi].paragraph = pt.copy();\n \n //text from reference document\n var txt = opa[opi].getText();\n // Logger.log(\"txt::\"+txt);\n \n //in the reference paragraph , get only text succeeding the first semi colon (;)\n // txt = txt.substring(txt.indexOf(';') + 1, txt.length);\n txt = txt.replace(npa[npi].event, '');\n Logger.log(\"txt!\" + txt)\n //get current \n //--------------------------------\n var body = draftdoc.getBody();\n var txtToReplace = ptt.substring(0, ptt.indexOf(';') + 1);\n //var ptText = txtToReplace + txt;\n var ptText = ptt + txt;\n Logger.log(\"ptText:::\" + ptText);\n \n var limit = ptt.length - 1;\n Logger.log('limit' + limit)\n var att = pt.getAttributes();\n Logger.log('att' + att)\n var par = body.insertParagraph(pi, ptText);\n // var par = body.insertParagraph(pi, ptt);//new\n Logger.log(par.getText().length - 1);\n \n var style = {};\n style[DocumentApp.Attribute.HORIZONTAL_ALIGNMENT] = pt.getAlignment();\n style[DocumentApp.Attribute.FONT_FAMILY] = 'Lato';\n style[DocumentApp.Attribute.FONT_SIZE] = 9;\n style[DocumentApp.Attribute.BOLD] = false;\n style[DocumentApp.Attribute.LINE_SPACING] = 1.5;\n \n style[DocumentApp.Attribute.SPACING_AFTER] = 10;\n style[DocumentApp.Attribute.SPACING_BEFORE] = 10;\n style[DocumentApp.Attribute.FOREGROUND_COLOR] = '#58585A';\n Logger.log(' pt.getText().getForegroundColor();' + pt.getForegroundColor())\n par.setAttributes(style);\n par.editAsText().setBold(0, limit, true); //new\n // par.appendText(txt);//new\n \n //par.setTextAlignment(pt.getTextAlignment())\n pt.removeFromParent();\n //-------------------------------\n \n \n }\n }\n }\n npi++;\n }\n}", "function determine_rule_DocGenerator(pGrammarNode) {\n\t//----Debugging------------------------------------------\n\t// The following alert-Command is useful for debugging \n\t//alert(\"docgenerator.js:determine_rule(pGrammarNode) -Call\")\n\t//----Create Object/Instance of DocGenerator----\n\t// var vMyInstance = new DocGenerator();\n\t// vMyInstance.determine_rule(pGrammarNode) ;\n\t//-------------------------------------------------------\n\tif (pGrammarNode.nonterm.indexOf(\"COUNT_\")==0) {\n\t\t//alert(\"ArticleGenerator.js:366 - m_determine_replacement()\"+pGrammarNode.nonterm);\n\t\treturn pGrammarNode[1][2]+pGrammarNode[1][3]; \n\t} else {\n\t\treturn this.random_rule(pGrammarNode);\n\t}\n\n}", "function parse(definition) {\n // tokenize\n let pos = 0;\n function consumeSpaces() {\n let c;\n while (c = definition[pos], [' ', '\\r', '\\n', '\\t'].includes(c)) {\n pos++;\n }\n }\n function consumeCharacter(c) {\n if (definition[pos] !== c) {\n throw new Error(`Unexpected character at position ${pos}. Expected: '${c}', found '${definition[pos]}'`);\n }\n pos++;\n }\n function readProperty() {\n consumeSpaces();\n const prop = { name: '', optional: false, wildcard: false };\n let c;\n while (c = definition[pos], c === '_' || c === '$' || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (prop.name.length > 0 && c >= '0' && c <= '9') || (prop.name.length === 0 && c === '*')) {\n prop.name += c;\n pos++;\n }\n if (prop.name.length === 0) {\n throw new Error(`Property name expected at position ${pos}, found: ${definition.slice(pos, pos + 10)}..`);\n }\n if (definition[pos] === '?') {\n prop.optional = true;\n pos++;\n }\n if (prop.name === '*' || prop.name[0] === '$') {\n prop.optional = true;\n prop.wildcard = true;\n }\n consumeSpaces();\n consumeCharacter(':');\n return prop;\n }\n function readType() {\n consumeSpaces();\n let type = { typeOf: 'any' }, c;\n // try reading simple type first: (string,number,boolean,Date etc)\n let name = '';\n while (c = definition[pos], (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')) {\n name += c;\n pos++;\n }\n if (name.length === 0) {\n if (definition[pos] === '*') {\n // any value\n consumeCharacter('*');\n type.typeOf = 'any';\n }\n else if (['\\'', '\"', '`'].includes(definition[pos])) {\n // Read string value\n type.typeOf = 'string';\n type.value = '';\n const quote = definition[pos];\n consumeCharacter(quote);\n while (c = definition[pos], c && c !== quote) {\n type.value += c;\n pos++;\n }\n consumeCharacter(quote);\n }\n else if (definition[pos] >= '0' && definition[pos] <= '9') {\n // read numeric value\n type.typeOf = 'number';\n let nr = '';\n while (c = definition[pos], c === '.' || c === 'n' || (c >= '0' && c <= '9')) {\n nr += c;\n pos++;\n }\n if (nr.endsWith('n')) {\n type.value = BigInt(nr);\n }\n else if (nr.includes('.')) {\n type.value = parseFloat(nr);\n }\n else {\n type.value = parseInt(nr);\n }\n }\n else if (definition[pos] === '{') {\n // Read object (interface) definition\n consumeCharacter('{');\n type.typeOf = 'object';\n type.instanceOf = Object;\n // Read children:\n type.children = [];\n while (true) {\n const prop = readProperty();\n const types = readTypes();\n type.children.push({ name: prop.name, optional: prop.optional, wildcard: prop.wildcard, types });\n consumeSpaces();\n if (definition[pos] === ';' || definition[pos] === ',') {\n consumeCharacter(definition[pos]);\n consumeSpaces();\n }\n if (definition[pos] === '}') {\n break;\n }\n }\n consumeCharacter('}');\n }\n else if (definition[pos] === '/') {\n // Read regular expression definition\n consumeCharacter('/');\n let pattern = '', flags = '';\n while (c = definition[pos], c !== '/' || pattern.endsWith('\\\\')) {\n pattern += c;\n pos++;\n }\n consumeCharacter('/');\n while (c = definition[pos], ['g', 'i', 'm', 's', 'u', 'y', 'd'].includes(c)) {\n flags += c;\n pos++;\n }\n type.typeOf = 'string';\n type.matches = new RegExp(pattern, flags);\n }\n else {\n throw new Error(`Expected a type definition at position ${pos}, found character '${definition[pos]}'`);\n }\n }\n else if (['string', 'number', 'boolean', 'bigint', 'undefined', 'String', 'Number', 'Boolean', 'BigInt'].includes(name)) {\n type.typeOf = name.toLowerCase();\n }\n else if (name === 'Object' || name === 'object') {\n type.typeOf = 'object';\n type.instanceOf = Object;\n }\n else if (name === 'Date') {\n type.typeOf = 'object';\n type.instanceOf = Date;\n }\n else if (name === 'Binary' || name === 'binary') {\n type.typeOf = 'object';\n type.instanceOf = ArrayBuffer;\n }\n else if (name === 'any') {\n type.typeOf = 'any';\n }\n else if (name === 'null') {\n // This is ignored, null values are not stored in the db (null indicates deletion)\n type.typeOf = 'object';\n type.value = null;\n }\n else if (name === 'Array') {\n // Read generic Array defintion\n consumeCharacter('<');\n type.typeOf = 'object';\n type.instanceOf = Array; //name;\n type.genericTypes = readTypes();\n consumeCharacter('>');\n }\n else if (['true', 'false'].includes(name)) {\n type.typeOf = 'boolean';\n type.value = name === 'true';\n }\n else {\n throw new Error(`Unknown type at position ${pos}: \"${type}\"`);\n }\n // Check if it's an Array of given type (eg: string[] or string[][])\n // Also converts to generics, string[] becomes Array<string>, string[][] becomes Array<Array<string>>\n consumeSpaces();\n while (definition[pos] === '[') {\n consumeCharacter('[');\n consumeCharacter(']');\n type = { typeOf: 'object', instanceOf: Array, genericTypes: [type] };\n }\n return type;\n }\n function readTypes() {\n consumeSpaces();\n const types = [readType()];\n while (definition[pos] === '|') {\n consumeCharacter('|');\n types.push(readType());\n consumeSpaces();\n }\n return types;\n }\n return readType();\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function TextParser() {}", "function TextParser() {}", "*next(token) {\n switch (token.type) {\n case 'directive':\n this.directives.add(token.source, (offset, message, warning) => {\n const pos = getErrorPos(token);\n pos[0] += offset;\n this.onError(pos, 'BAD_DIRECTIVE', message, warning);\n });\n this.prelude.push(token.source);\n this.atDirectives = true;\n break;\n case 'document': {\n const doc = composeDoc(this.options, this.directives, token, this.onError);\n if (this.atDirectives && !doc.directives.docStart)\n this.onError(token, 'MISSING_CHAR', 'Missing directives-end/doc-start indicator line');\n this.decorate(doc, false);\n if (this.doc)\n yield this.doc;\n this.doc = doc;\n this.atDirectives = false;\n break;\n }\n case 'byte-order-mark':\n case 'space':\n break;\n case 'comment':\n case 'newline':\n this.prelude.push(token.source);\n break;\n case 'error': {\n const msg = token.source\n ? `${token.message}: ${JSON.stringify(token.source)}`\n : token.message;\n const error = new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', msg);\n if (this.atDirectives || !this.doc)\n this.errors.push(error);\n else\n this.doc.errors.push(error);\n break;\n }\n case 'doc-end': {\n if (!this.doc) {\n const msg = 'Unexpected doc-end without preceding document';\n this.errors.push(new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', msg));\n break;\n }\n this.doc.directives.docEnd = true;\n const end = resolveEnd(token.end, token.offset + token.source.length, this.doc.options.strict, this.onError);\n this.decorate(this.doc, true);\n if (end.comment) {\n const dc = this.doc.comment;\n this.doc.comment = dc ? `${dc}\\n${end.comment}` : end.comment;\n }\n this.doc.range[2] = end.offset;\n break;\n }\n default:\n this.errors.push(new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', `Unsupported token ${token.type}`));\n }\n }", "function TextParser() { }", "function parser3(hljs) {\n const CURLY_SUBCOMMENT = hljs.COMMENT(\n /\\{/,\n /\\}/,\n {\n contains: [ 'self' ]\n }\n );\n return {\n name: 'Parser3',\n subLanguage: 'xml',\n relevance: 0,\n contains: [\n hljs.COMMENT('^#', '$'),\n hljs.COMMENT(\n /\\^rem\\{/,\n /\\}/,\n {\n relevance: 10,\n contains: [ CURLY_SUBCOMMENT ]\n }\n ),\n {\n className: 'meta',\n begin: '^@(?:BASE|USE|CLASS|OPTIONS)$',\n relevance: 10\n },\n {\n className: 'title',\n begin: '@[\\\\w\\\\-]+\\\\[[\\\\w^;\\\\-]*\\\\](?:\\\\[[\\\\w^;\\\\-]*\\\\])?(?:.*)$'\n },\n {\n className: 'variable',\n begin: /\\$\\{?[\\w\\-.:]+\\}?/\n },\n {\n className: 'keyword',\n begin: /\\^[\\w\\-.:]+/\n },\n {\n className: 'number',\n begin: '\\\\^#[0-9a-fA-F]+'\n },\n hljs.C_NUMBER_MODE\n ]\n };\n}", "function parser3(hljs) {\n const CURLY_SUBCOMMENT = hljs.COMMENT(\n /\\{/,\n /\\}/,\n {\n contains: [ 'self' ]\n }\n );\n return {\n name: 'Parser3',\n subLanguage: 'xml',\n relevance: 0,\n contains: [\n hljs.COMMENT('^#', '$'),\n hljs.COMMENT(\n /\\^rem\\{/,\n /\\}/,\n {\n relevance: 10,\n contains: [ CURLY_SUBCOMMENT ]\n }\n ),\n {\n className: 'meta',\n begin: '^@(?:BASE|USE|CLASS|OPTIONS)$',\n relevance: 10\n },\n {\n className: 'title',\n begin: '@[\\\\w\\\\-]+\\\\[[\\\\w^;\\\\-]*\\\\](?:\\\\[[\\\\w^;\\\\-]*\\\\])?(?:.*)$'\n },\n {\n className: 'variable',\n begin: /\\$\\{?[\\w\\-.:]+\\}?/\n },\n {\n className: 'keyword',\n begin: /\\^[\\w\\-.:]+/\n },\n {\n className: 'number',\n begin: '\\\\^#[0-9a-fA-F]+'\n },\n hljs.C_NUMBER_MODE\n ]\n };\n}", "constructor(){ super(JXONParser.rules(), JXONObj.TAG) }" ]
[ "0.62960064", "0.5888885", "0.5772888", "0.57425183", "0.5736046", "0.56977725", "0.56977725", "0.568532", "0.5638602", "0.5627307", "0.56254566", "0.5625318", "0.5585372", "0.55778307", "0.55778307", "0.55778307", "0.55778307", "0.5551567", "0.5528839", "0.55035377", "0.5498606", "0.5491273", "0.54845065", "0.5483071", "0.5483071", "0.5470169", "0.5456983", "0.5427147", "0.5427147", "0.5425667", "0.53822625", "0.5369189", "0.5369189", "0.53620946", "0.53471154", "0.53216416", "0.5293892", "0.52707464", "0.52447087", "0.5220951", "0.52137023", "0.52133733", "0.51976836", "0.5190875", "0.5173876", "0.51553047", "0.51423246", "0.5135894", "0.5133519", "0.5122867", "0.5122709", "0.51179016", "0.510896", "0.5108726", "0.50840193", "0.5076478", "0.5073595", "0.50716907", "0.50702494", "0.50682145", "0.50682145", "0.5063003", "0.50471383", "0.5043509", "0.5042899", "0.50221395", "0.50114655", "0.49945524", "0.49874136", "0.49737576", "0.4965073", "0.4965073", "0.4965073", "0.4965073", "0.49514216", "0.49507022", "0.4938417", "0.49318963", "0.49316615", "0.49309856", "0.49280035", "0.49280035", "0.4927543", "0.4921983", "0.49218115", "0.49209356", "0.49209356", "0.49209356", "0.49145195", "0.49145195", "0.4906455", "0.48815134", "0.4873698", "0.4873698", "0.4861059" ]
0.5545718
22
Definition : OperationDefinition FragmentDefinition TypeSystemDefinition
function parseDefinition(lexer) { if (peek(lexer, _lexer.TokenKind.BRACE_L)) { return parseOperationDefinition(lexer); } if (peek(lexer, _lexer.TokenKind.NAME)) { switch (lexer.token.value) { // Note: subscription is an experimental non-spec addition. case 'query': case 'mutation': case 'subscription': return parseOperationDefinition(lexer); case 'fragment': return parseFragmentDefinition(lexer); // Note: the Type System IDL is an experimental non-spec addition. case 'schema': case 'scalar': case 'type': case 'interface': case 'union': case 'enum': case 'input': case 'extend': case 'directive': return parseTypeSystemDefinition(lexer); } } throw unexpected(lexer); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "parseOperationDefinition() {\n const start = this._lexer.token;\n\n if (this.peek(TokenKind.BRACE_L)) {\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation: OperationTypeNode.QUERY,\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n const operation = this.parseOperationType();\n let name;\n\n if (this.peek(TokenKind.NAME)) {\n name = this.parseName();\n }\n\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation,\n name,\n variableDefinitions: this.parseVariableDefinitions(),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var operation = parseOperationType(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseNamedType(lexer);\n\t return {\n\t kind: _kinds.OPERATION_TYPE_DEFINITION,\n\t operation: operation,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseDefinition(lexer) {\n if (peek(lexer, TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "rootTypeForOperation(operationDefinition) {\n switch (operationDefinition.operation) {\n case 'query':\n return this.schema.getQueryType();\n case 'mutation':\n const mutationType = this.schema.getMutationType();\n if (!mutationType) {\n throw new GraphQLError(\n 'Schema is not configured for mutations',\n [operation]\n );\n }\n return mutationType;\n case 'subscription':\n const subscriptionType = this.schema.getSubscriptionType();\n if (!subscriptionType) {\n throw new GraphQLError(\n 'Schema is not configured for subscriptions',\n [operation]\n );\n }\n return subscriptionType;\n default:\n throw new GraphQLError(\n 'Can only compile queries, mutations and subscriptions',\n [operation]\n );\n }\n }", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\n\t // Note: the Type System IDL is an experimental non-spec addition.\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function parseOperationTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var operation = parseOperationType(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseNamedType(lexer$$1);\n return {\n kind: kinds.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer$$1, start)\n };\n}", "function parseTypeSystemDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'schema':\n\t return parseSchemaDefinition(lexer);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(lexer);\n\t case 'type':\n\t return parseObjectTypeDefinition(lexer);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(lexer);\n\t case 'union':\n\t return parseUnionTypeDefinition(lexer);\n\t case 'enum':\n\t return parseEnumTypeDefinition(lexer);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(lexer);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(lexer);\n\t case 'directive':\n\t return parseDirectiveDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "parseDefinition() {\n if (this.peek(TokenKind.BRACE_L)) {\n return this.parseOperationDefinition();\n } // Many definitions begin with a description and require a lookahead.\n\n const hasDescription = this.peekDescription();\n const keywordToken = hasDescription\n ? this._lexer.lookahead()\n : this._lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return this.parseSchemaDefinition();\n\n case 'scalar':\n return this.parseScalarTypeDefinition();\n\n case 'type':\n return this.parseObjectTypeDefinition();\n\n case 'interface':\n return this.parseInterfaceTypeDefinition();\n\n case 'union':\n return this.parseUnionTypeDefinition();\n\n case 'enum':\n return this.parseEnumTypeDefinition();\n\n case 'input':\n return this.parseInputObjectTypeDefinition();\n\n case 'directive':\n return this.parseDirectiveDefinition();\n }\n\n if (hasDescription) {\n throw syntaxError(\n this._lexer.source,\n this._lexer.token.start,\n 'Unexpected description, descriptions are supported only on type definitions.',\n );\n }\n\n switch (keywordToken.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return this.parseOperationDefinition();\n\n case 'fragment':\n return this.parseFragmentDefinition();\n\n case 'extend':\n return this.parseTypeSystemExtension();\n }\n }\n\n throw this.unexpected(keywordToken);\n }", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer$$1) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer$$1) ? lexer$$1.lookahead() : lexer$$1.token;\n\n if (keywordToken.kind === lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer$$1);\n case 'scalar':\n return parseScalarTypeDefinition(lexer$$1);\n case 'type':\n return parseObjectTypeDefinition(lexer$$1);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer$$1);\n case 'union':\n return parseUnionTypeDefinition(lexer$$1);\n case 'enum':\n return parseEnumTypeDefinition(lexer$$1);\n case 'input':\n return parseInputObjectTypeDefinition(lexer$$1);\n case 'extend':\n return parseTypeExtension(lexer$$1);\n case 'directive':\n return parseDirectiveDefinition(lexer$$1);\n }\n }\n\n throw unexpected(lexer$$1, keywordToken);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n\t // Many definitions begin with a description and require a lookahead.\n\t var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n\t if (keywordToken.kind === _lexer.TokenKind.NAME) {\n\t switch (keywordToken.value) {\n\t case 'schema':\n\t return parseSchemaDefinition(lexer);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(lexer);\n\t case 'type':\n\t return parseObjectTypeDefinition(lexer);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(lexer);\n\t case 'union':\n\t return parseUnionTypeDefinition(lexer);\n\t case 'enum':\n\t return parseEnumTypeDefinition(lexer);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(lexer);\n\t case 'extend':\n\t return parseTypeExtension(lexer);\n\t case 'directive':\n\t return parseDirectiveDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer, keywordToken);\n\t}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t case 'fragment':\n\t return parseExecutableDefinition(lexer);\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseExecutableDefinition(lexer);\n\t } else if (peekDescription(lexer)) {\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer$$1) {\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n switch (lexer$$1.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer$$1);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n } else if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer$$1);\n } else if (peekDescription(lexer$$1)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n\n throw unexpected(lexer$$1);\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, TokenKind.BRACE_L)) {\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseDefinition(parser) {\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(parser);\n }\n\n if (peek(parser, _lexer.TokenKind.NAME)) {\n switch (parser.token.value) {\n case 'query':\n case 'mutation':\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return parseOperationDefinition(parser);\n\n case 'fragment':\n return parseFragmentDefinition(parser);\n\n case 'type':\n case 'interface':\n case 'union':\n case 'scalar':\n case 'enum':\n case 'input':\n return parseTypeDefinition(parser);\n case 'extend':\n return parseTypeExtensionDefinition(parser);\n }\n }\n\n throw unexpected(parser);\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function DirectiveType(){}", "function parseDefinition(parser) {\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(parser);\n\t }\n\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t switch (parser.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return parseOperationDefinition(parser);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(parser);\n\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'scalar':\n\t case 'enum':\n\t case 'input':\n\t return parseTypeDefinition(parser);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(parser);\n\t }\n\t }\n\n\t throw unexpected(parser);\n\t}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: undefined,\n\t variableDefinitions: [],\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "parseOperationType() {\n const operationToken = this.expectToken(TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return OperationTypeNode.QUERY;\n\n case 'mutation':\n return OperationTypeNode.MUTATION;\n\n case 'subscription':\n return OperationTypeNode.SUBSCRIPTION;\n }\n\n throw this.unexpected(operationToken);\n }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function isDefinition(node) {\n return node.type === 'definition';\n}", "function parseOperationDefinition(lexer$$1) {\n var start = lexer$$1.token;\n if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n var operation = parseOperationType(lexer$$1);\n var name = void 0;\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n name = parseName(lexer$$1);\n }\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function isDefinitionNode(node) {\n return isExecutableDefinitionNode(node) || isTypeSystemDefinitionNode(node) || isTypeSystemExtensionNode(node);\n}", "function definitionToStoredType(definition, compilationId, compiler, referenceDeclarations) {\n switch (definition.nodeType) {\n case \"StructDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let definingContractName;\n let typeName;\n if (definition.canonicalName.includes(\".\")) {\n [definingContractName, typeName] = definition.canonicalName.split(\".\");\n }\n else {\n typeName = definition.canonicalName;\n //leave definingContractName undefined\n }\n let memberTypes = definition.members.map(member => ({\n name: member.name,\n type: definitionToType(member, compilationId, compiler, null)\n }));\n let definingContract;\n if (referenceDeclarations) {\n let contractDefinition = Object.values(referenceDeclarations).find(node => node.nodeType === \"ContractDefinition\" &&\n node.nodes.some((subNode) => import_1.makeTypeId(subNode.id, compilationId) === id));\n if (contractDefinition) {\n definingContract = (definitionToStoredType(contractDefinition, compilationId, compiler)); //can skip reference declarations\n }\n }\n if (definingContract) {\n return {\n typeClass: \"struct\",\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n definingContract,\n memberTypes\n };\n }\n else {\n return {\n typeClass: \"struct\",\n kind: \"global\",\n id,\n typeName,\n memberTypes\n };\n }\n }\n case \"EnumDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let definingContractName;\n let typeName;\n debug(\"typeName: %s\", typeName);\n if (definition.canonicalName.includes(\".\")) {\n [definingContractName, typeName] = definition.canonicalName.split(\".\");\n }\n else {\n typeName = definition.canonicalName;\n //leave definingContractName undefined\n }\n let options = definition.members.map(member => member.name);\n let definingContract;\n if (referenceDeclarations) {\n let contractDefinition = Object.values(referenceDeclarations).find(node => node.nodeType === \"ContractDefinition\" &&\n node.nodes.some((subNode) => import_1.makeTypeId(subNode.id, compilationId) === id));\n if (contractDefinition) {\n definingContract = (definitionToStoredType(contractDefinition, compilationId, compiler)); //can skip reference declarations\n debug(\"contractDefinition: %o\", contractDefinition);\n debug(\"definingContract: %o\", definingContract);\n }\n }\n if (definingContract) {\n return {\n typeClass: \"enum\",\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n definingContract,\n options\n };\n }\n else {\n return {\n typeClass: \"enum\",\n kind: \"global\",\n id,\n typeName,\n options\n };\n }\n }\n case \"ContractDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let typeName = definition.name;\n let contractKind = definition.contractKind;\n let payable = Utils.isContractPayable(definition);\n return {\n typeClass: \"contract\",\n kind: \"native\",\n id,\n typeName,\n contractKind,\n payable\n };\n }\n }\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "createType (typedefinition, id) {\n var structname = typedefinition[0].struct\n id = id || this.getNextOpId(1)\n var op = Y.Struct[structname].create(id)\n op.type = typedefinition[0].name\n\n this.requestTransaction(function * () {\n if (op.id[0] === '_') {\n yield* this.setOperation(op)\n } else {\n yield* this.applyCreatedOperations([op])\n }\n })\n var t = Y[op.type].typeDefinition.createType(this, op, typedefinition[1])\n this.initializedTypes[JSON.stringify(op.id)] = t\n return t\n }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function DirectiveType() {}", "function setOperations(operations, portType) {\n _.forEach(portType.childNodes, node => {\n if (node.localName === 'operation') {\n operations[node.getAttribute('name')] = node;\n }\n });\n}", "function DirectiveType() { }", "function Definitions(parent){ \n SchemaCollection.call(this,parent); \n this.nodeType = 'Definitions';\n}", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "registerDefinition(name: string, dataType: RosDatatype): BinaryDefinition {\n const definition = this._createDefinition(name, dataType);\n if (!this._getDefinitions().finalize()) {\n throw new Error(`Invalid definition \"${name}\"`);\n }\n return definition;\n }", "function parseOperationDefinition(parser) {\n var start = parser.token.start;\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n }\n var operationToken = expect(parser, _lexer.TokenKind.NAME);\n var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n throw unexpected(parser, operationToken);\n })();\n var name = undefined;\n if (peek(parser, _lexer.TokenKind.NAME)) {\n name = parseName(parser);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(parser),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "define(type, nameOrDef) {\n return new FASTElementDefinition(type, nameOrDef).define().type;\n }", "function parseOperationDefinition(parser) {\n\t var start = parser.token.start;\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var operationToken = expect(parser, _lexer.TokenKind.NAME);\n\t var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n\t throw unexpected(parser, operationToken);\n\t })();\n\t var name = undefined;\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t name = parseName(parser);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function createType(m) {\n var typeDef = 'type ' + m.modelName + ' { \\n';\n //console.log(m);\n Object.keys(m.definition.properties).forEach((k, index) => {\n var p = m.definition.properties[k];\n var s = null;\n if (k === 'id' && p.id && p.generated) {\n s = k + ': ID' + '\\n';\n }\n else {\n s = k + ': ' + convertFromLoopbackType(p) + '\\n';\n }\n typeDef += s;\n });\n typeDef += ' }\\n\\n';\n return typeDef;\n}", "function definitionToType(definition, compilationId, compiler, forceLocation) {\n let typeClass = Utils.typeClass(definition);\n let typeHint = Utils.typeStringWithoutLocation(definition);\n switch (typeClass) {\n case \"bool\":\n return {\n typeClass,\n typeHint\n };\n case \"address\": {\n switch (Compiler.Utils.solidityFamily(compiler)) {\n case \"unknown\": //I guess?\n case \"pre-0.5.0\":\n return {\n typeClass,\n kind: \"general\",\n typeHint\n };\n case \"0.5.x\":\n case \"0.8.x\":\n return {\n typeClass,\n kind: \"specific\",\n payable: Utils.typeIdentifier(definition) === \"t_address_payable\"\n };\n }\n break; //to satisfy typescript\n }\n case \"uint\": {\n let bytes = Utils.specifiedSize(definition);\n return {\n typeClass,\n bits: bytes * 8,\n typeHint\n };\n }\n case \"int\": {\n //typeScript won't let me group these for some reason\n let bytes = Utils.specifiedSize(definition);\n return {\n typeClass,\n bits: bytes * 8,\n typeHint\n };\n }\n case \"fixed\": {\n //typeScript won't let me group these for some reason\n let bytes = Utils.specifiedSize(definition);\n let places = Utils.decimalPlaces(definition);\n return {\n typeClass,\n bits: bytes * 8,\n places,\n typeHint\n };\n }\n case \"ufixed\": {\n let bytes = Utils.specifiedSize(definition);\n let places = Utils.decimalPlaces(definition);\n return {\n typeClass,\n bits: bytes * 8,\n places,\n typeHint\n };\n }\n case \"string\": {\n if (forceLocation === null) {\n return {\n typeClass,\n typeHint\n };\n }\n let location = forceLocation || Utils.referenceType(definition);\n return {\n typeClass,\n location,\n typeHint\n };\n }\n case \"bytes\": {\n let length = Utils.specifiedSize(definition);\n if (length !== null) {\n return {\n typeClass,\n kind: \"static\",\n length,\n typeHint\n };\n }\n else {\n if (forceLocation === null) {\n return {\n typeClass,\n kind: \"dynamic\",\n typeHint\n };\n }\n let location = forceLocation || Utils.referenceType(definition);\n return {\n typeClass,\n kind: \"dynamic\",\n location,\n typeHint\n };\n }\n }\n case \"array\": {\n let baseDefinition = Utils.baseDefinition(definition);\n let baseType = definitionToType(baseDefinition, compilationId, compiler, forceLocation);\n let location = forceLocation || Utils.referenceType(definition);\n if (Utils.isDynamicArray(definition)) {\n if (forceLocation !== null) {\n return {\n typeClass,\n baseType,\n kind: \"dynamic\",\n location,\n typeHint\n };\n }\n else {\n return {\n typeClass,\n baseType,\n kind: \"dynamic\",\n typeHint\n };\n }\n }\n else {\n let length = new bn_js_1.default(Utils.staticLengthAsString(definition));\n if (forceLocation !== null) {\n return {\n typeClass,\n baseType,\n kind: \"static\",\n length,\n location,\n typeHint\n };\n }\n else {\n return {\n typeClass,\n baseType,\n kind: \"static\",\n length,\n typeHint\n };\n }\n }\n }\n case \"mapping\": {\n let keyDefinition = Utils.keyDefinition(definition);\n //note that we can skip the scopes argument here! that's only needed when\n //a general node, rather than a declaration, is being passed in\n let keyType = (definitionToType(keyDefinition, compilationId, compiler, null));\n //suppress the location on the key type (it'll be given as memory but\n //this is meaningless)\n //also, we have to tell TypeScript ourselves that this will be an elementary\n //type; it has no way of knowing that\n debug(\"definition: %O\", definition);\n let valueDefinition = Utils.valueDefinition(definition);\n let valueType = definitionToType(valueDefinition, compilationId, compiler, forceLocation);\n if (forceLocation === null) {\n return {\n typeClass,\n keyType,\n valueType\n };\n }\n return {\n typeClass,\n keyType,\n valueType,\n location: \"storage\"\n };\n }\n case \"function\": {\n //WARNING! This case will not work unless given the actual\n //definition! It should return something *roughly* usable, though.\n let visibility = Utils.visibility(definition); //undefined if bad node\n let mutability = Utils.mutability(definition); //undefined if bad node\n let [inputParameters, outputParameters] = Utils.parameters(definition) || [[], []]; //HACK\n //note: don't force a location on these! use the listed location!\n let inputParameterTypes = inputParameters.map(parameter => definitionToType(parameter, compilationId, compiler));\n let outputParameterTypes = outputParameters.map(parameter => definitionToType(parameter, compilationId, compiler));\n switch (visibility) {\n case \"internal\":\n return {\n typeClass,\n visibility,\n mutability,\n inputParameterTypes,\n outputParameterTypes\n };\n case \"external\":\n return {\n typeClass,\n visibility,\n kind: \"specific\",\n mutability,\n inputParameterTypes,\n outputParameterTypes\n };\n }\n break; //to satisfy typescript\n }\n case \"struct\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let qualifiedName = Utils.typeStringWithoutLocation(definition).match(/struct (.*)/)[1];\n let definingContractName;\n let typeName;\n if (qualifiedName.includes(\".\")) {\n [definingContractName, typeName] = qualifiedName.split(\".\");\n }\n else {\n typeName = qualifiedName;\n //leave definingContractName undefined\n }\n if (forceLocation === null) {\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName\n };\n }\n }\n let location = forceLocation || Utils.referenceType(definition);\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n location\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName,\n location\n };\n }\n }\n case \"enum\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let qualifiedName = Utils.typeStringWithoutLocation(definition).match(/enum (.*)/)[1];\n let definingContractName;\n let typeName;\n if (qualifiedName.includes(\".\")) {\n [definingContractName, typeName] = qualifiedName.split(\".\");\n }\n else {\n typeName = qualifiedName;\n //leave definingContractName undefined\n }\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName\n };\n }\n }\n case \"contract\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let typeName = Utils.typeStringWithoutLocation(definition).match(/(contract|library|interface) (.*)/)[2]; //note: we use the type string rather than the type identifier\n //in order to avoid having to deal with the underscore problem\n let contractKind = Utils.contractKind(definition);\n return {\n typeClass,\n kind: \"native\",\n id,\n typeName,\n contractKind\n };\n }\n case \"magic\": {\n let typeIdentifier = Utils.typeIdentifier(definition);\n let variable = (typeIdentifier.match(/^t_magic_(.*)$/)[1]);\n return {\n typeClass,\n variable\n };\n }\n }\n}", "define(type, nameOrDef) {\n return new FASTElementDefinition(type, nameOrDef).define().type;\n }", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function transformDefinition(definition, execContext, path = '', type = null) {\n if (!definition.selectionSet) {\n return definition;\n }\n\n const {typeGetter} = execContext;\n\n if (definition.kind === 'Field') {\n const fieldName = definition.name.value;\n path = `${path}.${fieldName}`;\n\n if (typeGetter) {\n type = typeGetter(path);\n }\n }\n\n // InlineFragments\n else if(!type && typeGetter) {\n type = typeGetter(path);\n }\n\n return {\n ...definition,\n selectionSet: {\n ...definition.selectionSet,\n selections: getTransformedSelections(definition, path, type, execContext),\n },\n };\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n\n if (definition.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "_createDefinition(name: string, dataType: RosDatatype): BinaryDefinition {\n const definition = this._getDefinitions().create(name);\n for (const field of dataType.fields) {\n if (field.isConstant) {\n // ignore constant fields since they have no values in the message's data.\n continue;\n }\n if (!definition.addField(field.type, field.name, field.isArray, field.arrayLength ?? -1)) {\n throw new Error(`Could not add field with type \"${field.type}\"`);\n }\n }\n return definition;\n }", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function StructType() {}" ]
[ "0.68411225", "0.635306", "0.63322926", "0.6169092", "0.6144218", "0.6144218", "0.6144218", "0.6144218", "0.6144218", "0.6109615", "0.6041015", "0.6037591", "0.60056716", "0.60050434", "0.59893894", "0.59657955", "0.5926603", "0.5926603", "0.5919677", "0.5919677", "0.5919677", "0.5919677", "0.5919677", "0.5919677", "0.5912969", "0.5817092", "0.5813944", "0.5813944", "0.5813944", "0.5813944", "0.5808449", "0.57958776", "0.5782132", "0.57418793", "0.57374805", "0.5701408", "0.5701408", "0.5701408", "0.5701408", "0.57013893", "0.56668127", "0.56668127", "0.5664869", "0.561437", "0.55800146", "0.55800146", "0.5569166", "0.55287063", "0.55237526", "0.5510963", "0.5505322", "0.5505322", "0.5505322", "0.5505322", "0.54712147", "0.5461415", "0.5460396", "0.54426336", "0.5442127", "0.5437027", "0.54267764", "0.54267764", "0.54267764", "0.54267764", "0.54267764", "0.54267764", "0.5425032", "0.54204386", "0.5416861", "0.54131883", "0.53909874", "0.5370916", "0.5367386", "0.53666025", "0.53666025", "0.5324809", "0.5272254", "0.5237961", "0.5234949", "0.5221116", "0.51925087", "0.51505727", "0.51372606", "0.51205236", "0.51040775", "0.5086471", "0.5086378", "0.5086282", "0.5086282", "0.50791913", "0.50527394", "0.50250566", "0.49969074", "0.49969074", "0.49876362" ]
0.6023362
17
Implements the parsing rules in the Operations section. OperationDefinition : SelectionSet OperationType Name? VariableDefinitions? Directives? SelectionSet
function parseOperationDefinition(lexer) { var start = lexer.token; if (peek(lexer, _lexer.TokenKind.BRACE_L)) { return { kind: _kinds.OPERATION_DEFINITION, operation: 'query', name: null, variableDefinitions: null, directives: [], selectionSet: parseSelectionSet(lexer), loc: loc(lexer, start) }; } var operation = parseOperationType(lexer); var name = void 0; if (peek(lexer, _lexer.TokenKind.NAME)) { name = parseName(lexer); } return { kind: _kinds.OPERATION_DEFINITION, operation: operation, name: name, variableDefinitions: parseVariableDefinitions(lexer), directives: parseDirectives(lexer), selectionSet: parseSelectionSet(lexer), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseOperationDefinition() {\n const start = this._lexer.token;\n\n if (this.peek(TokenKind.BRACE_L)) {\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation: OperationTypeNode.QUERY,\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n const operation = this.parseOperationType();\n let name;\n\n if (this.peek(TokenKind.NAME)) {\n name = this.parseName();\n }\n\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation,\n name,\n variableDefinitions: this.parseVariableDefinitions(),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, TokenKind.BRACE_L)) {\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: undefined,\n\t variableDefinitions: [],\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer$$1) {\n var start = lexer$$1.token;\n if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n var operation = parseOperationType(lexer$$1);\n var name = void 0;\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n name = parseName(lexer$$1);\n }\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseOperationDefinition(parser) {\n\t var start = parser.token.start;\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var operationToken = expect(parser, _lexer.TokenKind.NAME);\n\t var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n\t throw unexpected(parser, operationToken);\n\t })();\n\t var name = undefined;\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t name = parseName(parser);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseOperationDefinition(parser) {\n var start = parser.token.start;\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n }\n var operationToken = expect(parser, _lexer.TokenKind.NAME);\n var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n throw unexpected(parser, operationToken);\n })();\n var name = undefined;\n if (peek(parser, _lexer.TokenKind.NAME)) {\n name = parseName(parser);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(parser),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var operation = parseOperationType(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseNamedType(lexer);\n\t return {\n\t kind: _kinds.OPERATION_TYPE_DEFINITION,\n\t operation: operation,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function RecognizeOperation(node){\n switch(node.operation){\n case literal.operation.ADDITION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.ADDITION, node.row, node.column);\n case literal.operation.SUBTRACTION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.SUBTRACTION, node.row, node.column);\n case literal.operation.MULTIPLICATION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MULTIPLICATION, node.row, node.column);\n case literal.operation.DIVISION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.DIVISION, node.row, node.column);\n case literal.operation.MODULUS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MODULUS, node.row, node.column);\n case literal.operation.UNARY_MINUS:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.UNARY_MINUS, node.row, node.column);\n case literal.operation.POW:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.POW, node.row, node.column);\n case literal.operation.OTHER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OTHER_THAN, node.row, node.column);\n case literal.operation.JUST_AS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.JUST_AS, node.row, node.column);\n case literal.operation.GREATER_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.LESS_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.GREATER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN, node.row, node.column);\n case literal.operation.LESS_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN, node.row, node.column);\n case literal.operation.OR:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OR, node.row, node.column);\n case literal.operation.AND:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.AND, node.row, node.column);\n case literal.operation.NOT:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.NOT, node.row, node.column);\n case literal.operation.TERNARY_OPERATOR:\n return new Ternary(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), RecognizeOperation(node.childs[2]), node.row, node.column);\n case literal.operation.PROPERTY_ACCESS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.PROPERTY_ACCESS, node.row, node.column);\n case literal.operation.PUSH:\n return new Push(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), node.row, node.column);\n case literal.operation.POP:\n return new Pop(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.LENGTH:\n return new Length(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.INCREMENT:\n return new Increment(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.DECREMENT:\n return new Decrement(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.ARRAY_ACCESS:\n return new ArrayAccess(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.FUNCTION_CALL:\n const parametersList = [];\n if(node.childs.length > 0){\n node.childs.forEach((node) => {\n parametersList.push(RecognizeOperation(node));\n });\n }\n return new FunctionCall(node.value, parametersList, node.row, node.column);\n case literal.operation.ARRAY:\n const expresionsList = [];\n node.childs.forEach((node) => {\n expresionsList.push(RecognizeOperation(node));\n });\n return new Array(expresionsList, node.row, node.column);\n case literal.operation.DEFINITION:\n const propertysList = [];\n node.childs.forEach((node) => {\n propertysList.push(RecognizeOperation(node));\n });\n return new Definition(propertysList, node.row, node.column);\n case literal.operation.PROPERTY_DECLARATION:\n return new PropertyDeclaration(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.dataTypes.STRING:\n return Operation.NewOperationValue(literal.dataTypes.STRING, node.value, node.row, node.column);\n case literal.dataTypes.NUMBER:\n return Operation.NewOperationValue(literal.dataTypes.NUMBER, node.value, node.row, node.column);\n case literal.dataTypes.BOOLEAN:\n return Operation.NewOperationValue(literal.dataTypes.BOOLEAN, node.value, node.row, node.column);\n case literal.dataTypes.VARIABLE:\n return Operation.NewOperationValue(literal.dataTypes.VARIABLE, node.value, node.row, node.column);\n default:\n return Operation.NewOperationValue(literal.dataTypes.NULL, null, node.row, node.column);\n }\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function setOperations(operations, portType) {\n _.forEach(portType.childNodes, node => {\n if (node.localName === 'operation') {\n operations[node.getAttribute('name')] = node;\n }\n });\n}", "function parseOperationTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var operation = parseOperationType(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseNamedType(lexer$$1);\n return {\n kind: kinds.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer$$1, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "parseDefinition() {\n if (this.peek(TokenKind.BRACE_L)) {\n return this.parseOperationDefinition();\n } // Many definitions begin with a description and require a lookahead.\n\n const hasDescription = this.peekDescription();\n const keywordToken = hasDescription\n ? this._lexer.lookahead()\n : this._lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return this.parseSchemaDefinition();\n\n case 'scalar':\n return this.parseScalarTypeDefinition();\n\n case 'type':\n return this.parseObjectTypeDefinition();\n\n case 'interface':\n return this.parseInterfaceTypeDefinition();\n\n case 'union':\n return this.parseUnionTypeDefinition();\n\n case 'enum':\n return this.parseEnumTypeDefinition();\n\n case 'input':\n return this.parseInputObjectTypeDefinition();\n\n case 'directive':\n return this.parseDirectiveDefinition();\n }\n\n if (hasDescription) {\n throw syntaxError(\n this._lexer.source,\n this._lexer.token.start,\n 'Unexpected description, descriptions are supported only on type definitions.',\n );\n }\n\n switch (keywordToken.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return this.parseOperationDefinition();\n\n case 'fragment':\n return this.parseFragmentDefinition();\n\n case 'extend':\n return this.parseTypeSystemExtension();\n }\n }\n\n throw this.unexpected(keywordToken);\n }", "function parseDefinition(parser) {\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(parser);\n\t }\n\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t switch (parser.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return parseOperationDefinition(parser);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(parser);\n\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'scalar':\n\t case 'enum':\n\t case 'input':\n\t return parseTypeDefinition(parser);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(parser);\n\t }\n\t }\n\n\t throw unexpected(parser);\n\t}", "parseOperationType() {\n const operationToken = this.expectToken(TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return OperationTypeNode.QUERY;\n\n case 'mutation':\n return OperationTypeNode.MUTATION;\n\n case 'subscription':\n return OperationTypeNode.SUBSCRIPTION;\n }\n\n throw this.unexpected(operationToken);\n }", "function parseDefinition(parser) {\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(parser);\n }\n\n if (peek(parser, _lexer.TokenKind.NAME)) {\n switch (parser.token.value) {\n case 'query':\n case 'mutation':\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return parseOperationDefinition(parser);\n\n case 'fragment':\n return parseFragmentDefinition(parser);\n\n case 'type':\n case 'interface':\n case 'union':\n case 'scalar':\n case 'enum':\n case 'input':\n return parseTypeDefinition(parser);\n case 'extend':\n return parseTypeExtensionDefinition(parser);\n }\n }\n\n throw unexpected(parser);\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\n\t // Note: the Type System IDL is an experimental non-spec addition.\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "chooseOperation(operation) {\n\n}", "function RecognizeInstruction(node){\n switch(node.operation){\n case literal.operation.DECLARATION:\n if(node.childs.length > 0){\n return new Declaration(node.value, node.type, node.constant, node.dynamic, node.array, RecognizeOperation(node.childs[0]), node.row, node.column);\n }\n return new Declaration(node.value, node.type, node.constant, node.dynamic, node.array, undefined, node.row, node.column);\n case literal.operation.ASSIGNMENT:\n if(node.childs.length == 1){\n return new Assignment(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n }\n return new Assignment(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), node.row, node.column);\n case literal.operation.TYPE_DECLARATION:\n return new TypeDeclaration(node.value, node.value, node.childs, node.row, node.column);\n case literal.operation.IF:\n const trueList = [];\n const falseList = [];\n switch(node.childs.length){\n case 1:\n return new If(RecognizeOperation(node.childs[0]), trueList, falseList, node.row, node.column);\n case 2:\n if(node.childs[1].operation == literal.operation.SENTENCES){\n node.childs[1].childs.forEach((node) => {\n trueList.push(RecognizeInstruction(node));\n });\n }else{\n node.childs[1].childs[0].childs.forEach((node) => {\n falseList.push(RecognizeInstruction(node));\n });\n }\n return new If(RecognizeOperation(node.childs[0]), trueList, falseList, node.row, node.column);\n case 3:\n if(node.childs[1].operation == literal.operation.SENTENCES){\n node.childs[1].childs.forEach((node) => {\n trueList.push(RecognizeInstruction(node));\n });\n node.childs[2].childs[0].childs.forEach((node) => {\n falseList.push(RecognizeInstruction(node));\n });\n }else{\n falseList.push(RecognizeInstruction(node.childs[2]));\n }\n return new If(RecognizeOperation(node.childs[0]), trueList, falseList, node.row, node.column);\n default:\n node.childs[1].childs.forEach((node) => {\n trueList.push(RecognizeInstruction(node));\n });\n falseList.push(RecognizeInstruction(node.childs[3]));\n return new If(RecognizeOperation(node.childs[0]), trueList, falseList, node.row, node.column);\n }\n case literal.operation.SWITCH:\n const casesList = [];\n if(node.childs.length > 1){\n node.childs[1].childs.forEach((node) => {\n casesList.push(RecognizeInstruction(node));\n });\n }\n return new Switch(RecognizeOperation(node.childs[0]), casesList, node.row, node.column);\n case literal.operation.CASE:\n const instructionsList = [];\n if(node.childs.length > 1){\n node.childs[1].childs.forEach((node) => {\n instructionsList.push(RecognizeInstruction(node));\n });\n }\n return new Case(RecognizeOperation(node.childs[0]), instructionsList, node.row, node.column);\n case literal.operation.DEFAULT:\n const instructionsListDefault = [];\n if(node.childs){\n node.childs[0].childs.forEach((node) => {\n instructionsListDefault.push(RecognizeInstruction(node));\n });\n }\n return new Case(null, instructionsListDefault, node.row, node.column);\n case literal.operation.WHILE:\n let instructions = [];\n if(node.childs.length > 1){\n node.childs[1].childs.forEach((node) => {\n instructions.push(RecognizeInstruction(node));\n });\n }\n return new While(RecognizeOperation(node.childs[0]), instructions, node.row, node.column);\n case literal.operation.DO_WHILE:\n const instructionsDoWhile = [];\n if(node.childs.length > 1){\n node.childs[0].childs.forEach((node) => {\n instructionsDoWhile.push(RecognizeInstruction(node));\n });\n return new DoWhile(instructionsDoWhile, RecognizeOperation(node.childs[1]), node.row, node.column);\n }\n return new DoWhile(instructionsDoWhile, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.FOR:\n const listInstructionsFor = [];\n if(node.childs.length > 3){\n node.childs[3].childs.forEach((node) => {\n listInstructionsFor.push(RecognizeInstruction(node));\n });\n }\n return new For(RecognizeInstruction(node.childs[0]), RecognizeOperation(node.childs[1]), RecognizeInstruction(node.childs[2]), listInstructionsFor, node.row, node.column);\n case literal.operation.INCREMENT:\n return RecognizeOperation(node);\n case literal.operation.DECREMENT:\n return RecognizeOperation(node);\n case literal.operation.FOR_IN:\n const listInstructionsForIn = [];\n if(node.childs.length > 2){\n node.childs[2].childs.forEach((node) => {\n listInstructionsForIn.push(RecognizeInstruction(node));\n });\n }\n if(node.childs[0].operation == literal.operation.DECLARATION){\n return new ForIn(RecognizeInstruction(node.childs[0]), RecognizeOperation(node.childs[1]), listInstructionsForIn, node.row, node.column);\n }\n return new ForIn(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), listInstructionsForIn, node.row, node.column);\n case literal.operation.FOR_OF:\n const listInstructionsForOf = [];\n if(node.childs.length > 2){\n node.childs[2].childs.forEach((node) => {\n listInstructionsForOf.push(RecognizeInstruction(node));\n });\n }\n if(node.childs[0].operation == literal.operation.DECLARATION){\n return new ForOf(RecognizeInstruction(node.childs[0]), RecognizeOperation(node.childs[1]), listInstructionsForOf, node.row, node.column);\n }\n return new ForOf(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), listInstructionsForOf, node.row, node.column);\n case literal.operation.FUNCTION_CALL:\n return RecognizeOperation(node);\n case literal.operation.PRINT:\n const listExpressions = [];\n if(node.childs.length){\n node.childs.forEach((node) => {\n listExpressions.push(RecognizeOperation(node));\n });\n return new Print(listExpressions, node.row, node.column);\n }\n return new Print(null, node.row, node.column);\n case literal.operation.GRAPH_TS:\n return new GraphTs(node.row, node.column);\n case literal.operation.BREAK:\n return new Break(node.row, node.column);\n case literal.operation.CONTINUE:\n return new Continue(node.row, node.column);\n case literal.operation.RETURN:\n if(node.childs.length){\n return new Return(RecognizeOperation(node.childs[0]), node.row, node.column);\n }\n return new Return(null, node.row, node.column);\n case literal.operation.PUSH:\n return RecognizeOperation(node);\n case literal.operation.POP:\n return RecognizeOperation(node);\n case literal.operation.LENGTH:\n return RecognizeOperation(node);\n case literal.operation.FUNCTION:\n let parametersListFunction = [];\n const instructionsListFunction = [];\n if(node.childs.length == 2){\n if(node.childs[1].operation == 'LPARAMETERS'){\n parametersListFunction = ExtractParameterList(node.childs[1], []); \n }else{\n node.childs[1].childs.forEach((node) => {\n instructionsListFunction.push(RecognizeInstruction(node));\n });\n }\n }else if(node.childs.length == 3){\n parametersListFunction = ExtractParameterList(node.childs[1], []);\n node.childs[2].childs.forEach((node) => {\n instructionsListFunction.push(RecognizeInstruction(node));\n });\n }\n return new Function(node.childs[0].value, parametersListFunction, node.type, node.array, instructionsListFunction, node.row, node.column);\n default:\n return null;\n }\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === Kind.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n }", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n if (definition.kind === _kinds.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n if (definition.kind === _kinds.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n\n if (definition.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n\t var operation = null;\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var definition = documentAST.definitions[i];\n\t if (definition.kind === _kinds.OPERATION_DEFINITION) {\n\t if (!operationName) {\n\t // If no operation name was provided, only return an Operation if there\n\t // is one defined in the document. Upon encountering the second, return\n\t // null.\n\t if (operation) {\n\t return null;\n\t }\n\t operation = definition;\n\t } else if (definition.name && definition.name.value === operationName) {\n\t return definition;\n\t }\n\t }\n\t }\n\t return operation;\n\t}", "static get OP() {\n return {\n PLUS: 90,\n MINUS: 91,\n MULT: 92,\n DIV: 93,\n input_to_operation_map: {\n 90: \"PLUS\",\n 91: \"MINUS\",\n 92: \"MULT\",\n 93: \"DIV\",\n }\n };\n }", "chooseOperation(operation) {\n if(this.currOperand === '') return\n if(this.prevOperand !== '') {\n this.processValue()\n }\n this.operation = operation\n this.prevOperand = this.currOperand\n this.currOperand = ''\n }", "function Operation(name, description, level)\n {\n this.Init(name, description, level);\n }", "function countersOperations(typeOfElement, operation){\n switch(operation){\n case \"add\":\n if(typeOfElement == \"line\"){\n lineCounter++;\n }else if(typeOfElement == \"header\"){\n headerCounter++;\n }\n break;\n\n case \"subtract\":\n if(typeOfElement == \"line\"){\n lineCounter--;\n }else if(typeOfElement == \"header\"){\n headerCounter--;\n }\n break;\n }\n updateCounterValues();\n}", "isOperation(value) {\n if (!isPlainObject(value)) {\n return false;\n }\n\n switch (value.type) {\n case 'insert_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'insert_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'merge_node':\n return typeof value.position === 'number' && Path.isPath(value.path) && isPlainObject(value.properties);\n\n case 'move_node':\n return Path.isPath(value.path) && Path.isPath(value.newPath);\n\n case 'remove_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'remove_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'set_node':\n return Path.isPath(value.path) && isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'set_selection':\n return value.properties === null && Range.isRange(value.newProperties) || value.newProperties === null && Range.isRange(value.properties) || isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'split_node':\n return Path.isPath(value.path) && typeof value.position === 'number' && isPlainObject(value.properties);\n\n default:\n return false;\n }\n }", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "chooseOperation(operation){\r\n // if the currentOperand is empty, won't execute any further \r\n if(this.currentOperand === '') return\r\n\r\n // If previous operand already existed then continue operation\r\n // Eg. 1+1=2 +1=3\r\n if(this.currentOperand !== '' && this.previousOperand !== ''){\r\n this.compute()\r\n }\r\n this.operation = operation;\r\n this.previousOperand = this.currentOperand;\r\n this.currentOperand = '';\r\n }", "function parseOperationType(lexer$$1) {\n var operationToken = expect(lexer$$1, lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer$$1, operationToken);\n}", "function operation(operatorName, args) {\n\t return { type: 'operation', operator: operatorName, args: args || [] };\n\t }", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function createOperationTree(initialExpression, operationList) {\n\t for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++) {\n\t initialExpression = operation(item[0], [initialExpression, item[1]]);\n\t }return initialExpression;\n\t }", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "rootTypeForOperation(operationDefinition) {\n switch (operationDefinition.operation) {\n case 'query':\n return this.schema.getQueryType();\n case 'mutation':\n const mutationType = this.schema.getMutationType();\n if (!mutationType) {\n throw new GraphQLError(\n 'Schema is not configured for mutations',\n [operation]\n );\n }\n return mutationType;\n case 'subscription':\n const subscriptionType = this.schema.getSubscriptionType();\n if (!subscriptionType) {\n throw new GraphQLError(\n 'Schema is not configured for subscriptions',\n [operation]\n );\n }\n return subscriptionType;\n default:\n throw new GraphQLError(\n 'Can only compile queries, mutations and subscriptions',\n [operation]\n );\n }\n }", "function SetOperatorSelection( opSelection )\n{\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n} // From a dependency graph, collects a list of transitive dependencies by", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function operation(operatorName, args) {\n return { type: 'operation', operator: operatorName, args: args || [] };\n }", "function operation(operatorName, args) {\n return { type: 'operation', operator: operatorName, args: args || [] };\n }", "function operationHandler(operation){\n try{\n userInp = Number(readUserInput());\n }catch(err){\n console.log(err.message + \". So we have taken default value of 5.\")\n userInp = DEFAULT_VALUE;\n }\n \n const curVal = result;\n if(operation === ADD){\n result += userInp;\n outputResult(result,`${curVal} + ${userInp} = ${result}`);\n }else if(operation === SUB){\n result -= userInp;\n outputResult(result,`${curVal} - ${userInp} = ${result}`); \n }else if(operation === MULT){\n result *= userInp;\n outputResult(result,`${curVal} * ${userInp} = ${result}`);\n }else{\n result /= userInp;\n outputResult(result,`${curVal} / ${userInp} = ${result}`);\n }\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseExecutableDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function extractOperationSet(inputChangeset, instructionList){\n var index;\n var operators = \":><$=+-\";\n\n for(index = 0; index < inputChangeset.length; index++){\n if(operators.includes(inputChangeset[index])){\n instructionList.push(extractOperation(index,inputChangeset));\n }\n }\n }", "function parseDefinition(lexer) {\n if (peek(lexer, TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function createOperationTree(initialExpression, operationList) {\n for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++)\n initialExpression = operation(item[0], [initialExpression, item[1]]);\n return initialExpression;\n }", "function createOperationTree(initialExpression, operationList) {\n for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++)\n initialExpression = operation(item[0], [initialExpression, item[1]]);\n return initialExpression;\n }", "isSelectionOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_selection');\n }", "isSelectionOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_selection');\n }", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t case 'fragment':\n\t return parseExecutableDefinition(lexer);\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseExecutableDefinition(lexer);\n\t } else if (peekDescription(lexer)) {\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function calcOperation (value) {\n if (!isSolved) {\n var co = value;\n switch (co) {\n case '+':\n setOutput('&#10;');\n setOutput(co);\n setOutput('\\t');\n operator = '+';\n tmpOperator = operator;\n isDirty = true;\n break;\n case '-':\n setOutput('&#10;');\n setOutput(co);\n setOutput('\\t');\n operator = '-';\n tmpOperator = operator;\n isDirty = true;\n break;\n case '*':\n setOutput('&#10;');\n setOutput(co);\n setOutput('\\t');\n operator = '*';\n tmpOperator = operator;\n isDirty = true;\n break;\n case '/':\n setOutput('&#10;');\n setOutput(co);\n setOutput('\\t');\n operator = '/';\n tmpOperator = operator;\n isDirty = true;\n break;\n case 'w':\n setOutput('&#10;');\n setOutput('&radic;');\n setOutput('\\t');\n operator = 'w';\n isDirty = true;\n break;\n case 'p2':\n setOutput('&#10;');\n setOutput('^ &sup2;');\n setOutput('\\t');\n operator = 'p2';\n isDirty = true;\n break;\n case 'pn':\n setOutput('&#10;');\n setOutput('^ \\t');\n operator = 'pn';\n isDirty = true;\n break;\n case 'pr':\n setOutput(' %');\n operator = 'pr';\n isDirty = true;\n break;\n default:\n setOutput(\"Bad Operation Input\");\n isDirty = false;\n }\n }\n }", "chooseOperation(operation) {\n if (this.currentOperand === '')return\n // this is a check for updating operators, dont want the operator buttons being used to clear the fields\n if(this.previousOperand !== ''){\n this.compute()\n }\n // this is a check to ensure that the calculator will continue to work through past calculations, not clear them.\n this.operation = operation\n this.previousOperand = this.currentOperand\n this.currentOperand = ''\n }", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}" ]
[ "0.74767596", "0.696236", "0.6958122", "0.6947385", "0.6947385", "0.6947385", "0.6947385", "0.69105035", "0.69035834", "0.68435615", "0.6835411", "0.6835411", "0.6823374", "0.67332166", "0.65722954", "0.65679526", "0.652372", "0.6358887", "0.6266334", "0.6266334", "0.6266334", "0.6266334", "0.6266334", "0.6260728", "0.6237064", "0.6201902", "0.6185591", "0.6162405", "0.61498535", "0.61498535", "0.61162764", "0.58875066", "0.5788024", "0.5781809", "0.574544", "0.57121795", "0.5646725", "0.5646725", "0.56413215", "0.56413215", "0.56293124", "0.5599673", "0.5588598", "0.5588598", "0.5588598", "0.5588598", "0.5588598", "0.5588598", "0.55616045", "0.555703", "0.555703", "0.55537415", "0.5489442", "0.54737407", "0.54570323", "0.5385613", "0.5357554", "0.5256955", "0.5250048", "0.5249258", "0.5232805", "0.52262145", "0.51895386", "0.51884794", "0.51884794", "0.51884794", "0.51884794", "0.51884794", "0.51884794", "0.5186494", "0.5185631", "0.5171875", "0.5164014", "0.51631486", "0.5150982", "0.51508236", "0.51508236", "0.51508236", "0.51508236", "0.5147508", "0.5147508", "0.51451004", "0.5143011", "0.5141405", "0.5136382", "0.5132571", "0.5125701", "0.5125701", "0.51253563", "0.51253563", "0.5116854", "0.50700986", "0.5055298", "0.5042949", "0.5042949" ]
0.6859196
13
OperationType : one of query mutation subscription
function parseOperationType(lexer) { var operationToken = expect(lexer, _lexer.TokenKind.NAME); switch (operationToken.value) { case 'query': return 'query'; case 'mutation': return 'mutation'; // Note: subscription is an experimental non-spec addition. case 'subscription': return 'subscription'; } throw unexpected(lexer, operationToken); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseOperationType() {\n const operationToken = this.expectToken(TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return OperationTypeNode.QUERY;\n\n case 'mutation':\n return OperationTypeNode.MUTATION;\n\n case 'subscription':\n return OperationTypeNode.SUBSCRIPTION;\n }\n\n throw this.unexpected(operationToken);\n }", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "function UniqueOperationTypes(context) {\n var schema = context.getSchema();\n var definedOperationTypes = Object.create(null);\n var existingOperationTypes = schema ? {\n query: schema.getQueryType(),\n mutation: schema.getMutationType(),\n subscription: schema.getSubscriptionType()\n } : {};\n return {\n SchemaDefinition: checkOperationTypes,\n SchemaExtension: checkOperationTypes\n };\n\n function checkOperationTypes(node) {\n if (node.operationTypes) {\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (node.operationTypes || [])[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var operationType = _step.value;\n var operation = operationType.operation;\n var alreadyDefinedOperationType = definedOperationTypes[operation];\n\n if (existingOperationTypes[operation]) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](existedOperationTypeMessage(operation), operationType));\n } else if (alreadyDefinedOperationType) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](duplicateOperationTypeMessage(operation), [alreadyDefinedOperationType, operationType]));\n } else {\n definedOperationTypes[operation] = operationType;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }\n\n return false;\n }\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer$$1) {\n var operationToken = expect(lexer$$1, lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer$$1, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "rootTypeForOperation(operationDefinition) {\n switch (operationDefinition.operation) {\n case 'query':\n return this.schema.getQueryType();\n case 'mutation':\n const mutationType = this.schema.getMutationType();\n if (!mutationType) {\n throw new GraphQLError(\n 'Schema is not configured for mutations',\n [operation]\n );\n }\n return mutationType;\n case 'subscription':\n const subscriptionType = this.schema.getSubscriptionType();\n if (!subscriptionType) {\n throw new GraphQLError(\n 'Schema is not configured for subscriptions',\n [operation]\n );\n }\n return subscriptionType;\n default:\n throw new GraphQLError(\n 'Can only compile queries, mutations and subscriptions',\n [operation]\n );\n }\n }", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function UniqueOperationTypesRule(context) {\n var schema = context.getSchema();\n var definedOperationTypes = Object.create(null);\n var existingOperationTypes = schema ? {\n query: schema.getQueryType(),\n mutation: schema.getMutationType(),\n subscription: schema.getSubscriptionType()\n } : {};\n return {\n SchemaDefinition: checkOperationTypes,\n SchemaExtension: checkOperationTypes\n };\n\n function checkOperationTypes(node) {\n var _node$operationTypes;\n\n // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n var operationTypesNodes = (_node$operationTypes = node.operationTypes) !== null && _node$operationTypes !== void 0 ? _node$operationTypes : [];\n\n for (var _i2 = 0; _i2 < operationTypesNodes.length; _i2++) {\n var operationType = operationTypesNodes[_i2];\n var operation = operationType.operation;\n var alreadyDefinedOperationType = definedOperationTypes[operation];\n\n if (existingOperationTypes[operation]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Type for \".concat(operation, \" already defined in the schema. It cannot be redefined.\"), operationType));\n } else if (alreadyDefinedOperationType) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one \".concat(operation, \" type in schema.\"), [alreadyDefinedOperationType, operationType]));\n } else {\n definedOperationTypes[operation] = operationType;\n }\n }\n\n return false;\n }\n}", "function UniqueOperationTypesRule(context) {\n var schema = context.getSchema();\n var definedOperationTypes = Object.create(null);\n var existingOperationTypes = schema ? {\n query: schema.getQueryType(),\n mutation: schema.getMutationType(),\n subscription: schema.getSubscriptionType()\n } : {};\n return {\n SchemaDefinition: checkOperationTypes,\n SchemaExtension: checkOperationTypes\n };\n\n function checkOperationTypes(node) {\n var _node$operationTypes;\n\n // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n var operationTypesNodes = (_node$operationTypes = node.operationTypes) !== null && _node$operationTypes !== void 0 ? _node$operationTypes : [];\n\n for (var _i2 = 0; _i2 < operationTypesNodes.length; _i2++) {\n var operationType = operationTypesNodes[_i2];\n var operation = operationType.operation;\n var alreadyDefinedOperationType = definedOperationTypes[operation];\n\n if (existingOperationTypes[operation]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Type for \".concat(operation, \" already defined in the schema. It cannot be redefined.\"), operationType));\n } else if (alreadyDefinedOperationType) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one \".concat(operation, \" type in schema.\"), [alreadyDefinedOperationType, operationType]));\n } else {\n definedOperationTypes[operation] = operationType;\n }\n }\n\n return false;\n }\n}", "function UniqueOperationTypesRule(context) {\n var schema = context.getSchema();\n var definedOperationTypes = Object.create(null);\n var existingOperationTypes = schema ? {\n query: schema.getQueryType(),\n mutation: schema.getMutationType(),\n subscription: schema.getSubscriptionType()\n } : {};\n return {\n SchemaDefinition: checkOperationTypes,\n SchemaExtension: checkOperationTypes\n };\n\n function checkOperationTypes(node) {\n var _node$operationTypes;\n\n // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n var operationTypesNodes = (_node$operationTypes = node.operationTypes) !== null && _node$operationTypes !== void 0 ? _node$operationTypes : [];\n\n for (var _i2 = 0; _i2 < operationTypesNodes.length; _i2++) {\n var operationType = operationTypesNodes[_i2];\n var operation = operationType.operation;\n var alreadyDefinedOperationType = definedOperationTypes[operation];\n\n if (existingOperationTypes[operation]) {\n context.reportError(new _GraphQLError.GraphQLError(\"Type for \".concat(operation, \" already defined in the schema. It cannot be redefined.\"), operationType));\n } else if (alreadyDefinedOperationType) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one \".concat(operation, \" type in schema.\"), [alreadyDefinedOperationType, operationType]));\n } else {\n definedOperationTypes[operation] = operationType;\n }\n }\n\n return false;\n }\n}", "function UniqueOperationTypesRule(context) {\n var schema = context.getSchema();\n var definedOperationTypes = Object.create(null);\n var existingOperationTypes = schema ? {\n query: schema.getQueryType(),\n mutation: schema.getMutationType(),\n subscription: schema.getSubscriptionType()\n } : {};\n return {\n SchemaDefinition: checkOperationTypes,\n SchemaExtension: checkOperationTypes\n };\n\n function checkOperationTypes(node) {\n var _node$operationTypes; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var operationTypesNodes = (_node$operationTypes = node.operationTypes) !== null && _node$operationTypes !== void 0 ? _node$operationTypes : [];\n\n for (var _i2 = 0; _i2 < operationTypesNodes.length; _i2++) {\n var operationType = operationTypesNodes[_i2];\n var operation = operationType.operation;\n var alreadyDefinedOperationType = definedOperationTypes[operation];\n\n if (existingOperationTypes[operation]) {\n context.reportError(new _GraphQLError.GraphQLError(\"Type for \".concat(operation, \" already defined in the schema. It cannot be redefined.\"), operationType));\n } else if (alreadyDefinedOperationType) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one \".concat(operation, \" type in schema.\"), [alreadyDefinedOperationType, operationType]));\n } else {\n definedOperationTypes[operation] = operationType;\n }\n }\n\n return false;\n }\n}", "function getOperationRootType(schema, operation) {\n switch (operation.operation) {\n case 'query':\n return schema.getQueryType();\n case 'mutation':\n var mutationType = schema.getMutationType();\n if (!mutationType) {\n throw new _error.GraphQLError('Schema is not configured for mutations', [operation]);\n }\n return mutationType;\n case 'subscription':\n var subscriptionType = schema.getSubscriptionType();\n if (!subscriptionType) {\n throw new _error.GraphQLError('Schema is not configured for subscriptions', [operation]);\n }\n return subscriptionType;\n default:\n throw new _error.GraphQLError('Can only execute queries, mutations and subscriptions', [operation]);\n }\n}", "function getOperationRootType(schema, operation) {\n switch (operation.operation) {\n case 'query':\n return schema.getQueryType();\n case 'mutation':\n var mutationType = schema.getMutationType();\n if (!mutationType) {\n throw new _error.GraphQLError('Schema is not configured for mutations', [operation]);\n }\n return mutationType;\n case 'subscription':\n var subscriptionType = schema.getSubscriptionType();\n if (!subscriptionType) {\n throw new _error.GraphQLError('Schema is not configured for subscriptions', [operation]);\n }\n return subscriptionType;\n default:\n throw new _error.GraphQLError('Can only execute queries, mutations and subscriptions', [operation]);\n }\n}", "chooseOperation(operation) {\n\n}", "function getOperationRootType(schema, operation) {\n switch (operation.operation) {\n case 'query':\n var queryType = schema.getQueryType();\n\n if (!queryType) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema does not define the required query root type.', operation);\n }\n\n return queryType;\n\n case 'mutation':\n var mutationType = schema.getMutationType();\n\n if (!mutationType) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for mutations.', operation);\n }\n\n return mutationType;\n\n case 'subscription':\n var subscriptionType = schema.getSubscriptionType();\n\n if (!subscriptionType) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for subscriptions.', operation);\n }\n\n return subscriptionType;\n\n default:\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Can only have query, mutation and subscription operations.', operation);\n }\n}", "function getOperationRootType(schema, operation) {\n if (operation.operation === 'query') {\n var queryType = schema.getQueryType();\n\n if (!queryType) {\n throw new _GraphQLError.GraphQLError('Schema does not define the required query root type.', operation);\n }\n\n return queryType;\n }\n\n if (operation.operation === 'mutation') {\n var mutationType = schema.getMutationType();\n\n if (!mutationType) {\n throw new _GraphQLError.GraphQLError('Schema is not configured for mutations.', operation);\n }\n\n return mutationType;\n }\n\n if (operation.operation === 'subscription') {\n var subscriptionType = schema.getSubscriptionType();\n\n if (!subscriptionType) {\n throw new _GraphQLError.GraphQLError('Schema is not configured for subscriptions.', operation);\n }\n\n return subscriptionType;\n }\n\n throw new _GraphQLError.GraphQLError('Can only have query, mutation and subscription operations.', operation);\n}", "function getOperationRootType(schema, operation) {\n if (operation.operation === 'query') {\n var queryType = schema.getQueryType();\n\n if (!queryType) {\n throw new _GraphQLError.GraphQLError('Schema does not define the required query root type.', operation);\n }\n\n return queryType;\n }\n\n if (operation.operation === 'mutation') {\n var mutationType = schema.getMutationType();\n\n if (!mutationType) {\n throw new _GraphQLError.GraphQLError('Schema is not configured for mutations.', operation);\n }\n\n return mutationType;\n }\n\n if (operation.operation === 'subscription') {\n var subscriptionType = schema.getSubscriptionType();\n\n if (!subscriptionType) {\n throw new _GraphQLError.GraphQLError('Schema is not configured for subscriptions.', operation);\n }\n\n return subscriptionType;\n }\n\n throw new _GraphQLError.GraphQLError('Can only have query, mutation and subscription operations.', operation);\n}", "function getOperationRootType(schema, operation) {\n if (operation.operation === 'query') {\n var queryType = schema.getQueryType();\n\n if (!queryType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema does not define the required query root type.', operation);\n }\n\n return queryType;\n }\n\n if (operation.operation === 'mutation') {\n var mutationType = schema.getMutationType();\n\n if (!mutationType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for mutations.', operation);\n }\n\n return mutationType;\n }\n\n if (operation.operation === 'subscription') {\n var subscriptionType = schema.getSubscriptionType();\n\n if (!subscriptionType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for subscriptions.', operation);\n }\n\n return subscriptionType;\n }\n\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Can only have query, mutation and subscription operations.', operation);\n}", "function getOperationRootType(schema, operation) {\n if (operation.operation === 'query') {\n var queryType = schema.getQueryType();\n\n if (!queryType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema does not define the required query root type.', operation);\n }\n\n return queryType;\n }\n\n if (operation.operation === 'mutation') {\n var mutationType = schema.getMutationType();\n\n if (!mutationType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for mutations.', operation);\n }\n\n return mutationType;\n }\n\n if (operation.operation === 'subscription') {\n var subscriptionType = schema.getSubscriptionType();\n\n if (!subscriptionType) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Schema is not configured for subscriptions.', operation);\n }\n\n return subscriptionType;\n }\n\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Can only have query, mutation and subscription operations.', operation);\n}", "function duplicateOperationTypeMessage(operation) {\n return \"There can be only one \".concat(operation, \" type in schema.\");\n}", "parseOperationDefinition() {\n const start = this._lexer.token;\n\n if (this.peek(TokenKind.BRACE_L)) {\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation: OperationTypeNode.QUERY,\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n const operation = this.parseOperationType();\n let name;\n\n if (this.peek(TokenKind.NAME)) {\n name = this.parseName();\n }\n\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation,\n name,\n variableDefinitions: this.parseVariableDefinitions(),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "get _isOperation () { return true }", "get queryInputType() { return this._type; }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function calculus(type) {\r\n\toperande = output.value;\r\n\toperation = type;\r\n\toutput.value = 0;\r\n}", "function isOperation(name) {\n return [\"get\", \"add\", \"update\", \"remove\"].includes(name);\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, TokenKind.BRACE_L)) {\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(parser) {\n var start = parser.token.start;\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n }\n var operationToken = expect(parser, _lexer.TokenKind.NAME);\n var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n throw unexpected(parser, operationToken);\n })();\n var name = undefined;\n if (peek(parser, _lexer.TokenKind.NAME)) {\n name = parseName(parser);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(parser),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "query ({ operationName, query, variables }) {\n\t\tquery = print(query)\n\t\t// console.log('Phoenix apollo \\n\\t query:', query)\n\t\treturn new Promise((resolve, reject) => {\n\t\t\tthis._channel.push('doc', { operationName, query, variables })\n\t\t\t\t.receive('ok', resolve)\n\t\t\t\t.receive('ignore', resolve)\n\t\t\t\t.receive('error', reject)\n\t\t\t\t.receive('timeout', reject)\n\t\t})\n\t}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function setOperations(operations, portType) {\n _.forEach(portType.childNodes, node => {\n if (node.localName === 'operation') {\n operations[node.getAttribute('name')] = node;\n }\n });\n}", "onMutation ({ type, payload }) {\n if (!_utils_shared_data__WEBPACK_IMPORTED_MODULE_1__[\"default\"].recordVuex) return\n\n this.addMutation(type, payload)\n }", "isOperation(value) {\n if (!isPlainObject(value)) {\n return false;\n }\n\n switch (value.type) {\n case 'insert_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'insert_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'merge_node':\n return typeof value.position === 'number' && Path.isPath(value.path) && isPlainObject(value.properties);\n\n case 'move_node':\n return Path.isPath(value.path) && Path.isPath(value.newPath);\n\n case 'remove_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'remove_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'set_node':\n return Path.isPath(value.path) && isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'set_selection':\n return value.properties === null && Range.isRange(value.newProperties) || value.newProperties === null && Range.isRange(value.properties) || isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'split_node':\n return Path.isPath(value.path) && typeof value.position === 'number' && isPlainObject(value.properties);\n\n default:\n return false;\n }\n }", "addMutation (type, payload, options = {}) {\n const index = this.mutations.length\n\n if (!_utils_shared_data__WEBPACK_IMPORTED_MODULE_1__[\"default\"].vuexNewBackend) {\n options.snapshot = this.stringifyStore()\n }\n\n this.mutations.push({\n type,\n payload: _utils_shared_data__WEBPACK_IMPORTED_MODULE_1__[\"default\"].vuexNewBackend ? Object(_clone__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(payload) : null,\n index,\n handlers: this.store._mutations[type],\n registeredModules: Object.keys(this.registeredModules),\n ...options\n })\n\n this.bridge.send('vuex:mutation', {\n mutation: {\n type: type,\n payload: Object(_utils_util__WEBPACK_IMPORTED_MODULE_0__[\"stringify\"])(payload),\n index\n },\n timestamp: Date.now(),\n options\n })\n }", "* operationAdded (transaction, op) {\n if (op.struct === 'Delete') {\n var type = this.initializedTypes[JSON.stringify(op.targetParent)]\n if (type != null) {\n yield* type._changed(transaction, op)\n }\n } else {\n // increase SS\n yield* transaction.updateState(op.id[0])\n var opLen = op.content != null ? op.content.length : 1\n for (let i = 0; i < opLen; i++) {\n // notify whenOperation listeners (by id)\n var sid = JSON.stringify([op.id[0], op.id[1] + i])\n var l = this.listenersById[sid]\n delete this.listenersById[sid]\n if (l != null) {\n for (var key in l) {\n var listener = l[key]\n if (--listener.missing === 0) {\n this.whenOperationsExist([], listener.op)\n }\n }\n }\n }\n var t = this.initializedTypes[JSON.stringify(op.parent)]\n\n // if parent is deleted, mark as gc'd and return\n if (op.parent != null) {\n var parentIsDeleted = yield* transaction.isDeleted(op.parent)\n if (parentIsDeleted) {\n yield* transaction.deleteList(op.id)\n return\n }\n }\n\n // notify parent, if it was instanciated as a custom type\n if (t != null) {\n let o = Y.utils.copyOperation(op)\n yield* t._changed(transaction, o)\n }\n if (!op.deleted) {\n // Delete if DS says this is actually deleted\n var len = op.content != null ? op.content.length : 1\n var startId = op.id // You must not use op.id in the following loop, because op will change when deleted\n // TODO: !! console.log('TODO: change this before commiting')\n for (let i = 0; i < len; i++) {\n var id = [startId[0], startId[1] + i]\n var opIsDeleted = yield* transaction.isDeleted(id)\n if (opIsDeleted) {\n var delop = {\n struct: 'Delete',\n target: id\n }\n yield* this.tryExecute.call(transaction, delop)\n }\n }\n }\n }\n }", "function parseOperationDefinition(lexer$$1) {\n var start = lexer$$1.token;\n if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n var operation = parseOperationType(lexer$$1);\n var name = void 0;\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n name = parseName(lexer$$1);\n }\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseOperationDefinition(parser) {\n\t var start = parser.token.start;\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var operationToken = expect(parser, _lexer.TokenKind.NAME);\n\t var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n\t throw unexpected(parser, operationToken);\n\t })();\n\t var name = undefined;\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t name = parseName(parser);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "selectOperation() {\n const { operationToConfirm } = this.state;\n switch (operationToConfirm) {\n case 'Assegna incarico':\n this.assignStudent();\n break;\n case 'Invia richiesta':\n this.sendRequest();\n break;\n default:\n break;\n }\n }", "applyOp(op) {\n const fields = {\n position: 0,\n insertString: '',\n delNum: 0\n };\n\n console.log(op);\n\n // Loops through the different fields and parses out the events\n // and creates a fields object which is then parsed by update().\n for (let i = 0; i < op.length; i++) {\n Binding.update(fields, op[i]);\n }\n\n if (fields.delNum > 0) {\n // Delete\n this.onRemove(fields.position, fields.delNum);\n }\n\n if (fields.insertString.length > 0) {\n // Insert\n this.onInsert(fields.position, fields.insertString);\n }\n\n return this.snapshot;\n }", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: undefined,\n\t variableDefinitions: [],\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function opName(operation) {\n\t return operation.name ? operation.name.value : '';\n\t}", "function executeOperation(exeContext, operation, rootValue) {\n var type = getOperationRootType(exeContext.schema, operation);\n var fields = collectFields(exeContext, type, operation.selectionSet, _Object$create(null), _Object$create(null));\n\n if (operation.operation === 'mutation') {\n return executeFieldsSerially(exeContext, type, rootValue, fields);\n }\n return executeFields(exeContext, type, rootValue, fields);\n}", "isSelectionOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_selection');\n }", "isSelectionOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_selection');\n }", "function countersOperations(typeOfElement, operation){\n switch(operation){\n case \"add\":\n if(typeOfElement == \"line\"){\n lineCounter++;\n }else if(typeOfElement == \"header\"){\n headerCounter++;\n }\n break;\n\n case \"subtract\":\n if(typeOfElement == \"line\"){\n lineCounter--;\n }else if(typeOfElement == \"header\"){\n headerCounter--;\n }\n break;\n }\n updateCounterValues();\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n}", "function getOp(event){\n\tvar op = operation.options[operation.selectedIndex].value;\n\t//define qual operacao sera realizada na curva\n\tif(op == \"add\"){\n\t\taddPoint(event);\n\t}else if(op == \"del\"){\n\t\tdeletePoint(event);\n\t}else if(op == \"edit\"){\n\t\teditPoint(event);\n\t}\n}", "function operationType(opType) {\n var name;\n var color;\n var results = [];\n if(opType == 0) {\n name = \"TRANSFER\";\n color = \"81CA80\";\n }\n else if(opType == 1) {\n name = \"LIMIT ORDER CREATE\";\n color = \"6BBCD7\";\n }\n else if(opType == 2) {\n name = \"LIMIT ORDER CANCEL\";\n color = \"E9C842\";\n }\n else if(opType == 3) {\n name = \"CALL ORDER UPDATE\";\n color = \"E96562\";\n }\n else if(opType == 4) {\n name = \"FILL ORDER (VIRTUAL)\";\n color = \"008000\";\n }\n else if(opType == 5) {\n name = \"ACCOUNT CREATE\";\n color = \"CCCCCC\";\n }\n else if(opType == 6) {\n name = \"ACCOUNT UPDATE\";\n color = \"FF007F\";\n }\n else if(opType == 7) {\n name = \"ACCOUNT WHIELIST\";\n color = \"FB8817\";\n }\n else if(opType == 8) {\n name = \"ACCOUNT UPGRADE\";\n color = \"552AFF\";\n }\n else if(opType == 9) {\n name = \"ACCOUNT TRANSFER\";\n color = \"AA2AFF\";\n }\n else if(opType == 10) {\n name = \"ASSET CREATE\";\n color = \"D400FF\";\n }\n else if(opType == 11) {\n name = \"ASSET UPDATE\";\n color = \"0000FF\";\n }\n else if(opType == 12) {\n name = \"ASSET UPDATE BITASSET\";\n color = \"AA7FFF\";\n }\n else if(opType == 13) {\n name = \"ASSET UPDATE FEED PRODUCERS\";\n color = \"2A7FFF\";\n }\n else if(opType == 14) {\n name = \"ASSET ISSUE\";\n color = \"7FAAFF\";\n }\n else if(opType == 15) {\n name = \"ASSET RESERVE\";\n color = \"55FF7F\";\n }\n else if(opType == 16) {\n name = \"ASSET FUND FEE POOL\";\n color = \"55FF7F\";\n }\n else if(opType == 17) {\n name = \"ASSET SETTLE\";\n color = \"FFFFAA\";\n }\n else if(opType == 18) {\n name = \"ASSET GLOBAL SETTLE\";\n color = \"FFFF7F\";\n }\n else if(opType == 19) {\n name = \"ASSET PUBLISH FEED\";\n color = \"FF2A55\";\n }\n else if(opType == 20) {\n name = \"WITNESS CREATE\";\n color = \"FFAA7F\";\n }\n else if(opType == 21) {\n name = \"WITNESS UPDATE\";\n color = \"F1AA2A\";\n }\n else if(opType == 22) {\n name = \"PROPOSAL CREATE\";\n color = \"FFAA55\";\n }\n else if(opType == 23) {\n name = \"PROPOSAL UPDATE\";\n color = \"FF7F55\";\n }\n else if(opType == 24) {\n name = \"PROPOSAL DELETE\";\n color = \"FF552A\";\n }\n else if(opType == 25) {\n name = \"WITHDRAW PERMISSION CREATE\";\n color = \"FF00AA\";\n }\n else if(opType == 26) {\n name = \"WITHDRAW PERMISSION\";\n color = \"FF00FF\";\n }\n else if(opType == 27) {\n name = \"WITHDRAW PERMISSION CLAIM\";\n color = \"FF0055\";\n }\n else if(opType == 28) {\n name = \"WITHDRAW PERMISSION DELETE\";\n color = \"37B68Cc\";\n }\n else if(opType == 29) {\n name = \"COMITEE MEMBER CREATE\";\n color = \"37B68C\";\n }\n else if(opType == 30) {\n name = \"COMITEE MEMBER UPDATE\";\n color = \"6712E7\";\n }\n else if(opType == 31) {\n name = \"COMITEE MEMBER UPDATE GLOBAL PARAMETERS\";\n color = \"B637B6\";\n }\n else if(opType == 32) {\n name = \"VESTING BALANCE CREATE\";\n color = \"A5A5A5\";\n }\n else if(opType == 33) {\n name = \"VESTING BALANCE WITHDRAW\";\n color = \"696969\";\n }\n else if(opType == 34) {\n name = \"WORKER CREATE\";\n color = \"0F0F0F\";\n }\n else if(opType == 35) {\n name = \"CUSTOM\";\n color = \"0DB762\";\n }\n else if(opType == 36) {\n name = \"ASSERT\";\n color = \"FFFFFF\";\n }\n else if(opType == 37) {\n name = \"BALANCE CLAIM\";\n color = \"939314\";\n }\n else if(opType == 38) {\n name = \"OVERRIDE TRANSFER\";\n color = \"8D0DB7\";\n }\n else if(opType == 39) {\n name = \"TRANSFER TO BLIND\";\n color = \"C4EFC4\";\n }\n else if(opType == 40) {\n name = \"BLIND TRANSFER\";\n color = \"F29DF2\";\n }\n else if(opType == 41) {\n name = \"TRANSFER FROM BLIND\";\n color = \"9D9DF2\";\n }\n else if(opType == 42) {\n name = \"ASSET SETTLE CANCEL\";\n color = \"4ECEF8\";\n }\n else if(opType == 43) {\n name = \"ASSET CLAIM FEES\";\n color = \"F8794E\";\n }\n else if(opType == 44) {\n name = \"FBA DISTRIBUTE\";\n color = \"8808B2\";\n }\n results[0] = name;\n results[1] = color;\n return results;\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "isNodeOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_node');\n }", "isNodeOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_node');\n }", "function watchGraphQlOperations() {\n // Although graphql-codegen has watching capabilities, they don't appear to\n // use chokidar correctly and rely on polling. Instead, let's get gulp to\n // watch for us, since we know it'll do it more efficiently, and then we can\n // trigger the code generation more selectively.\n return gulp\n .watch(ALL_DOCUMENTS_GLOB, {\n ignored: /** @param {string} name */ name => name.endsWith('graphql-operations.ts'),\n })\n .on('all', (type, name) => {\n ;(async () => {\n if (await shouldRegenerateGraphQlOperations(type, name)) {\n console.log('Regenerating GraphQL types')\n await generateGraphQlOperations()\n console.log('Done regenerating GraphQL types')\n }\n })().catch(error => {\n console.error(error)\n })\n })\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function UniqueOperationNames(context) {\n var knownOperationNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition(node) {\n var operationName = node.name;\n\n if (operationName) {\n if (knownOperationNames[operationName.value]) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](duplicateOperationNameMessage(operationName.value), [knownOperationNames[operationName.value], operationName]));\n } else {\n knownOperationNames[operationName.value] = operationName;\n }\n }\n\n return false;\n },\n FragmentDefinition: function FragmentDefinition() {\n return false;\n }\n };\n}", "isOperation(value) {\n if (!Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value)) {\n return false;\n }\n\n switch (value.type) {\n case 'insert_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'insert_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'merge_node':\n return typeof value.position === 'number' && Path.isPath(value.path) && Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.properties);\n\n case 'move_node':\n return Path.isPath(value.path) && Path.isPath(value.newPath);\n\n case 'remove_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'remove_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'set_node':\n return Path.isPath(value.path) && Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.properties) && Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.newProperties);\n\n case 'set_selection':\n return value.properties === null && Range.isRange(value.newProperties) || value.newProperties === null && Range.isRange(value.properties) || Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.properties) && Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.newProperties);\n\n case 'split_node':\n return Path.isPath(value.path) && typeof value.position === 'number' && Object(__WEBPACK_IMPORTED_MODULE_0_is_plain_object__[\"a\" /* default */])(value.properties);\n\n default:\n return false;\n }\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "chooseOperation(operation) {\n if(this.currOperand === '') return\n if(this.prevOperand !== '') {\n this.processValue()\n }\n this.operation = operation\n this.prevOperand = this.currOperand\n this.currOperand = ''\n }", "function parseOperationTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var operation = parseOperationType(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseNamedType(lexer);\n\t return {\n\t kind: _kinds.OPERATION_TYPE_DEFINITION,\n\t operation: operation,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function updateOperation (operation, model) {\n model.operator = operation.operator;\n model.percentage = operation.percentage;\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "operationHandler(operation){\n\n if(this.state.numberId === 1){\n this.equalHandler();\n return;\n };\n\n if((operation === \"subtract\" || operation === \"add\") &&\n this.state.numbers[this.state.numberId] === \"\")\n {\n this.numberHandler(operation === \"subtract\" ? \"-\" : \"+\") ;\n return ;\n } \n this.setOPeration(operation);\n\n }", "chooseOperation(operation){\n if (this.currentOperand === '') return\n //to get a displaying figure or answer to continue another computation\n if (this.previousOperand !== '') {\n this.compute()\n }\n //to get the actual operation clicked\n this.operation = operation\n // the previous operand now equals current operand for new input\n this.previousOperand = this.currentOperand\n this.currentOperand = ''\n }", "set operator(op) {\n this._operator = op;\n }", "set operator(op) {\n this._operator = op;\n }" ]
[ "0.6767044", "0.66750133", "0.6667136", "0.66366386", "0.66044563", "0.66044563", "0.66044563", "0.66044563", "0.6600803", "0.65488625", "0.64355683", "0.64009553", "0.63313407", "0.63313407", "0.625439", "0.6230422", "0.6160315", "0.6160315", "0.6087882", "0.60845375", "0.6046964", "0.6046964", "0.59150785", "0.59024286", "0.58903086", "0.58903086", "0.58854514", "0.58854514", "0.58473384", "0.5799512", "0.57212144", "0.55709624", "0.5494742", "0.5431893", "0.5431893", "0.54250884", "0.5421002", "0.54073536", "0.53874785", "0.53827477", "0.5368273", "0.5362073", "0.5362073", "0.5362073", "0.5362073", "0.53602207", "0.53408223", "0.5338096", "0.5338096", "0.5338096", "0.5338096", "0.5338096", "0.5338096", "0.5317409", "0.53106457", "0.53018844", "0.53007865", "0.5261512", "0.524492", "0.52351177", "0.5208307", "0.51949346", "0.51842856", "0.5169611", "0.5135195", "0.5131305", "0.5116189", "0.5116189", "0.5111295", "0.50748473", "0.5074061", "0.5074061", "0.5053225", "0.5044109", "0.5041758", "0.5041758", "0.5035825", "0.5035825", "0.50075", "0.50072694", "0.5003476", "0.5001487", "0.5000372", "0.49932247", "0.49800003", "0.4975189", "0.49619237", "0.49619237", "0.49619237", "0.49619237", "0.49619237", "0.49614695", "0.4952858", "0.49425364", "0.49425364" ]
0.6696435
5
VariableDefinitions : ( VariableDefinition+ )
function parseVariableDefinitions(lexer) { return peek(lexer, _lexer.TokenKind.PAREN_L) ? many(lexer, _lexer.TokenKind.PAREN_L, parseVariableDefinition, _lexer.TokenKind.PAREN_R) : []; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseVariableDefinitions() {\n return this.optionalMany(\n TokenKind.PAREN_L,\n this.parseVariableDefinition,\n TokenKind.PAREN_R,\n );\n }", "function parseVariableDefinitions(lexer$$1) {\n return peek(lexer$$1, lexer.TokenKind.PAREN_L) ? many(lexer$$1, lexer.TokenKind.PAREN_L, parseVariableDefinition, lexer.TokenKind.PAREN_R) : [];\n}", "function parseVariableDefinitions(lexer) {\n\t return peek(lexer, _lexer.TokenKind.PAREN_L) ? many(lexer, _lexer.TokenKind.PAREN_L, parseVariableDefinition, _lexer.TokenKind.PAREN_R) : [];\n\t}", "function parseVariableDefinitions(lexer) {\n\t return peek(lexer, _lexer.TokenKind.PAREN_L) ? many(lexer, _lexer.TokenKind.PAREN_L, parseVariableDefinition, _lexer.TokenKind.PAREN_R) : [];\n\t}", "function parseVariableDefinitions(lexer) {\n return peek(lexer, TokenKind.PAREN_L) ? many(lexer, TokenKind.PAREN_L, parseVariableDefinition, TokenKind.PAREN_R) : [];\n}", "function VariableDeclaration(){ return ListNode.apply(this,arguments) }", "function parseVariableDefinitions(lexer) {\n return peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L) ? many(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseVariableDefinition, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R) : [];\n}", "function parseVariableDefinitions(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L) ? many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, parseVariableDefinition, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R) : [];\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinitions(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L) ? many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseVariableDefinition, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R) : [];\n}", "function parseVariableDefinitions(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L) ? many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseVariableDefinition, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R) : [];\n}", "function parseVariableDefinitions(parser) {\n\t return peek(parser, _lexer.TokenKind.PAREN_L) ? many(parser, _lexer.TokenKind.PAREN_L, parseVariableDefinition, _lexer.TokenKind.PAREN_R) : [];\n\t}", "parseVariableDefinition() {\n return this.node(this._lexer.token, {\n kind: Kind.VARIABLE_DEFINITION,\n variable: this.parseVariable(),\n type: (this.expectToken(TokenKind.COLON), this.parseTypeReference()),\n defaultValue: this.expectOptionalToken(TokenKind.EQUALS)\n ? this.parseConstValueLiteral()\n : undefined,\n directives: this.parseConstDirectives(),\n });\n }", "function parseVariableDefinition(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(lexer),\n\t type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n\t defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseVariableDefinitions(parser) {\n return peek(parser, _lexer.TokenKind.PAREN_L) ? many(parser, _lexer.TokenKind.PAREN_L, parseVariableDefinition, _lexer.TokenKind.PAREN_R) : [];\n}", "function parseVariableDefinition(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(lexer),\n\t type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n\t defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer$$1) {\n var start = lexer$$1.token;\n return {\n kind: kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer$$1),\n type: (expect(lexer$$1, lexer.TokenKind.COLON), parseTypeReference(lexer$$1)),\n defaultValue: skip(lexer$$1, lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer$$1, true) : undefined,\n loc: loc(lexer$$1, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n\n if (lexer.options.experimentalVariableDefinitionDirectives) {\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n\n if (lexer.options.experimentalVariableDefinitionDirectives) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function setVariables() {\n var vars = new Array();\n mRoot.infoVariables.forEach(function (variable) {\n var _var = {\n name: variable.name,\n type: variable.type,\n value: variable.value\n };\n vars.push(_var);\n });\n return vars;\n}", "function parseVariableDefinition(parser) {\n\t var start = parser.token.start;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(parser),\n\t type: (expect(parser, _lexer.TokenKind.COLON), parseType(parser)),\n\t defaultValue: skip(parser, _lexer.TokenKind.EQUALS) ? parseValueLiteral(parser, true) : null,\n\t loc: loc(parser, start)\n\t };\n\t}", "function VariablesInAllowedPosition(context) {\n\t var varDefMap = _Object$create(null);\n\n\t return {\n\t OperationDefinition: {\n\t enter: function enter() {\n\t varDefMap = _Object$create(null);\n\t },\n\t leave: function leave(operation) {\n\t var usages = context.getRecursiveVariableUsages(operation);\n\n\t usages.forEach(function (_ref) {\n\t var node = _ref.node;\n\t var type = _ref.type;\n\n\t var varName = node.name.value;\n\t var varDef = varDefMap[varName];\n\t if (varDef && type) {\n\t // A var type is allowed if it is the same or more strict (e.g. is\n\t // a subtype of) than the expected type. It can be more strict if\n\t // the variable type is non-null when the expected type is nullable.\n\t // If both are list types, the variable item type can be more strict\n\t // than the expected item type (contravariant).\n\t var varType = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), varDef.type);\n\t if (varType && !(0, _utilitiesTypeComparators.isTypeSubTypeOf)(effectiveType(varType, varDef), type)) {\n\t context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n\t }\n\t }\n\t });\n\t }\n\t },\n\t VariableDefinition: function VariableDefinition(varDefAST) {\n\t varDefMap[varDefAST.variable.name.value] = varDefAST;\n\t }\n\t };\n\t}", "VariableStatement() {\n this._eat('let');\n const declarations = this.VariableDeclarationsList();\n this._eat(';');\n return {\n type: 'VariableStatement',\n declarations,\n };\n }", "function parseVariableDefinition(parser) {\n var start = parser.token.start;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(parser),\n type: (expect(parser, _lexer.TokenKind.COLON), parseType(parser)),\n defaultValue: skip(parser, _lexer.TokenKind.EQUALS) ? parseValueLiteral(parser, true) : null,\n loc: loc(parser, start)\n };\n}", "function storingDefinitions(arg) {\n definitions = arg;\n Output.printHeadingAndArrayElements(\"Definition\", definitions);\n}", "function VariablesInAllowedPosition(context) {\n var varDefMap = _Object$create(null);\n\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = _Object$create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n usages.forEach(function (_ref) {\n var node = _ref.node;\n var type = _ref.type;\n\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var varType = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), varDef.type);\n if (varType && !(0, _utilitiesTypeComparators.isTypeSubTypeOf)(effectiveType(varType, varDef), type)) {\n context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n }\n }\n });\n }\n },\n VariableDefinition: function VariableDefinition(varDefAST) {\n varDefMap[varDefAST.variable.name.value] = varDefAST;\n }\n };\n}", "function VariablesInAllowedPosition(context) {\n var varDefMap = Object.create(null);\n\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n usages.forEach(function (_ref) {\n var node = _ref.node,\n type = _ref.type;\n\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = (0, _typeFromAST.typeFromAST)(schema, varDef.type);\n if (varType && !(0, _typeComparators.isTypeSubTypeOf)(schema, effectiveType(varType, varDef), type)) {\n context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n }\n }\n });\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function VariablesInAllowedPositionRule(context) {\n var varDefMap = Object.create(null);\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n for (var _i2 = 0; _i2 < usages.length; _i2++) {\n var _ref2 = usages[_i2];\n var node = _ref2.node;\n var type = _ref2.type;\n var defaultValue = _ref2.defaultValue;\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = (0, _typeFromAST.typeFromAST)(schema, varDef.type);\n\n if (varType && !allowedVariableUsage(schema, varType, varDef.defaultValue, type, defaultValue)) {\n var varTypeStr = (0, _inspect.default)(varType);\n var typeStr = (0, _inspect.default)(type);\n context.reportError(new _GraphQLError.GraphQLError(\"Variable \\\"$\".concat(varName, \"\\\" of type \\\"\").concat(varTypeStr, \"\\\" used in position expecting type \\\"\").concat(typeStr, \"\\\".\"), [varDef, node]));\n }\n }\n }\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function VariablesInAllowedPositionRule(context) {\n var varDefMap = Object.create(null);\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n for (var _i2 = 0; _i2 < usages.length; _i2++) {\n var _ref2 = usages[_i2];\n var node = _ref2.node;\n var type = _ref2.type;\n var defaultValue = _ref2.defaultValue;\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = (0, _typeFromAST.typeFromAST)(schema, varDef.type);\n\n if (varType && !allowedVariableUsage(schema, varType, varDef.defaultValue, type, defaultValue)) {\n var varTypeStr = (0, _inspect.default)(varType);\n var typeStr = (0, _inspect.default)(type);\n context.reportError(new _GraphQLError.GraphQLError(\"Variable \\\"$\".concat(varName, \"\\\" of type \\\"\").concat(varTypeStr, \"\\\" used in position expecting type \\\"\").concat(typeStr, \"\\\".\"), [varDef, node]));\n }\n }\n }\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "vars(value) {\n if (value) {\n value.forEach((v, i) => {\n this._handleVar(v, this.dependencyChain.append('vars[' + i + ']'));\n });\n }\n }", "function putVariable(head, body) {\n putData($(\"#variables-list\"), head, body);\n}", "function zipDeclare(vars, values) {\n\tif (!vars) return [];\n\tvalues = values || [];\n\tif (vars.length < 1) return [];\n\n\treturn [{\n\t\ttype: \"VariableDeclaration\",\n\t\tkind: \"var\",\n\t\tdeclarations: vars.map(function (varName, index) {\n\t\t\treturn {\n\t\t\t\ttype: \"VariableDeclarator\",\n\t\t\t\tid: identifier(varName),\n\t\t\t\tinit: values[index] || null\n\t\t\t};\n\t\t})\n\t}];\n}", "function VariablesInAllowedPositionRule(context) {\n var varDefMap = Object.create(null);\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n for (var _i2 = 0; _i2 < usages.length; _i2++) {\n var _ref2 = usages[_i2];\n var node = _ref2.node;\n var type = _ref2.type;\n var defaultValue = _ref2.defaultValue;\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_4__[\"typeFromAST\"])(schema, varDef.type);\n\n if (varType && !allowedVariableUsage(schema, varType, varDef.defaultValue, type, defaultValue)) {\n var varTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(varType);\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Variable \\\"$\".concat(varName, \"\\\" of type \\\"\").concat(varTypeStr, \"\\\" used in position expecting type \\\"\").concat(typeStr, \"\\\".\"), [varDef, node]));\n }\n }\n }\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function VariablesInAllowedPositionRule(context) {\n var varDefMap = Object.create(null);\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n for (var _i2 = 0; _i2 < usages.length; _i2++) {\n var _ref2 = usages[_i2];\n var node = _ref2.node;\n var type = _ref2.type;\n var defaultValue = _ref2.defaultValue;\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_4__[\"typeFromAST\"])(schema, varDef.type);\n\n if (varType && !allowedVariableUsage(schema, varType, varDef.defaultValue, type, defaultValue)) {\n var varTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(varType);\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Variable \\\"$\".concat(varName, \"\\\" of type \\\"\").concat(varTypeStr, \"\\\" used in position expecting type \\\"\").concat(typeStr, \"\\\".\"), [varDef, node]));\n }\n }\n }\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function variable(name, argumentCount, isBuiltIn, value)\r\n{\r\n\tthis.name = name\r\n\tthis.argumentCount = argumentCount\r\n\tthis.isBuiltIn = isBuiltIn\r\n\tthis.value = value\r\n}", "function getVariables(obj) {\n if (obj !== undefined && obj !== null) {\n var root_variables = obj[\"p:Variable\"];\n if (typeof (root_variables) === \"object\" && root_variables.length !== undefined) {\n for (var i = 0; i < root_variables.length; i++) {\n var root_variable = root_variables[i];\n\n var _var = new Variable();\n _var.name = decodeXml(root_variable[\"@Name\"]);\n _var.type = decodeXml(root_variable[\"@x:TypeArguments\"].split(\"x:\")[1]);\n //_var.value = \"Flowchart\";\n if (root_variable[\"@Default\"] === undefined) {\n if (root_variable[\"p:Variable.Default\"] !== undefined) {\n var _default = root_variable[\"p:Variable.Default\"];\n if (_default[\"mca:CSharpValue\"] !== undefined) {\n _var.value = decodeXml(_default[\"mca:CSharpValue\"][\"#text\"]);\n } else if (_default[\"p:Literal\"] === undefined) {\n _var.value = decodeXml(_default[\"p:Literal\"][\"#text\"]);\n }\n } else {\n _var.value = \"\";\n }\n } else {\n var type = root_variable[\"@x:TypeArguments\"].split(\"x:\")[1];\n if (type.toLowerCase() === \"string\") {\n _var.value = decodeXml(\"\\\"\" + root_variable[\"@Default\"] + \"\\\"\");\n } else {\n _var.value = decodeXml(root_variable[\"@Default\"]);\n }\n }\n\n mRoot.infoVariables.add(_var);\n var id = mRoot.infoVariables.collection[mRoot.infoVariables.count - 1].id;\n var item = '<li class=\"item-var' + id + '\" onclick=\"return activeVariables(this)\">'\n + '<div>' + encodeXml(_var.name) + '</div>'\n + '<a href=\"javascript:void(0)\" class=\"delButton\" onclick=\"return removeVariable(' + id + ');\">'\n + '<img width=\"10px\" src=\"Images/delete-icon.png\" title=\"Delete\" />'\n + '</a>'\n + '</li>'\n $('ul.variables').append(item);\n\n // active envent click of variable\n }\n } else {\n var _var = new Variable();\n _var.name = decodeXml(root_variables[\"@Name\"]);\n _var.type = decodeXml(root_variables[\"@x:TypeArguments\"].split(\"x:\")[1]);\n //_var.value = \"Flowchart\";\n if (root_variables[\"@Default\"] === undefined) {\n if (root_variables[\"p:Variable.Default\"] !== undefined) {\n var _default = root_variables[\"p:Variable.Default\"];\n if (_default[\"mca:CSharpValue\"] !== undefined) {\n _var.value = decodeXml(_default[\"mca:CSharpValue\"][\"#text\"]);\n } else if (_default[\"p:Literal\"] === undefined) {\n _var.value = decodeXml(_default[\"p:Literal\"][\"#text\"]);\n }\n } else {\n _var.value = \"\";\n }\n } else {\n var type = root_variables[\"@x:TypeArguments\"].split(\"x:\")[1];\n if (type.toLowerCase() === \"string\") {\n _var.value = decodeXml(\"\\\"\" + root_variables[\"@Default\"] + \"\\\"\");\n } else {\n _var.value = decodeXml(root_variables[\"@Default\"]);\n }\n }\n\n mRoot.infoVariables.add(_var);\n var id = mRoot.infoVariables.collection[mRoot.infoVariables.count - 1].id;\n var item = '<li class=\"item-var' + id + '\" onclick=\"return activeVariables(this)\">'\n + '<div>' + encodeXml(_var.name) + '</div>'\n + '<a href=\"javascript:void(0)\" class=\"delButton\" onclick=\"return removeVariable(' + id + ');\">'\n + '<img width=\"10px\" src=\"Images/delete-icon.png\" title=\"Delete\" />'\n + '</a>'\n + '</li>'\n $('ul.variables').append(item);\n }\n }\n}", "function variables() {\n // Declares a variable where the value cannot be changed\n const DAYS_PER_WEEK = 7; // const (similar to FINAL in Java) - value cannot be changed\n // console.log is the JavaScript version of System.out.println() in Java\n // If what you want to display using console.log contains a variable: \n // 1. Enclose what you want to display in back-ticks (`)\n // 2. Put the variable you want displayed inside ${}\n // \n // semi-colons at the end of a statement are usually optional in JavaScript\n console.log(`There are ${DAYS_PER_WEEK} days in a week`);\n\n // Declares a variable whose value can be changed\n let daysPerMonth = 31; // let - value may be changed\n console.log(`There are ${daysPerMonth} days this month`);\n\n // Declares a variable that will always be an array\n // To declare an array in JavaScript, code the name = []\n const WEEKDAYS = [\n \"Monday\",\n \"Tuesday\",\n \"Wednesday\",\n \"Thursday\",\n \"Friday\",\n \"Saturday\",\n \"Sunday\"\n ];\n // console.table displays an array as a table with the indexes and values\n console.table(WEEKDAYS);\n}", "function makeVariableToken(varIndex, start, end) {\n\treturn { type: \"variable\", \n\t index: varIndex,\n\t \"start\": start,\n\t \"end\": end };\n}", "function newVariable(_name, _argumentCount, _isBuiltIn, _value)\r\n{\r\n\tworkStack.push(variableLastLookup)\r\n\r\n\t_name = _name.toLowerCase() // !!!\r\n\tif (variableIsDefined(_name))\r\n\t{\r\n\t\tvariableArray[variableLastLookup].name = _name\r\n\t\tvariableArray[variableLastLookup].argumentCount = _argumentCount\r\n\t\tvariableArray[variableLastLookup].isBuiltIn = _isBuiltIn\r\n\t\tvariableArray[variableLastLookup].value = _value\r\n\t}\r\n\telse\r\n\t{\r\n\t\tvariableArray.push( new variable(_name, _argumentCount, _isBuiltIn, _value) )\r\n\t\tvariableCount = variableArray.length\r\n\t}\r\n\r\n\tvariableLastLookup = workStack.pop()\r\n}", "function VariableStatement (variables, loc) {\n\t\t//variables contains an array of variabledeclarations\n\t\tvar _variableDeclarations = variables;\n\t\tvar _loc = loc;\n\n\t\tObject.defineProperty(this, 'variables', {\n\t\t\tget: function() {\n\t\t\t\treturn _variableDeclarations;\n\t\t\t},\n\t\t\tenumerable: true\n\t\t});\n\n\t\tObject.defineProperty(this, 'loc', {\n\t\t\tget: function() {\n\t\t\t\treturn _loc;\n\t\t\t},\n\t\t\tenumerable: true\n\t\t});\n\n\t\tObject.defineProperty(this, 'nodeType', {\n\t\t\tget: function() {\n\t\t\t\treturn \"VariableStatement\";\n\t\t\t},\n\t\t\tenumerable: true\n\t\t});\n\t}", "function evaluateVariableStatement(_a) {\n var { node } = _a, rest = __rest(_a, [\"node\"]);\n evaluateVariableDeclarationList(Object.assign({ node: node.declarationList }, rest));\n}", "function v(v) { return {type: 'var', v}}", "createVar(match, pathBasename, variables, line) {\n const rep = match.split(':')[0].replace(':', '');\n const namespace = `${pathBasename}/${rep}`;\n const item = {\n title: rep,\n insert: rep,\n detail: `(${rep.replace('$', '')}) - ${pathBasename} Variable.`,\n kind: vscode_1.CompletionItemKind.Variable\n };\n variables[namespace] = { item, type: 'Variable' };\n return { state: variables, current: { line, namespace } };\n }", "function VariablesInAllowedPosition(context) {\n var varDefMap = Object.create(null);\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = usages[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var _ref2 = _step.value;\n var node = _ref2.node;\n var type = _ref2.type;\n var defaultValue = _ref2.defaultValue;\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = Object(_utilities_typeFromAST__WEBPACK_IMPORTED_MODULE_5__[\"typeFromAST\"])(schema, varDef.type);\n\n if (varType && !allowedVariableUsage(schema, varType, varDef.defaultValue, type, defaultValue)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badVarPosMessage(varName, Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(varType), Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(type)), [varDef, node]));\n }\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function variablesInOperation(operation) {\n var names = new Set();\n if (operation.variableDefinitions) {\n for (var _i = 0, _a = operation.variableDefinitions; _i < _a.length; _i++) {\n var definition = _a[_i];\n names.add(definition.variable.name.value);\n }\n }\n return names;\n}", "function VariableModule(self) {\n that = self;\n o = self.o;\n va = self.va;\n is = self.is;\n M = self.M;\n }", "assignedVariables() {\n var i, len, ref, results, v;\n ref = this.variables;\n results = [];\n for (i = 0, len = ref.length; i < len; i++) {\n v = ref[i];\n if (v.type.assigned) {\n results.push(`${v.name} = ${v.type.value}`);\n }\n }\n return results;\n }", "function variables() {\n // Declares a variable where the value cannot be changed\n const daysInWeek = 7;\n console.log(daysInWeek);\n\n // Declares a variable those value can be changed\n let daysInMonth = 31;\n console.log(`Number of days this month ${daysInMonth}`);\n\n // Declares a variable that will always be an array\n const daysOfTheWeek = ['Monday','Tuesday','Wednesday','Thursday','Friday'];\n console.table(daysOfTheWeek);\n daysOfTheWeek.push('Saturday');\n console.table(daysOfTheWeek);\n const myArray = []; /*\n this always points to myArray but I am allowed to add and remove items from the array \n (unlike Java) (push, pop, shift) (arrays are not fixed in size in javascript)\n */\n}", "function getVariableBlock(){ \n \nworkspacePlayground.updateToolbox(\"<category name='%{BKY_CATVARIABLES}' colour='%{BKY_VARIABLES_HUE}' custom='VARIABLE'><block type='variables_get'></block><block type='variables_set'></block><block type='changes_by'></block></category>\");\n\n \n \n }", "parseVariable() {\n const start = this._lexer.token;\n this.expectToken(TokenKind.DOLLAR);\n return this.node(start, {\n kind: Kind.VARIABLE,\n name: this.parseName(),\n });\n }", "function extract_variables() {\n /// Add a new variable value slider.\n function add_var_slider(v) {\n const variable = bindings.get(v);\n const value_text = new Div([\"value\"]).add_text(variable.value);\n // Create the variable value slider itself.\n const slider = new RangeSlider(\n variable.min, variable.value, variable.max, variable.step,\n ).listen(\"input\", (_, self) => {\n bindings.get(v).value = parseFloat(self.value);\n value_text.element.childNodes[0].nodeValue = self.value;\n render(true);\n }).for_which(self => var_map.set(v, self));\n // Variables with Greek letters, corresponding to special distinguished variables, are\n // highlighted.\n if (/[α-ω]/.test(v)) {\n slider.class_list.add(\"key\");\n }\n const container = new Div([\"variable\"])\n .append(new Element(\"span\").add_text(`${v} = `).append(value_text))\n .append(slider);\n return container;\n }\n\n // The free variables currently in the equation inputs.\n const vars = new Set(\n [...figure.components, ...mirror.components, ...sigma_tau.components]\n .map(eq => [...new Equation(eq.value).variables()])\n .flat()\n );\n vars.delete(\"t\"); // `t` is a special parameter.\n vars.delete(\"s\"); // `s` is a special parameter.\n\n // The combination of free variables and previously-set variables.\n const all_vars = Array.from(new Set([...var_map.keys(), ...vars]));\n all_vars.sort((a, b) => {\n if (/[α-ω]/.test(a) ^ /[α-ω]/.test(b)) {\n // Sort Greek letters before Latin ones.\n return b.localeCompare(a);\n }\n return a.localeCompare(b);\n });\n\n // Loop through all the variables. If a variable slider isn't present when it should be, we\n // add it in the correct (alphabetical) position. If a variable slider is present when it\n // shouldn't be, it's hidden.\n let prev_var = null;\n for (const v of all_vars) {\n if (vars.has(v)) {\n if (!var_map.has(v)) {\n // We may already have a binding from the settings.\n if (!bindings.has(v)) {\n switch (v) {\n case SPECIAL_VARIABLES.get(\"scaling\"):\n // `-1` is a good default setting for `scaling`, as we generally\n // want to reflect.\n bindings.set(v, new Binding(-1, -2, 2, -1));\n break;\n default:\n bindings.set(v, new Binding(0, -256, 256, 1));\n break;\n }\n }\n const var_slider = add_var_slider(v);\n if (prev_var !== null) {\n var_slider.follow(prev_var);\n } else {\n var_slider.prepend_to(var_container);\n }\n var_map.set(v, var_slider);\n } else {\n var_map.get(v).class_list.remove(\"hidden\");\n }\n } else {\n var_map.get(v).class_list.add(\"hidden\");\n }\n prev_var = var_map.get(v);\n }\n\n // If there are no variables, we hide the variable container (otherwise the padding takes\n // precedence over the width and we see part of the container).\n var_container.class_list.toggle(\"hidden\", vars.size === 0);\n\n return vars;\n }", "assignedVariables() {\r\n\t\t\t\tvar i, len, ref, results, v;\r\n\t\t\t\tref = this.variables;\r\n\t\t\t\tresults = [];\r\n\t\t\t\tfor (i = 0, len = ref.length; i < len; i++) {\r\n\t\t\t\t\tv = ref[i];\r\n\t\t\t\t\tif (v.type.assigned) {\r\n\t\t\t\t\t\tresults.push(`${v.name} = ${v.type.value}`);\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t\treturn results;\r\n\t\t\t}", "function VariableStore() {\n\n /**\n * Current local variable context\n * @property context\n * @type Object\n */\n this.context = null;\n\n /**\n * Current domain for global and persistent variables. Each domain has its own\n * variables. Please use <b>changeDomain</b> method to change the domain.\n * @property domain\n * @type Object\n * @readOnly\n */\n this.domain = \"\";\n\n /**\n * List of available domains for global and persistent variables.\n * @property domains\n * @type string[]\n */\n this.domains = [\"\"];\n\n /**\n * The global number variables of the current domain.\n * @property numbers\n * @type number[]\n */\n this.numbers = null;\n\n /**\n * The global boolean variables of the current domain.\n * @property booleans\n * @type boolean[]\n */\n this.booleans = null;\n\n /**\n * The global string variables of the current domain.\n * @property strings\n * @type string[]\n */\n this.strings = null;\n\n /**\n * The global list variables of the current domain.\n * @property lists\n * @type Object[][]\n */\n this.lists = null;\n\n /**\n * The storage of all global variables by domain.\n * @property globalVariablesByDomain\n * @type Object[][]\n */\n this.globalVariablesByDomain = {};\n\n /**\n * The storage of all persistent variables by domain.\n * @property persistentVariablesByDomain\n * @type Object[][]\n */\n this.persistentVariablesByDomain = {};\n\n /**\n * The persistent number variables of the current domain.\n * @property persistentNumbers\n * @type number[]\n */\n this.persistentNumbers = [];\n\n /**\n * The persistent string variables of the current domain.\n * @property persistentStrings\n * @type string[]\n */\n this.persistentStrings = [];\n\n /**\n * The persistent boolean variables of the current domain.\n * @property persistentBooleans\n * @type boolean[]\n */\n this.persistentBooleans = [];\n\n /**\n * The persistent list variables of the current domain.\n * @property persistentLists\n * @type Object[][]\n */\n this.persistentLists = [];\n\n /**\n * The local number variables.\n * @property localNumbers\n * @type Object\n */\n this.localNumbers = {};\n\n /**\n * The local string variables.\n * @property localStrings\n * @type Object\n */\n this.localStrings = {};\n\n /**\n * The local boolean variables.\n * @property localBooleans\n * @type Object\n */\n this.localBooleans = {};\n\n /**\n * The local list variables.\n * @property localLists\n * @type Object\n */\n this.localLists = {};\n\n /**\n * @property tempNumbers\n * @type number[]\n */\n this.tempNumbers = null;\n\n /**\n * @property tempStrings\n * @type string[]\n */\n this.tempStrings = null;\n\n /**\n * @property localBooleans\n * @type number[]\n */\n this.tempBooleans = null;\n\n /**\n * @property localLists\n * @type Object[][]\n */\n this.tempLists = null;\n }", "function VariableStore() {\n\n /**\n * Current local variable context\n * @property context\n * @type Object\n */\n this.context = null;\n\n /**\n * Current domain for global and persistent variables. Each domain has its own\n * variables. Please use <b>changeDomain</b> method to change the domain.\n * @property domain\n * @type Object\n * @readOnly\n */\n this.domain = \"\";\n\n /**\n * List of available domains for global and persistent variables.\n * @property domains\n * @type string[]\n */\n this.domains = [\"\"];\n\n /**\n * The global number variables of the current domain.\n * @property numbers\n * @type number[]\n */\n this.numbers = null;\n\n /**\n * The global boolean variables of the current domain.\n * @property booleans\n * @type boolean[]\n */\n this.booleans = null;\n\n /**\n * The global string variables of the current domain.\n * @property strings\n * @type string[]\n */\n this.strings = null;\n\n /**\n * The global list variables of the current domain.\n * @property lists\n * @type Object[][]\n */\n this.lists = null;\n\n /**\n * The storage of all global variables by domain.\n * @property globalVariablesByDomain\n * @type Object[][]\n */\n this.globalVariablesByDomain = {};\n\n /**\n * The storage of all persistent variables by domain.\n * @property persistentVariablesByDomain\n * @type Object[][]\n */\n this.persistentVariablesByDomain = {};\n\n /**\n * The persistent number variables of the current domain.\n * @property persistentNumbers\n * @type number[]\n */\n this.persistentNumbers = [];\n\n /**\n * The persistent string variables of the current domain.\n * @property persistentStrings\n * @type string[]\n */\n this.persistentStrings = [];\n\n /**\n * The persistent boolean variables of the current domain.\n * @property persistentBooleans\n * @type boolean[]\n */\n this.persistentBooleans = [];\n\n /**\n * The persistent list variables of the current domain.\n * @property persistentLists\n * @type Object[][]\n */\n this.persistentLists = [];\n\n /**\n * The local number variables.\n * @property localNumbers\n * @type Object\n */\n this.localNumbers = {};\n\n /**\n * The local string variables.\n * @property localStrings\n * @type Object\n */\n this.localStrings = {};\n\n /**\n * The local boolean variables.\n * @property localBooleans\n * @type Object\n */\n this.localBooleans = {};\n\n /**\n * The local list variables.\n * @property localLists\n * @type Object\n */\n this.localLists = {};\n\n /**\n * @property tempNumbers\n * @type number[]\n */\n this.tempNumbers = null;\n\n /**\n * @property tempStrings\n * @type string[]\n */\n this.tempStrings = null;\n\n /**\n * @property localBooleans\n * @type number[]\n */\n this.tempBooleans = null;\n\n /**\n * @property localLists\n * @type Object[][]\n */\n this.tempLists = null;\n }", "function variables() {\n // Declares a variable where the value cannot be changed\n // Use const to define a variable whose value cannot be changed\n const DAYS_PER_WEEK = 7; \n\n // console.log() is the JavaScript version of System.out.println() in Java\n // If what you want to display using console.log() contains a variable:\n //\n // 1. Enclose what you want to display in back-ticks (`)\n // 2. Put the variable you want displayed inside ${}\n //\n // semi-colons at the end of a statement are usually optional in JavaScript\n\n console.log(`There are ${DAYS_PER_WEEK} days in a week`);\n\n // Declares a variable those value can be changed\n // use the let statement to define a variable whose content maybe changed\n\n let daysPerMonth = 31;\n\n console.log(`There are ${daysPerMonth} days this month`)\n\n // Declares a variable that will always be an array\n // To declare an array in JavaScript code name = []\n\n const WEEKDAYS = [\n \"Monday\",\n \"Tuesday\",\n \"Wednesday\",\n \"Thursday\",\n \"Friday\",\n \"Saturday\",\n \"Sunday\"\n ]\n\n console.table(WEEKDAYS) // Display the array as a table\n}", "VariableDeclarationsList() {\n const declarations = [];\n do {\n declarations.push(this.VariableDeclaration());\n } while (this._lookahead.type === ',' && this._eat(','));\n\n return declarations;\n }", "function getVariables(node) {\r\n var variables = [], anonymousTypes = [], name, type;\r\n var declarationList = Array.isArray(node.declarationList)\r\n ? node.declarationList : [node.declarationList];\r\n for (var i = 0; i < declarationList.length; i++) {\r\n var declarations = declarationList[i].declarations;\r\n for (var j = 0; j < declarations.length; j++) {\r\n name = declarations[j].name.text;\r\n if (declarations[j].type.kind == ts.SyntaxKind.TypeLiteral) {\r\n type = visitInterface(declarations[j].type, { name: name + \"Type\", anonymous: true });\r\n anonymousTypes.push(type);\r\n type = type.name;\r\n }\r\n else {\r\n type = getType(declarations[j].type);\r\n }\r\n variables.push({\r\n name: name,\r\n type: type,\r\n static: true,\r\n parameters: []\r\n });\r\n }\r\n }\r\n return {\r\n variables: variables,\r\n anonymousTypes: anonymousTypes\r\n };\r\n}", "function VariableBlock()\r\n{\r\n this.objectName = \"Variable\";\r\n\tthis.divHeight=16;\r\n\tthis.divWidth=40;\r\n\tthis.variableValue=0;\r\n\tthis.text=0;\r\n}", "function DeclareVariable(node, print) {\n\t this.push(\"declare var \");\n\t print.plain(node.id);\n\t print.plain(node.id.typeAnnotation);\n\t this.semicolon();\n\t}", "function DeclareVariable(node, print) {\n\t this.push(\"declare var \");\n\t print.plain(node.id);\n\t print.plain(node.id.typeAnnotation);\n\t this.semicolon();\n\t}", "function $07772127e2159dfa$var$nsis(hljs) {\n const CONSTANTS = {\n className: \"variable\",\n begin: /\\$(ADMINTOOLS|APPDATA|CDBURN_AREA|CMDLINE|COMMONFILES32|COMMONFILES64|COMMONFILES|COOKIES|DESKTOP|DOCUMENTS|EXEDIR|EXEFILE|EXEPATH|FAVORITES|FONTS|HISTORY|HWNDPARENT|INSTDIR|INTERNET_CACHE|LANGUAGE|LOCALAPPDATA|MUSIC|NETHOOD|OUTDIR|PICTURES|PLUGINSDIR|PRINTHOOD|PROFILE|PROGRAMFILES32|PROGRAMFILES64|PROGRAMFILES|QUICKLAUNCH|RECENT|RESOURCES_LOCALIZED|RESOURCES|SENDTO|SMPROGRAMS|SMSTARTUP|STARTMENU|SYSDIR|TEMP|TEMPLATES|VIDEOS|WINDIR)/\n };\n const DEFINES = {\n // ${defines}\n className: \"variable\",\n begin: /\\$+\\{[\\w.:-]+\\}/\n };\n const VARIABLES = {\n // $variables\n className: \"variable\",\n begin: /\\$+\\w+/,\n illegal: /\\(\\)\\{\\}/\n };\n const LANGUAGES = {\n // $(language_strings)\n className: \"variable\",\n begin: /\\$+\\([\\w^.:-]+\\)/\n };\n const PARAMETERS = {\n // command parameters\n className: \"params\",\n begin: \"(ARCHIVE|FILE_ATTRIBUTE_ARCHIVE|FILE_ATTRIBUTE_NORMAL|FILE_ATTRIBUTE_OFFLINE|FILE_ATTRIBUTE_READONLY|FILE_ATTRIBUTE_SYSTEM|FILE_ATTRIBUTE_TEMPORARY|HKCR|HKCU|HKDD|HKEY_CLASSES_ROOT|HKEY_CURRENT_CONFIG|HKEY_CURRENT_USER|HKEY_DYN_DATA|HKEY_LOCAL_MACHINE|HKEY_PERFORMANCE_DATA|HKEY_USERS|HKLM|HKPD|HKU|IDABORT|IDCANCEL|IDIGNORE|IDNO|IDOK|IDRETRY|IDYES|MB_ABORTRETRYIGNORE|MB_DEFBUTTON1|MB_DEFBUTTON2|MB_DEFBUTTON3|MB_DEFBUTTON4|MB_ICONEXCLAMATION|MB_ICONINFORMATION|MB_ICONQUESTION|MB_ICONSTOP|MB_OK|MB_OKCANCEL|MB_RETRYCANCEL|MB_RIGHT|MB_RTLREADING|MB_SETFOREGROUND|MB_TOPMOST|MB_USERICON|MB_YESNO|NORMAL|OFFLINE|READONLY|SHCTX|SHELL_CONTEXT|SYSTEM|TEMPORARY)\"\n };\n const COMPILER = {\n // !compiler_flags\n className: \"keyword\",\n begin: /!(addincludedir|addplugindir|appendfile|cd|define|delfile|echo|else|endif|error|execute|finalize|getdllversion|gettlbversion|if|ifdef|ifmacrodef|ifmacrondef|ifndef|include|insertmacro|macro|macroend|makensis|packhdr|searchparse|searchreplace|system|tempfile|undef|verbose|warning)/\n };\n const METACHARS = {\n // $\\n, $\\r, $\\t, $$\n className: \"meta\",\n begin: /\\$(\\\\[nrt]|\\$)/\n };\n const PLUGINS = {\n // plug::ins\n className: \"class\",\n begin: /\\w+::\\w+/\n };\n const STRING = {\n className: \"string\",\n variants: [\n {\n begin: '\"',\n end: '\"'\n },\n {\n begin: \"'\",\n end: \"'\"\n },\n {\n begin: \"`\",\n end: \"`\"\n }\n ],\n illegal: /\\n/,\n contains: [\n METACHARS,\n CONSTANTS,\n DEFINES,\n VARIABLES,\n LANGUAGES\n ]\n };\n return {\n name: \"NSIS\",\n case_insensitive: false,\n keywords: {\n keyword: \"Abort AddBrandingImage AddSize AllowRootDirInstall AllowSkipFiles AutoCloseWindow BGFont BGGradient BrandingText BringToFront Call CallInstDLL Caption ChangeUI CheckBitmap ClearErrors CompletedText ComponentText CopyFiles CRCCheck CreateDirectory CreateFont CreateShortCut Delete DeleteINISec DeleteINIStr DeleteRegKey DeleteRegValue DetailPrint DetailsButtonText DirText DirVar DirVerify EnableWindow EnumRegKey EnumRegValue Exch Exec ExecShell ExecShellWait ExecWait ExpandEnvStrings File FileBufSize FileClose FileErrorText FileOpen FileRead FileReadByte FileReadUTF16LE FileReadWord FileWriteUTF16LE FileSeek FileWrite FileWriteByte FileWriteWord FindClose FindFirst FindNext FindWindow FlushINI GetCurInstType GetCurrentAddress GetDlgItem GetDLLVersion GetDLLVersionLocal GetErrorLevel GetFileTime GetFileTimeLocal GetFullPathName GetFunctionAddress GetInstDirError GetKnownFolderPath GetLabelAddress GetTempFileName Goto HideWindow Icon IfAbort IfErrors IfFileExists IfRebootFlag IfRtlLanguage IfShellVarContextAll IfSilent InitPluginsDir InstallButtonText InstallColors InstallDir InstallDirRegKey InstProgressFlags InstType InstTypeGetText InstTypeSetText Int64Cmp Int64CmpU Int64Fmt IntCmp IntCmpU IntFmt IntOp IntPtrCmp IntPtrCmpU IntPtrOp IsWindow LangString LicenseBkColor LicenseData LicenseForceSelection LicenseLangString LicenseText LoadAndSetImage LoadLanguageFile LockWindow LogSet LogText ManifestDPIAware ManifestLongPathAware ManifestMaxVersionTested ManifestSupportedOS MessageBox MiscButtonText Name Nop OutFile Page PageCallbacks PEAddResource PEDllCharacteristics PERemoveResource PESubsysVer Pop Push Quit ReadEnvStr ReadINIStr ReadRegDWORD ReadRegStr Reboot RegDLL Rename RequestExecutionLevel ReserveFile Return RMDir SearchPath SectionGetFlags SectionGetInstTypes SectionGetSize SectionGetText SectionIn SectionSetFlags SectionSetInstTypes SectionSetSize SectionSetText SendMessage SetAutoClose SetBrandingImage SetCompress SetCompressor SetCompressorDictSize SetCtlColors SetCurInstType SetDatablockOptimize SetDateSave SetDetailsPrint SetDetailsView SetErrorLevel SetErrors SetFileAttributes SetFont SetOutPath SetOverwrite SetRebootFlag SetRegView SetShellVarContext SetSilent ShowInstDetails ShowUninstDetails ShowWindow SilentInstall SilentUnInstall Sleep SpaceTexts StrCmp StrCmpS StrCpy StrLen SubCaption Unicode UninstallButtonText UninstallCaption UninstallIcon UninstallSubCaption UninstallText UninstPage UnRegDLL Var VIAddVersionKey VIFileVersion VIProductVersion WindowIcon WriteINIStr WriteRegBin WriteRegDWORD WriteRegExpandStr WriteRegMultiStr WriteRegNone WriteRegStr WriteUninstaller XPStyle\",\n literal: \"admin all auto both bottom bzip2 colored components current custom directory false force hide highest ifdiff ifnewer instfiles lastused leave left license listonly lzma nevershow none normal notset off on open print right show silent silentlog smooth textonly top true try un.components un.custom un.directory un.instfiles un.license uninstConfirm user Win10 Win7 Win8 WinVista zlib\"\n },\n contains: [\n hljs.HASH_COMMENT_MODE,\n hljs.C_BLOCK_COMMENT_MODE,\n hljs.COMMENT(\";\", \"$\", {\n relevance: 0\n }),\n {\n className: \"function\",\n beginKeywords: \"Function PageEx Section SectionGroup\",\n end: \"$\"\n },\n STRING,\n COMPILER,\n DEFINES,\n VARIABLES,\n LANGUAGES,\n PARAMETERS,\n PLUGINS,\n hljs.NUMBER_MODE\n ]\n };\n}", "function detectVariables(code) {\n\t var result = { 0: \"0\" };\n\t code.forEach(function (line) {\n\t var matcher = void 0,\n\t index = void 0;\n\t var VARIABLE_RE = /\\$\\{(\\d+)\\:(.*?)\\}/g;\n\t do {\n\t matcher = VARIABLE_RE.exec(line);\n\t if (matcher) {\n\t var _index = parseInt(matcher[1]);\n\t var variableContent = matcher[2];\n\t result[_index] = \"{\" + matcher[1] + \":\" + variableContent + \"}\";\n\t }\n\t } while (matcher);\n\t });\n\t return result;\n\t}", "function DeclareVariable(node, print) {\n this.push(\"declare var \");\n print.plain(node.id);\n print.plain(node.id.typeAnnotation);\n this.semicolon();\n}", "function VariablesAreInputTypes(context) {\n return {\n VariableDefinition: function VariableDefinition(node) {\n var type = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), node.type);\n\n // If the variable type is not an input type, return an error.\n if (type && !(0, _typeDefinition.isInputType)(type)) {\n var variableName = node.variable.name.value;\n context.reportError(new _error.GraphQLError(nonInputTypeOnVarMessage(variableName, (0, _languagePrinter.print)(node.type)), [node.type]));\n }\n }\n };\n}", "function variables(name, str) {\n var re = new RegExp(name + '\\\\.([a-zA-Z_][a-zA-Z_0-9]*)', 'g');\n var nameVar = {}, varname, vartype;\n var match = null;\n while (match = re.exec(str)) {\n if (!(match[1] in nameVar)) {\n varname = name + '_' + match[1] + '_' + (variables.count++);\n nameVar[match[1]] = varname;\n }\n }\n return nameVar; \n}", "function VarBlock(){ return ListNode.apply(this,arguments) }", "function readVariables(variables) {\n\n\t\t// Iterate through each parsed sheet.\n\t\tless.sheets.forEach(function(sheet) {\n\t\t\tvar href = less.extractId(sheet.href);\n\n\t\t\tvar sheetVariables = less.parsed[href] ? less.parsed[href]._variableHash : {};\n\n\t\t\t// Attempt to get the CSS value of each variable.\t\t\t\n\t\t\tfor(sheetVariable in sheetVariables) {\n\t\t\t\ttry {\n\t\t\t\t\tvar value = sheetVariables[sheetVariable].value.toCSS({compress: true});\n\n\t\t\t\t\t// See if we know about this variable.\n\t\t\t\t\tif(variables[sheetVariable]) {\n\t\t\t\t\t\tvariables[sheetVariable].value = value;\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// Create a new custom variable.\n\t\t\t\t\t\tvariables[sheetVariable] = {\n\t\t\t\t\t\t\tname: \tsheetVariable,\n\t\t\t\t\t\t\tgroup: \t'custom',\n\t\t\t\t\t\t\ttext: \ttrue\n\t\t\t\t\t\t};\n\t\t\t\t\t}\n\n\t\t\t\t} catch(e) {\n\t\t\t\t\t// For the moment, ignore derived variables.\n\t\t\t\t}\n\t\t\t}\n\t\t}, this);\n\n\t\treturn variables;\n\t}", "function variable(name, size, specifiers0) {\n var specifiers = set(specifiers0);\n var segment = {name: name};\n segment.type = type_in(specifiers);\n specs(segment, segment.type, specifiers);\n segment.size = size_of(segment, segment.type, size, segment.unit);\n if (segment.type == 'string') {\n add_string_specifiers(segment, specifiers);\n } else if (segment.type == 'binary') {\n add_binary_specifiers(segment, specifiers);\n }\n return segment;\n}" ]
[ "0.7294105", "0.7109119", "0.7006673", "0.7006673", "0.6995079", "0.68373275", "0.6801801", "0.6702027", "0.66963965", "0.669627", "0.669627", "0.66889995", "0.6667154", "0.66397494", "0.66358685", "0.6611495", "0.6594916", "0.6592061", "0.6567994", "0.6567994", "0.6567994", "0.6567994", "0.6564127", "0.6564127", "0.65346706", "0.6488358", "0.6488358", "0.6488358", "0.6488358", "0.6488358", "0.6488358", "0.645579", "0.6452808", "0.6397715", "0.6304611", "0.6249825", "0.6205553", "0.6203165", "0.61976665", "0.6184993", "0.60801363", "0.60801363", "0.60634", "0.60364807", "0.60254157", "0.60133004", "0.60133004", "0.597337", "0.59490603", "0.5936951", "0.59219104", "0.59208345", "0.58972317", "0.57975864", "0.5773348", "0.57359815", "0.57315737", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57196915", "0.57101035", "0.5709262", "0.5705193", "0.570024", "0.5691322", "0.5663461", "0.56594545", "0.5657992", "0.5657992", "0.56554574", "0.5642228", "0.5639438", "0.5626894", "0.5617874", "0.5617874", "0.56050056", "0.5601509", "0.5587632", "0.55762166", "0.5567465", "0.556028", "0.5556716", "0.55545783" ]
0.69709283
13
VariableDefinition : Variable : Type DefaultValue?
function parseVariableDefinition(lexer) { var start = lexer.token; return { kind: _kinds.VARIABLE_DEFINITION, variable: parseVariable(lexer), type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)), defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseVariableDefinition() {\n return this.node(this._lexer.token, {\n kind: Kind.VARIABLE_DEFINITION,\n variable: this.parseVariable(),\n type: (this.expectToken(TokenKind.COLON), this.parseTypeReference()),\n defaultValue: this.expectOptionalToken(TokenKind.EQUALS)\n ? this.parseConstValueLiteral()\n : undefined,\n directives: this.parseConstDirectives(),\n });\n }", "function DefaultValuesOfCorrectType(context) {\n\t return {\n\t VariableDefinition: function VariableDefinition(varDefAST) {\n\t var name = varDefAST.variable.name.value;\n\t var defaultValue = varDefAST.defaultValue;\n\t var type = context.getInputType();\n\t if (type instanceof _typeDefinition.GraphQLNonNull && defaultValue) {\n\t context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n\t }\n\t if (type && defaultValue) {\n\t var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n\t if (errors && errors.length > 0) {\n\t context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _languagePrinter.print)(defaultValue), errors), [defaultValue]));\n\t }\n\t }\n\t return false;\n\t },\n\t SelectionSet: function SelectionSet() {\n\t return false;\n\t },\n\t FragmentDefinition: function FragmentDefinition() {\n\t return false;\n\t }\n\t };\n\t}", "function DefaultValuesOfCorrectType(context) {\n return {\n VariableDefinition: function VariableDefinition(varDefAST) {\n var name = varDefAST.variable.name.value;\n var defaultValue = varDefAST.defaultValue;\n var type = context.getInputType();\n if (type instanceof _typeDefinition.GraphQLNonNull && defaultValue) {\n context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n }\n if (type && defaultValue) {\n var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _languagePrinter.print)(defaultValue), errors), [defaultValue]));\n }\n }\n return false;\n },\n SelectionSet: function SelectionSet() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition() {\n return false;\n }\n };\n}", "function parseVariableDefinition(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(lexer),\n\t type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n\t defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : null,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseVariableDefinition(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(lexer),\n\t type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n\t defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function DefaultValuesOfCorrectType(context) {\n return {\n VariableDefinition: function VariableDefinition(node) {\n var name = node.variable.name.value;\n var defaultValue = node.defaultValue;\n var type = context.getInputType();\n if (type instanceof _definition.GraphQLNonNull && defaultValue) {\n context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n }\n if (type && defaultValue) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _printer.print)(defaultValue), errors), [defaultValue]));\n }\n }\n return false;\n },\n\n SelectionSet: function SelectionSet() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition() {\n return false;\n }\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function defaultValue(v) { }", "function effectiveType(varType, varDef) {\n\t return !varDef.defaultValue || varType instanceof _typeDefinition.GraphQLNonNull ? varType : new _typeDefinition.GraphQLNonNull(varType);\n\t}", "function variable(name, argumentCount, isBuiltIn, value)\r\n{\r\n\tthis.name = name\r\n\tthis.argumentCount = argumentCount\r\n\tthis.isBuiltIn = isBuiltIn\r\n\tthis.value = value\r\n}", "function effectiveType(varType, varDef) {\n return !varDef.defaultValue || varType instanceof _definition.GraphQLNonNull ? varType : new _definition.GraphQLNonNull(varType);\n}", "function parseVariableDefinition(lexer$$1) {\n var start = lexer$$1.token;\n return {\n kind: kinds.VARIABLE_DEFINITION,\n variable: parseVariable(lexer$$1),\n type: (expect(lexer$$1, lexer.TokenKind.COLON), parseTypeReference(lexer$$1)),\n defaultValue: skip(lexer$$1, lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer$$1, true) : undefined,\n loc: loc(lexer$$1, start)\n };\n}", "['@_kind']() {\n super['@_kind']();\n if (this._value.kind) return;\n\n this._value.kind = 'variable';\n }", "function parseVariableDefinition(parser) {\n\t var start = parser.token.start;\n\t return {\n\t kind: _kinds.VARIABLE_DEFINITION,\n\t variable: parseVariable(parser),\n\t type: (expect(parser, _lexer.TokenKind.COLON), parseType(parser)),\n\t defaultValue: skip(parser, _lexer.TokenKind.EQUALS) ? parseValueLiteral(parser, true) : null,\n\t loc: loc(parser, start)\n\t };\n\t}", "function $$getDefaultValue() {\n\t\t\t\tif (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n\t\t\t\tvar defaultValue = injector.invoke(config.$$fn);\n\t\t\t\tif (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n\t\t\t\t\tthrow new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n\t\t\t\treturn defaultValue;\n\t\t\t}", "function effectiveType(varType, varDef) {\n return !varDef.defaultValue || varType instanceof _typeDefinition.GraphQLNonNull ? varType : new _typeDefinition.GraphQLNonNull(varType);\n}", "function $$getDefaultValue() {\n\t if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n\t var defaultValue = injector.invoke(config.$$fn);\n\t if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n\t throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n\t return defaultValue;\n\t }", "cfgValue(variable, defaultVal) {\n let val = defaultVal ? this.cfg.get(variable) : this.cfg.require(variable);\n if (typeof val === 'string') {\n let v = val.toLowerCase();\n if (v === 'no' || v === 'false' || v === 'none') {\n val = undefined;\n }\n }\n return val || defaultVal;\n }", "function allowedVariableUsage(schema, varType, varDefaultValue, locationType, locationDefaultValue) {\n if ((0, _definition.isNonNullType)(locationType) && !(0, _definition.isNonNullType)(varType)) {\n var hasNonNullVariableDefaultValue = varDefaultValue != null && varDefaultValue.kind !== _kinds.Kind.NULL;\n var hasLocationDefaultValue = locationDefaultValue !== undefined;\n\n if (!hasNonNullVariableDefaultValue && !hasLocationDefaultValue) {\n return false;\n }\n\n var nullableLocationType = locationType.ofType;\n return (0, _typeComparators.isTypeSubTypeOf)(schema, varType, nullableLocationType);\n }\n\n return (0, _typeComparators.isTypeSubTypeOf)(schema, varType, locationType);\n}", "function allowedVariableUsage(schema, varType, varDefaultValue, locationType, locationDefaultValue) {\n if ((0, _definition.isNonNullType)(locationType) && !(0, _definition.isNonNullType)(varType)) {\n var hasNonNullVariableDefaultValue = varDefaultValue != null && varDefaultValue.kind !== _kinds.Kind.NULL;\n var hasLocationDefaultValue = locationDefaultValue !== undefined;\n\n if (!hasNonNullVariableDefaultValue && !hasLocationDefaultValue) {\n return false;\n }\n\n var nullableLocationType = locationType.ofType;\n return (0, _typeComparators.isTypeSubTypeOf)(schema, varType, nullableLocationType);\n }\n\n return (0, _typeComparators.isTypeSubTypeOf)(schema, varType, locationType);\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "createBaseVars() {\n this.defaultList().forEach(name => {\n this.setVar(name.replace(`--default`, ''), this.getVar(name));\n });\n }", "function parseVariableDefinition(parser) {\n var start = parser.token.start;\n return {\n kind: _kinds.VARIABLE_DEFINITION,\n variable: parseVariable(parser),\n type: (expect(parser, _lexer.TokenKind.COLON), parseType(parser)),\n defaultValue: skip(parser, _lexer.TokenKind.EQUALS) ? parseValueLiteral(parser, true) : null,\n loc: loc(parser, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n\n if (lexer.options.experimentalVariableDefinitionDirectives) {\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds.Kind.VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer.TokenKind.COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer.TokenKind.EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function allowedVariableUsage(schema, varType, varDefaultValue, locationType, locationDefaultValue) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(locationType) && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(varType)) {\n var hasNonNullVariableDefaultValue = varDefaultValue != null && varDefaultValue.kind !== _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NULL;\n var hasLocationDefaultValue = locationDefaultValue !== undefined;\n\n if (!hasNonNullVariableDefaultValue && !hasLocationDefaultValue) {\n return false;\n }\n\n var nullableLocationType = locationType.ofType;\n return Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_5__[\"isTypeSubTypeOf\"])(schema, varType, nullableLocationType);\n }\n\n return Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_5__[\"isTypeSubTypeOf\"])(schema, varType, locationType);\n}", "function allowedVariableUsage(schema, varType, varDefaultValue, locationType, locationDefaultValue) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(locationType) && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(varType)) {\n var hasNonNullVariableDefaultValue = varDefaultValue != null && varDefaultValue.kind !== _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NULL;\n var hasLocationDefaultValue = locationDefaultValue !== undefined;\n\n if (!hasNonNullVariableDefaultValue && !hasLocationDefaultValue) {\n return false;\n }\n\n var nullableLocationType = locationType.ofType;\n return Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_5__[\"isTypeSubTypeOf\"])(schema, varType, nullableLocationType);\n }\n\n return Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_5__[\"isTypeSubTypeOf\"])(schema, varType, locationType);\n}", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function allowedVariableUsage(schema, varType, varDefaultValue, locationType, locationDefaultValue) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(locationType) && !Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isNonNullType\"])(varType)) {\n var hasNonNullVariableDefaultValue = varDefaultValue && varDefaultValue.kind !== _language_kinds__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NULL;\n var hasLocationDefaultValue = locationDefaultValue !== undefined;\n\n if (!hasNonNullVariableDefaultValue && !hasLocationDefaultValue) {\n return false;\n }\n\n var nullableLocationType = locationType.ofType;\n return Object(_utilities_typeComparators__WEBPACK_IMPORTED_MODULE_4__[\"isTypeSubTypeOf\"])(schema, varType, nullableLocationType);\n }\n\n return Object(_utilities_typeComparators__WEBPACK_IMPORTED_MODULE_4__[\"isTypeSubTypeOf\"])(schema, varType, locationType);\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n}", "function defineVar(instance_var, params) {\n var prefix = \"\";\n if( params.auto_private && !instance_var.type.startsWith(\"public \")\n && !instance_var.type.startsWith(\"private \")\n && !instance_var.type.startsWith(\"default \")\n && !instance_var.type.startsWith(\"protected \") )\n prefix = \"private \";\n if( isNotFinal(instance_var) ) return ` ` + prefix + instance_var.type + \" \" + instance_var.name + \";\";\n return ` ` + prefix + instance_var.type + \" \" + instance_var.name + \" = \" + getDefaultType(getType(instance_var)) + \";\";\n}", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function $$getDefaultValue() {\n if (!injector) throw new Error(\"Injectable functions cannot be called at configuration time\");\n var defaultValue = injector.invoke(config.$$fn);\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue))\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n return defaultValue;\n }", "function parseVariableDefinition(lexer) {\n var start = lexer.token;\n\n if (lexer.options.experimentalVariableDefinitionDirectives) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n directives: parseDirectives(lexer, true),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].VARIABLE_DEFINITION,\n variable: parseVariable(lexer),\n type: (expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON), parseTypeReference(lexer)),\n defaultValue: skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS) ? parseValueLiteral(lexer, true) : undefined,\n loc: loc(lexer, start)\n };\n}", "function defaulted(value,defaultValue){return value!==undefined?value:defaultValue;}", "get termType() {\n return 'Variable';\n }", "get termType() {\n return 'Variable';\n }", "function $$getDefaultValue() {\n if (!injector) {\n throw new Error(\"Injectable functions cannot be called at configuration time\");\n }\n\n var defaultValue = injector.invoke(config.$$fn);\n\n if (defaultValue !== null && defaultValue !== undefined && !self.type.is(defaultValue)) {\n throw new Error(\"Default value (\" + defaultValue + \") for parameter '\" + self.id + \"' is not an instance of Type (\" + self.type.name + \")\");\n }\n\n return defaultValue;\n }", "function v(v) { return {type: 'var', v}}", "get typeDefault()\n {\n return null;\n }", "function VariableDeclaration(){ return ListNode.apply(this,arguments) }", "function variable(name, size, specifiers0) {\n var specifiers = set(specifiers0);\n var segment = {name: name};\n segment.type = type_in(specifiers);\n specs(segment, segment.type, specifiers);\n segment.size = size_of(segment, segment.type, size, segment.unit);\n if (segment.type == 'string') {\n add_string_specifiers(segment, specifiers);\n } else if (segment.type == 'binary') {\n add_binary_specifiers(segment, specifiers);\n }\n return segment;\n}", "function VariableBlock()\r\n{\r\n this.objectName = \"Variable\";\r\n\tthis.divHeight=16;\r\n\tthis.divWidth=40;\r\n\tthis.variableValue=0;\r\n\tthis.text=0;\r\n}", "function toDefault(val, def) {\n if (is_1.isValue(val) && !(is_1.isEmpty(val) && !is_1.isEmpty(def)))\n return val;\n return is_1.isValue(def) ? def : null;\n}", "parseInputValueDef() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n let defaultValue;\n\n if (this.expectOptionalToken(TokenKind.EQUALS)) {\n defaultValue = this.parseConstValueLiteral();\n }\n\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.INPUT_VALUE_DEFINITION,\n description,\n name,\n type,\n defaultValue,\n directives,\n });\n }", "getDefaultValue(type) {\n switch (type) {\n case \"string\":\n return \"New Value\";\n case \"array\":\n return [];\n case \"boolean\":\n return false;\n case \"null\":\n return null;\n case \"number\":\n return 0;\n case \"object\":\n return {};\n default:\n // We don't have a datatype for some reason (perhaps additionalProperties was true)\n return \"New Value\";\n }\n }", "function defaultValue (key) {\n if (!checkAllAliases(key, flags.bools) &&\n !checkAllAliases(key, flags.counts) &&\n `${key}` in defaults) {\n return defaults[key]\n } else {\n return defaultForType(guessType(key))\n }\n }", "function defaultValue (key) {\n if (!checkAllAliases(key, flags.bools) &&\n !checkAllAliases(key, flags.counts) &&\n `${key}` in defaults) {\n return defaults[key]\n } else {\n return defaultForType(guessType(key))\n }\n }", "function variable(name, size, specifiers0) {\n var specifiers = set(specifiers0);\n var segment = {name: name};\n segment.type = type_in(specifiers);\n specs(segment, segment.type, specifiers);\n segment.size = size_of(segment, segment.type, size, segment.unit);\n return segment;\n}", "set default(defaultValue) {\n\t\tthis._hasDefault = true;\n\t\tthis._defaultValue = defaultValue;\n\t}", "function defaultValue(value, theDefault)\n {\n return (value !== undefined) ? value : theDefault;\n }", "function assignDefaultValue(value, defaultValue) {\n if (checkForParameter(value)) return value;\n return defaultValue;\n }", "function defaultValue(test,defaultValue) {\r\n\treturn (typeof test !== 'undefined' ? test : defaultValue);\r\n}", "function tidyDATATYPES_DEFINITIONS() {\n var defaultVal = {\n formula: false,\n icon: \"fas fa-asterisk\",\n color: \"primary\",\n format: (num, maxN) => {\n let n = (parseFloat(num)||0)\n if(n>999 || (maxN && maxN>999)) n = Math.round(n)\n return n.toLocaleString()\n },\n userParser: parseInt,\n filterable: true,\n selectable: true\n }\n for(var k in DATATYPES_DEFINITIONS) DATATYPES_DEFINITIONS[k] = {suffixName: k.toLowerCase(), ...defaultVal, ...DATATYPES_DEFINITIONS[k]}\n \n }", "function getVariableValue(\n schema: GraphQLSchema,\n definitionAST: VariableDefinition,\n input: ?any\n): any {\n var type = typeFromAST(schema, definitionAST.type);\n if (!type) {\n return null;\n }\n if (isValidValue(type, input)) {\n if (isNullish(input)) {\n var defaultValue = definitionAST.defaultValue;\n if (defaultValue) {\n return coerceValueAST(type, defaultValue);\n }\n }\n return coerceValue(type, input);\n }\n throw new GraphQLError(\n `Variable $${definitionAST.variable.name.value} expected value of type ` +\n `${print(definitionAST.type)} but got: ${JSON.stringify(input)}.`,\n [definitionAST]\n );\n}", "function getVariableValue(schema, definitionAST, input) {\n var type = (0, _utilitiesTypeFromAST.typeFromAST)(schema, definitionAST.type);\n var variable = definitionAST.variable;\n if (!type || !(0, _typeDefinition.isInputType)(type)) {\n throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" expected value of type ' + ('\"' + (0, _languagePrinter.print)(definitionAST.type) + '\" which cannot be used as an input type.'), [definitionAST]);\n }\n var inputType = type;\n var errors = (0, _utilitiesIsValidJSValue.isValidJSValue)(input, inputType);\n if (!errors.length) {\n if ((0, _jsutilsIsNullish2['default'])(input)) {\n var defaultValue = definitionAST.defaultValue;\n if (defaultValue) {\n return (0, _utilitiesValueFromAST.valueFromAST)(defaultValue, inputType);\n }\n }\n return coerceValue(inputType, input);\n }\n if ((0, _jsutilsIsNullish2['default'])(input)) {\n throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" of required type ' + ('\"' + (0, _languagePrinter.print)(definitionAST.type) + '\" was not provided.'), [definitionAST]);\n }\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" got invalid value ' + (JSON.stringify(input) + '.' + message), [definitionAST]);\n}", "static defineDefaults () {\n\n if (DEFAULTS_DEFINED) {\n return;\n }\n\n // Basic types\n this._defineTypeTest(\"string\", value => _.isString(value));\n this._defineTypeTest(\"number\", value => _.isNumber(value));\n this._defineTypeTest(\"boolean\", value => _.isBoolean(value));\n this._defineTypeTest(\"undefined\", value => value === undefined);\n this._defineTypeTest(\"null\", value => _.isNull(value));\n this._defineTypeTest(\"symbol\", value => _.isSymbol(value));\n this._defineTypeTest(\"function\", value => _.isFunction(value));\n this._defineTypeTest(\"Date\", value => value instanceof Date);\n this._defineTypeTest(\"array\", value => _.isArray(value));\n this._defineTypeTest(\"object\", value => _.isObject(value));\n this._defineTypeTest(\"promise\", value => TypeUtils.isPromise(value));\n this._defineTypeTest(\"Error\", value => value instanceof Error);\n this._defineTypeTest(\"TypeError\", value => value instanceof TypeError);\n this._defineTypeTest(\"URIError\", value => value instanceof URIError);\n this._defineTypeTest(\"SyntaxError\", value => value instanceof SyntaxError);\n this._defineTypeTest(\"ReferenceError\", value => value instanceof ReferenceError);\n this._defineTypeTest(\"RangeError\", value => value instanceof RangeError);\n this._defineTypeTest(\"EvalError\", value => value instanceof EvalError);\n\n // Aliases\n this._defineAliasType(\"String\", \"string\");\n this._defineAliasType(\"Number\", \"number\");\n this._defineAliasType(\"Boolean\", \"boolean\");\n this._defineAliasType(\"Symbol\", \"symbol\");\n this._defineAliasType(\"Function\", \"function\");\n this._defineAliasType(\"Object\", \"object\");\n this._defineAliasType(\"Array\", \"array\");\n this._defineAliasType(\"Promise\", \"promise\");\n\n DEFAULTS_DEFINED = true;\n }", "function Variable(values, options) {\n var ret;\n\n if (values instanceof Variable) { return values.clone(); }\n options = utils.getDefault(options, {});\n if (typeof values === 'function') {\n if (utils.isMissing(options.length)) {\n throw new Error('Variable definition via function requires length option');\n }\n values = new Vector(values, options.length);\n }\n values = Variable.ensureArray(values);\n options.mode = utils.getOption(options.mode, Object.keys(Variable.modes)) ||\n inferMode(values);\n ret = new Variable.modes[options.mode](values, options);\n ret._names = utils.missing;\n ret.label = options.label || '';\n return ret;\n }", "function defaultVal(actual, defaultValue) {\n\t return actual == null ? defaultValue : actual;\n\t}", "function Variable(initialValue, trainable, name) {\n if (trainable === void 0) { trainable = true; }\n var _this = _super.call(this, initialValue.shape, initialValue.dtype, null /* values */, initialValue.dataId) || this;\n _this.trainable = trainable;\n _this.name = name;\n if (_this.name == null) {\n _this.name = trackerFn().nextVariableId().toString();\n }\n try {\n trackerFn().registerVariable(_this);\n }\n catch (ex) {\n trackerFn().disposeTensor(_this);\n throw ex;\n }\n return _this;\n }", "function assignParameterValue(argument, defaultValue){\n\t\t\treturn typeof argument !== 'undefined' ? argument : defaultValue;\n\t\t}", "function assignParameterValue(argument, defaultValue){\n\t\t\treturn typeof argument !== 'undefined' ? argument : defaultValue;\n\t\t}", "constructor(defaultValue) {\n\t\tsuper(); \n\t\tthis.defaultValue = defaultValue;\n\t}", "function _defaultValueForType(typeName) {\n switch (typeName) {\n case 'string':\n return '';\n break;\n case 'number':\n return 0;\n break;\n case 'boolean':\n return false;\n break;\n case 'object':\n return {};\n break;\n case 'array':\n return [];\n break;\n case 'datetime':\n return new Date();\n break;\n default:\n return '';\n break;\n }\n }", "function createPropertyDefinition(object, name, desc, isSession) {\n var def = object._definition[name] = {};\n var type, descArray;\n\n if (_.isString(desc)) {\n // grab our type if all we've got is a string\n type = object._ensureValidType(desc);\n if (type) def.type = type;\n } else {\n\n //Transform array of ['type', required, default] to object form\n if (_.isArray(desc)) {\n descArray = desc;\n desc = {\n type: descArray[0],\n required: descArray[1],\n default: descArray[2]\n };\n }\n\n type = object._ensureValidType(desc.type);\n if (type) def.type = type;\n\n if (desc.required) def.required = true;\n\n if (desc.default && typeof desc.default === 'object') {\n throw new TypeError('The default value for ' + name + ' cannot be an object/array, must be a value or a function which returns a value/object/array');\n }\n def.default = desc.default;\n\n def.allowNull = desc.allowNull ? desc.allowNull : false;\n if (desc.setOnce) def.setOnce = true;\n if (def.required && _.isUndefined(def.default) && !def.setOnce) def.default = object._getDefaultForType(type);\n def.test = desc.test;\n def.values = desc.values;\n }\n if (isSession) def.session = true;\n\n // define a getter/setter on the prototype\n // but they get/set on the instance\n Object.defineProperty(object, name, {\n set: function (val) {\n this.set(name, val);\n },\n get: function () {\n var result = this._values[name];\n var typeDef = this._dataTypes[def.type];\n if (typeof result !== 'undefined') {\n if (typeDef && typeDef.get) {\n result = typeDef.get(result);\n }\n return result;\n }\n result = _.result(def, 'default');\n this._values[name] = result;\n return result;\n }\n });\n\n return def;\n}", "function setDefault( value, defaultValue ) {\n\tif( value==''){\n\t\treturn defaultValue;\n\t} else {\n\t\treturn value;\n\t}\n}", "function defaultForType(type) {\n var def = {\n boolean: true,\n string: '',\n number: undefined,\n array: []\n };\n return def[type];\n } // given a flag, enforce a default type.", "function defaultForType (type) {\n var def = {\n boolean: true,\n string: '',\n number: undefined,\n array: []\n }\n \n return def[type]\n }", "value(vDefault) {\n\t\tif (this.value_ === undefined) {\n\t\t\treturn vDefault;\n\t\t} else {\n\t\t\treturn this.value_;\n\t\t}\n\t}", "function createVariableBlock(initialValue) {\n // Make ourselves a clone of the original.\n var originalSetVariable = dom.find('sidebar wb-step[script=\"control.setVariable\"]');\n console.assert(originalSetVariable, 'Could not find setVariable block');\n var variableStep = originalSetVariable.cloneNode(true);\n\n // Set the expression here.\n variableStep\n .querySelector('wb-value[type=\"any\"]')\n .appendChild(initialValue);\n // TODO: autogenerate a good name.\n\n return variableStep;\n}", "function newVariable(_name, _argumentCount, _isBuiltIn, _value)\r\n{\r\n\tworkStack.push(variableLastLookup)\r\n\r\n\t_name = _name.toLowerCase() // !!!\r\n\tif (variableIsDefined(_name))\r\n\t{\r\n\t\tvariableArray[variableLastLookup].name = _name\r\n\t\tvariableArray[variableLastLookup].argumentCount = _argumentCount\r\n\t\tvariableArray[variableLastLookup].isBuiltIn = _isBuiltIn\r\n\t\tvariableArray[variableLastLookup].value = _value\r\n\t}\r\n\telse\r\n\t{\r\n\t\tvariableArray.push( new variable(_name, _argumentCount, _isBuiltIn, _value) )\r\n\t\tvariableCount = variableArray.length\r\n\t}\r\n\r\n\tvariableLastLookup = workStack.pop()\r\n}", "function PoolVariable(name, type, holderUUID, description) {\r\n this.name = name;\r\n this.uuid = guid();\r\n this.type = type;\r\n this.holderUUID = holderUUID;\r\n this.description = description;\r\n }", "function definedOr (value, defaultValue) {\n return (value === undefined)\n ? defaultValue\n : value\n}", "function defaultIntegerValue(v) { }", "function getVariableValue(schema, definitionAST, input) {\n\t var type = (0, _typeFromAST.typeFromAST)(schema, definitionAST.type);\n\t var variable = definitionAST.variable;\n\t if (!type || !(0, _definition.isInputType)(type)) {\n\t throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" expected value of type ' + ('\"' + (0, _printer.print)(definitionAST.type) + '\" which cannot be used as an input type.'), [definitionAST]);\n\t }\n\t var inputType = type;\n\t var errors = (0, _isValidJSValue.isValidJSValue)(input, inputType);\n\t if (!errors.length) {\n\t if ((0, _isNullish2.default)(input)) {\n\t var defaultValue = definitionAST.defaultValue;\n\t if (defaultValue) {\n\t return (0, _valueFromAST.valueFromAST)(defaultValue, inputType);\n\t }\n\t }\n\t return coerceValue(inputType, input);\n\t }\n\t if ((0, _isNullish2.default)(input)) {\n\t throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" of required type ' + ('\"' + (0, _printer.print)(definitionAST.type) + '\" was not provided.'), [definitionAST]);\n\t }\n\t var message = errors ? '\\n' + errors.join('\\n') : '';\n\t throw new _error.GraphQLError('Variable \"$' + variable.name.value + '\" got invalid value ' + (JSON.stringify(input) + '.' + message), [definitionAST]);\n\t}", "function Variable(scope,name,decl,o){\n\t\tthis._ref = STACK._counter++;\n\t\tthis._c = null;\n\t\tthis._scope = scope;\n\t\tthis._name = name;\n\t\tthis._alias = null;\n\t\tthis._initialized = true;\n\t\tthis._declarator = decl;\n\t\tthis._autodeclare = false;\n\t\tthis._declared = o && o.declared || false;\n\t\tthis._resolved = false;\n\t\tthis._options = o || {};\n\t\tthis._type = o && o.type || 'var'; // what about let here=\n\t\tthis._export = false;\n\t\tthis._references = []; // only needed when profiling\n\t\tthis._assignments = [];\n\t\tthis;\n\t}", "function defaultForType (type) {\n var def = {\n boolean: true,\n string: '',\n number: undefined,\n array: []\n }\n\n return def[type]\n }", "function defaultForType (type) {\n var def = {\n boolean: true,\n string: '',\n number: undefined,\n array: []\n }\n\n return def[type]\n }" ]
[ "0.6858048", "0.6546352", "0.64285564", "0.6237643", "0.62253755", "0.6216707", "0.62068427", "0.6157156", "0.6157156", "0.6157156", "0.6157156", "0.61292505", "0.6115962", "0.60804886", "0.60211694", "0.60082185", "0.6001197", "0.5978874", "0.59529495", "0.592531", "0.59190404", "0.5915817", "0.5882577", "0.5882577", "0.58816737", "0.5875904", "0.5874315", "0.5853417", "0.5831443", "0.5831443", "0.58308136", "0.5813255", "0.5806005", "0.5806005", "0.579481", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.57901615", "0.56728595", "0.5663205", "0.5611642", "0.5611642", "0.5611542", "0.56078166", "0.5585785", "0.5584754", "0.5583184", "0.5575365", "0.5574348", "0.55741096", "0.5569106", "0.555191", "0.555191", "0.5535358", "0.552926", "0.55221295", "0.55137044", "0.55013597", "0.5490057", "0.5487509", "0.5480684", "0.5472045", "0.5471898", "0.5442946", "0.54411155", "0.5439812", "0.5439812", "0.54088145", "0.5405864", "0.54030734", "0.5378208", "0.537062", "0.5357515", "0.5349579", "0.5337219", "0.53199965", "0.5314684", "0.5312644", "0.53023976", "0.5299585", "0.5284723", "0.52834684", "0.52834684" ]
0.6164193
11
Variable : $ Name
function parseVariable(lexer) { var start = lexer.token; expect(lexer, _lexer.TokenKind.DOLLAR); return { kind: _kinds.VARIABLE, name: parseName(lexer), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function createVariable() {\n var id = nextVariableId++;\n var name = '$V';\n\n do {\n name += variableTokens[id % variableTokensLength];\n id = ~~(id / variableTokensLength);\n } while (id !== 0);\n\n return name;\n }", "function makeVar(root, name) {\n name = name.toLowerCase().replace(/\\W/g, '_');\n return ' var ' + root + '_' + name;\n }", "function createVariable() {\n var id = nextVariableId++;\n var name = '$V';\n\n do {\n name += variableTokens[id % variableTokensLength];\n id = ~~(id / variableTokensLength);\n } while (id !== 0);\n\n return name;\n}", "parseVarName() {\n const token = this.input.next();\n if (token.type != \"var\") this.input.croak(\"Expect variable name\");\n return token.value;\n }", "createVar(match, pathBasename, variables, line) {\n const rep = match.split(':')[0].replace(':', '');\n const namespace = `${pathBasename}/${rep}`;\n const item = {\n title: rep,\n insert: rep,\n detail: `(${rep.replace('$', '')}) - ${pathBasename} Variable.`,\n kind: vscode_1.CompletionItemKind.Variable\n };\n variables[namespace] = { item, type: 'Variable' };\n return { state: variables, current: { line, namespace } };\n }", "variable(variableName) {\n return this.variableExpression(variableName);\n }", "variable(name) {\r\n\r\n // Check which one it is\r\n name = name.toLowerCase()\r\n if (name == \"user.displayname\") {\r\n\r\n // Get user's name\r\n return Account.username || \"User\"\r\n\r\n } else if (name == \"input\") {\r\n\r\n // Get previous action's input\r\n return this.lastActionInput\r\n\r\n } else {\r\n\r\n // Unkown variable, return value from the variable storage\r\n return this.localEntity.variables[name]\r\n\r\n }\r\n\r\n }", "function variables(name, str) {\n var re = new RegExp(name + '\\\\.([a-zA-Z_][a-zA-Z_0-9]*)', 'g');\n var nameVar = {}, varname, vartype;\n var match = null;\n while (match = re.exec(str)) {\n if (!(match[1] in nameVar)) {\n varname = name + '_' + match[1] + '_' + (variables.count++);\n nameVar[match[1]] = varname;\n }\n }\n return nameVar; \n}", "static get $name() {\n return (this.hasOwnProperty('_$name') && this._$name) || this.name;\n }", "function Variable(name) {\n if (!(this instanceof Variable)) {\n return new Variable(name);\n }\n\n this.name = name;\n}", "function extractVariableName(node) {\n return node !== undefined && ts.isIdentifier(node) ? node.escapedText.toString() : '$';\n}", "function userVarName(){\nvar var_name = 'function';\nvar n = 100;\nthis[var_name] = n;\nalert(this[var_name]);\n}", "setVariableName(newVariableName) { this.variableName.text(newVariableName); }", "function getVariable(str) {\n\n return str;\n}", "function isVar(t) { return t[0] == '$'; }", "parseVariable() {\n const start = this._lexer.token;\n this.expectToken(TokenKind.DOLLAR);\n return this.node(start, {\n kind: Kind.VARIABLE,\n name: this.parseName(),\n });\n }", "determineName() {\r\n\t\t\t\t\tvar message, name, node, ref1, tail;\r\n\t\t\t\t\tif (!this.variable) {\r\n\t\t\t\t\t\treturn null;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tref1 = this.variable.properties, [tail] = slice1.call(ref1, -1);\r\n\t\t\t\t\tnode = tail ? tail instanceof Access && tail.name : this.variable.base;\r\n\t\t\t\t\tif (!(node instanceof IdentifierLiteral || node instanceof PropertyName)) {\r\n\t\t\t\t\t\treturn null;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tname = node.value;\r\n\t\t\t\t\tif (!tail) {\r\n\t\t\t\t\t\tmessage = isUnassignable(name);\r\n\t\t\t\t\t\tif (message) {\r\n\t\t\t\t\t\t\tthis.variable.error(message);\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t\tif (indexOf.call(JS_FORBIDDEN, name) >= 0) {\r\n\t\t\t\t\t\treturn `_${name}`;\r\n\t\t\t\t\t} else {\r\n\t\t\t\t\t\treturn name;\r\n\t\t\t\t\t}\r\n\t\t\t\t}", "function greet(Name){\n var Name= \"Name!\"\n}", "['@_name']() {\n super['@_name']();\n if (this._value.name) return;\n\n this._value.name = this._node.declarations[0].id.name;\n }", "setValue(variableName,value) {\r\n this.variables[variableName] = value;\r\n }", "static get $name() {\n return Object.prototype.hasOwnProperty.call(this, '_$name') && this._$name || this.name;\n }", "_$name() {\n super._$name();\n this._value.name = this._node.key.name;\n }", "set name(x) { this._name = x; }", "function parseSrcVar( thing )\n {\n try {\n if( thing.startsWith( \"$\" ) )\n {\n return { tag: src_var_tag,\n name: thing.substring( 1 ) };\n }\n }\n catch( err ) {}\n throw new Error( \"Query: Expecting variable. Found: \" + thing );\n }", "function setVariableName(varName, alias, variableData, generateNewName){\n\t// console.log(\"----------------------------------------\");\n\t// console.log(varName, alias, variableData);\n\t// console.log(\"expressionLevelNames\", expressionLevelNames);\n\t// console.log(\"variableNamesClass\", variableNamesClass);\n\t// console.log(\"variableNamesAll\", variableNamesAll);\n\t// console.log(\"rrrrrrrrr\", variableNamesClass[varName]);\n\t// console.log(\"----------------------------------------\");\n\t// console.log(\" \");\n\tif(alias != null) {\n\t\t//console.log(\"1111\", varName, alias);\n\t\tvar aliasSet = false;\n\t\tfor(var key in idTable){\n\t\t\tif (idTable[key] == alias) {\n\t\t\t\tvariableNamesAll[alias] = {\"alias\" : alias + \"_\" +counter, \"nameIsTaken\" : true, \"counter\" : counter, \"isVar\" : true};\n\t\t\t\taliasSet = true;\n\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\t\tif (aliasSet == false) variableNamesAll[alias] = {\"alias\" : alias, \"nameIsTaken\" : true, \"counter\" : 0, \"isVar\" : true};\n\t\t\n\t\treturn variableNamesAll[alias][\"alias\"];\n\t}\n\telse if(variableData[\"kind\"] == \"PROPERTY_NAME\" || typeof variableData[\"kind\"] === 'undefined'){\n\t\t// console.log(\"2222\", varName);\n\t\t//??????????????????????????????????????\n\t\t//if(typeof variableNamesClass[varName] === 'undefined' || (typeof variableNamesClass[varName] !== 'undefined' && typeof variableNamesClass[varName][\"isvar\"] !== 'undefined' && variableNamesClass[varName][\"isvar\"] != true))applyExistsToFilter = true;\n\t\tif(typeof variableNamesClass[varName] === 'undefined' || (typeof variableNamesClass[varName] !== 'undefined' && (variableNamesClass[varName][\"isVar\"] != true ||\n\t\t\tvariableData[\"type\"] != null && (typeof variableData[\"type\"][\"maxCardinality\"] === 'undefined' || variableData[\"type\"][\"maxCardinality\"] > 1 || variableData[\"type\"][\"maxCardinality\"] == -1))))applyExistsToFilter = true;\n\t\t//??????????????????????????????????????\n\t\tif(generateNewName != null && generateNewName == true ){\n\t\t\t// console.log(\"2aaaa\", varName);\n\t\t\tif(typeof expressionLevelNames[varName] === 'undefined'){\n\t\t\t\tif(typeof variableNamesClass[varName]=== 'undefined'){\n\t\t\t\t\tif(typeof variableNamesAll[varName]=== 'undefined'){\n\t\t\t\t\t\texpressionLevelNames[varName] = varName;\n\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : 0, \"isVar\" : false};\n\t\t\t\t\t\tvariableNamesAll[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : 0, \"isVar\" : false};\n\t\t\t\t\t} else {\n\t\t\t\t\t\tvar count = variableNamesAll[varName][\"counter\"] + 1;\n\t\t\t\t\t\texpressionLevelNames[varName] = varName + \"_\" +count;\n\t\t\t\t\t\tvariableNamesAll[varName][\"counter\"] = count;\n\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName + \"_\" +count, \"nameIsTaken\" : variableNamesAll[varName][\"nameIsTaken\"], \"counter\" : count, \"isVar\" : variableNamesAll[varName][\"isVar\"]};\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\texpressionLevelNames[varName] = varName + \"_\" +count;\n\t\t\t\t\tvariableNamesClass[varName][\"counter\"] = count;\n\t\t\t\t\tvariableNamesAll[varName] = {\"alias\" : varName + \"_\" +count, \"nameIsTaken\" : variableNamesClass[varName][\"nameIsTaken\"], \"counter\" : count, \"isVar\" : variableNamesClass[varName][\"isVar\"]};\n\t\t\t\t\t//console.log(count, varName + \"_\" +count, variableNamesClass[varName][\"counter\"], variableNamesAll[varName][\"counter\"])\n\t\t\t\t}\n\t\t\t}else{\n\t\t\t\treturn expressionLevelNames[varName];\n\t\t\t}\n\t\t// cardinality is more then 1 or is unknown (for each variable new definition)\n\t\t} else if(variableData[\"type\"] != null && (typeof variableData[\"type\"][\"maxCardinality\"] === 'undefined' || variableData[\"type\"][\"maxCardinality\"] > 1 || variableData[\"type\"][\"maxCardinality\"] == -1)){\n\t\t// console.log(\"2bbbb\", varName);\t\t \n\t\t //if not used in given expression\n\t\t\tif(typeof expressionLevelNames[varName] === 'undefined'){\n\t\t\t\t//if not used in class scope\n\t\t\t\tif(typeof variableNamesClass[varName] === 'undefined'){\n\t\t\t\t\t//if not used in query scope\n\t\t\t\t\tif(typeof variableNamesAll[varName]=== 'undefined'){\n\t\t\t\t\t\t//not used at all\n\t\t\t\t\t\t\n\t\t\t\t\t\t//if simple variable\n\t\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : 0, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_1\", \"nameIsTaken\" : false, \"counter\" : 1, \"isVar\" : false};\n\t\t\t\t\t\t}\n\t\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\t\n\t\t\t\t\t//is used in query, but not in a given class (somewhere else)\n\t\t\t\t\t} else {\n\t\t\t\t\t\t//if simple variable\n\t\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\t\n\t\t\t\t\t\t\t//name is not taken\n\t\t\t\t\t\t\tif(variableNamesAll[varName][\"nameIsTaken\"] != true){\n\t\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : variableNamesAll[varName][\"counter\"], \"isVar\" : tempIsVar};\n\t\t\t\t\t\t\t//name is taken\n\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\tvar count = variableNamesAll[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t\t\tvariableNamesAll[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar}; //????? vai vajag\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t//is expression\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tvar count = variableNamesAll[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : variableNamesAll[varName][\"nameIsTaken\"], \"counter\" : count, \"isVar\" : false};\n\t\t\t\t\t\t}\n\t\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\t}\n\t\t\t\t\treturn variableNamesClass[varName][\"alias\"];\n\t\t\t\t//is used in a given class\n\t\t\t\t}else{\n\t\t\t\t\t//if simple variable\n\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\n\t\t\t\t\t\t//name is not taken\n\t\t\t\t\t\tif(variableNamesClass[varName][\"nameIsTaken\"] != true){\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : variableNamesClass[varName][\"counter\"], \"isVar\" : tempIsVar};\n\t\t\t\t\t\t//name is taken\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t}\n\t\t\t\t\t//is expression\n\t\t\t\t\t} else {\n\t\t\t\t\t\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : false};\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\treturn variableNamesClass[varName][\"alias\"];\n\t\t\t\t}\n\t\t\t//used in given expression\n\t\t\t} else {\n\t\t\t\treturn expressionLevelNames[varName];\n\t\t\t}\n\t\t}\n\t\t// cardinality is <=1\n\t\telse{\n\t\t\t// console.log(\"2cccc\", varName, isSimpleVariableForNameDef);\n\t\t\t//if not used in given expression\n\t\t\tif(typeof expressionLevelNames[varName] === 'undefined'){\n\t\t\t\t// console.log(\"2c 1\", varName);\n\t\t\t\t//if not used in class scope\n\t\t\t\tif(typeof variableNamesClass[varName] === 'undefined'){\n\t\t\t\t\t// console.log(\"2c 11\", varName);\n\t\t\t\t\t//if not used in query scope\n\t\t\t\t\tif(typeof variableNamesAll[varName]=== 'undefined'){\n\t\t\t\t\t\t//not used at all\n\t\t\t\t\t\t// console.log(\"2c 111\", varName, parseType);\n\t\t\t\t\t\t//if simple variable\n\t\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : 0, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_1\", \"nameIsTaken\" : false, \"counter\" : 1, \"isVar\" : false};\n\t\t\t\t\t\t}\n\t\t\t\t\t\t// console.log(\"variableNamesClass[varName]\", variableNamesClass[varName]);\n\t\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\t\n\t\t\t\t\t//is used in query, but not in a given class (somewhere else)\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// console.log(\"2c 112\", varName);\n\t\t\t\t\t\t//if simple variable\n\t\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\t\n\t\t\t\t\t\t\t//name is not taken\n\t\t\t\t\t\t\tif(variableNamesAll[varName][\"nameIsTaken\"] != true){\n\t\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : variableNamesAll[varName][\"counter\"], \"isVar\" : tempIsVar};\n\t\t\t\t\t\t\t//name is taken\n\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\tvar count = variableNamesAll[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t\t\tvariableNamesAll[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar}; //????? vai vajag\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t//is expression\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tvar count = variableNamesAll[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : variableNamesAll[varName][\"nameIsTaken\"], \"counter\" : count, \"isVar\" : false};\n\t\t\t\t\t\t}\n\t\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\t}\n\t\t\t\t\treturn variableNamesClass[varName][\"alias\"];\n\t\t\t\t//is used in a given class\n\t\t\t\t}else{\n\t\t\t\t\t// console.log(\"2c 12\", varName);\n\t\t\t\t\t//if simple variable\n\t\t\t\t\tif(isSimpleVariableForNameDef == true){\n\t\t\t\t\t\t// console.log(\"2c 121\", varName);\n\t\t\t\t\t\tvar tempIsVar = false;\n\t\t\t\t\t\tif(parseType == \"attribute\") tempIsVar = true;\n\t\t\t\t\t\t\n\t\t\t\t\t\t//name is not taken\n\t\t\t\t\t\tif(variableNamesClass[varName][\"nameIsTaken\"] != true){\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName, \"nameIsTaken\" : true, \"counter\" : variableNamesClass[varName][\"counter\"], \"isVar\" : tempIsVar};\n\t\t\t\t\t\t//name is taken\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t//if name is not defined as variable\n\t\t\t\t\t\t\tif(variableNamesClass[varName][\"isVar\"] != true) {\n\t\t\t\t\t\t\t\t\n\t\t\t\t\t\t\t\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count, \"isVar\" : tempIsVar};\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\t\t// console.log(\"variableNamesClass[varName]\", variableNamesClass[varName]);\n\t\t\t\t\t//is expression\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// console.log(\"2c 122\", varName);\n\t\t\t\t\t\t//name is not taken\n\t\t\t\t\t\tif(variableNamesClass[varName][\"nameIsTaken\"] != true){\n\t\t\t\t\t\t\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\t\t\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : false, \"counter\" : count, \"isVar\" : false};\n\t\t\t\t\t\t//name is taken\n\t\t\t\t\t\t} //else {\n\t\t\t\t\t\t//\tvar count = variableNamesClass[varName][\"counter\"] + 1;\n\t\t\t\t\t\t//\tvariableNamesClass[varName] = {\"alias\" : varName+\"_\"+count, \"nameIsTaken\" : true, \"counter\" : count};\n\t\t\t\t\t\t//}\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\texpressionLevelNames[varName] = variableNamesClass[varName][\"alias\"];\n\t\t\t\t\treturn variableNamesClass[varName][\"alias\"];\n\t\t\t\t}\n\t\t\t//used in given expression\n\t\t\t} else {\n\t\t\t\t// console.log(\"2c 2\", varName);\n\t\t\t\treturn expressionLevelNames[varName];\n\t\t\t}\n\t\t}\n\t\treturn expressionLevelNames[varName];\n\t} else {\n\t\t//console.log(\"3333\", varName);\n\t\treturn varName;\n\t}\n}", "function pgp_getVar(varName){\r\n\treturn varName+pgp_location;\r\n}", "function VarName(a,b){\n\t\tVarName.__super__.constructor.apply(this,arguments);\n\t\tthis._splat = b;\n\t}", "function getName(node) {\n\tvar str = node.name;\n\tif (varTab.hasOwnProperty(str)) return varTab[str];\n var name = \"_\" + (++count);\n return varTab[str] = { name: name, node: node };\n}", "function getVar(s, name, def) {\n\treturn JSON.parse(match(s, new RegExp(\"var \"+name+\" *= *([^;]+);\"),1,def));\n}", "function printName() {\n console.log(\"vardas\", vardas);\n}", "function getvar(name) {\n\t\treturn window[name];\n\t}", "function variable(name, argumentCount, isBuiltIn, value)\r\n{\r\n\tthis.name = name\r\n\tthis.argumentCount = argumentCount\r\n\tthis.isBuiltIn = isBuiltIn\r\n\tthis.value = value\r\n}", "function parseVariable(lexer$$1) {\n var start = lexer$$1.token;\n expect(lexer$$1, lexer.TokenKind.DOLLAR);\n return {\n kind: kinds.VARIABLE,\n name: parseName(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function retr(input)\n{\n var index = names.indexOf(input);\n return variables[index];\n}", "get name() {}", "get name() {}", "get name() {}", "get name() {}", "get name() {}", "get name() {}", "get name() {}", "get name() {}", "function getNameValue(variable) {\n switch (variable.expression.type) {\n case 'StringLiteral':\n return { name: variable.name, value: variable.expression.value }\n case 'NumberLiteral':\n return { name: variable.name, value: variable.expression.number }\n default:\n throw new Error(`Unknown Expressions ${variable.expression.type}`)\n }\n }", "function toVar(variable) {\n if (variable) {\n var first = variable[0];\n if (first === '?' || first === '$') return Parser.factory.variable(variable.substr(1));\n }\n return variable;\n }", "function name(name) {\n return name;\n }", "function translate(varName)\n{\n with(this)\n {\n var name = varName.toLowerCase();\n if(name.indexOf(\"[\") != -1)\n name = name.substr(0, name.indexOf(\"[\"));\n // does javascript do perl type substitution?? i wish\n if(name == \"definitions\")\n return definitions;\n else if(name == \"service\")\n return service;\n else if(name == \"porttype\")\n return porttype;\n else if(name == \"binding\")\n return binding;\n } \n}", "function findVariableName(listobject,props){\n\t\tprops.variableName = listobject.qDef.qFieldDefs[0];\n\t\tif (typeof props.variableName == 'object'){\n\t\t\tif(debug) console.log('set from expr');\n\t\t\tif ((listobject.qDef.qFieldDefs[0].qStringExpression.qExpr)){\n\t\t\t\tprops.variableName = listobject.qDef.qFieldDefs[0].qStringExpression.qExpr;\n\t\t\t} else {\n\t\t\t\tprops.variableName ='';\n\t\t\t}\n\t\t}\n\t\tif (debug) console.log('Var type:'+ typeof props.variableName);\n\t\tif (typeof props.variableName == 'string' && props.variableName){\n\t\t\tprops.variableName = props.variableName.replace(\"=\",'');\n\t\t} else {\n\t\t\tprops.variableName = '';\n\t\t}\n\t\tif(debug){ console.log(listobject); console.log(props); console.log(listobject.qDef.qFieldDefs[0]);}\n\t\tif (props.hideFromSelectionRealField && props.hideFromSelectionRealField != ''){\n\t\t\tprops.variableName = props.hideFromSelectionRealField;\n\t\t}\n\t\t/*if (props.variableName == '' || !props.variableName){\n\t\t\tprops.variableName = listobject.qDef.qFieldDefs[0];\n\t\t\tif(debug){ console.log(typeof props.variableName); }\n\t\t\tif (typeof props.variableName !== 'undefined' && typeof props.variableName !== 'object'){\n\t\t\t\tprops.variableName = props.variableName.replace(\"=\",'');\n\t\t\t} else {\n\t\t\t\tprops.variableName = '';\n\t\t\t}\n\t\t}*/\n\t\tprops.variableName = props.variableName.trim();\n\t\tlistobject.qDef.qFieldDefs[0] = props.variableName; //set back\n\t}", "variableOf(name) {\n\t\tfor (const v of this._vars) {\n\t\t\tif (v.name() === name) return v;\n\t\t}\n\t\treturn null;\n\t}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "function AccessVariableGlobally() {\n globalName=\"Block360\"\n var localVariable=\"CIE-NUST\"\n}", "function varName(s) {\n\t // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n\t const alphanumericS = s.replace(/\\W/g, '_');\n\t // Add _ if the string has leading numbers.\n\t return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n\t}", "function getName(instance_var) {\n instance_var = instance_var.name;\n instance_var = instance_var.split(\" \");\n instance_var = instance_var[instance_var.length - 1];\n return instance_var;\n}", "_$name() {\n super._$name();\n\n if (this._node.id) {\n this._value.name = this._node.id.name;\n } else {\n this._value.name = NamingUtil.filePathToName(this._pathResolver.filePath);\n }\n }", "getVar(variable) {\n\t\tconst tag = variable.toLowerCase();\n\t\treturn this._customVar[tag];\n\t}", "function assignNamedVariable(name,vec)\n\t{\n\t\tlet variable = getVariableWithName(name)\n\t\tif (variable === null)\n\t\t\tconsole.error(\"unrecognized variable name: \", name)\n\t\tcopyVariable(vec, variable.elements)\n\t}", "function someProcess() {\n let myName = \"X-AE-12\";\n console.log(myName);\n}", "function extractVariable() {\n extract('var');\n}", "function hello(first, last){\n let myName = first + ' ' + last;\n console.log(`Hello, ${myName}.`); //In order for $ to work use backtics ``\n}", "function v(v) { return {type: 'var', v}}", "['@_name']() {\n let value = this._findTagValue(['@_name', '@external']);\n if (!value) {\n logger.w(`can not resolve name.`);\n }\n\n this._value.name = value;\n\n let tags = this._findAll(['@_name', '@external']);\n if (!tags) {\n logger.w(`can not resolve name.`);\n return;\n }\n\n let name;\n for (let tag of tags) {\n let {tagName, tagValue} = tag;\n if (tagName === '@_name') {\n name = tagValue;\n } else if (tagName === '@external') {\n let {typeText, paramDesc} = ParamParser.parseParamValue(tagValue, true, false, true);\n name = typeText;\n this._value.externalLink = paramDesc;\n }\n }\n\n this._value.name = name;\n }", "function varName(s) {\n // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n var alphanumericS = s.replace(/\\W/g, '_');\n // Add _ if the string has leading numbers.\n return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n }", "get termType() {\n return 'Variable';\n }", "get termType() {\n return 'Variable';\n }", "function nameOf_(formula) {\n var nameExtractRegex = new RegExp(\"^=?\\\\(\"+commentStart+\"(\"+varName+\")(?:\\\\([^\\\\)]*\\\\))?=\"+commentEnd+any+\"*\\\\)$\");\n nameExtractRegex.lastIndex = 0;\n var m = nameExtractRegex.exec(formula);\n if(m) {\n return m[1];\n }\n nameExtractRegex = new RegExp(\"^=?(\"+varName+\")@\"+any+\"*$\");\n nameExtractRegex.lastIndex = 0;\n var m = nameExtractRegex.exec(formula);\n if(m) {\n return m[1];\n }\n return LAST_NAME;// Default name undefined; // means no value\n}", "setVariable(name, value) {\n core.exportVariable(name, value);\n }", "function myFunction() {\n \n var carName = \"Volvo\"; // code here CAN use carName\n\n}", "function dash (name) {\n return varname.split(name).join('-');\n}", "function dash (name) {\n return varname.split(name).join('-');\n}", "function name(inName)\t{\n\t//\tclean up anything that might exist\n\tclean();\n\t\n\t//\tstore the var locally (need it for some 'set' msgs)\n\tmyName = inName;\n\t//\tpopulate the 'label' field (we'll re-populate it later if this isf has a valid label value)\n\tthis.patcher.getnamed(\"LABEL\").set(inName);\n}", "function get_my_name(name){\n return name;\n}", "function readVariable(){\r\n\t\tvar ret={name:\"\"};\r\n\t\tnext();\r\n\t\treturn {name:word}\r\n\t\tswitch(type){\r\n\t\t\tcase \"word\":\r\n\t\t\t\tret.name=word;\r\n\t\t\tbreak;default:\r\n\t\t\t\treadNext=0;\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}", "function myName(name) {\n return name;\n}", "function updateVarName(newName) {\n this.val(newName);\n this.data('old-value', newName);\n}", "function getName() {\n var name = \"Beata\";\n return name;\n}", "function getName() { return name; }", "function getVariableBlock(){ \n \nworkspacePlayground.updateToolbox(\"<category name='%{BKY_CATVARIABLES}' colour='%{BKY_VARIABLES_HUE}' custom='VARIABLE'><block type='variables_get'></block><block type='variables_set'></block><block type='changes_by'></block></category>\");\n\n \n \n }", "getName() {}", "function varName(iconName) {\n\t let name = '';\n\t const parts = iconName.split('-');\n\t parts.forEach((part, index) => {\n\t name += index ? part.slice(0, 1).toUpperCase() + part.slice(1) : part;\n\t });\n\t if (name.charCodeAt(0) < 97 || name.charCodeAt(0) > 122) {\n\t // Not a-z - add \"icon\" at start\n\t name = 'icon' + name.slice(0, 1).toUpperCase() + name.slice(1);\n\t }\n\t else if (parts.length < 2) {\n\t // Add \"Icon\" to avoid reserved keywords\n\t name += 'Icon';\n\t }\n\t return name;\n\t}", "function myName() {\n return myName.juvenal;\n}", "function printName() {\n var name = \"Luke Mason\" // hint.. add a parameter on this line :)\n console.log(name)\n}", "function getName() {\n\treturn name;\n}", "get variable() {\n\t\treturn this.__variable;\n\t}", "function setVariableValue(variableName, currentValue) {\r\tvar newValue = '';\r\tswitch(variableName) {\r\t\tcase \"SPNL Week\":\r\t\t\tnewValue = pad(getWeekNumber(getPublishDate()), 2);\r\t\t\tbreak;\r\t\tcase \"SPNL Date\":\r\t\t\tnewValue = formatPublishDate(getPublishDate());\r\t\t\tbreak;\r default:\r newValue = currentValue;\r\t}\r\treturn newValue;\r}", "function myName() {\n return myName.darius;\n}", "function underscore (name) {\n return varname.split(name).join('_');\n}", "function underscore (name) {\n return varname.split(name).join('_');\n}", "meta() {\n return {\n display_name: localize('Change variable'),\n description: localize('This block adds the given number to the selected variable.'),\n };\n }", "function testVariableNames_0() {\n var a = 1;\n assertEquals(1,a);\n}", "function varName(s) {\n // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n var alphanumericS = s.replace(/\\W/g, '_');\n // Add _ if the string has leading numbers.\n return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n}", "function parseVariable(lexer) {\n var start = lexer.token;\n expectToken(lexer, TokenKind.DOLLAR);\n return {\n kind: Kind.VARIABLE,\n name: parseName(lexer),\n loc: loc(lexer, start)\n };\n}", "setName(value){\n\t\tthis.name = value;\n\t}", "function duplicateVariableMessage(variableName) {\n return \"There can be only one variable named \\\"\".concat(variableName, \"\\\".\");\n}", "function PoolVariable(name, type, holderUUID, description) {\r\n this.name = name;\r\n this.uuid = guid();\r\n this.type = type;\r\n this.holderUUID = holderUUID;\r\n this.description = description;\r\n }", "function VariableBlock()\r\n{\r\n this.objectName = \"Variable\";\r\n\tthis.divHeight=16;\r\n\tthis.divWidth=40;\r\n\tthis.variableValue=0;\r\n\tthis.text=0;\r\n}", "function changeValue(name) {\n name = \"Thang\";\n // var name = \"TEST\";\n console.log(\"name: \", name);\n // var number = 1;\n}" ]
[ "0.6945701", "0.6884038", "0.6858726", "0.6830075", "0.6722742", "0.669976", "0.66969347", "0.6647729", "0.6564104", "0.65095234", "0.6448056", "0.6433639", "0.6406728", "0.6377274", "0.63718086", "0.63441086", "0.6315028", "0.6285289", "0.62734824", "0.62667507", "0.62561864", "0.6245524", "0.6173903", "0.6161879", "0.6153615", "0.6144534", "0.61407006", "0.6139803", "0.61346245", "0.6122301", "0.6117117", "0.6104681", "0.6102964", "0.60936016", "0.6068874", "0.6068874", "0.6068874", "0.6068874", "0.6068874", "0.6068874", "0.6068874", "0.6068874", "0.606056", "0.6051829", "0.6051064", "0.6049643", "0.60478073", "0.6014094", "0.6009363", "0.6009363", "0.6009363", "0.6009363", "0.6009363", "0.6009363", "0.6009363", "0.5998298", "0.5992101", "0.5991871", "0.5984838", "0.59685713", "0.5967873", "0.5964961", "0.59623545", "0.59585524", "0.59551764", "0.59487396", "0.59339315", "0.5915298", "0.5915298", "0.59117335", "0.5893289", "0.5892167", "0.58826286", "0.58826286", "0.58815205", "0.58815163", "0.5880234", "0.5867588", "0.58673674", "0.585461", "0.5843998", "0.58376986", "0.5829339", "0.5828714", "0.58113754", "0.5807894", "0.5807782", "0.5804911", "0.58028454", "0.58018035", "0.57846665", "0.57846665", "0.57693505", "0.5768357", "0.57480055", "0.5737395", "0.57345825", "0.57322043", "0.5710063", "0.5708959", "0.5708897" ]
0.0
-1
Selection : Field FragmentSpread InlineFragment
function parseSelection(lexer) { return peek(lexer, _lexer.TokenKind.SPREAD) ? parseFragment(lexer) : parseField(lexer); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseSelection() {\n return this.peek(TokenKind.SPREAD)\n ? this.parseFragment()\n : this.parseField();\n }", "function parseSelection(lexer) {\n return peek(lexer, TokenKind.SPREAD) ? parseFragment(lexer) : parseField(lexer);\n}", "function parseSelection(lexer) {\n\t return peek(lexer, _lexer.TokenKind.SPREAD) ? parseFragment(lexer) : parseField(lexer);\n\t}", "function parseSelection(lexer) {\n\t return peek(lexer, _lexer.TokenKind.SPREAD) ? parseFragment(lexer) : parseField(lexer);\n\t}", "function parseSelection(lexer$$1) {\n return peek(lexer$$1, lexer.TokenKind.SPREAD) ? parseFragment(lexer$$1) : parseField(lexer$$1);\n}", "function parseSelection(parser) {\n\t return peek(parser, _lexer.TokenKind.SPREAD) ? parseFragment(parser) : parseField(parser);\n\t}", "function parseSelection(parser) {\n return peek(parser, _lexer.TokenKind.SPREAD) ? parseFragment(parser) : parseField(parser);\n}", "selectIt() {\n var index = 1,\n text,\n modIndex,\n modLength;\n text = this.selected.text;\n modIndex = this.mod.indexOf(text);\n modLength = this.mod.slice(0, modIndex).length;\n var modEnd = this.mod.slice(modIndex + text.length, this.mod.length);\n if (this.modded) {\n index = this.selected.start + modLength;\n } else {\n index = this.selected.start - modLength;\n }\n this.el.focus();\n // el.selectionStart = index;\n // el.selectionEnd = selected.text.length + index;\n var ending = this.selected.text.length + index;\n this.setSelectionRange(this.el, index, ending);\n }", "function getSelection(){\n return selection;\n }", "function parseSelection(lexer) {\n return peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD) ? parseFragment(lexer) : parseField(lexer);\n}", "function parseSelection(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD) ? parseFragment(lexer) : parseField(lexer);\n}", "function parseSelection(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD) ? parseFragment(lexer) : parseField(lexer);\n}", "function parseSelection(lexer) {\n return peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD) ? parseFragment(lexer) : parseField(lexer);\n}", "static get tag(){return\"rich-text-editor-selection\"}", "function SelectionRegion() {}", "function SelectionRegion() {}", "function get_selection()\n {\n return selection;\n }", "function insertTextAtSelection(editorState,selection,text){var newContentState=DraftModifier.insertText(editorState.getCurrentContent(),selection,text,editorState.getCurrentInlineStyle());return EditorState.push(editorState,newContentState,'insert-fragment');}", "function SelectionChange() {}", "function SelectionChange() {}", "function SelectionChange() {}", "function SelectionChange() {}", "function updateSelection(editorState,selection,forceSelection){return EditorState.set(editorState,{selection:selection,forceSelection:forceSelection,nativelyRenderedContent:null,inlineStyleOverride:null});}", "triggerSelectedEvent(selection){\n\t\tvar range, cfirange;\n\n\t\tif (selection && selection.rangeCount > 0) {\n\t\t\trange = selection.getRangeAt(0);\n\t\t\tif(!range.collapsed) {\n\t\t\t\t// cfirange = this.section.cfiFromRange(range);\n\t\t\t\tcfirange = new EpubCFI(range, this.cfiBase).toString();\n\t\t\t\tthis.emit(EVENTS.CONTENTS.SELECTED, cfirange);\n\t\t\t\tthis.emit(EVENTS.CONTENTS.SELECTED_RANGE, range);\n\t\t\t}\n\t\t}\n\t}", "moveForward() {\n let indexInInline = 0;\n let inlineObj = this.currentWidget.getInline(this.offset, indexInInline);\n let inline = inlineObj.element;\n indexInInline = inlineObj.index;\n if (!isNullOrUndefined(inline)) {\n if (!this.owner.selection.isEmpty && indexInInline === inline.length && inline instanceof FieldElementBox\n && inline.fieldType === 1) {\n let hierarchicalIndex = this.owner.selection.start.getHierarchicalIndexInternal();\n // tslint:disable-next-line:max-line-length\n let fieldBeginOffset = inline.fieldBegin.line.getOffset(inline.fieldBegin, 0);\n // tslint:disable-next-line:max-line-length\n let fieldBeginIndex = this.getHierarchicalIndex(inline.fieldBegin.line, fieldBeginOffset.toString());\n if (!TextPosition.isForwardSelection(hierarchicalIndex, fieldBeginIndex)) {\n //If field begin is before selection start, move selection start to field begin.\n // tslint:disable-next-line:max-line-length\n this.owner.selection.start.setPositionParagraph(inline.fieldBegin.line, fieldBeginOffset);\n return;\n }\n }\n inline = this.selection.getNextRenderedElementBox(inline, indexInInline);\n }\n if (inline instanceof FieldElementBox && !isNullOrUndefined(inline.fieldEnd)) {\n let selectionStartParagraph = this.owner.selection.start.paragraph;\n let selectionStartIndex = 0;\n // tslint:disable-next-line:max-line-length\n let selectionStartInlineObj = selectionStartParagraph.getInline(this.owner.selection.start.offset, selectionStartIndex);\n let selectionStartInline = selectionStartInlineObj.element;\n selectionStartIndex = selectionStartInlineObj.index;\n let nextRenderInline = this.selection.getNextRenderedElementBox(selectionStartInline, selectionStartIndex);\n if (nextRenderInline === inline) {\n this.moveNextPositionInternal(inline);\n }\n else {\n //If selection start is before field begin, extend selection end to field end.\n inline = inline.fieldEnd;\n this.currentWidget = inline.line;\n this.offset = this.currentWidget.getOffset(inline, 1);\n //Updates physical position in current page.\n this.updatePhysicalPosition(true);\n return;\n }\n }\n else if ((inline instanceof FieldElementBox)\n && (inline.fieldType === 0 || inline.fieldType === 1)) {\n this.currentWidget = inline.line;\n this.offset = this.currentWidget.getOffset(inline, 1);\n }\n indexInInline = 0;\n let nextOffset = this.selection.getNextValidOffset(this.currentWidget, this.offset);\n let length = this.selection.getLineLength(this.currentWidget);\n let isParagraphEnd = this.selection.isParagraphLastLine(this.currentWidget);\n if (this.offset < nextOffset) {\n this.offset = nextOffset;\n let inlineObj = this.currentWidget.getInline(this.offset, indexInInline);\n inline = inlineObj.element;\n indexInInline = inlineObj.index;\n if (!isNullOrUndefined(inline) && indexInInline === inline.length && inline.nextNode instanceof FieldElementBox) {\n let nextValidInline = this.selection.getNextValidElement(inline.nextNode);\n //Moves to field end mark.\n if (nextValidInline instanceof FieldElementBox && nextValidInline.fieldType === 1) {\n inline = nextValidInline;\n this.offset = this.currentWidget.getOffset(inline, 1);\n }\n }\n }\n else if (this.offset === nextOffset && this.offset < length + 1 && isParagraphEnd) {\n this.offset = length + 1;\n }\n else {\n this.updateOffsetToNextParagraph(indexInInline, true);\n }\n //Gets physical position in current page.\n this.updatePhysicalPosition(true);\n }", "getStartLineWidget(paragraph, start, startElement, selectionStartIndex) {\n let offset = paragraph === start.paragraph ? start.offset : this.getStartOffset(paragraph);\n let startInlineObj = undefined;\n if (paragraph === start.paragraph) {\n startInlineObj = start.currentWidget.getInline(offset, selectionStartIndex);\n }\n else {\n startInlineObj = paragraph.firstChild.getInline(offset, selectionStartIndex);\n }\n startElement = startInlineObj.element; //return selectionStartIndex\n selectionStartIndex = startInlineObj.index;\n if (startElement instanceof FieldElementBox) {\n let inlineInfo = this.getRenderedInline(startElement, selectionStartIndex);\n startElement = inlineInfo.element;\n selectionStartIndex = inlineInfo.index;\n }\n if (offset === this.getParagraphLength(start.paragraph) + 1) {\n selectionStartIndex++;\n }\n return {\n 'index': selectionStartIndex, 'element': startElement\n };\n }", "function getTransformedSelections(definition, path, gqlType, execContext) {\n const {\n variables,\n } = execContext;\n\n const selectionsMap = definition.selectionSet.selections.reduce((o, sel) => {\n if (variables && !shouldInclude(sel, variables)) {\n\n // Skip this entirely\n return o;\n }\n if (sel.kind !== 'FragmentSpread') {\n const transformed = transformDefinition(sel, execContext, path, gqlType);\n const name = getDefinitionID(sel);\n\n // Merge existing value.\n if (name in o) {\n o[name] = mergeDefinitions(o[name], transformed);\n return o;\n }\n\n o[name] = transformed;\n return o;\n }\n\n const fragment = getFragmentOrDie(sel.name.value, execContext);\n const typeCondition = fragment.typeCondition.name.value;\n\n // Turn NamedFragment into an InlineFragment.\n if (gqlType !== typeCondition || fragment.directives.length) {\n const node = {\n ...fragment,\n kind: 'InlineFragment',\n };\n const name = getDefinitionID(node);\n\n // Merge existing value.\n if (name in o) {\n o[name] = mergeDefinitions(o[name], node);\n return o;\n }\n\n o[name] = node;\n return o;\n }\n\n // Merge NamedFragment directly into selections.\n const fragmentSelections = fragment.selectionSet.selections;\n fragmentSelections.forEach((s) => {\n\n if (variables && !shouldInclude(s, variables)) {\n\n // Skip this entirely\n return;\n }\n\n const selName = getDefinitionID(s);\n if (!(selName in o)) {\n o[selName] = s;\n return;\n }\n\n o[selName] = mergeDefinitions(o[selName], s);\n });\n return o;\n }, {});\n\n const selections = Object.keys(selectionsMap).map((key) => selectionsMap[key]);\n return selections;\n}", "setRange() {\n /* if command is formatBlock expand selection to entire block */\n let block = this._getSelectedBlock();\n\n if (block) this.__selection.selectNode(block);\n }", "function getSelectedFragment() {\n var selection = window.getSelection();\n var selected_text = selection.toString();\n\tvar data = {\n\t\turl : window.location.href,\n\t\tsite_url: window.location.protocol + \"//\" + window.location.host\n }\n\n\tif (selection.rangeCount === 0)\n return data;\n\tvar range = selection.getRangeAt(0);\n var object = range.commonAncestorContainer.nodeName === \"#text\"? range.commonAncestorContainer.parentElement: range.commonAncestorContainer;\n var source = getHtml(object);\n var start = getPosition(object, range.startContainer, range.startOffset);\n var end = getPosition(object, range.endContainer, range.endOffset);\n data.source = source;\n data.start = start;\n data.end = end;\n console.log(data);\n return data;\n}", "_applySelection(mode, details) {\n const that = this;\n\n function createSelectionTags() {\n while (that.$.selectionField.firstElementChild.nodeName === 'SPAN') {\n that.$.selectionField.removeChild(that.$.selectionField.firstElementChild)\n }\n\n let fragment = document.createDocumentFragment(), element, icon;\n\n if (that.selectionDisplayMode === 'tokens') {\n if (that.selectedIndexes.length === 1 && (that.selectionMode === 'oneOrManyExtended' || that.selectionMode === 'oneOrMany')) {\n icon = '';\n }\n else {\n icon = '&#10006'\n }\n }\n else {\n icon = ',';\n }\n\n that.selectedIndexes.map(index => {\n element = that._applyTokenTemplate(that.$.listBox._items[index][that.inputMember], icon);\n element._value = that.$.listBox._items[index].value;\n fragment.appendChild(element);\n });\n\n that.$.selectionField.insertBefore(fragment, that.$.input);\n that._currentSelection = that.selectedIndexes.map(i => that.$.listBox._items[i][that.inputMember]);\n that.$.container.setAttribute('has-value', '');\n that._oldValue = that.value = that._currentSelection.toString();\n that._positionDetection.positionDropDown();\n }\n\n that.$.autoCompleteString.textContent = '';\n\n if (that.selectedIndexes.length === 0) {\n that._clearSelection(details && details.index > -1 && that.$.input.value === that.$.listBox._items[details.index][that.inputMember]);\n return;\n }\n\n if (!that.$.listBox._items || that.$.listBox._items.length === 0) {\n return;\n }\n\n if (that.selectionMode === 'one' || that.selectionMode === 'zeroOrOne' || that.selectionMode === 'radioButton') {\n if (that._currentSelection && that._currentSelection.length > that.selectedIndexes.length) {\n that._currentSelection = that.selectedIndexes.map(i => that.$.listBox._items[i][that.inputMember]);\n that.$.input.value = that._currentSelection.toString();\n that._oldValue = that.value = that._currentSelection.toString();\n return;\n }\n\n that._clearSelection();\n that._currentSelection = that.selectedIndexes.map(i => that.$.listBox._items[i][that.inputMember]);\n that.$.input.value = that._currentSelection.toString();\n that._oldValue = that.value = that._currentSelection.toString();\n\n that.$.container.setAttribute('has-value', '');\n\n if (that.autoComplete !== 'none' && typeof that.dataSource !== 'function') {\n that._autoComplete(true);\n that.close();\n }\n }\n else {\n that.$.input.value = '';\n that.$.input.placeholder = '';\n that.$.container.setAttribute('has-value', '');\n\n if (!that._currentSelection || that.selectionMode === 'oneOrManyExtended' || (that.selectionMode === 'radioButton' && !that.grouped)) {\n createSelectionTags();\n return;\n }\n\n const selectionTags = that.$.selectionField.getElementsByClassName('jqx-token');\n\n if (that._currentSelection.length < that.selectedIndexes.length) {\n let selectedLabels = that.selectedIndexes.map(index => that.$.listBox._items[index][that.inputMember]);\n\n for (let i = 0; i < selectedLabels.length; i++) {\n if (that._currentSelection.indexOf(selectedLabels[i]) < 0) {\n const item = that.$.listBox._items[that.selectedIndexes[i]];\n let element, icon;\n\n if (that.selectionDisplayMode === 'tokens') {\n if (that.selectedIndexes.length === 1 && (that.selectionMode === 'oneOrManyExtended' || that.selectionMode === 'oneOrMany')) {\n icon = '';\n }\n else {\n icon = '&#10006'\n }\n }\n else {\n icon = ',';\n }\n\n if (that.selectedIndexes.length === 1 && (that.selectionMode === 'oneOrManyExtended' || that.selectionMode === 'oneOrMany')) {\n icon = '';\n }\n\n element = that._applyTokenTemplate(item[that.inputMember], icon);\n element._value = item.value;\n that.$.selectionField.insertBefore(element, that.$.input);\n }\n }\n\n if (that.autoComplete !== 'none' && (that.$.listBox._filteredItems && that.$.listBox._filteredItems.length !== that.$.listBox._items.length)) {\n that._autoComplete(true);\n }\n\n that._positionDetection.positionDropDown();\n }\n else if ((that._currentSelection.length > 0 && selectionTags.length === 0) ||\n (that._currentSelection.length === that.selectedIndexes.length && that._currentSelection.toString() !== that.selectedValues.toString())) {\n createSelectionTags();\n return;\n }\n else {\n if (!details) {\n return;\n }\n\n for (let t = 0; t < selectionTags.length; t++) {\n if (selectionTags[t]._value === details.value) {\n that.$.selectionField.removeChild(selectionTags[t]);\n break;\n }\n }\n }\n\n that._currentSelection = that.selectedIndexes.map(i => that.$.listBox._items[i][that.inputMember]);\n that._oldValue = that.value = that._currentSelection.toString();\n }\n }", "setRange() {\n /* if command is formatBlock expand selection to entire block */\n let block = this.rangeQuery();\n if (block) this.selectNode(block);\n }", "function SelectionChange() { }", "function SelectionChange() { }", "function toggleSelection() {\r\n // we want to update our UI to make it look like\r\n //we're making a selection\r\n //debugger;\r\n // toggle CSS class to the element with JavaScript\r\n this.classList.toggle(\"selected\");\r\n console.log(this.id);\r\n }", "select() {\n\t\tthis.inputView.select();\n\t}", "insertInlineInSelection(selection, elementBox) {\n if (this.checkIsNotRedoing()) {\n selection.owner.isShiftingEnabled = true;\n }\n if (!selection.isEmpty) {\n this.removeSelectedContents(selection);\n }\n this.updateInsertPosition();\n this.insertInlineInternal(elementBox);\n if (this.checkEndPosition(selection)) {\n this.updateHistoryPosition(selection.start, false);\n }\n this.fireContentChange();\n }", "get isSelection() {\n return true;\n }", "function UISelection(){\n\n }", "select() {\n this.getInput().select();\n }", "function insertTextAtSelection(editorState, selection, text) {\n\t var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n\t return EditorState.push(editorState, newContentState, 'insert-fragment');\n\t}", "saveSelection(){\n this.selected = this.model.document.selection.getSelectedElement()\n }", "function onSelected() {\n let selection = window.getSelection();\n if (selection.toString().trim()) {\n // console.log(selection);\n selectedNode = selection.anchorNode;\n selectedRect = selection.getRangeAt(0).getBoundingClientRect();\n } \n}", "validateForwardFieldSelection(currentIndex, selectionEndIndex) {\n let textPosition = new TextPosition(this.owner);\n textPosition.setPositionForCurrentIndex(currentIndex);\n textPosition.isUpdateLocation = false;\n let isPositionMoved = false;\n while (currentIndex !== selectionEndIndex && TextPosition.isForwardSelection(currentIndex, selectionEndIndex)) {\n if (!isPositionMoved) {\n textPosition.moveNextPosition(false);\n let nextIndex = textPosition.getHierarchicalIndexInternal();\n //Handled specifically to break infinite looping, if selection ends at last paragraph mark.\n if (currentIndex === nextIndex) {\n break;\n }\n }\n let indexInInline = 0;\n let inlineObj = textPosition.currentWidget.getInline(textPosition.offset, indexInInline);\n let inline = inlineObj.element;\n indexInInline = inlineObj.index;\n if (!isNullOrUndefined(inline)) {\n let selectionStartIndex = this.selection.start.getHierarchicalIndexInternal();\n if (indexInInline === inline.length && inline instanceof FieldElementBox && inline.fieldType === 1) {\n if (inline.line.getOffset(inline, 0) === this.offset) {\n return;\n }\n let lineWidget = inline.fieldBegin.line;\n let fieldBeginOffset = lineWidget.getOffset(inline.fieldBegin, 0);\n let fieldBeginIndex = this.getHierarchicalIndex(lineWidget, fieldBeginOffset.toString());\n if (!TextPosition.isForwardSelection(selectionStartIndex, fieldBeginIndex)) {\n this.selection.start.setPositionParagraph(lineWidget, fieldBeginOffset);\n }\n }\n let nextInline = this.selection.getNextRenderedElementBox(inline, indexInInline);\n if (!isNullOrUndefined(nextInline) && nextInline instanceof ElementBox) {\n inline = nextInline;\n }\n }\n isPositionMoved = (inline instanceof FieldElementBox && inline.fieldType === 0 && !isNullOrUndefined(inline.fieldEnd));\n if (isPositionMoved) {\n if (inline.line.getOffset(inline, 0) === this.offset) {\n return;\n }\n let fieldEnd = inline.fieldEnd;\n let paragraph = fieldEnd.line.paragraph;\n let fieldEndOffset = fieldEnd.line.getOffset(fieldEnd, 1);\n let fieldEndIndex = this.getHierarchicalIndex(fieldEnd.line, fieldEndOffset.toString());\n if (!TextPosition.isForwardSelection(fieldEndIndex, selectionEndIndex)) {\n //If selection end is after field begin, extend selection end to field end.\n this.moveToInline(inline.fieldEnd, 1);\n return;\n }\n textPosition.moveToInline(inline.fieldEnd, 1);\n }\n currentIndex = textPosition.getHierarchicalIndexInternal();\n }\n }", "function toggleSelection() {\n\t\t//we want uodate our UI to look like we are making a selection\n\t\t//debugger;\n\t\t//toggle a css class to the element with JavaScript\n\t\tthis.classList.toggle(\"selected\");\n\t\tconsole.log(this.id);\n\t}", "function extendSelectionToBlock() {\n var selection = window.getSelection();\n var selected_text = selection.toString();\n var isStart = true;\n\n if (selected_text.length) {\n \tconsole.log(selected_text);\n \tvar element = getSelectionBoundaryElement(selection, isStart);\n \tconsole.log(element);\n \tvar range = document.createRange();\n \trange.setStartBefore(element);\n \trange.setEndAfter(element);\n \tselection.removeAllRanges();\n \tselection.addRange(range);\n \tvar xpath = getXPath(element);\n \tvar body = element.outerHTML;\n \tconsole.log(xpath);\n \tconsole.log(body);\n \tdata = {\n \turl : window.location.href,\n \t\txpath: xpath,\n \t\tbody: body,\n \t\tsite_url: window.location.protocol + \"//\" + window.location.host\n \t}\n console.log(data);\n chrome.extension.sendRequest({'message':'sendBlock','data': data},function(response){});\n }\n}", "function setSelection ({entity}) {\n console.log('setting seletion')\n entity.meta.selected = !entity.meta.selected\n return entity\n}", "handleSelectionFill() {\n const splitString = this.props.uiState.fieldsKvString.split(' ');\n splitString[splitString.length - 1] = `${this.state.fieldsString[this.state.suggestionIndex || 0]}`;\n this.props.uiState.fieldsKvString = splitString.join(' ');\n }", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "function insertTextAtSelection(editorState, selection, text) {\n var newContentState = DraftModifier.insertText(editorState.getCurrentContent(), selection, text, editorState.getCurrentInlineStyle());\n return EditorState.push(editorState, newContentState, 'insert-fragment');\n}", "_applySelection() {\n const that = this;\n\n if (that.selectionDisplayMode === 'placeholder' || that.selectedIndexes.length === 0) {\n that.$.actionButton.innerHTML = that.placeholder;\n return;\n }\n\n if (!that.$.listBox._items || that.$.listBox._items.length === 0) {\n return;\n }\n\n that.$.actionButton.innerHTML = '';\n that.$.actionButton.appendChild(that._createToken());\n }", "onSelect() {\n // Do something when a section instance is selected\n }", "onSelect() {\n // Do something when a section instance is selected\n }", "selectText(){\r\n this.getRef('input').selectText();\r\n }", "get selected() {\n return this.multiple ? this._selectionModel.selected : this._selectionModel.selected[0];\n }", "static single(anchor, head = anchor) {\n return new EditorSelection([EditorSelection.range(anchor, head)], 0);\n }", "function transformDefinition(definition, execContext, path = '', type = null) {\n if (!definition.selectionSet) {\n return definition;\n }\n\n const {typeGetter} = execContext;\n\n if (definition.kind === 'Field') {\n const fieldName = definition.name.value;\n path = `${path}.${fieldName}`;\n\n if (typeGetter) {\n type = typeGetter(path);\n }\n }\n\n // InlineFragments\n else if(!type && typeGetter) {\n type = typeGetter(path);\n }\n\n return {\n ...definition,\n selectionSet: {\n ...definition.selectionSet,\n selections: getTransformedSelections(definition, path, type, execContext),\n },\n };\n}", "loadSelection() {\n let selection = this.state.selection;\n this.clearSelection();\n return selection;\n }", "highlightSelection(isSelectionChanged) {\n if (this.owner.enableImageResizerMode) {\n this.owner.imageResizerModule.hideImageResizer();\n }\n if (this.isEmpty) {\n if (this.isHideSelection(this.start.paragraph)) {\n this.hideCaret();\n return;\n }\n this.updateCaretPosition();\n }\n else {\n if (this.isForward) {\n this.highlightSelectedContent(this.start, this.end);\n }\n else {\n this.highlightSelectedContent(this.end, this.start);\n }\n if (this.viewer.isComposingIME) {\n this.updateCaretPosition();\n }\n }\n this.viewer.updateTouchMarkPosition();\n if (isSelectionChanged) {\n this.viewer.scrollToPosition(this.start, this.end);\n }\n }", "get selection() {\n if (this.curSelectionFor < this.steps.length) {\n this.curSelection = this.curSelection.map(this.doc, this.mapping.slice(this.curSelectionFor));\n this.curSelectionFor = this.steps.length;\n }\n return this.curSelection;\n }", "get selected() {\n const selected = this.selectionModel.selected;\n return this.multiple ? selected : (selected[0] || null);\n }", "get selection() {\n return this.$.selection.getSelection();\n }", "function makeSelection(point, pSelection) {\n\t\t//alert(pSelection);\n\t\t//add clicked point to qPoint/tPoint\n\t\tif(pSelection != null){\n\t\t\tif(pSelection == 1){\n\t\t\t\tif(qPoint){\n\t\t\t\t\tqPoint.select(false, true);\n\t\t\t\t}\n\t\t\t\tqPoint = point;\n\t\t\t}\n\t\t\telse if(pSelection == 0){\n\t\t\t\tif(tPoint){\n\t\t\t\t\ttPoint.select(false, true);\n\t\t\t\t}\n\t\t\t\ttPoint = point;\n\t\t\t}\n\t\t\tpoint.select(true, true);\n\t\t} //else null without any selection, do nothing\t\n\t\tmakeQTText();\n }", "select() {\n\t\tthis.element.select();\n\t}", "select() {\n\t\tthis.element.select();\n\t}", "function highlight(text, selection, tagType) {\n const color = tagType === 'origin' ? '#af3011' : '#37a425';\n let re = new RegExp(`<span data-id=\"${tagType}\"[^>]*>(.*?)</span>`);\n return text\n .replace(re, '$1')\n .replace(\n selection.toString(),\n x =>\n `<span data-id=\"${tagType}\" style=\"padding: 2px 5px; background-color: ${color}; border-radius: 2px; color: white;\">${x}</span>`\n );\n}", "function SelectionUtil() {\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "function updateSelection(editorState, selection, forceSelection) {\n return EditorState.set(editorState, {\n selection: selection,\n forceSelection: forceSelection,\n nativelyRenderedContent: null,\n inlineStyleOverride: null\n });\n}", "handleSelection() {\n if (this.state.fieldsString.length) {\n this.handleSelectionFill();\n this.props.uiState.fieldsKvString = `${this.props.uiState.fieldsKvString}=`;\n this.handleBlur();\n this.autosuggestInput.focus();\n }\n }", "function showSelection(){\n let selection = window.getSelection();\n alert(selection);\n}", "select() { this.selected = true; }", "selectionchange() {\n const editable = this.editor.getSelectedEditable();\n\n if (editable && !this.editor.window.getSelection().isCollapsed && this.editor.tags.allowed(editable, 'format', true)) {\n this.editor.formats.hidden = false;\n this.editor.formats.style.top = `${editable.offsetTop + editable.offsetParent.offsetTop - this.editor.formats.clientHeight}px`;\n } else {\n this.editor.formats.hidden = true;\n this.editor.formats.removeAttribute('style');\n }\n }", "select () {\n this.selected = true;\n }", "asSingle() {\n return this.ranges.length == 1 ? this : new EditorSelection([this.main], 0);\n }", "main_enter() {\n\n\t\t\t// \n\t\t\tlet n_line = y_editor.getSelectionRange();\n\n\t\t\t// ref selection\n\t\t\tlet k_selection = y_editor.getSelection();\n\n\t\t\t// no selection\n\t\t\tif(k_selection.isEmpty()) {\n\n\t\t\t\t//\n\t\t\t\texecute_query_block(n_line.start.row);\n\t\t\t}\n\t\t\t// things are selected\n\t\t\telse {\n\n\t\t\t}\n\t\t}", "moveToLineStartInternal(selection, moveToPreviousLine) {\n if (this.location.x > this.viewer.clientActiveArea.right) {\n this.offset = this.offset - 1;\n }\n let currentLine = selection.getLineWidgetInternal(this.currentWidget, this.offset, moveToPreviousLine);\n let firstElement;\n let isParaBidi = this.currentWidget.paragraph.paragraphFormat.bidi;\n if (isParaBidi && currentLine.children.length > 0 && this.containsRtlText(currentLine)) {\n firstElement = currentLine.children[currentLine.children.length - 1];\n if (firstElement instanceof ListTextElementBox) {\n firstElement = undefined;\n }\n }\n else {\n firstElement = selection.getFirstElementInternal(currentLine);\n }\n this.viewer.moveCaretPosition = 1;\n let startOffset = selection.getStartOffset(this.currentWidget.paragraph);\n if (isNullOrUndefined(firstElement) && this.offset > startOffset) {\n let index = 0;\n let inlineObj = this.currentWidget.getInline(this.offset, index);\n let inline = inlineObj.element;\n index = inlineObj.index;\n if (inline instanceof TextElementBox && inline.text !== '\\v') {\n this.offset = startOffset;\n }\n }\n else if (!isNullOrUndefined(firstElement)) {\n let indexInInline = 0;\n this.currentWidget = firstElement.line;\n this.offset = this.currentWidget.getOffset(firstElement, indexInInline);\n indexInInline = 0;\n let inlineObj = this.currentWidget.getInline(this.offset, indexInInline);\n let inline = inlineObj.element;\n indexInInline = inlineObj.index;\n if (inline instanceof FieldElementBox) {\n //Checks if field character is part of rendered field, otherwise moves to previous rendered content.\n let prevInline = selection.getPreviousValidElement(inline);\n if (!isNullOrUndefined(prevInline)) {\n inline = prevInline;\n this.currentWidget = inline.line;\n this.offset = this.currentWidget.getOffset(inline, inline.length);\n if (inline instanceof FieldElementBox) {\n this.offset--;\n }\n }\n }\n }\n this.updatePhysicalPosition(true);\n }" ]
[ "0.69309527", "0.6277677", "0.6232537", "0.6232537", "0.61205184", "0.6051091", "0.6038953", "0.6020248", "0.5971852", "0.5954627", "0.5865732", "0.58636636", "0.58636636", "0.57569814", "0.5751134", "0.5751134", "0.57143056", "0.5691664", "0.5689914", "0.5689914", "0.5689914", "0.5689914", "0.56829125", "0.5601847", "0.55929124", "0.5587554", "0.55739284", "0.5547629", "0.553989", "0.5535323", "0.5481289", "0.54671156", "0.54671156", "0.5439539", "0.5422754", "0.5414926", "0.54139173", "0.540905", "0.5407286", "0.5386762", "0.5362135", "0.5340123", "0.53389263", "0.53317213", "0.5326603", "0.53262836", "0.532332", "0.532195", "0.532195", "0.532195", "0.532195", "0.532195", "0.532195", "0.532195", "0.532195", "0.532195", "0.5307346", "0.5307125", "0.5307125", "0.52953166", "0.5288909", "0.52836555", "0.5279175", "0.52706325", "0.52604747", "0.5256885", "0.52555305", "0.5242825", "0.5236096", "0.5226269", "0.5226269", "0.5171491", "0.51660764", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.51570153", "0.5149205", "0.5144484", "0.5141906", "0.5135483", "0.5130227", "0.5118009", "0.5116909", "0.5113294" ]
0.622574
14
Field : Alias? Name Arguments? Directives? SelectionSet? Alias : Name :
function parseField(lexer) { var start = lexer.token; var nameOrAlias = parseName(lexer); var alias = void 0; var name = void 0; if (skip(lexer, _lexer.TokenKind.COLON)) { alias = nameOrAlias; name = parseName(lexer); } else { alias = null; name = nameOrAlias; } return { kind: _kinds.FIELD, alias: alias, name: name, arguments: parseArguments(lexer), directives: parseDirectives(lexer), selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : null, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function $Alias() {\n\t\treturn Field.apply(this, arguments);\n\t}", "field (field, alias = null, options = {}) {\n alias = alias ? this._sanitizeFieldAlias(alias) : alias;\n field = this._sanitizeField(field);\n\n // if field-alias combo already present then don't add\n let existingField = this._fields.filter((f) => {\n return f.name === field && f.alias === alias;\n });\n if (existingField.length) {\n return this;\n }\n\n this._fields.push({\n name: field,\n alias: alias,\n options: options,\n });\n }", "parseField() {\n const start = this._lexer.token;\n const nameOrAlias = this.parseName();\n let alias;\n let name;\n\n if (this.expectOptionalToken(TokenKind.COLON)) {\n alias = nameOrAlias;\n name = this.parseName();\n } else {\n name = nameOrAlias;\n }\n\n return this.node(start, {\n kind: Kind.FIELD,\n alias,\n name,\n arguments: this.parseArguments(false),\n directives: this.parseDirectives(false),\n selectionSet: this.peek(TokenKind.BRACE_L)\n ? this.parseSelectionSet()\n : undefined,\n });\n }", "function vgField(fieldDef, opt = {}) {\n\t let field = fieldDef.field;\n\t const prefix = opt.prefix;\n\t let suffix = opt.suffix;\n\t let argAccessor = ''; // for accessing argmin/argmax field at the end without getting escaped\n\t if (isCount(fieldDef)) {\n\t field = internalField('count');\n\t }\n\t else {\n\t let fn;\n\t if (!opt.nofn) {\n\t if (isOpFieldDef(fieldDef)) {\n\t fn = fieldDef.op;\n\t }\n\t else {\n\t const { bin, aggregate, timeUnit } = fieldDef;\n\t if (isBinning(bin)) {\n\t fn = binToString(bin);\n\t suffix = (opt.binSuffix || '') + (opt.suffix || '');\n\t }\n\t else if (aggregate) {\n\t if (isArgmaxDef(aggregate)) {\n\t argAccessor = `.${field}`;\n\t field = `argmax_${aggregate.argmax}`;\n\t }\n\t else if (isArgminDef(aggregate)) {\n\t argAccessor = `.${field}`;\n\t field = `argmin_${aggregate.argmin}`;\n\t }\n\t else {\n\t fn = String(aggregate);\n\t }\n\t }\n\t else if (timeUnit) {\n\t fn = String(timeUnit);\n\t }\n\t }\n\t }\n\t if (fn) {\n\t field = field ? `${fn}_${field}` : fn;\n\t }\n\t }\n\t if (suffix) {\n\t field = `${field}_${suffix}`;\n\t }\n\t if (prefix) {\n\t field = `${prefix}_${field}`;\n\t }\n\t if (opt.forAs) {\n\t return field;\n\t }\n\t else if (opt.expr) {\n\t // Expression to access flattened field. No need to escape dots.\n\t return flatAccessWithDatum(field, opt.expr) + argAccessor;\n\t }\n\t else {\n\t // We flattened all fields so paths should have become dot.\n\t return replacePathInField(field) + argAccessor;\n\t }\n\t}", "getByInternalNameOrTitle(name) {\r\n return new Field(this, `getByInternalNameOrTitle('${name}')`);\r\n }", "function field_select(obj, def)\n{\n\tif (obj.value == '') obj.value = def;\n\tobj.select();\n}", "fieldName (): string { return this._fieldName; }", "function fieldOnClick(e) {\r\n\tvar obj = targetElement(e);\r\n\tvar iarray = new Array();\r\n\tiarray = obj.name.split(\"_\");\r\n\tsetCursorPosition(iarray[1]);\r\n}", "function SelectionTooltipField(type, options) {\n Field.call(this, type, options);\n\n this.onInputChange = this.onInputChange.bind(this);\n this.arg = new Argument();\n\n this.menu = new Menu({ document: this.document, type: type });\n this.element = this.menu.element;\n\n this.onFieldChange = util.createEvent('SelectionTooltipField.onFieldChange');\n\n // i.e. Register this.onItemClick as the default action for a menu click\n this.menu.onItemClick.add(this.itemClicked, this);\n}", "get name() {\n return this.alias;\n }", "function _vgField(fieldDef) {\n var opt = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n\n var _a, _b, _c;\n\n var field = fieldDef.field;\n var prefix = opt.prefix;\n var suffix = opt.suffix;\n var argAccessor = ''; // for accessing argmin/argmax field at the end without getting escaped\n\n if (isCount(fieldDef)) {\n field = internalField('count');\n } else {\n var fn;\n\n if (!opt.nofn) {\n if (isOpFieldDef(fieldDef)) {\n fn = fieldDef.op;\n } else {\n var bin = fieldDef.bin,\n aggregate = fieldDef.aggregate,\n timeUnit = fieldDef.timeUnit;\n\n if (isBinning(bin)) {\n fn = binToString(bin);\n suffix = ((_a = opt.binSuffix) !== null && _a !== void 0 ? _a : '') + ((_b = opt.suffix) !== null && _b !== void 0 ? _b : '');\n } else if (aggregate) {\n if (isArgmaxDef(aggregate)) {\n argAccessor = \"[\\\"\".concat(field, \"\\\"]\");\n field = \"argmax_\".concat(aggregate.argmax);\n } else if (isArgminDef(aggregate)) {\n argAccessor = \"[\\\"\".concat(field, \"\\\"]\");\n field = \"argmin_\".concat(aggregate.argmin);\n } else {\n fn = String(aggregate);\n }\n } else if (timeUnit) {\n fn = timeUnitToString(timeUnit);\n suffix = (!contains(['range', 'mid'], opt.binSuffix) && opt.binSuffix || '') + ((_c = opt.suffix) !== null && _c !== void 0 ? _c : '');\n }\n }\n }\n\n if (fn) {\n field = field ? \"\".concat(fn, \"_\").concat(field) : fn;\n }\n }\n\n if (suffix) {\n field = \"\".concat(field, \"_\").concat(suffix);\n }\n\n if (prefix) {\n field = \"\".concat(prefix, \"_\").concat(field);\n }\n\n if (opt.forAs) {\n return removePathFromField(field);\n } else if (opt.expr) {\n // Expression to access flattened field. No need to escape dots.\n return flatAccessWithDatum(field, opt.expr) + argAccessor;\n } else {\n // We flattened all fields so paths should have become dot.\n return replacePathInField(field) + argAccessor;\n }\n }", "function getField$1(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = field(_.$field, _.$name));\n }", "function setField(selector,field,str){\n if(str == undefined){\n str = \"\";\n }\n if((field instanceof Array) || (field instanceof Object) ){ // don't append field value if it's an array or object\n selector.append(str);\n return selector;\n }\n if(field == undefined){ // if the field is undefined then simply return the selector\n return selector;\n }\n else{\n selector.append(\"<b>\" + str + \"</b>\" + \" \" + field); // append the field value to selector\n return selector;\n }\n}", "getAlias(fkFieldName, modelName, targetModel, isM2M = false) {\r\n let name = this.trimId(fkFieldName);\r\n if (name === fkFieldName || isM2M) {\r\n name = fkFieldName + \"_\" + modelName;\r\n }\r\n // singularize in case one column name is the singularized form of another column in the same model\r\n let singleName = types_1.singularize(name);\r\n if (isM2M) {\r\n if (this.usedChildNames.has(modelName + \".\" + singleName)) {\r\n name = name + \"_\" + targetModel;\r\n }\r\n this.usedChildNames.add(modelName + \".\" + types_1.singularize(name));\r\n }\r\n else {\r\n if (this.usedChildNames.has(targetModel + \".\" + singleName)) {\r\n name = name + \"_\" + modelName;\r\n }\r\n this.usedChildNames.add(targetModel + \".\" + types_1.singularize(name));\r\n }\r\n return types_1.recase(this.caseProp, name, true);\r\n }", "field(name, type, description, resolve) {\n if (typeof description === 'function') {\n /* eslint-disable no-param-reassign */\n resolve = description;\n description = null;\n /* eslint-enable no-param-reassign */\n }\n\n this._saveField();\n if(typeof name === 'string') {\n /// only allowed to update description and resolve\n if (this.fields[name]) {\n this._field = this.fields[name];\n if (description)\n this._field.description = description;\n if (resolve)\n this._field.resolve = resolve;\n if (type)\n this._field.type = type;\n if(name === 'id' && (description || resolve || type))\n console.log(this._field);\n }\n else {\n invariant(type,\n `field(...): '${name}' has an undefined or null type. If you ` +\n `are trying to refer to '${this.name}' then you should use a function`);\n\n this._field = {\n name,\n type,\n description,\n resolve,\n args: {}\n };\n }\n }\n else if(typeof name === 'object'){\n //console.log(name);\n invariant(name.name, 'Must supply a name for graph ql field')\n invariant(name.type, 'Must supply a graphql compatible type');\n if(this.fields[name.name]){\n this._field = this.fields[name.name];\n let {type, description, resolve, args} = name;\n this._field = {...name}\n }\n else\n this._field = {...name};\n }\n return this;\n }", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = vegaUtil.field(_.$field, _.$name));\n }", "function parseField(lexer$$1) {\n var start = lexer$$1.token;\n\n var nameOrAlias = parseName(lexer$$1);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer$$1, lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer$$1);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: kinds.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer$$1, false),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: peek(lexer$$1, lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer$$1) : undefined,\n loc: loc(lexer$$1, start)\n };\n}", "getField(name) {\n return this.fields.find((a) => a.name === name);\n }", "gql() {\n this._saveField();\n\n const { name, description } = this;\n return {\n name,\n description,\n fields: () => gqlFieldsResolve(this.fields)\n };\n }", "function getIdentifierForSelection(node: Selection): string {\n if (\n node.kind === 'LinkedField' ||\n node.kind === 'ScalarField' ||\n node.kind === 'MatchField'\n ) {\n return node.directives.length === 0\n ? node.alias || node.name\n : (node.alias || node.name) + printDirectives(node.directives);\n } else if (node.kind === 'FragmentSpread') {\n return node.args.length === 0\n ? '...' + node.name\n : '...' + node.name + printArguments(node.args);\n } else if (node.kind === 'MatchBranch') {\n return node.name + '$' + node.module;\n } else if (node.kind === 'InlineFragment') {\n return 'I:' + node.typeCondition.name;\n } else if (node.kind === 'Condition') {\n return (\n 'C:' +\n (node.condition.kind === 'Variable'\n ? '$' + node.condition.variableName\n : String(node.condition.value)) +\n String(node.passingValue)\n );\n } else {\n invariant(\n false,\n 'getIdentifierForSelection: Unexpected kind `%s`.',\n (node.kind: empty),\n );\n }\n}", "selectLabel (isNames, f) {\n const dsl = this.$t('Select')\n\n if (!f) return dsl + '\\u2026'\n //\n switch (f.selection.length) {\n case 0: return dsl + ' ' + (isNames ? f.name : f.label) + '\\u2026'\n case 1: return (isNames ? f.selection[0].name : f.selection[0].label)\n }\n return (isNames ? f.selection[0].name : f.selection[0].label) + ', ' + '\\u2026'\n }", "function t() {\n for (var t = [], n = 0; n < arguments.length; n++) t[n] = arguments[n];\n ie(\"FieldPath\", t, \"fieldNames\", 1);\n for (var i = 0; i < t.length; ++i) if (ee(\"FieldPath\", \"string\", i, t[i]), 0 === t[i].length) throw new E(T.INVALID_ARGUMENT, \"Invalid field name at argument $(i + 1). Field names must not be empty.\");\n this.Ma = new U(t);\n }", "fields (_fields, options = {}) {\n if (_isArray(_fields)) {\n for (let field of _fields) {\n this.field(field, null, options);\n }\n }\n else {\n for (let field in _fields) {\n let alias = _fields[field];\n\n this.field(field, alias, options);\n }\n }\n }", "desc(field) {\r\n\t\treturn this.push('desc', [...arguments]);\r\n\t}", "add(fieldTitleOrInternalName) {\r\n return this.clone(ViewFields_1, `addviewfield('${fieldTitleOrInternalName}')`).postCore();\r\n }", "getChildAlias(fkFieldName, modelName, targetModel) {\r\n let name = modelName;\r\n // usedChildNames prevents duplicate names in same model\r\n if (this.usedChildNames.has(targetModel + \".\" + types_1.singularize(name))) {\r\n name = this.trimId(fkFieldName);\r\n name = name + \"_\" + modelName;\r\n }\r\n // singularize in case one column name is the singularized form of another column in the same model\r\n name = types_1.singularize(name);\r\n this.usedChildNames.add(targetModel + \".\" + name);\r\n return types_1.recase(this.caseProp, name, true);\r\n }", "function fieldLabel(field) { return [field, \"Label\"].join(\"\"); }", "function FormFieldsMenu_get(arg)\r\n{\r\n var retVal = this.listControl.get(arg);\r\n\r\n // Treat the NoFields and None labels as \"\".\r\n if (retVal == MM.LABEL_NoFields || retVal == MM.LABEL_None)\r\n {\r\n retVal = \"\";\r\n }\r\n \r\n return retVal;\r\n}", "alias() {\n return this.get('ALIASNAME');\n }", "_mapFieldsToMenu() {\n const that = this;\n\n if (!that.fields && !that._valueFields) {\n return;\n }\n\n that._fields = (that.fields || that._valueFields).concat(that._manuallyAddedFields).map(field => {\n return { label: field.label, value: field.dataField, dataType: field.dataType, filterOperations: field.filterOperations, lookup: field.lookup };\n });\n }", "static get tag() {\n return \"simple-fields\";\n }", "function setDataFields(formField, options) {\n // For search widget, set search key and display label\n if (isSearchWidgetType(formField[options.widget])) {\n formField.datafield = options.aliasColumn || LIVE_CONSTANTS.LABEL_KEY;\n formField.searchkey = options.distinctField || LIVE_CONSTANTS.LABEL_KEY;\n formField.displaylabel = formField.displayfield = (options.aliasColumn || LIVE_CONSTANTS.LABEL_VALUE);\n return;\n }\n formField.datafield = LIVE_CONSTANTS.LABEL_KEY;\n formField.displayfield = LIVE_CONSTANTS.LABEL_VALUE;\n}", "function opt(txt,val,sel) {\n this.txt=txt;\n this.val=val;\n this.sel=sel;\n}", "function opt(txt,val,sel) {\r\n this.txt=txt;\r\n this.val=val;\r\n this.sel=sel;\r\n}", "function fieldNames(fields, as) {\n if (!fields) return null;\n return fields.map(function(f, i) {\n return as[i] || (0,vega_util__WEBPACK_IMPORTED_MODULE_0__.accessorName)(f);\n });\n}", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = Object(__WEBPACK_IMPORTED_MODULE_3_vega_util__[\"p\" /* field */])(_.$field, _.$name));\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = (0,vega_util__WEBPACK_IMPORTED_MODULE_3__.field)(_.$field, _.$name));\n}", "get fields() {\r\n return new SharePointQueryableCollection(this, \"fields\");\r\n }", "function FieldPath$$1(){var fieldNames=[];for(var _i=0;_i<arguments.length;_i++){fieldNames[_i]=arguments[_i];}validateNamedArrayAtLeastNumberOfElements('FieldPath',fieldNames,'fieldNames',1);for(var i=0;i<fieldNames.length;++i){validateArgType('FieldPath','string',i,fieldNames[i]);if(fieldNames[i].length===0){throw new index_esm_FirestoreError(Code.INVALID_ARGUMENT,\"Invalid field name at argument $(i + 1). \"+'Field names must not be empty.');}}this._internalPath=new index_esm_FieldPath(fieldNames);}", "getNameField() { return cy.get('#name'); }", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n\n var nameOrAlias = parseName(lexer);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n\n var nameOrAlias = parseName(lexer);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n\n var nameOrAlias = parseName(lexer);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n\n var nameOrAlias = parseName(lexer);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n\t var start = lexer.token;\n\n\t var nameOrAlias = parseName(lexer);\n\t var alias = void 0;\n\t var name = void 0;\n\t if (skip(lexer, _lexer.TokenKind.COLON)) {\n\t alias = nameOrAlias;\n\t name = parseName(lexer);\n\t } else {\n\t name = nameOrAlias;\n\t }\n\n\t return {\n\t kind: _kinds.FIELD,\n\t alias: alias,\n\t name: name,\n\t arguments: parseArguments(lexer, false),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function displayAliasInputField ( source ) {\n var shouldDisplay;\n\n switch ( source ) {\n\n case \"manual\":\n shouldDisplay = true;\n break;\n\n case \"dhcp\":\n case \"link-local\":\n case \"rtadv\":\n default:\n shouldDisplay = false;\n break;\n }\n return shouldDisplay;\n}", "function parseField(lexer) {\n\t var start = lexer.token;\n\n\t var nameOrAlias = parseName(lexer);\n\t var alias = void 0;\n\t var name = void 0;\n\t if (skip(lexer, _lexer.TokenKind.COLON)) {\n\t alias = nameOrAlias;\n\t name = parseName(lexer);\n\t } else {\n\t alias = null;\n\t name = nameOrAlias;\n\t }\n\n\t return {\n\t kind: _kinds.FIELD,\n\t alias: alias,\n\t name: name,\n\t arguments: parseArguments(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : null,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function aliasFields(schema) {\n for (var path in schema.paths) {\n if (!schema.paths[path].options) continue;\n\n var prop = schema.paths[path].path;\n var alias = schema.paths[path].options.alias;\n\n if (alias) {\n if ('string' === typeof alias && alias.length > 0) {\n if (schema.aliases[alias])\n throw new Error('Duplicate alias, alias ' + alias + ' is used more than once');\n else\n schema.aliases[alias] = prop;\n\n schema\n .virtual(alias)\n .get((function(p) {\n return function() {\n return this.get(p);\n };\n })(prop))\n .set((function(p) {\n return function(v) {\n return this.set(p, v);\n };\n })(prop));\n } else {\n throw new Error('Invalid value for alias option on ' + prop + ', got ' + alias);\n }\n }\n }\n}", "function aliasFields(schema) {\n for (var path in schema.paths) {\n if (!schema.paths[path].options) continue;\n\n var prop = schema.paths[path].path;\n var alias = schema.paths[path].options.alias;\n\n if (alias) {\n if ('string' === typeof alias && alias.length > 0) {\n if (schema.aliases[alias])\n throw new Error('Duplicate alias, alias ' + alias + ' is used more than once');\n else\n schema.aliases[alias] = prop;\n\n schema\n .virtual(alias)\n .get((function(p) {\n return function() {\n return this.get(p);\n };\n })(prop))\n .set((function(p) {\n return function(v) {\n return this.set(p, v);\n };\n })(prop));\n } else {\n throw new Error('Invalid value for alias option on ' + prop + ', got ' + alias);\n }\n }\n }\n}", "function getFieldName(input){\n return input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function suggSelect(p) {\n document.getElementById(\"search\").value = document.getElementById(\n \"sugg\" + p + \"Field\"\n ).innerHTML;\n selectedIndex = p;\n document.getElementById(\"suggField\").style.display = \"none\";\n}", "ing_field_list() {\n Template.instance().dataLocationList.set([{ label: '', value: '', selected: true }]\n .concat(_.map(Locations.find({}, { fields: { _id: 1, locationName: 1 } }).fetch(),\n function renameLocation(loc) {\n return { label: loc.locationName, value: loc._id, selected: false };\n })));\n return Template.instance().dataIngs.get();\n }", "function fieldPathFromArgument(methodName,path){if(path instanceof FieldPath$1){return path._internalPath;}else if(typeof path==='string'){return fieldPathFromDotSeparatedString(methodName,path);}else{var message='Field path arguments must be of type string or FieldPath.';throw new index_esm_FirestoreError(Code.INVALID_ARGUMENT,\"Function \"+methodName+\"() called with invalid data. \"+message);}}", "assignField(fieldName, scope) {\n const obj = scope.model;\n if (_.isFunction(this.dataSource.assignField)) {\n return this.dataSource.assignField(fieldName, scope);\n } else {\n return this.setProp(obj, fieldName, scope.source[fieldName]);\n }\n }", "function fieldEvent(formIdArg, fieldId) {\n if ($('#'+fieldId).attr('name')) {\n fieldName = $('#'+fieldId).attr('name');\n ctlName = $('#'+fieldId).attr('name').replace(/\\[.+\\]/g, '');//remove square brackets\n if ($('input.focusClass[name='+fieldName+']').length > 0 || $('select.focusClass[name='+fieldName+']').length > 0 || $('textarea.focusClass[name='+fieldName+']').length > 0 || $('#'+fieldId).siblings('.focusClass').length > 0) {\n jFormsJQ.showHelp(formIdArg, ctlName);\n } else {\n jFormsJQ.hideHelp(formIdArg, ctlName);\n // check form control with JS\n jFormsJQ.verifyControl( jFormsJQ._forms[formIdArg].getControl(ctlName), jFormsJQ._forms[formIdArg] );\n }\n }\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function OSelect_XFormItem() {}", "function parseSelection(lexer$$1) {\n return peek(lexer$$1, lexer.TokenKind.SPREAD) ? parseFragment(lexer$$1) : parseField(lexer$$1);\n}", "function at(t,e,r,n){var o,i,s,a=t.$__schema,u=Object.keys(a.virtuals),c=u.length,l=c,f=t._doc,p=P(n,\"aliases\",!0);if(!f)return e;for(r=r||{},c=0;c<l;++c)if(o=u[c],p||!a.aliases.hasOwnProperty(o)){if(i=o,null!=r.path){if(!o.startsWith(r.path+\".\"))continue;i=o.substr(r.path.length+1)}var h=i.split(\".\");if(void 0!==(s=U(t.get(o),r))){var y=h.length;f=e;for(var d=0;d<y-1;++d)f[h[d]]=f[h[d]]||{},f=f[h[d]];f[h[y-1]]=s}}return e}", "visitFieldDefinition() {\n return;\n }", "function getMemberDefinition(spaces, fieldName, val) {\n if (fieldName === undefined) {\n return '';\n }\n return '\\n' + spaces + fieldName + '?:' + getType(val) + ';';\n}", "function $F(name) {\r\n\to = _ge_by_name(name);\r\n\tif(o.nodeName.toLowerCase() == 'select') return o.options[o.selectedIndex].text;\r\n\treturn o.value;\r\n}", "function getDatasetField (fieldName) {\n let lc_fieldName = fieldName.toLowerCase();\n const field = state.dataset.attributes.fields.find(f => f.name.toLowerCase() === lc_fieldName);\n if (!field) {\n throw new Error(`Could not find field \"${fieldName}\" in dataset.`);\n }\n const stats = [...Object.entries(state.dataset.attributes.statistics).values()].find(([, fields]) => fields[lc_fieldName]);\n\n // add \"simple type\" (numeric, date, string) and stats into rest of field definition\n return {\n ...field,\n simpleType: stats && stats[0],\n statistics: stats && stats[1][lc_fieldName].statistics\n }\n }", "function selectFn(obj) {\n return {\n id: obj.id,\n fullName: obj.firstName + \" \" + obj.lastName\n };\n}", "function te(e,t,n,o){const r=e.$__schema,s=Object.keys(r.virtuals);let i=s.length;const a=i;let c,l,u,p=e._doc;const h=_(o,\"aliases\",!0);if(!p)return t;for(n=n||{},i=0;i<a;++i){if(c=s[i],!h&&r.aliases.hasOwnProperty(c))continue;if(l=c,null!=n.path){if(!c.startsWith(n.path+\".\"))continue;l=c.substr(n.path.length+1)}const o=l.split(\".\");if(u=N(e.get(c),n),void 0===u)continue;const a=o.length;p=t;for(let e=0;e<a-1;++e)p[o[e]]=p[o[e]]||{},p=p[o[e]];p[o[a-1]]=u}return t}", "function getFieldName(input){\n\treturn input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function FkField()\n{\n //The primary key is the defacto (databse) value of a foreign key field\n this.primarykey;\n //\n //The visible value of a field is derived from the hint field of some quey\n this.hint;\n //\n //The id of a foreign key field is primarity used for supporting \"go-to\", \n //i.e., the hreferencing operation\n this.id;\n //\n //The foreign key table name is the vbases for the list rom which new \n //values of a forign key feield may be selected\n this.fk_table_name;\n}", "getFields() {\n const { expand } = this.state;\n const {\n form: { getFieldDecorator },\n searchMapper: searchFields,\n } = this.props;\n\n return searchFields.map(searchField => {\n const { label, name, secondary, rules, initialValue } = searchField;\n\n return (\n <Col span={8} key={name} style={{ display: !secondary || expand ? 'block' : 'none' }}>\n <Form.Item label={label}>\n {getFieldDecorator(name, {\n rules,\n initialValue,\n })(this.renderItem(searchField))}\n </Form.Item>\n </Col>\n );\n });\n }", "function getFieldName(input) {\n return input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function getFieldName(input) {\n return input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function getFieldName(input) {\n return input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function getFieldName(input) {\n return input.id.charAt(0).toUpperCase() + input.id.slice(1);\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function getFieldEntryKey(node) {\n return node.alias ? node.alias.value : node.name.value;\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function getFieldOptions(appName, factName, paramid, callback) {\n //appName,fact, field, lookup,updateId, callback\n $('table').remove();\n quickforms.getMultiData(appName, factName, paramid, '1=1', '',\n function (data) {\n displayEditingPage(data, paramid);\n });\n }", "get field() {\n return this.getAttribute('field');\n }", "function addFieldSuggestion(options, fieldName, suggestion) {\r\n if (fieldName in options) {\r\n options[fieldName].push(suggestion);\r\n } else {\r\n options[fieldName] = [ suggestion ];\r\n }\r\n}", "alias(token) {\n return target => token.getValueFor(target);\n }", "function makeAccessorDefn(f, i){\n var makeFieldFunc = new symbolExpr('make-struct-field-accessor'),\n makeFieldArgs = [new symbolExpr(that.name.val+'-ref'), new literal(i), new quotedExpr(new symbolExpr(f.val))],\n makeFieldCall = new callExpr(makeFieldFunc, makeFieldArgs),\n accessorSymbol= new symbolExpr(that.name.val+'-'+f.val),\n defineVar = new defVar(accessorSymbol, makeFieldCall);\n // set location for all of these nodes\n [defineVar, makeFieldFunc, makeFieldCall, accessorSymbol].concat(makeFieldArgs).forEach(function(p){p.location = that.location});\n selectorStx.push(defineVar);\n }", "display_name ()\n {\n function names ()\n {\n function distinct (array)\n {\n const ret = [];\n array.forEach (x => !ret.includes (x) ? ret.push (x) : null);\n return (ret);\n }\n\n const ret = [];\n if (this.name)\n ret.push (this.name);\n if (this.mRID)\n ret.push (this.mRID);\n ret.push (this.id);\n if (this.aliasName)\n ret.push (this.aliasName);\n return (distinct.call (this, ret));\n }\n\n return (names.call (this)[0]);\n }", "static get SELECT() {\r\n return 4;\r\n }", "function aliasFields(schema, paths) {\n paths = paths || Object.keys(schema.paths);\n for (const path of paths) {\n const options = get(schema.paths[path], 'options');\n if (options == null) {\n continue;\n }\n\n const prop = schema.paths[path].path;\n const alias = options.alias;\n\n if (!alias) {\n continue;\n }\n\n if (typeof alias !== 'string') {\n throw new Error('Invalid value for alias option on ' + prop + ', got ' + alias);\n }\n\n schema.aliases[alias] = prop;\n\n schema.\n virtual(alias).\n get((function(p) {\n return function() {\n if (typeof this.get === 'function') {\n return this.get(p);\n }\n return this[p];\n };\n })(prop)).\n set((function(p) {\n return function(v) {\n return this.set(p, v);\n };\n })(prop));\n }\n}", "function aliasFields(schema, paths) {\n paths = paths || Object.keys(schema.paths);\n for (const path of paths) {\n const options = get(schema.paths[path], 'options');\n if (options == null) {\n continue;\n }\n\n const prop = schema.paths[path].path;\n const alias = options.alias;\n\n if (!alias) {\n continue;\n }\n\n if (typeof alias !== 'string') {\n throw new Error('Invalid value for alias option on ' + prop + ', got ' + alias);\n }\n\n schema.aliases[alias] = prop;\n\n schema.\n virtual(alias).\n get((function(p) {\n return function() {\n if (typeof this.get === 'function') {\n return this.get(p);\n }\n return this[p];\n };\n })(prop)).\n set((function(p) {\n return function(v) {\n return this.set(p, v);\n };\n })(prop));\n }\n}", "function aliasFields(schema, paths) {\n paths = paths || Object.keys(schema.paths);\n for (const path of paths) {\n const options = get(schema.paths[path], 'options');\n if (options == null) {\n continue;\n }\n\n const prop = schema.paths[path].path;\n const alias = options.alias;\n\n if (!alias) {\n continue;\n }\n\n if (typeof alias !== 'string') {\n throw new Error('Invalid value for alias option on ' + prop + ', got ' + alias);\n }\n\n schema.aliases[alias] = prop;\n\n schema.\n virtual(alias).\n get((function(p) {\n return function() {\n if (typeof this.get === 'function') {\n return this.get(p);\n }\n return this[p];\n };\n })(prop)).\n set((function(p) {\n return function(v) {\n return this.set(p, v);\n };\n })(prop));\n }\n}", "get fieldValuesForEdit() {\r\n return new SharePointQueryableInstance(this, \"FieldValuesForEdit\");\r\n }", "function G(t,e,r,n){var i=t.schema,o=Object.keys(i.virtuals),s=o.length,a=s,u=void 0,c=void 0,l=t._doc,f=void 0,h=S(n,\"aliases\",!0);if(!l)return e;for(r=r||{},s=0;s<a;++s)if(u=o[s],h||!i.aliases.hasOwnProperty(u)){if(c=u,null!=r.path){if(!u.startsWith(r.path+\".\"))continue;c=u.substr(r.path.length+1)}var p=c.split(\".\");if(void 0!==(f=B(t.get(u),r))){var y=p.length;l=e;for(var d=0;d<y-1;++d)l[p[d]]=l[p[d]]||{},l=l[p[d]];l[p[y-1]]=f}}return e}" ]
[ "0.67461413", "0.5861788", "0.583103", "0.5825715", "0.57540786", "0.5662482", "0.5464285", "0.54340297", "0.5398831", "0.53741914", "0.53367126", "0.53101426", "0.5289533", "0.5271213", "0.5269528", "0.5256967", "0.5246766", "0.5243333", "0.5239582", "0.52185047", "0.51811475", "0.5166361", "0.5153732", "0.5126864", "0.5123909", "0.51217437", "0.5121536", "0.51052445", "0.50857246", "0.50754684", "0.5065812", "0.5062153", "0.50514084", "0.5032653", "0.50320107", "0.5028523", "0.50261074", "0.5019944", "0.50094736", "0.5006016", "0.50057113", "0.49982423", "0.49945173", "0.49945173", "0.49945173", "0.49945173", "0.49854493", "0.49781352", "0.49687913", "0.49515244", "0.49384487", "0.49384487", "0.49257192", "0.49194252", "0.49107066", "0.4909086", "0.49083853", "0.49032518", "0.49009293", "0.49009293", "0.48993725", "0.48975244", "0.4894984", "0.48914963", "0.4885553", "0.4883952", "0.48733258", "0.48653832", "0.48580927", "0.48558664", "0.48524255", "0.48483253", "0.48475936", "0.48475936", "0.48475936", "0.48475936", "0.48435336", "0.48435336", "0.48435336", "0.48435336", "0.48435336", "0.48435336", "0.48431274", "0.48375922", "0.48333296", "0.48325607", "0.481937", "0.4819126", "0.4817649", "0.48102733", "0.48093453", "0.48093453", "0.48093453", "0.48075813", "0.48067865" ]
0.5024166
41
Arguments : ( Argument+ )
function parseArguments(lexer) { return peek(lexer, _lexer.TokenKind.PAREN_L) ? many(lexer, _lexer.TokenKind.PAREN_L, parseArgument, _lexer.TokenKind.PAREN_R) : []; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function args() {\n\n}", "function SimpleArgs() {\r\n}", "function saludarArgumentos(referencia){\n console.log(arguments);\n}", "function functionWithArgs(a,b){\n console.log(a+b);\n }", "function args() {\n return Array.prototype.slice.call(arguments[0]);\n }", "function add() {\n\tvar _args = arguejs2.getArguments([{a: Number}, {b: Number}], arguments);\n\n\tconsole.log(\"\" + _args.a + \" + \" + _args.b + \" = \" + (_args.a + _args.b));\n}", "function imprimeArgumentos() {\n console.log(arguments);\n}", "function X(a) {\n a = 5;\n arguments[1] = 12;\n console.log(arguments)\n}", "function argsFor() {\n\n}", "function functionWithArgs (para1, para2) {\nconsole.log(para1 + para2);\n}", "function functionWithArgs(a, b){\n console.log(a+b)\n}", "function get_arg() { return arguments; }", "function sumArguments(){\n\tvar argumentsArray = [].slice.call(arguments);\n\treturn argumentsArray.reduce(function(accumulator,nextValue){\n\t\treturn accumulator + nextValue;\n\t});\n}", "function args() {\n\t\tvar params = slice.call(arguments);\n\t\tparams.isArgs = true;\n\t\treturn params;\n\t}", "function abc(a,b) {\n var c = 6;\n return arguments[0] + b + c;\n}", "function getArguments(...args) {\n return args;\n}", "function imprimeArguemntos(){\n console.log(arguments);\n}", "function sum(a, b) {\n console.log(arguments); //retorna todos os argumentos da function\n return a + b;\n}", "function sum() {\n console.log( arguments );\n}", "function add(a,b){\n //console.log(arguments.length);\n console.log(a, b)\n}", "function getArguments() {\n return arguments;\n}", "funcArguments () {\n let args = [];\n let ch = this.next('(');\n\n while (ch) {\n ch = this.white();\n if (ch === ')') {\n this.next(')');\n return new Arguments(this, args)\n } else {\n args.push(this.expression());\n ch = this.white();\n }\n if (ch !== ')') { this.next(','); }\n }\n\n this.error('Bad arguments to function');\n }", "function aa() {\n console.log(arguments)\n let [a, b] = arguments\n console.log(a, b)\n}", "function add() {\n\tlet total = 0\n\tconsole.log(arguments)\n\tconsole.log(arguments['1'])\n\tfor(const arg of arguments) {\n\t\ttotal += arg\n\t}\n\treturn total\n}", "function ciao(mandi, hola){\n\tconst args = Array.from(arguments)\n\tconsole.log(mandi, hola)\n}", "function total1() {\n // return arguments['0'] + arguments['1'];\n return arguments[0] + arguments[1];\n}", "function functionWithArgs(a, b){\n console.log(a + b);\n}", "function sum(...args) { \n console.log(args);\n}", "function argsSum () {\n let args = Array.prototype.arguments.slice(1);\n return args;\n}", "function functionWithArgs(a, b) {\n console.log(a+b);\n}", "function functionWithArgs(a, b) {\n console.log(a+b);\n}", "function functionWithArgs(x, y) {\n console.log(x + y)\n}", "function sum2() {\n console.log(arguments);\n\n let total = 0;\n for (let value of arguments) total += value;\n return total;\n}", "function miFuncion(a, b){\n console.log(arguments.length);\n console.log(\"La suma es: \" + (a+b));\n}", "function foo(a) {\n arguments[0] = 2;\n alert(a);\n}", "function list() {\n var a = arrayfromargs(arguments);\n myval.push(a);\n\n\n}", "function newArgs(a,b,...args){\r\n console.log(args[3]);//prints third element in rest parameter after the parameter that are defined\r\n\r\n}", "function sumUp(...toAdd){\n\n instance.log(toAdd);\n\n}", "function summation(){\n // console.log(arguments)\n let total=0\n for (const val of arguments) {\n total+=val\n }\n\n return total\n\n // return a+b\n}", "function ArrayArgument() {\n this.args = [];\n}", "function ArrayArgument() {\n this.args = [];\n}", "arguments(desc) {\n return this.parseExpectedArgs(desc.split(/ +/));\n }", "function functionWithArgs(int1, int2) {\n console.log(int1 + int2);\n}", "function greetMoreArgs(name , age) {\n console.log('Hello ' + name + ' You Are ' + age + ' Years Old!');\n}", "function functionWithArgs(a, b) {\n console.log(a + b);\n}", "function functionWithArgs(a, b) {\n console.log(a + b);\n}", "function greetMoreArgs(name,age) {\n console.log(\"Hello \"+name+ \" you are \" +age+ \" yrs old\");\n}", "function a() {\n if(arguments.length<3) return;//arguments 갯수가 3보다 작으면 return해!\n console.log('my name is ', arguments[2])\n}", "function methodName (arguments) {\n\t\n}", "function sumAllNums() {\n console.log(arguments)\n}", "function miFuncionUno (a,b){\n console.log(\"Suma: \"+ (a+b));\n // \"arguments\" is a property of objects but functions work as objects\n console.log(arguments);\n // \"arguments.length\" Number of arguments that enter the function. Can only be used inside the function.\n console.log(arguments.length); \n // \"arguments[0]\" Accesses the firtst argument position.\n console.log(arguments[0]); \n}", "function add(...numbers) {}", "function functionWithArgs(param1, param2) {\n console.log(param1 + param2);\n}", "function parseArgumentList() {\n var token, expr, args = [];\n\n while (true) {\n expr = parseExpression();\n if (typeof expr === 'undefined') {\n // TODO maybe throw exception?\n break;\n }\n args.push(expr);\n token = lexer.peek();\n if (!matchOp(token, ',')) {\n break;\n }\n lexer.next();\n }\n\n return args;\n }", "function addArgs() {\n const args = Array.from(arguments);\n if (args.length > 2) {\n return args\n .slice(0, 3)\n .reduce((prev, int) => prev + int, 0);\n } else {\n return function() {\n const newArgs = Array.from(arguments);\n const allArgs = [...args, ...newArgs];\n return addArgs.apply(null, allArgs);\n }\n }\n}", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function args(o) { var a = []; for(var i=0, l=o.length; i<l; i++) a.push(o[i]); return a}", "function doAdd() {\n if (arguments.length == 1) {\n console.log(arguments[0] + 10);\n } else if (arguments.length == 2) {\n console.log(arguments[0] + arguments[1]);\n }\n}", "function test () {\n return arguments\n}", "function sumArguments(){\n\tvar total = 0;\n\tfor(var i = 0; i < arguments.length; i++){\n\t\ttotal += arguments[i];\n\t}\n\treturn total;\n}", "function add(x, y) {\n console.log(arguments);\n var result = Array.prototype.reduce.call(arguments, function (memo, value) {\n return memo + value;\n })\n console.log(result);\n}", "function functionWithArgs(a, b) {\n\tconsole.log(a + b);\n}", "function nums(){\n\tconst bindArgs = Array.from(arguments).slice(1);\n\tconst callArgs = Array.from(arguments);\n\tconsole.log(`bindArgs: ${bindArgs}`);\n\tconsole.log(`callArgs: ${callArgs}`);\n}", "function myFunction(a, b) {\n console.log(arguments);\n}", "function addTwoArgs(arg1, arg2) {\n\treturn arg1 + arg2;\n}", "function functionWithArgs (param1, param2) {\n console.log (param1 + param2);\n}", "function sumirai(){\n return Array.from(arguments)\n .reduce((x, y) => x + y, 0);\n}", "function parseArgumentList() {\n let token, expr, args = [];\n\n while (true) {\n expr = parseExpression();\n if (typeof expr === 'undefined') {\n // TODO maybe throw exception?\n break;\n }\n args.push(expr);\n token = lexer.peek();\n if (!matchOp(token, ',')) {\n break;\n }\n lexer.next();\n }\n\n return args;\n }", "function sumArgs() {\n console.log(arguments);\n // let total = 0\n // Arguments can not use array helper method like reduce, filter etc. but for of loops\n // for (let num of arguments) {\n // total += num\n // }\n\n // Converting arguments to real array so that reduce or another array helper method can be used\n const arrArgs = Array.from(arguments);\n\n // Or using spread operator\n // const arrArgs = [...arguments];\n\n console.log(arrArgs); // [ 5, 7, 9 ]\n\n const total = arrArgs.reduce((a, b) => a + b)\n\n return total;\n}", "function task2() {\n console.log(arguments);\n for(var i=0; i<arguments.length;i++){\n console.log(arguments[i]);\n }\n}", "function parseArguments() {\n\t var args = [], expr;\n\n\t expect('(');\n\n\t if (!match(')')) {\n\t while (startIndex < length) {\n\t if (match('...')) {\n\t expr = new Node();\n\t lex();\n\t expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n\t } else {\n\t expr = isolateCoverGrammar(parseAssignmentExpression);\n\t }\n\t args.push(expr);\n\t if (match(')')) {\n\t break;\n\t }\n\t expectCommaSeparator();\n\t }\n\t }\n\n\t expect(')');\n\n\t return args;\n\t }", "function MergedArgument(args, start, end) {\n if (!Array.isArray(args)) {\n throw new Error('args is not an array of Arguments');\n }\n\n if (start === undefined) {\n this.args = args;\n }\n else {\n this.args = args.slice(start, end);\n }\n\n var arg = Argument.merge(this.args);\n this.text = arg.text;\n this.prefix = arg.prefix;\n this.suffix = arg.suffix;\n}", "function MergedArgument(args, start, end) {\n if (!Array.isArray(args)) {\n throw new Error('args is not an array of Arguments');\n }\n\n if (start === undefined) {\n this.args = args;\n }\n else {\n this.args = args.slice(start, end);\n }\n\n var arg = Argument.merge(this.args);\n this.text = arg.text;\n this.prefix = arg.prefix;\n this.suffix = arg.suffix;\n}", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "function add2() {\n\tvar _args = arguejs2.getArguments([{text: [String]}, {a: Number}, {b: Number}], arguments);\n\n\tvar txt = (_args.text || \"ADD:\");\n\tconsole.log(txt + _args.a + \" + \" + _args.b + \" = \" + (_args.a + _args.b));\n}", "function myFunc(...myArgs) {\n\treturn myArgs;\n\n}", "function func1(str1, str2) {\n console.log(arguments[3]);\n console.log(arguments.length);\n}", "arguments(args, value, context, special) {\n const $args = [];\n const $kwargs = {};\n args.forEach(arg => {\n const v = this.value(value, arg.value, context);\n if (arg instanceof JQLKeywordArgument) {\n $kwargs[arg.name] = v;\n }\n else {\n $args.push(v);\n }\n });\n return Query.parseArgs($args, $kwargs, special);\n }", "function greetLessArgs(name,age) {\n console.log(\"Hello \"+name+ \" you are \"+age+ \" yrs old\");\n}", "function sum(){\n var sum=0;\n for(let elem of arguments){\n sum+=elem;\n }\nreturn sum\n}", "function main() {\n return argumentsAsString(...arguments)\n }", "function newFoo(a1, a2) {\n /*\n this is dangerous\n do not use 'arguments' keyword!\n */\n console.log('arguments -> ', arguments)\n\n /*\n analogues\n */\n\n console.log(Array.from(arguments))\n}", "function f_arg (arguments)\n{\n return arguments;\n}", "function greetLessArgs(name , age) {\n console.log('Hello ' + name + ' You Are ' + age + ' Years Old!');\n}", "function sum1() {\n let args = Array.from(arguments);\n let sum = 0;\n args.forEach((el)=> {\n sum+=el;\n });\n return sum;\n}", "function test(){\n console.log(arguments); // Arguments(5) [3, 4, 5, 6, 7, callee: ƒ, Symbol(Symbol.iterator): ƒ] - argumets will be as an object here \n console.log([...arguments]); // [3, 4, 5, 6, 7] - after spread argumets will be as an array\n}", "function greetArgs(name) {\n console.log(\"hello \"+name+ \" , i am from greet function\");\n}", "function add(x, y = 1, z = 2) {\n console.log(arguments);\n return x + y + z;\n}", "function logArguments(...allArguments) {\n console.log(allArguments);\n }", "function total(){\n console.log(arguments.length);\n let sum = 0;\n for(let i = 0; i < arguments.length; i++) {\n sum = sum + arguments[i];\n }\n\n return sum;\n}", "function learnArguments() {\n return(arguments.length);\n}", "function marry(person1, person2) {\n // Arguments is a variable we have access to\n console.log(arguments);\n}", "function sumOfArguments() {\n let sum = 0;\n for (let i = 0; i < arguments.length; i++) {\n sum += arguments[i];\n }\n console.log(sum);\n}", "function mary(person1, person2) {\n console.log(arguments);\n return true;\n}", "function one(a){\n \"use strict\";\n let b;\n console.log(a);\n arguments[0] = 'blabla'\n console.log(arguments);\n console.log(a);\n b = Array.from(arguments);\n console.log(b);\n\n}", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }" ]
[ "0.7352356", "0.7198588", "0.7013198", "0.69684076", "0.696082", "0.6909816", "0.687237", "0.6858448", "0.68460864", "0.68198824", "0.68062013", "0.6779013", "0.67783326", "0.6776742", "0.67684937", "0.6751083", "0.67449814", "0.6735543", "0.6734999", "0.6728472", "0.67099464", "0.6707957", "0.66957647", "0.6689007", "0.66836464", "0.66611725", "0.66487956", "0.6648484", "0.6647004", "0.6643897", "0.6643897", "0.66133046", "0.65753883", "0.6537298", "0.6537279", "0.65325224", "0.6526449", "0.6519148", "0.6509139", "0.65024686", "0.65024686", "0.64957756", "0.6495374", "0.6487846", "0.64755285", "0.64755285", "0.64737654", "0.64699674", "0.64652956", "0.6456526", "0.6455701", "0.6455145", "0.64445746", "0.6438933", "0.6425597", "0.6422357", "0.64196396", "0.6410478", "0.6408263", "0.6404812", "0.6402997", "0.6401094", "0.63942283", "0.6394126", "0.63887995", "0.6380002", "0.637439", "0.636711", "0.6355753", "0.63456273", "0.6330667", "0.6327023", "0.6327023", "0.63256115", "0.63256115", "0.63256115", "0.63256115", "0.6311705", "0.63090205", "0.62975866", "0.6286459", "0.6272581", "0.62653846", "0.6259302", "0.62534285", "0.6248854", "0.62451845", "0.62425494", "0.62409943", "0.6240969", "0.6238612", "0.6233239", "0.62329036", "0.62291956", "0.62193453", "0.62052417", "0.6202179", "0.6198141", "0.61898637", "0.61898637", "0.61898637" ]
0.0
-1
Argument : Name : Value
function parseArgument(lexer) { var start = lexer.token; return { kind: _kinds.ARGUMENT, name: parseName(lexer), value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "set name(value) {}", "function NamedArgument(nameArg, valueArg) {\n this.nameArg = nameArg;\n this.valueArg = valueArg;\n\n if (valueArg == null) {\n this.text = '';\n this.prefix = nameArg.toString();\n this.suffix = '';\n }\n else {\n this.text = valueArg.text;\n this.prefix = nameArg.toString() + valueArg.prefix;\n this.suffix = valueArg.suffix;\n }\n}", "function Parameter() {}", "function htmldb_Get_addItem(name,value){\n this.addParam('p_arg_names',name);\n this.addParam('p_arg_values',value);\n}", "set value(value) {}", "function value() { }", "function caml_register_named_value(nm,v) {\n caml_named_values[nm] = v; return 0;\n}", "argument(name, index) {\n return this.camelCase(replaceIdWithRowId(name || `arg${index}`));\n }", "set this[string](value) {}", "function GetValue(param)\r\n\t{\r\n\r\n\t}", "set name(value) { this._name = value || \"unknown\"; }", "value(name) {\n return new code.Value(name);\n }", "updateValue(arg1, arg2) {\n return \"une string\"\n }", "function passingValueToParamDemo(a,b,c) {\n\treturn \"This got passed to me A \" + a + \" B \" + b + \" C \" + c;\n}", "get value() {\n return this.args.value;\n }", "setName(value){\n\t\tthis.name = value;\n\t}", "define(name, value) {\n this.record[name] = value;\n return value;\n }", "set name(value) {\n // this replaces the name as the value. whatever the user has inputted becomes \"value\"\n this._name = value;\n }", "_$name() {\n super._$name();\n this._value.name = this._node.key.name;\n }", "function variable(name, argumentCount, isBuiltIn, value)\r\n{\r\n\tthis.name = name\r\n\tthis.argumentCount = argumentCount\r\n\tthis.isBuiltIn = isBuiltIn\r\n\tthis.value = value\r\n}", "function outputValue(value){console.log(value._name);}", "function f ([ name, val ]) {\n console.log(name, val);\n}", "set name(x) { this._name = x; }", "send(name, value) {\n //...\n }", "function eyeParam(name,value,nocode) {\n\tmyValue = new String(value);\n\tif(!nocode) {\n\t\tmyValue = myValue.replace(/\\</g,\"&lt;\");\n\t\tmyValue = myValue.replace(/\\>/g,\"&gt;\");\n\t}\n\treturn '<'+name+'>'+myValue+'</'+name+'>';\n}", "constructor(value){\n\t\tthis.value = value;\n\t}", "set Custom(value) {}", "set name(value) {\n if (typeof value !== \"string\") throw new Error(\"Name must be a string\");\n _name.set(this, value);\n }", "function argument(arg) \n\t{\n\t if (arg instanceof Array) \n\t {\n\t\tarray(arg,argument);\n\t\treturn;\n\t }\n\n\t if (typeof arg === 'object')\n\t {\n\t\tvar out = {};\n\t\tvar first = true;\n\t\t\n\t\tgenerated.push('dictionary(');\n\n\t\tfor (var k in arg) \n\t\t{\n\t\t if (first) first = false;\n\t\t else comma();\n\t\t \n\t\t string(k);\n\t\t comma();\n\t\t argument(arg[k]);\n\t\t}\n\n\t\tgenerated.push(')');\n\n\t\treturn;\n\t }\n\n\t if (arg.charAt(0) === ':') \n\t {\n\t\tvar key = arg.substring(1);\n\t\t\n\t\tfor (var i = 0; i < args.length; ++i) \n\t\t if (args[i] === key) \n\t\t\treturn generated.push('getArgument(',i,')');\n\n\t\tthrow (\"Unknown argument \" + arg + \" in \" + path + \".\" + name)\n\t }\n\n\t if (arg.charAt(0) === '@') \n\t {\n\t\tvar key = arg.substring(1);\n\n\t\tif (key === '') \n\t\t{\n\t\t generated.push('identity');\n\t\t return;\n\t\t}\n\n\t\tfor (var i = 0; i < model.fields.length; ++i) \n\t\t{\n\t\t if (model.fields[i] === key) \n\t\t {\t\n\t\t\tgenerated.push('getMember(');\n\t\t\tstring(key);\n\t\t\tgenerated.push(')');\n\t\t\treturn;\n\t\t }\n\t\t}\n\n\t\tthrow (\"Unknown field \" + arg + \" in \" + path + \".\" + name)\n\t }\n\n\t return string(arg);\t \n\t}", "function SuperArg(name){\n this.name = name\n}", "set x(value) {}", "function setValueByName (name, value) {\nreturn $('[name=\"' + name + '\"]').val(\"\" +value);\n}", "function ha(a, b) {\n return a.name = b\n }", "constructor(param) {\n this.name = param.name\n this.sign = parm.sign\n }", "set x(v) {}", "function g({name: x}) {\n console.log(x);\n}", "function vaildator(value){\n if(value!=''){\n return value;\n }\n else{\n return '(name not given)';\n }\n}", "setParamValue(text, val) {\n console.log(\"IMPLEMENT ME\");\n }", "function value ( ) {\n\t\treturn this[0][ !arguments.length ? 'vGet' : 'vSet' ].apply(this[0], arguments);\n\t}", "function g({name: x}) {\n console.log(x);\n}", "function X(a) {\n a = 5;\n arguments[1] = 12;\n console.log(arguments)\n}", "set name(value) {\n\t\tthis._name = value;\n\t}", "function argsDataType() {\n\n}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName$1(name);\n\t\tvalidateValue$1(value);\n\t\tconst key = find$1(this[MAP$1], name);\n\t\tthis[MAP$1][key !== undefined ? key : name] = [value];\n\t}", "setName(name) { }", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "genericOnChange(event){\n this[event.target.name] = event.target.value;\n }", "function SoloValue() {}", "parameter(name) {\n if (this.shared && this.parent.check(name, true)) {\n return;\n }\n return this.add(name, 'param');\n }", "function Get(sName)\n {\n return this.arg[sName];\n }", "set(name, value) {\n\t\tname = `${name}`;\n\t\tvalue = `${value}`;\n\t\tvalidateName(name);\n\t\tvalidateValue(value);\n\t\tconst key = find$1(this[MAP], name);\n\t\tthis[MAP][key !== undefined ? key : name] = [value];\n\t}", "parameter(name) {\r\n\t\t\t\tif (this.shared && this.parent.check(name, true)) {\r\n\t\t\t\t\treturn;\r\n\t\t\t\t}\r\n\t\t\t\treturn this.add(name, 'param');\r\n\t\t\t}", "function logValue(thing) {\n logNamedValue('Result', thing);\n}", "function onInputChange(e) {\n console.log(\"change\");\n const { name, value } = e.target;\n parameters = { ...parameters, [name]: value };\n}", "function changeValue(name) {\n name = \"Thang\";\n // var name = \"TEST\";\n console.log(\"name: \", name);\n // var number = 1;\n}", "function setParameter(name/*:String*/, value/*:**/)/*:**/{\n var old/*:**/ = this._parameters$aqE4[name];\n this._parameters$aqE4[name] = value;\n return old;\n }", "set DXT1(value) {}", "set(name, value) {\n return this.clone({\n name,\n value,\n op: 's'\n });\n }", "function StoreParm(myName, myValue, formID) {\n // Find the form.\n var myForm = document.getElementById(formID);\n // Find the field.\n var myElement = myForm.elements[myName];\n // Store the value.\n myElement.value = myValue;\n}", "writeValue() { }", "set Local(value) {}", "changeHandler({ target: { name, value }}) {\r\n this.setState({\r\n [name]: value // ES7 feature\r\n });\r\n }", "function dataSample(className,dataName,value){ //func sample data of attributes \r\n\t\t\treturn $(\"\"+className+\"[\"+dataName+\" = '\"+arguments[2]+\"']\"); //sample attribute \r\n\t\t}", "function PrintName(name){ // the set of a parameters.\n console.log(name);\n}", "function setValue(name, value) {\n var nameSelect = \"[name='\" + escapeName(name) + \"']\";\n jq(nameSelect).val(value);\n}", "function boo({first=\"10\", second=\"true\"}) {\n\n}" ]
[ "0.72060025", "0.72060025", "0.72060025", "0.72060025", "0.72060025", "0.72060025", "0.72060025", "0.6422374", "0.64010113", "0.62037766", "0.6194418", "0.6177072", "0.61311734", "0.612789", "0.6106977", "0.6090025", "0.607602", "0.6045148", "0.59991854", "0.5996516", "0.5980319", "0.59773207", "0.59582525", "0.5945145", "0.59420884", "0.5938137", "0.59373", "0.5892239", "0.58827317", "0.5851412", "0.5847316", "0.5818679", "0.577745", "0.57758194", "0.5766548", "0.57643735", "0.574556", "0.57438195", "0.57411194", "0.57376266", "0.57255405", "0.5720384", "0.5713151", "0.57117844", "0.57063335", "0.570146", "0.57004935", "0.56634897", "0.56503564", "0.56371415", "0.56252986", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56234944", "0.56095684", "0.56076795", "0.55910546", "0.55897665", "0.5584145", "0.5580426", "0.55793786", "0.5561982", "0.55618215", "0.55467343", "0.5545943", "0.55385804", "0.55311924", "0.55205053", "0.55137205", "0.55134946", "0.5503333", "0.54826325", "0.54741865", "0.54729617" ]
0.0
-1
Implements the parsing rules in the Fragments section. Corresponds to both FragmentSpread and InlineFragment in the spec. FragmentSpread : ... FragmentName Directives? InlineFragment : ... TypeCondition? Directives? SelectionSet
function parseFragment(lexer) { var start = lexer.token; expect(lexer, _lexer.TokenKind.SPREAD); if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') { return { kind: _kinds.FRAGMENT_SPREAD, name: parseFragmentName(lexer), directives: parseDirectives(lexer), loc: loc(lexer, start) }; } var typeCondition = null; if (lexer.token.value === 'on') { lexer.advance(); typeCondition = parseNamedType(lexer); } return { kind: _kinds.INLINE_FRAGMENT, typeCondition: typeCondition, directives: parseDirectives(lexer), selectionSet: parseSelectionSet(lexer), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseFragment() {\n const start = this._lexer.token;\n this.expectToken(TokenKind.SPREAD);\n const hasTypeCondition = this.expectOptionalKeyword('on');\n\n if (!hasTypeCondition && this.peek(TokenKind.NAME)) {\n return this.node(start, {\n kind: Kind.FRAGMENT_SPREAD,\n name: this.parseFragmentName(),\n directives: this.parseDirectives(false),\n });\n }\n\n return this.node(start, {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? this.parseNamedType() : undefined,\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "parseFragmentDefinition() {\n var _this$_options;\n\n const start = this._lexer.token;\n this.expectKeyword('fragment'); // Legacy support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (\n ((_this$_options = this._options) === null || _this$_options === void 0\n ? void 0\n : _this$_options.allowLegacyFragmentVariables) === true\n ) {\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n variableDefinitions: this.parseVariableDefinitions(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function PossibleFragmentSpreadsRule(context) {\n return {\n InlineFragment(node) {\n const fragType = context.getType();\n const parentType = context.getParentType();\n\n if (\n (0, _definition.isCompositeType)(fragType) &&\n (0, _definition.isCompositeType)(parentType) &&\n !(0, _typeComparators.doTypesOverlap)(\n context.getSchema(),\n fragType,\n parentType,\n )\n ) {\n const parentTypeStr = (0, _inspect.inspect)(parentType);\n const fragTypeStr = (0, _inspect.inspect)(fragType);\n context.reportError(\n new _GraphQLError.GraphQLError(\n `Fragment cannot be spread here as objects of type \"${parentTypeStr}\" can never be of type \"${fragTypeStr}\".`,\n {\n nodes: node,\n },\n ),\n );\n }\n },\n\n FragmentSpread(node) {\n const fragName = node.name.value;\n const fragType = getFragmentType(context, fragName);\n const parentType = context.getParentType();\n\n if (\n fragType &&\n parentType &&\n !(0, _typeComparators.doTypesOverlap)(\n context.getSchema(),\n fragType,\n parentType,\n )\n ) {\n const parentTypeStr = (0, _inspect.inspect)(parentType);\n const fragTypeStr = (0, _inspect.inspect)(fragType);\n context.reportError(\n new _GraphQLError.GraphQLError(\n `Fragment \"${fragName}\" cannot be spread here as objects of type \"${parentTypeStr}\" can never be of type \"${fragTypeStr}\".`,\n {\n nodes: node,\n },\n ),\n );\n }\n },\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t // Experimental support for defining variables within fragments changes\n\t // the grammar of FragmentDefinition:\n\t // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\t if (lexer.options.experimentalFragmentVariables) {\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, TokenKind.SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, TokenKind.NAME)) {\n return {\n kind: Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function PossibleFragmentSpreadsRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n\n if ((0, _definition.isCompositeType)(fragType) && (0, _definition.isCompositeType)(parentType) && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = (0, _inspect.default)(parentType);\n var fragTypeStr = (0, _inspect.default)(fragType);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot be spread here as objects of type \\\"\".concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n\n if (fragType && parentType && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = (0, _inspect.default)(parentType);\n var fragTypeStr = (0, _inspect.default)(fragType);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(fragName, \"\\\" cannot be spread here as objects of type \\\"\").concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n }\n };\n}", "function PossibleFragmentSpreadsRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n\n if ((0, _definition.isCompositeType)(fragType) && (0, _definition.isCompositeType)(parentType) && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = (0, _inspect.default)(parentType);\n var fragTypeStr = (0, _inspect.default)(fragType);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot be spread here as objects of type \\\"\".concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n\n if (fragType && parentType && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = (0, _inspect.default)(parentType);\n var fragTypeStr = (0, _inspect.default)(fragType);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(fragName, \"\\\" cannot be spread here as objects of type \\\"\").concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n }\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer$$1.options.experimentalFragmentVariables) {\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function PossibleFragmentSpreadsRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(fragType) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(parentType) && !Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_4__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType);\n var fragTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Fragment cannot be spread here as objects of type \\\"\".concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n\n if (fragType && parentType && !Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_4__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType);\n var fragTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Fragment \\\"\".concat(fragName, \"\\\" cannot be spread here as objects of type \\\"\").concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n }\n };\n}", "function PossibleFragmentSpreadsRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(fragType) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(parentType) && !Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_4__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType);\n var fragTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Fragment cannot be spread here as objects of type \\\"\".concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n\n if (fragType && parentType && !Object(_utilities_typeComparators_mjs__WEBPACK_IMPORTED_MODULE_4__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n var parentTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType);\n var fragTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Fragment \\\"\".concat(fragName, \"\\\" cannot be spread here as objects of type \\\"\").concat(parentTypeStr, \"\\\" can never be of type \\\"\").concat(fragTypeStr, \"\\\".\"), node));\n }\n }\n };\n}", "function parseFragment(parser) {\n\t var start = parser.token.start;\n\t expect(parser, _lexer.TokenKind.SPREAD);\n\t if (peek(parser, _lexer.TokenKind.NAME) && parser.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(parser),\n\t directives: parseDirectives(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var typeCondition = null;\n\t if (parser.token.value === 'on') {\n\t advance(parser);\n\t typeCondition = parseNamedType(parser);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(parser) {\n var start = parser.token.start;\n expect(parser, _lexer.TokenKind.SPREAD);\n if (peek(parser, _lexer.TokenKind.NAME) && parser.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(parser),\n directives: parseDirectives(parser),\n loc: loc(parser, start)\n };\n }\n var typeCondition = null;\n if (parser.token.value === 'on') {\n advance(parser);\n typeCondition = parseNamedType(parser);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseFragment(lexer$$1) {\n var start = lexer$$1.token;\n expect(lexer$$1, lexer.TokenKind.SPREAD);\n if (peek(lexer$$1, lexer.TokenKind.NAME) && lexer$$1.token.value !== 'on') {\n return {\n kind: kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n loc: loc(lexer$$1, start)\n };\n }\n var typeCondition = void 0;\n if (lexer$$1.token.value === 'on') {\n lexer$$1.advance();\n typeCondition = parseNamedType(lexer$$1);\n }\n return {\n kind: kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n var typeCondition;\n\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function PossibleFragmentSpreads(context) {\n\t return {\n\t InlineFragment: function InlineFragment(node) {\n\t var fragType = context.getType();\n\t var parentType = context.getParentType();\n\t if (fragType && parentType && !(0, _utilitiesTypeComparators.doTypesOverlap)(fragType, parentType)) {\n\t context.reportError(new _error.GraphQLError(typeIncompatibleAnonSpreadMessage(parentType, fragType), [node]));\n\t }\n\t },\n\t FragmentSpread: function FragmentSpread(node) {\n\t var fragName = node.name.value;\n\t var fragType = getFragmentType(context, fragName);\n\t var parentType = context.getParentType();\n\t if (fragType && parentType && !(0, _utilitiesTypeComparators.doTypesOverlap)(fragType, parentType)) {\n\t context.reportError(new _error.GraphQLError(typeIncompatibleSpreadMessage(fragName, parentType, fragType), [node]));\n\t }\n\t }\n\t };\n\t}", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = null;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer, false),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = void 0;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function WithFragments() {}", "function PossibleFragmentSpreads(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n if (fragType && parentType && !(0, _utilitiesTypeComparators.doTypesOverlap)(fragType, parentType)) {\n context.reportError(new _error.GraphQLError(typeIncompatibleAnonSpreadMessage(parentType, fragType), [node]));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n if (fragType && parentType && !(0, _utilitiesTypeComparators.doTypesOverlap)(fragType, parentType)) {\n context.reportError(new _error.GraphQLError(typeIncompatibleSpreadMessage(fragName, parentType, fragType), [node]));\n }\n }\n };\n}", "function parseFragmentDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(parser),\n\t typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function PossibleFragmentSpreads(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n if (fragType && parentType && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n context.reportError(new _error.GraphQLError(typeIncompatibleAnonSpreadMessage(parentType, fragType), [node]));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n if (fragType && parentType && !(0, _typeComparators.doTypesOverlap)(context.getSchema(), fragType, parentType)) {\n context.reportError(new _error.GraphQLError(typeIncompatibleSpreadMessage(fragName, parentType, fragType), [node]));\n }\n }\n };\n}", "function parseFragmentDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(parser),\n typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD);\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n var typeCondition;\n\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function PossibleFragmentSpreads(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var fragType = context.getType();\n var parentType = context.getParentType();\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(fragType) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(parentType) && !Object(_utilities_typeComparators__WEBPACK_IMPORTED_MODULE_2__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](typeIncompatibleAnonSpreadMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType), Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType)), node));\n }\n },\n FragmentSpread: function FragmentSpread(node) {\n var fragName = node.name.value;\n var fragType = getFragmentType(context, fragName);\n var parentType = context.getParentType();\n\n if (fragType && parentType && !Object(_utilities_typeComparators__WEBPACK_IMPORTED_MODULE_2__[\"doTypesOverlap\"])(context.getSchema(), fragType, parentType)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](typeIncompatibleSpreadMessage(fragName, Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(parentType), Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(fragType)), node));\n }\n }\n };\n}", "function processMultiFragments(node,frag) {\n var list = node.context().get(\"fragmentList\");\n addFragmentToList(list,frag);\n var f = extractComplete(list);\n removeUnwanted(list);\n return f;\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function transformFragment(context, fragments, parentScope, spread, args, errorContext) {\n var fragment = context.getFragment(spread.name);\n var argumentsHash = hashArguments(args, parentScope, errorContext);\n var fragmentName = argumentsHash ? \"\".concat(fragment.name, \"_\").concat(argumentsHash) : fragment.name;\n var appliedFragment = fragments.get(fragmentName);\n\n if (appliedFragment) {\n return appliedFragment;\n }\n\n var fragmentScope = require(\"./RelayCompilerScope\").getFragmentScope(fragment.argumentDefinitions, args, parentScope, spread);\n\n if (fragments.get(fragmentName) === null) {\n // This transform does whole-program optimization, errors in\n // a single document could break invariants and/or cause\n // additional spurious errors.\n throw require(\"./RelayCompilerError\").createNonRecoverableUserError(\"Found a circular reference from fragment '\".concat(fragment.name, \"'.\"), errorContext.map(function (node) {\n return node.loc;\n }));\n }\n\n fragments.set(fragmentName, null); // to detect circular references\n\n var transformedFragment = null;\n var selections = transformSelections(context, fragments, fragmentScope, fragment.selections, errorContext);\n\n if (selections) {\n transformedFragment = (0, _objectSpread2[\"default\"])({}, fragment, {\n selections: selections,\n name: fragmentName,\n argumentDefinitions: []\n });\n }\n\n fragments.set(fragmentName, transformedFragment);\n return transformedFragment;\n}", "function parseFragments()\n\t\t{\n\t\t\tvar idx, script = '';\n\t\t//\tEZ.trace(json);\n\t\t\n\t\t\t//----- create shadow json with quoted strings neutered (except Object keys)\n\t\t\tvar jsonShadow = json.replace(/(\\\\['\"])/g, '@@');\t\t//esc embedded quotes e.g. \\\" --> @@\n\t\t\tjsonShadow = jsonShadow.replace(/(['\"])(.*?)\\1(\\s*)(\\:?)/g,\n\t\t\tfunction(all, quote, inner, spaces, colon)\t\t\t\t//replace all quoted strings\n\t\t\t{\t\t\t\t\t\t\t\t\t\t\t\t\t\t//with #...# e.g. \"abc\" --> \"###\"\n\t\t\t\tif (colon) return all;\t\t\t\t\t\t\t\t//except Object keys\n\t\t\t\treturn quote + '@'.dup(inner.length) + quote + spaces;\n\t\t\t});\n\t\t\t\n\t\t\t//----- also neuter \"forEach(function(...){...});\" to avoid parsing as fragments\n\t\t\tjsonShadow = jsonShadow.replace(/(forEach\\()([\\s\\S]*?\\}.*\\n)/g, function(all,prefix,fn)\n\t\t\t{\n\t\t\t\treturn prefix + '@'.dup(fn.length);\n\t\t\t});\n\t\t\t/*___________________________________________________________________________________\n\t\t\t//\n\t\t\t//\tSAMPLE JSON before pre-processing nueters quoted Strings and some anounmous\n\t\t\t//\tfunctions to simplify parsing into fragments and fragment items.\n\t\t\t//___________________________________________________________________________________\n\t\t\t{\n\t\t\t\tguess: 123,\n\t\t\t\tfn: (function()\n\t\t\t\t{\n\t\t\t\t\tvar ____properties____ = {\n\t\t\t\t\t\tcolor: \"green\",\n\t\t\t\t\t\tarray: [1, 2, \"red\", true]\n\t\t\t\t\t};\n\t\t\t\t\tObject.keys(____properties____).forEach(function(key)\n\t\t\t\t\t{____function____[key] = ____properties____[key]})\n\t\t\t\t\treturn ____function____;\n\t\t\t\t})()\n\t\t\t}\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\tOPEN FRAGMENT OFFSETS\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\toffsets: \t0:[0,1], 1:[18,43], 2:[44,74], 3:[75,95]\n\t\t\t\t[0]:\t{\n\t\t\t\t[1]:\t.... fn:. (function() .... {\n\t\t\t\t[2]:\t.... var. ____properties____. =. {\n\t\t\t\t[3]:\t.[12]. array:. [\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\tCLOSE FRAGMENT OFFSETS\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\toffsets: 0:[75,100], 1:[101,111], 2:[265,273], 3:[274,275]\n\t\t\t\t[0]: array: [1, 2]\n\t\t\t\t[1]: };\n\t\t\t\t[2]: })()\n\t\t\t\t[3]:}\n\t\t\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\t//\tSAMPLE NUETERED DATA - embedded quotes and forEach converted to @ for parsing\n\t\t\t//\tstart of fragments marked as -->>...<-- end of fragments marked as --<<...<--\n\t\t\t-------------------------------------------------------------------------------------------\n\t\t\t __\n\t\t\t| \\................................fragment #0\n\t\t\t| -->>\n\t\t\t| {<--\n\t\t\t| | guess: 123,\n\t\t\t|\t |_________________________________openOffsets[0] = openResults.end[0] = 1\n\t\t\t|\t________\n\t\t\t| | -->>\\........................fragment #1\n\t\t\t| | fn: (function()\n\t\t\t| | {<--\n\t\t\t| | |_____________________________openOffsets[1] = openResults.end[1] = 43\n\t\t\t| | __________________________\n\t\t\t| | | -->>\\.....fragment #2\n\t\t\t| | | var ____properties____ = {<--\n\t\t\t| | | |____openOffsets[2] = openResults.end[2] = 74\n\t\t\t| | |\n\t\t\t| | | ________..............fragment #3\n\t\t\t| | | | \\ ___________openOffsets[3] = openResults.end[0] = 95\n\t\t\t| | | | \\ | _______closeOffsets[3] = closeResults.end[0] = 100 - 1 = 99\n\t\t\t| | | | -->> <--|\n\t\t\t| | | | array: [1, 2]\n\t\t\t| | | | <<-- <-- end - marker size\n\t\t\t| | | |_______________/\n\t\t\t| | | __________________________closeOffsets[2] = (closeResults.end[1] = 111) - 2 = 109\n\t\t\t| | | |\n\t\t\t| | | <<--};<--\n\t\t\t| | |_______/\n\t\t\t| | Object.keys(____properties____).forEach\n\t\t\t| | return ____function____;\n\t\t\t| | <<--})()<--\n\t\t\t| |________/\n\t\t\t|\t |______________________________closeOffsets[1] = (closeResults.end[2] = 273) - 4 = 269\n\t\t\t| <<--\n\t\t\t|\t}<--\n\t\t\t| |_________________________________closeOffsets[0] = (closeResults.end[3] = 275) - 1 = 274\n\t\t\t|___/\n\t\t\t*/\n\t\t\tvar begWrapPattern = RegExp( \"(\\\\n\\\\s*)?\" //prefix from line where marker starts\n\t\t\t\t\t\t\t\t\t + \"(\" //open marker --\tif function...\n\t\t\t\t\t\t\t\t\t + \"(\\\\(\\\\s*function||function)\" //optional closure & fn statement\n\t\t\t\t\t\t\t\t\t + \"\\\\s*[\\\\w]*\\\\([^(]*\\\\)\"\t\t//optional fn name & (named args)\n\t\t\t\t\t\t\t\t\t + \"[\\\\s\\\\S]*?\\\\{\" \t\t\t\t//optional comment & start of body\n\t\t\t\t\t\t\t\t\t + \"|\\\\{\" \t\t\t\t//...or Object\n\t\t\t\t\t\t\t\t\t + \"|\\\\[\" \t\t\t//...or Array\n\t\t\t\t\t\t\t\t\t + \")\" //end of open marker\n\t\t\t\t\t\t\t\t\t + \"(\\\\s*?\\\\n?)\", //optional spaces up to optional newline\n\t\t\t\t\t\t\t\t\t\t \"g\");\n\t\t\n\t\t\tvar endWrapPattern = RegExp( \"(.*)\" \t\t\t//prefix from line where close marker starts\n\t\t\t\t\t\t\t\t\t + \"(\" \t\t\t\t//start of close marker\n\t\t\t\t\t\t\t\t\t + \"\\\\}\\\\)\\\\(\\\\)\" \t//end of optional closure -- TODO: expand\n\t\t\t\t\t\t\t\t\t + \"|\\\\}|\\\\];?\" \t//end of fn, object, array\n\t\t\t\t\t\t\t\t\t + \")\"\t\t\t\t//end of close marker\n\t\t\t\t\t\t\t\t\t + \"(\\\\s*?\\\\n*)\",\t\t//optional spaces up to optional newline\n\t\t\t\t\t\t\t\t\t\t \"g\");\n\t\t\tvar itemPatterns = {\n\t\t\t\t\"[\": /(\\s*)(())?(([^,]*)\\s*)(,?\\n?)/,\t\t\t//array -- value [,\\n]\n\t\t\t\t\"{\": /(\\s*)(([^:]*)[:]\\s*)(([^,]*)\\s*)(,?\\n?)/,\t//object -- key: value [,\\n]\n\t\t\t\t\"(\": /(\\s*)(())((.*?);?)(\\n?)$/m\t\t\t\t//function -- single lines .*[;]$\n\t\t\t}\n\t\t\titemPatterns[')'] = itemPatterns['('];\n\t\t\tvar begWrappers =\n\t\t\t{\t\t\t\t\t\t//use for eval if defined\n\t\t\t\t'{': 'EZ.obj={\\n'\t\t//Object\n\t\t\t}\n\t\t\tvar endWrappers = {\n\t\t\t\t'[': ']',\t\t\t//Array\n\t\t\t\t'{': '\\n}',\t\t\t//Object\n\t\t\t\t')': '\\n}',\t\t\t//function...\n\t\t\t\t'(': '\\n})'\t\t\t//(function...)\n\t\t\t}\n\t\t\n\t\t\t //-----------------------------------------------\\\\\n\t\t\t //----- find all start / end fragment markers -----\\\\\n\t\t\t//---------------------------------------------------\\\\\n\t\t\tvar openTypes = [],\n\t\t\t\topenOffsets = [],\n\t\t\t\tcloseOffsets = [],\n\t\t\t\topenResults = jsonShadow.matchPlus(begWrapPattern),\n\t\t\t\tcloseResults = jsonShadow.matchPlus(endWrapPattern);\n\t\t\n\t\t\tidx = 0;\n\t\n\t\t\tjsonShadow.replace(begWrapPattern, function(all, prefix, marker, fn, eol)\n\t\t\t{\n\t\t\t\tvar type = !fn ? marker\n\t\t\t\t\t\t : marker.substr(0,1) == '(' ? '('\n\t\t\t\t\t\t : ')';\n\t\t\t\tvar offset = openResults.end[idx] + eol.length - (eol ? 1 : 0);\n\t\t\n\t\t\t\topenResults[idx++] = marker + eol;\n\t\t\t\topenTypes.push(type);\n\t\t\t\topenOffsets.push(offset);\n\t\t\t});\n\t\t\n\t\t\tidx = 0;\n\t\t\tjsonShadow.replace(endWrapPattern, function(all,prefix,marker, eol)\n\t\t\t{\n\t\t\t\tcloseResults[idx] = marker + eol;\t\t//?? prefix offsets may handle\n\t\t\t\tcloseOffsets.push(closeResults.end[idx] - marker.length - 1);\n\t\t\t\tidx++;\n\t\t\t});\n\t\t\n\t\t\t //--------------------------------------------------------\\\\\n\t\t\t //----- reorder closeOffsets to align with openOffsets -----\\\\\n\t\t\t//------------------------------------------------------------\\\\\n\t\t\topenOffsets.forEach(function(begOffset,idx)\n\t\t\t{\n\t\t\t\tvar begOffset = openOffsets[idx];\n\t\t\t\tvar endOffset = jsonShadow.length;\n\t\t\t\tfor (var i=idx; i<closeOffsets.length; i++)\n\t\t\t\t{\n\t\t\t\t\tfor (var j=i+1; j<openOffsets.length; j++)\n\t\t\t\t\t{\n\t\t\t\t\t\tif (openOffsets[j] > closeOffsets[i])\n\t\t\t\t\t\t\tbreak;\n\t\t\t\t\t}\n\t\t\t\t\tif (j == i+1)\n\t\t\t\t\t\tbreak;\n\t\t\t\t}\n\t\t\t\tif (i < closeOffsets.length)\n\t\t\t\t{\t\t\t\t\t\t\t\t\t\t//swap closeOffsets\n\t\t\t\t\tendOffset = closeOffsets.splice(i,1)[0];\n\t\t\t\t\tcloseOffsets.splice(idx,0,endOffset);\n\t\t\t\t\tvar endWrap = closeResults.splice(i,1)[0];\n\t\t\t\t\tcloseResults.splice(idx,0,endWrap);\n\t\t\t\t}\n\t\t\t\tmsg = '\\n' + '-'.dup(50)\n\t\t\t\t\t+ '\\nfragment #' + (idx + 1)\n\t\t\t\t\t+ ' offsets: [' + begOffset + ',' +endOffset + ']'\n\t\t\t\t\t+ '\\n' + '-'.dup(50)\n\t\t\t\t\t+ '\\n-->>' + openResults[idx].replace(/([\\s\\S*?])(\\n)/, '$1<--$2')\n\t\t\t\t\t+ jsonShadow.substring(begOffset, endOffset)\n\t\t\t\t\t+ '<<--' + closeResults[idx] + '<--';\n\t\t\t\trtnValue.addListItem('fragments', msg);\n\t\t\t});\n\t\t\topenResults.push('');\t\t\t\t\t//fake for idx+1 references\n\t\t\topenOffsets.push(jsonShadow.length);\n\t\t\n\t\t\t//\tEZ.trace('FRAGMENTS', msg.substr(1));\n\t\t\toptions.details = false;\n\t\t\n\t\t\t //------------------------------\\\\\n\t\t\t //----- parse outer fragment -----\\\\\n\t\t\t//----------------------------------\\\\\n\t\t\tidx = 0;\n\t\t\tvar offset = 0;\n\t\t\tjsonFragment();\n\t\t\n\t\t\tif (!msg && json.substr(offset))\t\t//any remaining json is unexpected\n\t\t\t{\n\t\t\t\tmsg = 'following unexpected';\n\t\t\t\t//out of scope function call\n\t\t\t\t//jsonAppend('=', '@@@error@@@', '@@@good@@@');\n\t\t\t\t\t\t//script += '@@@error@@@' + json.substr(offset);\n\t\t\t\t\t\t//offset += json.substr(offset).length;\n\t\t\t}\n\t\t\t\n\t\t\tif (msg) \t\t\t\t\t\t\t\t//add to exception from full json eval\n\t\t\t{\n\t\t\t\trtnValue.addMessage('more detail below...');\n\t\t\n\t\t\t\t //------------------------------\\\\\n\t\t\t\t //----- format error message -----\\\\\n\t\t\t\t//----------------------------------\\\\\n\t\t\t\tif (msg.substr(-1) != '\\n') msg += '\\n';\n\t\t\t\tscript = script.replace(/([\\s\\S]*\\n)?([\\s\\S]*)@@@error@@@([\\s\\S]*)@@@good@@@(.*)(\\n?)/,\n\t\t\t\tfunction(all, linesBeforeBad, codeBeforeBad, bad, codeAfterBad)\n\t\t\t\t{\n\t\t\t\t\tlinesBeforeBad = linesBeforeBad || '';\n\t\t\t\t\tvar indent = Math.max(0,codeBeforeBad.length - 1);\n\t\t\t\t\tvar indentBad = Math.max(0,indent + bad.length - 1);\n\t\t\t\t\tbad.replace(/[\\s\\S]*\\n(.*)/, function(all, bad /*last line of bad*/)\n\t\t\t\t\t{\n\t\t\t\t\t\tindentBad = Math.max(0,bad.length - 1);\n\t\t\t\t\t});\n\t\t\t\t\tall = linesBeforeBad\n\t\t\t\t\t\t+ (linesBeforeBad ? '='.dup(50) : '')\t//\t~~~~~~~~~~~~~~~~~~~~~~\n\t\t\t\t\t\t+ '\\n...' + msg + ''\t\t\t\t\t//\t...msg\n\t\t\t\t\t\t+ '_'.dup(indent) + '\\n'\t\t\t\t//\t_______\n\t\t\t\t\t\t+ ' '.dup(indent) + '\\\\\\n'\t\t\t\t//\t \\\n\t\t\t\t\t\t+ codeBeforeBad + bad + codeAfterBad\t//\tbefore bad...after\n\t\t\t\t\t\t+ '\\n' + '_'.dup(indentBad+1) + '/\\n'\t// _____________/\n\t\t\t\t\t\t+ '...end of json parse\\n'\t\t\t\t\t//\t...end of parse\n\t\t\t\t\t\t+ '='.dup(50) + '\\n';\t\t\t\t\t//\t~~~~~~~~~~~~~~~~~~~~~~\n\t\t\t\t\treturn all;\n\t\t\t\t});\n\t\t\t}\n\t\t\tscript += json.substr(offset);\n\t\t//\tEZ.trace('SCRIPT returned', script);\n\t\n\t\t\t//=============================================================\n\t\t\t//msg = rtnValue.getMessageObject();\n\t\t\t//msg[0] = 'SyntaxError: ' + msg[0];\n\t\t\t//rtnValue.addMessage('-'.dup(50));\n\t\t\trtnValue.set('syntaxError', script);\n\t\t\t/*\n\t\t\tEZ.json.message = 'SyntaxError: ' + EZ.json.message\n\t\t\t\t\t\t\t\t + '\\n'\n\t\t\t\t\t\t\t\t + '-'.dup(50) + '\\n'\n\t\t\t\t\t\t\t\t + script;\n\t\t\t*/\n\t\t\treturn;\n\t\t\t//=============================================================\n\t\n\t\t\n\t\t\t//_______________________________________________________________________________\n\t\t\t/**\n\t\t\t *\trecursively called for each json fragment until SyntaxError occurs.\n\t\t\t */\n\t\t\tfunction jsonFragment(depth/*lastBegWrap, lastEndWrap, lastType*/)\n\t\t\t{\n\t\t\t\tdepth = depth || 0;\n\t\t\t\tif (idx >= openOffsets.length) return;\t//no more fragment markers\n\t\t\n\t\t\t\tvar item,\n\t\t\t\t\tbegWrap = openResults[idx],\n\t\t\t\t\tendWrap = closeResults[idx],\n\t\t\t\t\tbegOffset = openOffsets[idx],\n\t\t\t\t\tendOffset = closeOffsets[idx],\n\t\t\n\t\t\t\t\ttype = openTypes[idx],\n\t\t\t\t\tbegWrapType = begWrappers[type] || begWrap,\n\t\t\t\t\tendWrapType = endWrappers[type],\n\t\t\n\t\t\t\t\tfragmentItems = '';\n\t\t\n\t\t\t\tjsonAppend(begWrap, '-->>', '<--');\n\t\t\t\toffset = begOffset;\n\t\t\t\tfragmentItems = begWrapType;\t\t\t//reset fragmentItems\n\t\t\n\t\t\t\t //--------------------------------\\\\\n\t\t\t\t //----- for each fragment item -----\\\\\n\t\t\t\t//------------------------------------\\\\\n\t\t\t\tvar thisFragment = '';\n\t\t\t\tvar itemPattern = itemPatterns[type];\n\t\t\t\tvar count = jsonShadow.matchPlus(/(function|\\]|\\})/g).length;\n\t\t\t\tdo\n\t\t\t\t{\n\t\t\t\t\t//_______________________________________________________________________________\n\t\t\t\t\t//\n\t\t\t\t\t//\tEXAMPLE: items marked as #>...#< -- item separators as ^...^\n\t\t\t\t\t//\t\t\t keys (or closure variable assignments) marked as !...!\n\t\t\t\t\t//_______________________________________________________________________________\n\t\t\t\t\t/*\n\t\t\t\t\t-->>{<--\n\t\t\t\t\t\t#>!guess: !\"neutered quotes@red@\"<#,\n\t\t\t\t\t\t#>!fn: !>>(function()\n\t\t\t\t\t\t-->>{<--\n\t\t\t\t\t\t\t#>!var ____properties____ = !-->>{<--#>!\n\t\t\t\t\t\t\t\tcolor: !\"red\"<#^,\n\t\t\t\t\t\t\t\t^#>!array: !-->>[<--#>1<#^, ^#>2<#--<<]<--\n\t\t\t\t\t\t\t--<<};<--\n\t\t\t\t\t\t\t#>Object.keys(____properties____).forEach@@@@@@@@@\n\t\t\t\t\t\t\t#>return ____function____;<#\n\t\t\t\t\t\t--<<})()<--<#\n\t\t\t\t\t--<<}<--\n\t\t\t\t\t*/\n\t\t\t\t\tvar nextFragment = openOffsets[idx+1] - openResults[idx+1].length;\n\t\t\t\t\tthisFragment = jsonShadow.substring(offset, Math.min(nextFragment, endOffset));\n\t\t\t\t\tif (!thisFragment.length)\n\t\t\t\t\t\tbreak;\n\t\t\t\t\tvar groups = \"prefix, keyGroup, key, valueGroup, value, itemSep\";\n\t\t\t\t\tvar results = thisFragment.matchPlus(itemPattern, groups);\n\t\t\t\t\tif (!results.isFound) break;\n\t\t\n\t\t\t\t\tresults.start.forEach(function(start,idx)\n\t\t\t\t\t{\t\t\t\t\t\t\t\t//get un-neutered json results\n\t\t\t\t\t\titem = json.substr(offset+start, results[idx].length);\n\t\t\t\t\t\tresults.set(results.keys[idx], item);thisFragment\n\t\t\t\t\t});\n\t\t\n\t\t\t\t\t//fragmentItems += results.prefix;\n\t\t\t\t\tjsonAppend(results.prefix, '#>');\n\t\t\n\t\t\t\t\tif (!results.keyGroup && !results.valueGroup)\n\t\t\t\t\t{\n\t\t\t\t\t\tjsonAppend(results.itemSep, '^', '^');\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\t\t\t\t\ttry\n\t\t\t\t\t{\n\t\t\t\t\t\titem = results.keyGroup + results.valueGroup;\n\t\t\t\t\t\tif (type != '[' && item.substr(0,1) == '}')\n\t\t\t\t\t\t{\t\t\t\t\t\t//end of function or object\n\t\t\t\t\t\t\tjsonAppend(item);\n\t\t\t\t\t\t\tbreak;\n\t\t\t\t\t\t}\n\t\t\n\t\t\t\t\t\tif (type == '[' && results.key)\n\t\t\t\t\t\t\tmsg = 'name unexpected';\n\t\t\t\t\t\telse if (type == '{' && !results.key)\n\t\t\t\t\t\t\tmsg = 'name required';\n\t\t\t\t\t\telse\n\t\t\t\t\t\t{\n\t\t\t\t\t\t\tif (type == '{') \t\t\t//process key for Object\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\titem = results.key;\n\t\t\t\t\t\t\t\teval('\"' + results.key.trim().trimPlus('\"') + '\"');\n\t\t\t\t\t\t\t\tjsonAppend(results.keyGroup, '!', '!')\n\t\t\t\t\t\t\t\titem = results.valueGroup;\n\t\t\t\t\t\t\t}\n\t\t\n\t\t\t\t\t\t\tif (offset + item.length >= nextFragment)\n\t\t\t\t\t\t\t{\t\t\t\t\t\t\t//value is next fragment e.g. [...] or {...}\n\t\t\t\t\t\t\t\tjsonAppend(item);\t\t//append json up to nextFragment\n\t\t\n\t\t\t\t\t\t\t\tidx++;\n\t\t\t\t\t\t\t\titem = jsonFragment(depth+1);\n\t\t\t\t\t\t\t\tif (msg) return;\n\t\t\n\t\t\t\t\t\t\t\tfragmentItems += item;\t//append json returned from fragment(s)\n\t\t\t\t\t\t\t//\tEZ.trace('fragmentItems return depth='+ depth, fragmentItems + endWrapType);\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\telse\n\t\t\t\t\t\t\t{\n\t\t\t\t\t\t\t\titem = results.valueGroup;\n\t\t\t\t\t\t\t\teval(fragmentItems + item + endWrapType);\n\t\t\t\t\t\t\t\tjsonAppend(item)\t//append valueGroup\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\tif (options.details) script += '<#';\n\t\t\t\t\t\t\tjsonAppend(results.itemSep, '^', '^');\n\t\t\t\t\t\t}\n\t\t\t\t\t\tif (options.details) script += '<#';\n\t\t\t\t\t}\n\t\t\t\t\tcatch (e)\t\t\t\t\t\t//SyntaxError\n\t\t\t\t\t{\n\t\t\t\t\t\tmsg = e.message;\t\t\t//...set error message\n\t\t\t\t\t\tconsole.log(e.stack.replace(/([\\s\\S]*?\\))[\\s\\S]*/,'$1'))\n\t\t\t\t\t\titem = item.trim();\n\t\t\t\t\t}\n\t\t\t\t\tif (!msg) continue;\n\t\t\n\t\t\t\t\t// add message to script and break\n\t\t\t\t\t//var padding = Math.max(0,script.length - script.lastIndexOf('\\n') - 1);\n\t\t\t\t\tjsonAppend(item, '@@@error@@@', '@@@good@@@');\n\t\t\n\t\t\t\t\tjson.substr(offset).replace(/.*\\n/, function(all)\n\t\t\t\t\t{\n\t\t\t\t\t\tjsonAppend(all);\n\t\t\t\t\t\treturn all;\n\t\t\t\t\t})\n\t\t\t\t\tbreak;\n\t\t\t\t}\n\t\t\t\twhile (count-- > 0)\t\t\t\t\t//safety for unexpected endless loop\n\t\t\n\t\t\t\tif (msg || thisFragment.trim()) return;\n\t\t\n\t\t\t\tif (!endWrap)\n\t\t\t\t{\n\t\t\t\t\tmsg = 'expected: ' + endWrapType;\n\t\t\t\t\tjsonAppend('', '@@@error@@@', '@@@good@@@');\n\t\t\t\t}\n\t\t\t\telse\t\t\t\t\t\t\t\t//append end of fragment wrapper and\n\t\t\t\t{\t\t\t\t\t\t\t\t\t//replace begWrapType with real begWrap\n\t\t\t\t\tjsonAppend(endWrap, '<<--', '<--');\n\t\t\t\t\tvar regex = RegExp(begWrapType.replace(/([\\[{(])/g,'\\\\$1'));\n\t\t\t\t\treturn fragmentItems.replace(regex, begWrap);\n\t\t\t\t}\n\t\t\n\t\t\t\t//_______________________________________________________________________________\n\t\t\t\t/**\n\t\t\t\t *\tAppend un-neutered json to script and fragmentItems from current offset\n\t\t\t\t *\tcorresponding to code (i.e. code.length). Annotate with prefix and suffix if\n\t\t\t\t *\tspecified and starts with \"@@@\" or options.details is true.\n\t\t\t\t */\n\t\t\t\tfunction jsonAppend(code, prefix, suffix)\n\t\t\t\t{\n\t\t\t\t\tcode = code || '';\n\t\t\t\t\tprefix = prefix || '';\n\t\t\t\t\tsuffix = suffix || '';\n\t\t\n\t\t\t\t\tif (!options.details && prefix.indexOf('@@@') !== 0)\n\t\t\t\t\t\tprefix = suffix = '';\n\t\t\n\t\t\t\t\tif (!code && !prefix && !suffix) return;\n\t\t\n\t\t\t\t\tfragmentItems += code;\n\t\t\n\t\t\t\t\tif (prefix == '<<--' || prefix == '-->>')\t//complex annotate\n\t\t\t\t\t\tscript += annotate(code, prefix, suffix);\n\t\t\t\t\telse\t\t\t\t\t\t\t\t\t\t//simple annotate\n\t\t\t\t\t\tscript += prefix + json.substr(offset, code.length) + suffix;\n\t\t\n\t\t\t\t\toffset += code.length;\n\t\t\n\t\t\t\t//\tEZ.trace('fragmentItems depth='+ depth, fragmentItems + endWrapType);\n\t\t\t\t//\tEZ.trace('SCRIPT: ' + code, script);\n\t\t\t\t}\n\t\t\t\t/**\n\t\t\t\t *\treturns annotated fragment marker\n\t\t\t\t */\n\t\t\t\tfunction annotate(code, prefix, suffix)\n\t\t\t\t{\n\t\t\t\t\treturn code.replace(/(\\s*)([\\s\\S]*?)(\\n?)$/,\n\t\t\t\t\tfunction(all,before,marker,after)\n\t\t\t\t\t{\n\t\t\t\t\t\tbefore = before.endsWith('\\n') || !before.length ? prefix + '\\n'\n\t\t\t\t\t\t\t : before.substr(-4) + prefix\n\t\t\t\t\t\treturn before + marker + suffix + after;\n\t\t\t\t\t});\n\t\t\t\t}\n\t\t\t}\t//end of jsonFragment\n\t\t}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function FragmentDemo() {\n return (\n <React.Fragment>\n <div className=\"container\">\n <h1>This is the Fragment Component</h1>\n <ol>\n <li>An Empty opening and closing tag can be used as a syntax.</li>\n <li>\n Fragments are used for grouping HTML elements without adding\n additional nodes.\n </li>\n <li>\n Fragments cannot be styled, they just take key as the parameter{\" \"}\n <a href=\"https://stackoverflow.com/questions/57499488/styled-components-react-style-on-fragment-element#:~:text=If%20you%20need%20to%20style,they%20can't%20be%20stylized.&text=key%20is%20the%20only%20attribute%20that%20can%20be%20passed%20to%20Fragment%20.\">\n Find More\n </a>\n </li>\n <li>\n Can be used to create tables without an extra div for columns\n <a href=\"https://youtu.be/bHdh1T0-US4?list=PLC3y8-rFHvwgg3vaYJgHGnModB54rxOk3&t=431\">\n Find More\n </a>\n </li>\n </ol>\n </div>\n </React.Fragment>\n );\n}", "function KnownFragmentNames(context) {\n\t return {\n\t FragmentSpread: function FragmentSpread(node) {\n\t var fragmentName = node.name.value;\n\t var fragment = context.getFragment(fragmentName);\n\t if (!fragment) {\n\t context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n\t }\n\t }\n\t };\n\t}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) {\n return definition.kind === 'FragmentDefinition';\n });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) {\n return definition.kind === 'FragmentDefinition';\n });\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), node.typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(node.typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), node.typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(node.typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n if (!fragment) {\n context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n }\n }\n };\n}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n if (!fragment) {\n context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n }\n }\n };\n}", "function splitWithFragment(html) {\n var startIndex = html.indexOf(START_FRAGMENT);\n var endIndex = html.lastIndexOf(END_FRAGMENT);\n if (startIndex >= 0 && endIndex >= 0 && endIndex >= startIndex + START_FRAGMENT.length) {\n var before = html.substr(0, startIndex);\n var after = html.substr(endIndex + END_FRAGMENT.length);\n html = html.substring(startIndex + START_FRAGMENT.length, endIndex);\n return [html, before, after];\n }\n else {\n return [html, null, null];\n }\n}", "function NoUnusedFragmentsRule(context) {\n var operationDefs = [];\n var fragmentDefs = [];\n return {\n OperationDefinition: function OperationDefinition(node) {\n operationDefs.push(node);\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fragmentDefs.push(node);\n return false;\n },\n Document: {\n leave: function leave() {\n var fragmentNameUsed = Object.create(null);\n\n for (var _i2 = 0; _i2 < operationDefs.length; _i2++) {\n var operation = operationDefs[_i2];\n\n for (var _i4 = 0, _context$getRecursive2 = context.getRecursivelyReferencedFragments(operation); _i4 < _context$getRecursive2.length; _i4++) {\n var fragment = _context$getRecursive2[_i4];\n fragmentNameUsed[fragment.name.value] = true;\n }\n }\n\n for (var _i6 = 0; _i6 < fragmentDefs.length; _i6++) {\n var fragmentDef = fragmentDefs[_i6];\n var fragName = fragmentDef.name.value;\n\n if (fragmentNameUsed[fragName] !== true) {\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(fragName, \"\\\" is never used.\"), fragmentDef));\n }\n }\n }\n }\n };\n}", "function NoUnusedFragmentsRule(context) {\n var operationDefs = [];\n var fragmentDefs = [];\n return {\n OperationDefinition: function OperationDefinition(node) {\n operationDefs.push(node);\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fragmentDefs.push(node);\n return false;\n },\n Document: {\n leave: function leave() {\n var fragmentNameUsed = Object.create(null);\n\n for (var _i2 = 0; _i2 < operationDefs.length; _i2++) {\n var operation = operationDefs[_i2];\n\n for (var _i4 = 0, _context$getRecursive2 = context.getRecursivelyReferencedFragments(operation); _i4 < _context$getRecursive2.length; _i4++) {\n var fragment = _context$getRecursive2[_i4];\n fragmentNameUsed[fragment.name.value] = true;\n }\n }\n\n for (var _i6 = 0; _i6 < fragmentDefs.length; _i6++) {\n var fragmentDef = fragmentDefs[_i6];\n var fragName = fragmentDef.name.value;\n\n if (fragmentNameUsed[fragName] !== true) {\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(fragName, \"\\\" is never used.\"), fragmentDef));\n }\n }\n }\n }\n };\n}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](unknownFragmentMessage(fragmentName), node.name));\n }\n }\n };\n}", "static rule_addFragment(p_info, p_doc) {\n let bodyNode = p_doc.getElementsByTagName('body')[0];\n let startNode = p_doc.createComment('StartFragment');\n let endNode = p_doc.createComment('EndFragment');\n if (bodyNode.firstChild) {\n bodyNode.insertBefore(startNode, bodyNode.firstChild);\n bodyNode.appendChild(endNode);\n } else {\n bodyNode.appendChild(startNode);\n bodyNode.appendChild(endNode);\n }\n }", "function NoUnusedFragmentsRule(context) {\n var operationDefs = [];\n var fragmentDefs = [];\n return {\n OperationDefinition: function OperationDefinition(node) {\n operationDefs.push(node);\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fragmentDefs.push(node);\n return false;\n },\n Document: {\n leave: function leave() {\n var fragmentNameUsed = Object.create(null);\n\n for (var _i2 = 0; _i2 < operationDefs.length; _i2++) {\n var operation = operationDefs[_i2];\n\n for (var _i4 = 0, _context$getRecursive2 = context.getRecursivelyReferencedFragments(operation); _i4 < _context$getRecursive2.length; _i4++) {\n var fragment = _context$getRecursive2[_i4];\n fragmentNameUsed[fragment.name.value] = true;\n }\n }\n\n for (var _i6 = 0; _i6 < fragmentDefs.length; _i6++) {\n var fragmentDef = fragmentDefs[_i6];\n var fragName = fragmentDef.name.value;\n\n if (fragmentNameUsed[fragName] !== true) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(fragName, \"\\\" is never used.\"), fragmentDef));\n }\n }\n }\n }\n };\n}", "function NoUnusedFragmentsRule(context) {\n var operationDefs = [];\n var fragmentDefs = [];\n return {\n OperationDefinition: function OperationDefinition(node) {\n operationDefs.push(node);\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fragmentDefs.push(node);\n return false;\n },\n Document: {\n leave: function leave() {\n var fragmentNameUsed = Object.create(null);\n\n for (var _i2 = 0; _i2 < operationDefs.length; _i2++) {\n var operation = operationDefs[_i2];\n\n for (var _i4 = 0, _context$getRecursive2 = context.getRecursivelyReferencedFragments(operation); _i4 < _context$getRecursive2.length; _i4++) {\n var fragment = _context$getRecursive2[_i4];\n fragmentNameUsed[fragment.name.value] = true;\n }\n }\n\n for (var _i6 = 0; _i6 < fragmentDefs.length; _i6++) {\n var fragmentDef = fragmentDefs[_i6];\n var fragName = fragmentDef.name.value;\n\n if (fragmentNameUsed[fragName] !== true) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(fragName, \"\\\" is never used.\"), fragmentDef));\n }\n }\n }\n }\n };\n}", "isFragmented() {\n return (this.fragment_offset !== 0) || (this.total_length > this.fragment.length);\n }", "function parseFragmentName(lexer$$1) {\n if (lexer$$1.token.value === 'on') {\n throw unexpected(lexer$$1);\n }\n return parseName(lexer$$1);\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(node.typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(node.typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function create_fragment$7(ctx) {\n \tlet t0;\n \tlet t1;\n \tlet t2;\n \tlet t3;\n \tlet t4;\n \tlet current;\n \tconst banner = new Banner({ $$inline: true });\n\n \tconst sections0 = new Sections({\n \t\t\tprops: {\n \t\t\t\tsection: \"company\",\n \t\t\t\theading: \"Notre entreprise\",\n \t\t\t\tbackgroundColor: \"light-color\",\n \t\t\t\tsectionList: getCompany()\n \t\t\t},\n \t\t\t$$inline: true\n \t\t});\n\n \tconst sections1 = new Sections({\n \t\t\tprops: {\n \t\t\t\tsection: \"services\",\n \t\t\t\theading: \"Nos services\",\n \t\t\t\tbackgroundColor: \"main-bgcolor\",\n \t\t\t\tlinkAll: getLinkAll(),\n \t\t\t\tsectionList: getServices()\n \t\t\t},\n \t\t\t$$inline: true\n \t\t});\n\n \tconst sections2 = new Sections({\n \t\t\tprops: {\n \t\t\t\tsection: \"offers\",\n \t\t\t\theading: \"Nos offres\",\n \t\t\t\tbackgroundColor: \"light-color\",\n \t\t\t\tsectionList: getOffers()\n \t\t\t},\n \t\t\t$$inline: true\n \t\t});\n\n \tconst sections3 = new Sections({\n \t\t\tprops: {\n \t\t\t\tsection: \"partners\",\n \t\t\t\theading: \"Nos partenaires\",\n \t\t\t\tbackgroundColor: \"main-bgcolor\",\n \t\t\t\tlinkAll: getLinkAll$1(),\n \t\t\t\tsectionList: getPartners()\n \t\t\t},\n \t\t\t$$inline: true\n \t\t});\n\n \tconst social = new Social({\n \t\t\tprops: { socialData: getSocialData() },\n \t\t\t$$inline: true\n \t\t});\n\n \tconst block = {\n \t\tc: function create() {\n \t\t\tcreate_component(banner.$$.fragment);\n \t\t\tt0 = space();\n \t\t\tcreate_component(sections0.$$.fragment);\n \t\t\tt1 = space();\n \t\t\tcreate_component(sections1.$$.fragment);\n \t\t\tt2 = space();\n \t\t\tcreate_component(sections2.$$.fragment);\n \t\t\tt3 = space();\n \t\t\tcreate_component(sections3.$$.fragment);\n \t\t\tt4 = space();\n \t\t\tcreate_component(social.$$.fragment);\n \t\t},\n \t\tl: function claim(nodes) {\n \t\t\tthrow new Error(\"options.hydrate only works if the component was compiled with the `hydratable: true` option\");\n \t\t},\n \t\tm: function mount(target, anchor) {\n \t\t\tmount_component(banner, target, anchor);\n \t\t\tinsert_dev(target, t0, anchor);\n \t\t\tmount_component(sections0, target, anchor);\n \t\t\tinsert_dev(target, t1, anchor);\n \t\t\tmount_component(sections1, target, anchor);\n \t\t\tinsert_dev(target, t2, anchor);\n \t\t\tmount_component(sections2, target, anchor);\n \t\t\tinsert_dev(target, t3, anchor);\n \t\t\tmount_component(sections3, target, anchor);\n \t\t\tinsert_dev(target, t4, anchor);\n \t\t\tmount_component(social, target, anchor);\n \t\t\tcurrent = true;\n \t\t},\n \t\tp: noop,\n \t\ti: function intro(local) {\n \t\t\tif (current) return;\n \t\t\ttransition_in(banner.$$.fragment, local);\n \t\t\ttransition_in(sections0.$$.fragment, local);\n \t\t\ttransition_in(sections1.$$.fragment, local);\n \t\t\ttransition_in(sections2.$$.fragment, local);\n \t\t\ttransition_in(sections3.$$.fragment, local);\n \t\t\ttransition_in(social.$$.fragment, local);\n \t\t\tcurrent = true;\n \t\t},\n \t\to: function outro(local) {\n \t\t\ttransition_out(banner.$$.fragment, local);\n \t\t\ttransition_out(sections0.$$.fragment, local);\n \t\t\ttransition_out(sections1.$$.fragment, local);\n \t\t\ttransition_out(sections2.$$.fragment, local);\n \t\t\ttransition_out(sections3.$$.fragment, local);\n \t\t\ttransition_out(social.$$.fragment, local);\n \t\t\tcurrent = false;\n \t\t},\n \t\td: function destroy(detaching) {\n \t\t\tdestroy_component(banner, detaching);\n \t\t\tif (detaching) detach_dev(t0);\n \t\t\tdestroy_component(sections0, detaching);\n \t\t\tif (detaching) detach_dev(t1);\n \t\t\tdestroy_component(sections1, detaching);\n \t\t\tif (detaching) detach_dev(t2);\n \t\t\tdestroy_component(sections2, detaching);\n \t\t\tif (detaching) detach_dev(t3);\n \t\t\tdestroy_component(sections3, detaching);\n \t\t\tif (detaching) detach_dev(t4);\n \t\t\tdestroy_component(social, detaching);\n \t\t}\n \t};\n\n \tdispatch_dev(\"SvelteRegisterBlock\", {\n \t\tblock,\n \t\tid: create_fragment$7.name,\n \t\ttype: \"component\",\n \t\tsource: \"\",\n \t\tctx\n \t});\n\n \treturn block;\n }", "function parseFragment(frag,err) {\n var result = {};\n var f = frag.split(',');\n err.fragment = frag;\n result.fOriginal = frag;\n if (f.length!=7) {\n err.reason = \"Wrong number of fields in fragment\";\n return null;\n }\n if (!validateInitialField(f[0])) {\n err.reason = \"Not an AIS message: \"+f[0];\n return null;\n }\n result.fHead = f[0];\n result.fCount = parseInt(f[1], 10);\n result.fNumber = parseInt(f[2], 10);\n if (isNaN(result.fCount) || isNaN(result.fNumber)) {\n err.reason = \"Missing Count and Number fields\";\n return null;\n }\n result.fMessageId = parseInt(f[3], 10);\n result.fRadioChannel = f[4];\n result.fData = f[5];\n if (f[6].length!=4) {\n err.reason = \"Final field length invalid\";\n return null;\n }\n result.fFillBits = parseInt(f[6]);\n if (isNaN(result.fFillBits) || result.fFillBits<0 || result.fFillBits>6) {\n err.reason = \"Invalid number of fill bits: \"+result.fFillBits;\n return null;\n }\n if (f[6].slice(1,2)!=\"*\") {\n err.reason = \"Missing asterisk from final field\";\n return null;\n }\n var cksm = parseInt(f[6].slice(2,4),16);\n if (cksm != computeChecksum(frag)) {\n err.reason = \"Checksum failure\";\n return null;\n }\n return result;\n}", "function parseFragmentName(parser) {\n if (parser.token.value === 'on') {\n throw unexpected(parser);\n }\n return parseName(parser);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}" ]
[ "0.7206461", "0.71676755", "0.6914399", "0.6912697", "0.6912697", "0.6910929", "0.6888611", "0.6878452", "0.6877602", "0.68624246", "0.68624246", "0.68624246", "0.68624246", "0.68596417", "0.6797236", "0.67814314", "0.67814314", "0.67276645", "0.671112", "0.6699759", "0.6699759", "0.66419363", "0.66394067", "0.66394067", "0.66388416", "0.66328317", "0.66138846", "0.66138846", "0.66138846", "0.66138846", "0.66009116", "0.6576023", "0.6551286", "0.6549913", "0.6536409", "0.6533109", "0.65156496", "0.6489667", "0.6481038", "0.6481038", "0.6481038", "0.6481038", "0.6481038", "0.6481038", "0.6471803", "0.64544255", "0.644257", "0.63464206", "0.60998404", "0.60714036", "0.60714036", "0.5903722", "0.5903722", "0.5882712", "0.5876581", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56860614", "0.56305695", "0.5608771", "0.56084996", "0.56084996", "0.56043285", "0.56043285", "0.55933845", "0.55933845", "0.5584456", "0.54580986", "0.54580986", "0.5443804", "0.54079163", "0.53858507", "0.53858507", "0.5383446", "0.53611773", "0.5322948", "0.5322948", "0.53153646", "0.5300764", "0.5289378", "0.5287072", "0.5287072", "0.5287072", "0.5287072", "0.5287072", "0.5287072", "0.5287072", "0.5287072", "0.5287072" ]
0.6622049
30
FragmentDefinition : fragment FragmentName on TypeCondition Directives? SelectionSet TypeCondition : NamedType
function parseFragmentDefinition(lexer) { var start = lexer.token; expectKeyword(lexer, 'fragment'); return { kind: _kinds.FRAGMENT_DEFINITION, name: parseFragmentName(lexer), typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)), directives: parseDirectives(lexer), selectionSet: parseSelectionSet(lexer), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseFragment() {\n const start = this._lexer.token;\n this.expectToken(TokenKind.SPREAD);\n const hasTypeCondition = this.expectOptionalKeyword('on');\n\n if (!hasTypeCondition && this.peek(TokenKind.NAME)) {\n return this.node(start, {\n kind: Kind.FRAGMENT_SPREAD,\n name: this.parseFragmentName(),\n directives: this.parseDirectives(false),\n });\n }\n\n return this.node(start, {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? this.parseNamedType() : undefined,\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "parseFragmentDefinition() {\n var _this$_options;\n\n const start = this._lexer.token;\n this.expectKeyword('fragment'); // Legacy support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (\n ((_this$_options = this._options) === null || _this$_options === void 0\n ? void 0\n : _this$_options.allowLegacyFragmentVariables) === true\n ) {\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n variableDefinitions: this.parseVariableDefinitions(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragmentDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(parser),\n\t typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t // Experimental support for defining variables within fragments changes\n\t // the grammar of FragmentDefinition:\n\t // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\t if (lexer.options.experimentalFragmentVariables) {\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragmentDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(parser),\n typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer$$1.options.experimentalFragmentVariables) {\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseFragment(lexer$$1) {\n var start = lexer$$1.token;\n expect(lexer$$1, lexer.TokenKind.SPREAD);\n if (peek(lexer$$1, lexer.TokenKind.NAME) && lexer$$1.token.value !== 'on') {\n return {\n kind: kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n loc: loc(lexer$$1, start)\n };\n }\n var typeCondition = void 0;\n if (lexer$$1.token.value === 'on') {\n lexer$$1.advance();\n typeCondition = parseNamedType(lexer$$1);\n }\n return {\n kind: kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, TokenKind.SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, TokenKind.NAME)) {\n return {\n kind: Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n var typeCondition;\n\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(parser) {\n var start = parser.token.start;\n expect(parser, _lexer.TokenKind.SPREAD);\n if (peek(parser, _lexer.TokenKind.NAME) && parser.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(parser),\n directives: parseDirectives(parser),\n loc: loc(parser, start)\n };\n }\n var typeCondition = null;\n if (parser.token.value === 'on') {\n advance(parser);\n typeCondition = parseNamedType(parser);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer, false),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = void 0;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragment(parser) {\n\t var start = parser.token.start;\n\t expect(parser, _lexer.TokenKind.SPREAD);\n\t if (peek(parser, _lexer.TokenKind.NAME) && parser.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(parser),\n\t directives: parseDirectives(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var typeCondition = null;\n\t if (parser.token.value === 'on') {\n\t advance(parser);\n\t typeCondition = parseNamedType(parser);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = null;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD);\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n var typeCondition;\n\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), node.typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(node.typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), node.typeCondition);\n\n if (type && !Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n var typeStr = Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(node.typeCondition);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "parseFragmentName() {\n if (this._lexer.token.value === 'on') {\n throw this.unexpected();\n }\n\n return this.parseName();\n }", "hasFragmentableType () {\n\t\treturn this.type.isFragmentable();\n\t}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n\n if (!typeConditionNode) {\n return true;\n }\n\n var conditionalType = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_18__[\"typeFromAST\"])(exeContext.schema, typeConditionNode);\n\n if (conditionalType === type) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_17__[\"isAbstractType\"])(conditionalType)) {\n return exeContext.schema.isSubType(conditionalType, type);\n }\n\n return false;\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n\n if (!typeConditionNode) {\n return true;\n }\n\n var conditionalType = Object(_utilities_typeFromAST_mjs__WEBPACK_IMPORTED_MODULE_18__[\"typeFromAST\"])(exeContext.schema, typeConditionNode);\n\n if (conditionalType === type) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_17__[\"isAbstractType\"])(conditionalType)) {\n return exeContext.schema.isSubType(conditionalType, type);\n }\n\n return false;\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(node.typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function FragmentsOnCompositeTypesRule(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment cannot condition on non composite type \\\"\".concat(typeStr, \"\\\".\"), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n\n if (type && !(0, _definition.isCompositeType)(type)) {\n var typeStr = (0, _printer.print)(node.typeCondition);\n context.reportError(new _GraphQLError.GraphQLError(\"Fragment \\\"\".concat(node.name.value, \"\\\" cannot condition on non composite type \\\"\").concat(typeStr, \"\\\".\"), node.typeCondition));\n }\n }\n };\n}", "function parseFragmentName(lexer$$1) {\n if (lexer$$1.token.value === 'on') {\n throw unexpected(lexer$$1);\n }\n return parseName(lexer$$1);\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n\n if (!typeConditionNode) {\n return true;\n }\n\n var conditionalType = (0, _typeFromAST.typeFromAST)(exeContext.schema, typeConditionNode);\n\n if (conditionalType === type) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(conditionalType)) {\n return exeContext.schema.isSubType(conditionalType, type);\n }\n\n return false;\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n\n if (!typeConditionNode) {\n return true;\n }\n\n var conditionalType = (0, _typeFromAST.typeFromAST)(exeContext.schema, typeConditionNode);\n\n if (conditionalType === type) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(conditionalType)) {\n return exeContext.schema.isSubType(conditionalType, type);\n }\n\n return false;\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n if (!typeConditionNode) {\n return true;\n }\n var conditionalType = (0, _typeFromAST.typeFromAST)(exeContext.schema, typeConditionNode);\n if (conditionalType === type) {\n return true;\n }\n if ((0, _definition.isAbstractType)(conditionalType)) {\n return exeContext.schema.isPossibleType(conditionalType, type);\n }\n return false;\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionNode = fragment.typeCondition;\n\n if (!typeConditionNode) {\n return true;\n }\n\n var conditionalType = Object(_utilities_typeFromAST__WEBPACK_IMPORTED_MODULE_12__[\"typeFromAST\"])(exeContext.schema, typeConditionNode);\n\n if (conditionalType === type) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_15__[\"isAbstractType\"])(conditionalType)) {\n return exeContext.schema.isPossibleType(conditionalType, type);\n }\n\n return false;\n}", "function parseFragmentName(parser) {\n\t if (parser.token.value === 'on') {\n\t throw unexpected(parser);\n\t }\n\t return parseName(parser);\n\t}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) { return definition.kind === 'FragmentDefinition'; });\n}", "function doesFragmentConditionMatch(exeContext, fragment, type) {\n var typeConditionAST = fragment.typeCondition;\n if (!typeConditionAST) {\n return true;\n }\n var conditionalType = (0, _utilitiesTypeFromAST.typeFromAST)(exeContext.schema, typeConditionAST);\n if (conditionalType === type) {\n return true;\n }\n if ((0, _typeDefinition.isAbstractType)(conditionalType)) {\n return conditionalType.isPossibleType(type);\n }\n return false;\n}", "function FragmentsOnCompositeTypes(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n var typeCondition = node.typeCondition;\n\n if (typeCondition) {\n var type = Object(_utilities_typeFromAST__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), typeCondition);\n\n if (type && !Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](inlineFragmentOnNonCompositeErrorMessage(Object(_language_printer__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(typeCondition)), typeCondition));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = Object(_utilities_typeFromAST__WEBPACK_IMPORTED_MODULE_3__[\"typeFromAST\"])(context.getSchema(), node.typeCondition);\n\n if (type && !Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(type)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](fragmentOnNonCompositeErrorMessage(node.name.value, Object(_language_printer__WEBPACK_IMPORTED_MODULE_1__[\"print\"])(node.typeCondition)), node.typeCondition));\n }\n }\n };\n}", "function buildFragmentForRoot(root) {\n\t return {\n\t argumentDefinitions: root.argumentDefinitions,\n\t directives: root.directives,\n\t kind: 'Fragment',\n\t metadata: null,\n\t name: root.name,\n\t selections: root.selections,\n\t type: root.type\n\t };\n\t}", "function hasOneFragment (type, options) {\n options = options || {};\n\n var meta = {\n type: 'fragment',\n isAttribute: true,\n isFragment: true,\n options: options\n };\n\n return Ember.computed(function(key, value) {\n var data = this._data[key] || getDefaultValue(this, options, 'array');\n var fragment = this._fragments[key];\n\n if (data && data !== fragment) {\n if (!fragment) {\n fragment = this.store.buildFragment(type);\n\n // Set the correct owner/name on the fragment\n fragment.setProperties({\n _owner : this,\n _name : key\n });\n }\n\n fragment.setupData(data);\n this._data[key] = fragment;\n }\n\n if (arguments.length > 1) {\n \n fragment = value;\n\n if (this._data[key] !== fragment) {\n this.fragmentDidDirty(key, fragment);\n } else {\n this.fragmentDidReset(key, fragment);\n }\n }\n\n return this._fragments[key] = fragment;\n }).property('data').meta(meta);\n }", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function parseFragmentName(parser) {\n if (parser.token.value === 'on') {\n throw unexpected(parser);\n }\n return parseName(parser);\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) {\n return definition.kind === 'FragmentDefinition';\n });\n}", "function getFragmentDefinitions(doc) {\n return doc.definitions.filter(function (definition) {\n return definition.kind === 'FragmentDefinition';\n });\n}", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = buildRQL.Fragment(fragmentBuilder, variables);\n\t !fragment ? process.env.NODE_ENV !== 'production' ? invariant(false, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName) : invariant(false) : undefined;\n\t return fragment;\n\t}", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = buildRQL.Fragment(fragmentBuilder, variables);\n\t !fragment ? process.env.NODE_ENV !== 'production' ? invariant(false, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName) : invariant(false) : undefined;\n\t return fragment;\n\t}", "function buildMutationFragment(mutationName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = __webpack_require__(516).Fragment(fragmentBuilder, variables);\n\t __webpack_require__(10)(fragment, 'Relay.QL defined on mutation `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', mutationName, fragmentName);\n\t return fragment;\n\t}", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = __webpack_require__(516).Fragment(fragmentBuilder, variables);\n\t __webpack_require__(10)(fragment, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName);\n\t return fragment;\n\t}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n return parseName(lexer);\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function FragmentsOnCompositeTypes(context) {\n return {\n InlineFragment: function InlineFragment(node) {\n if (node.typeCondition) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n if (type && !(0, _definition.isCompositeType)(type)) {\n context.reportError(new _error.GraphQLError(inlineFragmentOnNonCompositeErrorMessage((0, _printer.print)(node.typeCondition)), [node.typeCondition]));\n }\n }\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var type = (0, _typeFromAST.typeFromAST)(context.getSchema(), node.typeCondition);\n if (type && !(0, _definition.isCompositeType)(type)) {\n context.reportError(new _error.GraphQLError(fragmentOnNonCompositeErrorMessage(node.name.value, (0, _printer.print)(node.typeCondition)), [node.typeCondition]));\n }\n }\n };\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}" ]
[ "0.74768233", "0.7459269", "0.70694095", "0.6926619", "0.6903476", "0.68996274", "0.68996274", "0.68996274", "0.68996274", "0.6886915", "0.68579525", "0.6853531", "0.68519825", "0.68519825", "0.68485284", "0.6847869", "0.6736703", "0.64843434", "0.64811015", "0.6359786", "0.6359786", "0.6359786", "0.6359786", "0.6340658", "0.6302292", "0.6302292", "0.6302292", "0.6302292", "0.6302292", "0.6302292", "0.62286305", "0.6228244", "0.62099266", "0.6204397", "0.60451925", "0.59428555", "0.5896859", "0.5896859", "0.5890329", "0.5890329", "0.58225334", "0.57815063", "0.5774711", "0.5774711", "0.5758229", "0.5758229", "0.5721202", "0.5719297", "0.5719297", "0.57168627", "0.5699564", "0.5671862", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56399256", "0.56366754", "0.5634409", "0.5608866", "0.5605187", "0.5600629", "0.5600629", "0.5599848", "0.5599848", "0.55773884", "0.55701363", "0.55701363", "0.55670494", "0.55670494", "0.5563647", "0.5543967", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5539265", "0.5511185", "0.5511185", "0.5503577", "0.54963756", "0.54963756", "0.54963756", "0.54963756", "0.54963756", "0.54963756" ]
0.70067626
7
FragmentName : Name but not `on`
function parseFragmentName(lexer) { if (lexer.token.value === 'on') { throw unexpected(lexer); } return parseName(lexer); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseFragmentName() {\n if (this._lexer.token.value === 'on') {\n throw this.unexpected();\n }\n\n return this.parseName();\n }", "function parseFragmentName(parser) {\n\t if (parser.token.value === 'on') {\n\t throw unexpected(parser);\n\t }\n\t return parseName(parser);\n\t}", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function parseFragmentName(lexer) {\n\t if (lexer.token.value === 'on') {\n\t throw unexpected(lexer);\n\t }\n\t return parseName(lexer);\n\t}", "function parseFragmentName(parser) {\n if (parser.token.value === 'on') {\n throw unexpected(parser);\n }\n return parseName(parser);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer) {\n if (lexer.token.value === 'on') {\n throw unexpected(lexer);\n }\n\n return parseName(lexer);\n}", "function parseFragmentName(lexer$$1) {\n if (lexer$$1.token.value === 'on') {\n throw unexpected(lexer$$1);\n }\n return parseName(lexer$$1);\n}", "function unusedFragMessage(fragName) {\n return \"Fragment \\\"\".concat(fragName, \"\\\" is never used.\");\n}", "function duplicateFragmentNameMessage(fragName) {\n return \"There can be only one fragment named \\\"\".concat(fragName, \"\\\".\");\n}", "function unusedFragMessage(fragName) {\n return 'Fragment \"' + fragName + '\" is never used.';\n}", "function duplicateFragmentNameMessage(fragName) {\n return 'There can be only one fragment named \"' + fragName + '\".';\n}", "parseFragment() {\n const start = this._lexer.token;\n this.expectToken(TokenKind.SPREAD);\n const hasTypeCondition = this.expectOptionalKeyword('on');\n\n if (!hasTypeCondition && this.peek(TokenKind.NAME)) {\n return this.node(start, {\n kind: Kind.FRAGMENT_SPREAD,\n name: this.parseFragmentName(),\n directives: this.parseDirectives(false),\n });\n }\n\n return this.node(start, {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? this.parseNamedType() : undefined,\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function UniqueFragmentNames(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](duplicateFragmentNameMessage(fragmentName), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNames(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error.GraphQLError(duplicateFragmentNameMessage(fragmentName), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n return false;\n }\n };\n}", "function UniqueFragmentNames(context) {\n var knownFragmentNames = _Object$create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error.GraphQLError(duplicateFragmentNameMessage(fragmentName), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n return false;\n }\n };\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNames(context) {\n\t var knownFragmentNames = _Object$create(null);\n\t return {\n\t OperationDefinition: function OperationDefinition() {\n\t return false;\n\t },\n\t FragmentDefinition: function FragmentDefinition(node) {\n\t var fragmentName = node.name.value;\n\t if (knownFragmentNames[fragmentName]) {\n\t context.reportError(new _error.GraphQLError(duplicateFragmentNameMessage(fragmentName), [knownFragmentNames[fragmentName], node.name]));\n\t } else {\n\t knownFragmentNames[fragmentName] = node.name;\n\t }\n\t return false;\n\t }\n\t };\n\t}", "function unknownFragmentMessage(fragName) {\n return 'Unknown fragment \"' + fragName + '\".';\n}", "function unknownFragmentMessage(fragName) {\n return \"Unknown fragment \\\"\".concat(fragName, \"\\\".\");\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function UniqueFragmentNamesRule(context) {\n var knownFragmentNames = Object.create(null);\n return {\n OperationDefinition: function OperationDefinition() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition(node) {\n var fragmentName = node.name.value;\n\n if (knownFragmentNames[fragmentName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"There can be only one fragment named \\\"\".concat(fragmentName, \"\\\".\"), [knownFragmentNames[fragmentName], node.name]));\n } else {\n knownFragmentNames[fragmentName] = node.name;\n }\n\n return false;\n }\n };\n}", "function KnownFragmentNames(context) {\n\t return {\n\t FragmentSpread: function FragmentSpread(node) {\n\t var fragmentName = node.name.value;\n\t var fragment = context.getFragment(fragmentName);\n\t if (!fragment) {\n\t context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n\t }\n\t }\n\t };\n\t}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n if (!fragment) {\n context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n }\n }\n };\n}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n if (!fragment) {\n context.reportError(new _error.GraphQLError(unknownFragmentMessage(fragmentName), [node.name]));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNames(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](unknownFragmentMessage(fragmentName), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "function KnownFragmentNamesRule(context) {\n return {\n FragmentSpread: function FragmentSpread(node) {\n var fragmentName = node.name.value;\n var fragment = context.getFragment(fragmentName);\n\n if (!fragment) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Unknown fragment \\\"\".concat(fragmentName, \"\\\".\"), node.name));\n }\n }\n };\n}", "parseFragmentDefinition() {\n var _this$_options;\n\n const start = this._lexer.token;\n this.expectKeyword('fragment'); // Legacy support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (\n ((_this$_options = this._options) === null || _this$_options === void 0\n ? void 0\n : _this$_options.allowLegacyFragmentVariables) === true\n ) {\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n variableDefinitions: this.parseVariableDefinitions(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n return this.node(start, {\n kind: Kind.FRAGMENT_DEFINITION,\n name: this.parseFragmentName(),\n typeCondition: (this.expectKeyword('on'), this.parseNamedType()),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function buildMutationFragment(mutationName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = __webpack_require__(516).Fragment(fragmentBuilder, variables);\n\t __webpack_require__(10)(fragment, 'Relay.QL defined on mutation `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', mutationName, fragmentName);\n\t return fragment;\n\t}", "function parseFragment(lexer$$1) {\n var start = lexer$$1.token;\n expect(lexer$$1, lexer.TokenKind.SPREAD);\n if (peek(lexer$$1, lexer.TokenKind.NAME) && lexer$$1.token.value !== 'on') {\n return {\n kind: kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n loc: loc(lexer$$1, start)\n };\n }\n var typeCondition = void 0;\n if (lexer$$1.token.value === 'on') {\n lexer$$1.advance();\n typeCondition = parseNamedType(lexer$$1);\n }\n return {\n kind: kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function name() {}", "get_fragment() {\n return this.fc.get_fragment_by_id(this.get_fragment_id());\n }", "function getName(elm){\n return elm.markupTag.name.toString();\n}", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'fragment');\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(parser),\n\t typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseFragmentDefinition(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer$$1.options.experimentalFragmentVariables) {\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n return {\n kind: kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer$$1),\n typeCondition: (expectKeyword(lexer$$1, 'on'), parseNamedType(lexer$$1)),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = __webpack_require__(516).Fragment(fragmentBuilder, variables);\n\t __webpack_require__(10)(fragment, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName);\n\t return fragment;\n\t}", "function parseFragmentDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'fragment');\n return {\n kind: _kinds.FRAGMENT_DEFINITION,\n name: parseFragmentName(parser),\n typeCondition: (expectKeyword(parser, 'on'), parseNamedType(parser)),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "['@_name']() {\n super['@_name']();\n if (this._value.name) return;\n\n this._value.name = this._node.declarations[0].id.name;\n }", "function parseFragment(lexer) {\n var start = lexer.token;\n expectToken(lexer, TokenKind.SPREAD);\n var hasTypeCondition = expectOptionalKeyword(lexer, 'on');\n\n if (!hasTypeCondition && peek(lexer, TokenKind.NAME)) {\n return {\n kind: Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.INLINE_FRAGMENT,\n typeCondition: hasTypeCondition ? parseNamedType(lexer) : undefined,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment');\n // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "get_fragment_id() {\n return this.fragment_id\n }", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function fragmentOnNonCompositeErrorMessage(fragName, type) {\n return 'Fragment \"' + fragName + '\" cannot condition on non composite ' + ('type \"' + String(type) + '\".');\n}", "function emitTagName(name) {\n if (name.kind === 69 /* Identifier */ && ts.isIntrinsicJsxName(name.text)) {\n write('\"');\n emit(name);\n write('\"');\n }\n else {\n emit(name);\n }\n }", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = void 0;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.Kind.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer, false),\n loc: loc(lexer, start)\n };\n }\n\n var typeCondition;\n\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n\n return {\n kind: _kinds.Kind.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "get isFragment() {\n return this.i.cs;\n }", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: _kinds.Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'fragment'); // Experimental support for defining variables within fragments changes\n // the grammar of FragmentDefinition:\n // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\n if (lexer.options.experimentalFragmentVariables) {\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n variableDefinitions: parseVariableDefinitions(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n return {\n kind: Kind.FRAGMENT_DEFINITION,\n name: parseFragmentName(lexer),\n typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragment(lexer) {\n var start = lexer.token;\n expect(lexer, _lexer.TokenKind.SPREAD);\n if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n return {\n kind: _kinds.FRAGMENT_SPREAD,\n name: parseFragmentName(lexer),\n directives: parseDirectives(lexer),\n loc: loc(lexer, start)\n };\n }\n var typeCondition = null;\n if (lexer.token.value === 'on') {\n lexer.advance();\n typeCondition = parseNamedType(lexer);\n }\n return {\n kind: _kinds.INLINE_FRAGMENT,\n typeCondition: typeCondition,\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseFragmentDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'fragment');\n\t // Experimental support for defining variables within fragments changes\n\t // the grammar of FragmentDefinition:\n\t // - fragment FragmentName VariableDefinitions? on TypeCondition Directives? SelectionSet\n\t if (lexer.options.experimentalFragmentVariables) {\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t return {\n\t kind: _kinds.FRAGMENT_DEFINITION,\n\t name: parseFragmentName(lexer),\n\t typeCondition: (expectKeyword(lexer, 'on'), parseNamedType(lexer)),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function eventName(name) {\n if (name.lastIndexOf(eventPrefix, 0) === 0) return name.substr(eventPrefix.length);\n return name;\n }", "function eventName(name) {\n if (name.lastIndexOf(eventPrefix, 0) === 0) return name.substr(eventPrefix.length);\n return name;\n }", "function eventName(name) {\n if (name.lastIndexOf(eventPrefix, 0) === 0) return name.substr(eventPrefix.length);\n return name;\n }", "function name(name) {\n return name;\n }", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = buildRQL.Fragment(fragmentBuilder, variables);\n\t !fragment ? process.env.NODE_ENV !== 'production' ? invariant(false, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName) : invariant(false) : undefined;\n\t return fragment;\n\t}", "function buildContainerFragment(containerName, fragmentName, fragmentBuilder, variables) {\n\t var fragment = buildRQL.Fragment(fragmentBuilder, variables);\n\t !fragment ? process.env.NODE_ENV !== 'production' ? invariant(false, 'Relay.QL defined on container `%s` named `%s` is not a valid fragment. ' + 'A typical fragment is defined using: Relay.QL`fragment on Type {...}`', containerName, fragmentName) : invariant(false) : undefined;\n\t return fragment;\n\t}", "getName() {}", "getFragment(fragment) {\n if (fragment === null) {\n if (this._usePushState || !this._wantsHashChange) {\n fragment = this.getPath();\n } else {\n fragment = this.getHash();\n }\n } else {\n fragment = this.getHash();\n }\n return fragment.replace(routeStripper, '');\n }", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer, false),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = void 0;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function getName() { return name; }", "function parseFragment(lexer) {\n\t var start = lexer.token;\n\t expect(lexer, _lexer.TokenKind.SPREAD);\n\t if (peek(lexer, _lexer.TokenKind.NAME) && lexer.token.value !== 'on') {\n\t return {\n\t kind: _kinds.FRAGMENT_SPREAD,\n\t name: parseFragmentName(lexer),\n\t directives: parseDirectives(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var typeCondition = null;\n\t if (lexer.token.value === 'on') {\n\t lexer.advance();\n\t typeCondition = parseNamedType(lexer);\n\t }\n\t return {\n\t kind: _kinds.INLINE_FRAGMENT,\n\t typeCondition: typeCondition,\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}" ]
[ "0.7956079", "0.7754376", "0.7729181", "0.7729181", "0.7622439", "0.7586603", "0.7586603", "0.7586603", "0.7586603", "0.7586603", "0.7586603", "0.7443", "0.66180825", "0.65736175", "0.65621245", "0.6561956", "0.65459627", "0.65121806", "0.649947", "0.64661705", "0.64626426", "0.64626426", "0.64557445", "0.6416227", "0.63385147", "0.63234377", "0.63234377", "0.6159851", "0.61398095", "0.61398095", "0.6061206", "0.6061206", "0.5997843", "0.58958006", "0.58958006", "0.5866822", "0.57931197", "0.5605214", "0.5590614", "0.5546313", "0.5540335", "0.5518483", "0.55180454", "0.55180454", "0.55180454", "0.55180454", "0.55180454", "0.55180454", "0.5450769", "0.5436474", "0.54132897", "0.5411159", "0.5407918", "0.5396498", "0.53106874", "0.53106874", "0.5306163", "0.5306163", "0.5306163", "0.5306163", "0.5305492", "0.5303913", "0.530233", "0.5298741", "0.529682", "0.5288653", "0.5288653", "0.5288653", "0.5288653", "0.528614", "0.5273693", "0.52647537", "0.5259013", "0.5248418", "0.5248418", "0.5248418", "0.5248418", "0.5248418", "0.5248418", "0.5238594", "0.5221445", "0.5221445", "0.5221445", "0.5210768", "0.5206768", "0.5206768", "0.5201916", "0.5182829", "0.5176413", "0.5172898", "0.51595426" ]
0.76194835
13
Implements the parsing rules in the Values section. Value[Const] : [~Const] Variable IntValue FloatValue StringValue BooleanValue NullValue EnumValue ListValue[?Const] ObjectValue[?Const] BooleanValue : one of `true` `false` NullValue : `null` EnumValue : Name but not `true`, `false` or `null`
function parseValueLiteral(lexer, isConst) { var token = lexer.token; switch (token.kind) { case _lexer.TokenKind.BRACKET_L: return parseList(lexer, isConst); case _lexer.TokenKind.BRACE_L: return parseObject(lexer, isConst); case _lexer.TokenKind.INT: lexer.advance(); return { kind: _kinds.INT, value: token.value, loc: loc(lexer, token) }; case _lexer.TokenKind.FLOAT: lexer.advance(); return { kind: _kinds.FLOAT, value: token.value, loc: loc(lexer, token) }; case _lexer.TokenKind.STRING: lexer.advance(); return { kind: _kinds.STRING, value: token.value, loc: loc(lexer, token) }; case _lexer.TokenKind.NAME: if (token.value === 'true' || token.value === 'false') { lexer.advance(); return { kind: _kinds.BOOLEAN, value: token.value === 'true', loc: loc(lexer, token) }; } else if (token.value === 'null') { lexer.advance(); return { kind: _kinds.NULL, loc: loc(lexer, token) }; } lexer.advance(); return { kind: _kinds.ENUM, value: token.value, loc: loc(lexer, token) }; case _lexer.TokenKind.DOLLAR: if (!isConst) { return parseVariable(lexer); } break; } throw unexpected(lexer); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseValueLiteral(isConst) {\n const token = this._lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return this.parseList(isConst);\n\n case TokenKind.BRACE_L:\n return this.parseObject(isConst);\n\n case TokenKind.INT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.INT,\n value: token.value,\n });\n\n case TokenKind.FLOAT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.FLOAT,\n value: token.value,\n });\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return this.parseStringLiteral();\n\n case TokenKind.NAME:\n this._lexer.advance();\n\n switch (token.value) {\n case 'true':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: true,\n });\n\n case 'false':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: false,\n });\n\n case 'null':\n return this.node(token, {\n kind: Kind.NULL,\n });\n\n default:\n return this.node(token, {\n kind: Kind.ENUM,\n value: token.value,\n });\n }\n\n case TokenKind.DOLLAR:\n if (isConst) {\n this.expectToken(TokenKind.DOLLAR);\n\n if (this._lexer.token.kind === TokenKind.NAME) {\n const varName = this._lexer.token.value;\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Unexpected variable \"$${varName}\" in constant value.`,\n );\n } else {\n throw this.unexpected(token);\n }\n }\n\n return this.parseVariable();\n }\n\n throw this.unexpected();\n }", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n\n case TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n\n case TokenKind.INT:\n lexer.advance();\n return {\n kind: Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n\t var token = lexer.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(lexer, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(lexer, isConst);\n\t case _lexer.TokenKind.INT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t case _lexer.TokenKind.BLOCK_STRING:\n\t return parseStringLiteral(lexer);\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(lexer, token)\n\t };\n\t } else if (token.value === 'null') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.NULL,\n\t loc: loc(lexer, token)\n\t };\n\t }\n\t lexer.advance();\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(lexer);\n\t }\n\t break;\n\t }\n\t throw unexpected(lexer);\n\t}", "function parseValueLiteral(lexer, isConst) {\n\t var token = lexer.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(lexer, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(lexer, isConst);\n\t case _lexer.TokenKind.INT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.STRING,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(lexer, token)\n\t };\n\t } else if (token.value !== 'null') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t }\n\t break;\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(lexer);\n\t }\n\t break;\n\t }\n\t throw unexpected(lexer);\n\t}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer$$1, isConst) {\n var token = lexer$$1.token;\n switch (token.kind) {\n case lexer.TokenKind.BRACKET_L:\n return parseList(lexer$$1, isConst);\n case lexer.TokenKind.BRACE_L:\n return parseObject(lexer$$1, isConst);\n case lexer.TokenKind.INT:\n lexer$$1.advance();\n return {\n kind: kinds.INT,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.FLOAT:\n lexer$$1.advance();\n return {\n kind: kinds.FLOAT,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.STRING:\n case lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer$$1);\n case lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer$$1.advance();\n return {\n kind: kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer$$1, token)\n };\n } else if (token.value === 'null') {\n lexer$$1.advance();\n return {\n kind: kinds.NULL,\n loc: loc(lexer$$1, token)\n };\n }\n lexer$$1.advance();\n return {\n kind: kinds.ENUM,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer$$1);\n }\n break;\n }\n throw unexpected(lexer$$1);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(parser, isConst) {\n\t var token = parser.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(parser, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(parser, isConst);\n\t case _lexer.TokenKind.INT:\n\t advance(parser);\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t advance(parser);\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t advance(parser);\n\t return {\n\t kind: _kinds.STRING,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t advance(parser);\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(parser, token.start)\n\t };\n\t } else if (token.value !== 'null') {\n\t advance(parser);\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t }\n\t break;\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(parser);\n\t }\n\t break;\n\t }\n\t throw unexpected(parser);\n\t}", "function parseValueLiteral(parser, isConst) {\n var token = parser.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(parser, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(parser, isConst);\n case _lexer.TokenKind.INT:\n advance(parser);\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.FLOAT:\n advance(parser);\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.STRING:\n advance(parser);\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n advance(parser);\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(parser, token.start)\n };\n } else if (token.value !== 'null') {\n advance(parser);\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(parser, token.start)\n };\n }\n break;\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(parser);\n }\n break;\n }\n throw unexpected(parser);\n}", "parseInputValueDef() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n let defaultValue;\n\n if (this.expectOptionalToken(TokenKind.EQUALS)) {\n defaultValue = this.parseConstValueLiteral();\n }\n\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.INPUT_VALUE_DEFINITION,\n description,\n name,\n type,\n defaultValue,\n directives,\n });\n }", "function isValidLiteralValue(type, valueAST) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n return isValidLiteralValue(type.ofType, valueAST);\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var _ret = function () {\n var itemType = type.ofType;\n if (valueAST.kind === _kinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n }();\n\n if ((typeof _ret === 'undefined' ? 'undefined' : (0, _typeof3.default)(_ret)) === \"object\") return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueAST.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function _loop() {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, (0, _toConsumableArray3.default)(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = (0, _getIterator3.default)((0, _keys2.default)(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _isNullish2.default)(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueAST) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidLiteralValue(type.ofType, valueAST);\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _kinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _kinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret2 = function () {\n\t if (valueAST.kind !== _kinds.OBJECT) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t fieldASTs.forEach(function (providedFieldAST) {\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "parseMaybeConst () {\n const constToken = this.getToken();\n if(constToken.type === this.lexerClass.RK_CONST) {\n this.pos++;\n const typeString = this.parseType();\n return this.parseDeclaration(typeString, true);\n } else if(this.isVariableType(constToken)) {\n const typeString = this.parseType();\n return this.parseDeclaration(typeString);\n } else {\n throw SyntaxErrorFactory.token_missing_list(\n [this.lexer.literalNames[this.lexerClass.RK_CONST]].concat(this.getTypeArray()), constToken);\n }\n\n }", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === _kinds.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var defaultValue = void 0;\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(lexer);\n\t }\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t description: description,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function processValue(schema, value) {\n // \"enum\" is a reserved word, so only \"type\" and \"items\" can be destructured\n var type = schema.type,\n items = schema.items;\n\n if (value === \"\") {\n return undefined;\n } else if (type === \"array\" && items && nums.has(items.type)) {\n return value.map(_utils.asNumber);\n } else if (type === \"boolean\") {\n return value === \"true\";\n } else if (type === \"number\") {\n return (0, _utils.asNumber)(value);\n } // If type is undefined, but an enum is present, try and infer the type from\n // the enum values\n\n\n if (schema[\"enum\"]) {\n if (schema[\"enum\"].every(function (x) {\n return (0, _utils.guessType)(x) === \"number\";\n })) {\n return (0, _utils.asNumber)(value);\n } else if (schema[\"enum\"].every(function (x) {\n return (0, _utils.guessType)(x) === \"boolean\";\n })) {\n return value === \"true\";\n }\n }\n\n return value;\n}", "function parseInputValueDef(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var defaultValue = null;\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(lexer);\n\t }\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = null;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseVal(stream) {\n if (stream.empty) {\n return null;\n }\n\n var _stream$get = stream.get();\n\n var token = _stream$get.token;\n var type = _stream$get.type;\n\n switch (type) {\n case 'NUMBER':\n return [Number(token), stream.advance()];\n case 'QUOTEDSTRING':\n return [parseStringLiteral(token), stream.advance()];\n case 'BARESTRING':\n case 'KEY':\n return [token, stream.advance()];\n case 'BOOLEAN':\n return [token.toLowerCase() === 'true' ? true : false, stream.advance()];\n default:\n return null;\n }\n}", "parseValue() {\n if (this.char === Parser.END) {\n throw this.error(new TomlError('Key without value'));\n } else if (this.char === CHAR_QUOT) {\n return this.next(this.parseDoubleString);\n }\n\n if (this.char === CHAR_APOS) {\n return this.next(this.parseSingleString);\n } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS) {\n return this.goto(this.parseNumberSign);\n } else if (this.char === CHAR_i) {\n return this.next(this.parseInf);\n } else if (this.char === CHAR_n) {\n return this.next(this.parseNan);\n } else if (isDigit(this.char)) {\n return this.goto(this.parseNumberOrDateTime);\n } else if (this.char === CHAR_t || this.char === CHAR_f) {\n return this.goto(this.parseBoolean);\n } else if (this.char === CHAR_LSQB) {\n return this.call(this.parseInlineList, this.recordValue);\n } else if (this.char === CHAR_LCUB) {\n return this.call(this.parseInlineTable, this.recordValue);\n } else {\n throw this.error(new TomlError('Unexpected character, expecting string, number, datetime, boolean, inline array or inline table'));\n }\n }", "parseValue () {\n if (this.char === Parser.END) {\n throw this.error(new TomlError('Key without value'))\n } else if (this.char === CHAR_QUOT) {\n return this.next(this.parseDoubleString)\n } if (this.char === CHAR_APOS) {\n return this.next(this.parseSingleString)\n } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS) {\n return this.goto(this.parseNumberSign)\n } else if (this.char === CHAR_i) {\n return this.next(this.parseInf)\n } else if (this.char === CHAR_n) {\n return this.next(this.parseNan)\n } else if (isDigit(this.char)) {\n return this.goto(this.parseNumberOrDateTime)\n } else if (this.char === CHAR_t || this.char === CHAR_f) {\n return this.goto(this.parseBoolean)\n } else if (this.char === CHAR_LSQB) {\n return this.call(this.parseInlineList, this.recordValue)\n } else if (this.char === CHAR_LCUB) {\n return this.call(this.parseInlineTable, this.recordValue)\n } else {\n throw this.error(new TomlError('Unexpected character, expecting string, number, datetime, boolean, inline array or inline table'))\n }\n }", "parseEnumValueDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseEnumValueName();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.ENUM_VALUE_DEFINITION,\n description,\n name,\n directives,\n });\n }", "function parseInputValueDef(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer$$1);\n var defaultValue = void 0;\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer$$1);\n }\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = (0, _definition.getNamedType)(locationType);\n\n if (!(0, _definition.isLeafType)(type)) {\n var typeStr = (0, _inspect.default)(locationType);\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = (0, _inspect.default)(locationType);\n\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = (0, _inspect.default)(locationType);\n\n if (error instanceof _GraphQLError.GraphQLError) {\n context.reportError(error);\n } else {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat((0, _printer.print)(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = (0, _definition.getNamedType)(locationType);\n\n if (!(0, _definition.isLeafType)(type)) {\n var typeStr = (0, _inspect.default)(locationType);\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = (0, _inspect.default)(locationType);\n\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = (0, _inspect.default)(locationType);\n\n if (error instanceof _GraphQLError.GraphQLError) {\n context.reportError(error);\n } else {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat((0, _printer.print)(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function valueCase() {\n // console.log('valcase', currentToken);\n if (currentToken === 'true') {\n return true;\n } else if (currentToken === 'false') {\n return false;\n } else if (currentToken === 'null') {\n return null;\n } else if (currentToken.match(a.knumber)) {\n return Number(currentToken);\n } else if (currentToken.match(a.string)) {\n return currentToken.match(a.string)[1];\n } else {\n throw('valueCase() error' + currentToken);\n }\n\n resetToken();\n }", "parseValue() {\n\t\t\tif ( this.char === Parser.END ) {\n\t\t\t\tthrow this.error( new TomlError( 'Key without value' ) );\n\t\t\t} else if ( this.char === CHAR_QUOT ) {\n\t\t\t\treturn this.next( this.parseDoubleString );\n\t\t\t}\n\n\t\t\tif ( this.char === CHAR_APOS ) {\n\t\t\t\treturn this.next( this.parseSingleString );\n\t\t\t} else if ( this.char === CHAR_HYPHEN || this.char === CHAR_PLUS ) {\n\t\t\t\treturn this.goto( this.parseNumberSign );\n\t\t\t} else if ( this.char === CHAR_i ) {\n\t\t\t\treturn this.next( this.parseInf );\n\t\t\t} else if ( this.char === CHAR_n ) {\n\t\t\t\treturn this.next( this.parseNan );\n\t\t\t} else if ( isDigit( this.char ) ) {\n\t\t\t\treturn this.goto( this.parseNumberOrDateTime );\n\t\t\t} else if ( this.char === CHAR_t || this.char === CHAR_f ) {\n\t\t\t\treturn this.goto( this.parseBoolean );\n\t\t\t} else if ( this.char === CHAR_LSQB ) {\n\t\t\t\treturn this.call( this.parseInlineList, this.recordValue );\n\t\t\t} else if ( this.char === CHAR_LCUB ) {\n\t\t\t\treturn this.call( this.parseInlineTable, this.recordValue );\n\t\t\t} else {\n\t\t\t\tthrow this.error( new TomlError( 'Unexpected character, expecting string, number, datetime, boolean, inline array or inline table' ) );\n\t\t\t}\n\t\t}", "function isValidLiteralValue(type, valueNode) {\n var emptySchema = new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"]({});\n var emptyDoc = {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT,\n definitions: []\n };\n var typeInfo = new _TypeInfo__WEBPACK_IMPORTED_MODULE_0__[\"TypeInfo\"](emptySchema, undefined, type);\n var context = new _validation_ValidationContext__WEBPACK_IMPORTED_MODULE_5__[\"ValidationContext\"](emptySchema, emptyDoc, typeInfo);\n var visitor = Object(_validation_rules_ValuesOfCorrectType__WEBPACK_IMPORTED_MODULE_4__[\"ValuesOfCorrectType\"])(context);\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visit\"])(valueNode, Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visitWithTypeInfo\"])(typeInfo, visitor));\n return context.getErrors();\n}", "getSimpleTypeAndValue(valueXTypes, def, defAsValue) {\n if (defAsValue == null) {\n defAsValue = new mdls.IdentifiableValue(def.identifier).withMinMax(1,1);\n }\n let type, value;\n const map = this._specs.maps.findByTargetAndIdentifier(this._target, def.identifier);\n if (map != null) {\n if (def.isEntry || def.isAbstract) {\n // Entries and abstracts should be represented as references to a resource/profile\n type = 'Reference';\n value = defAsValue;\n } else {\n const targets = common.getFHIRTypeHierarchy(this._fhir, common.TargetItem.parse(map.targetItem).target);\n const target = targets.find(t => valueXTypes.indexOf(t) !== -1);\n if (target) {\n // Non-entries should map to one of the choice types\n type = target;\n value = defAsValue;\n }\n }\n } else if (def.value !== undefined && def.value.effectiveCard.max <= 1 && def.fields.length == 0) {\n if (def.value instanceof mdls.ChoiceValue && this.choiceSupportsValueX(def.value)) {\n value = def.value;\n type = '[x]';\n } else if (def.value instanceof mdls.IdentifiableValue) {\n if (def.value.effectiveIdentifier.isPrimitive) {\n value = def.value;\n type = def.value.effectiveIdentifier.name;\n if (type === 'concept') {\n type = 'CodeableConcept';\n } else if (type === 'xhtml') {\n // xhtml is a weird type in FHIR and needs to be treated as a string\n type = 'string';\n }\n } else {\n const valueDef = this._specs.dataElements.findByIdentifier(def.value.effectiveIdentifier);\n if (valueDef) {\n return this.getSimpleTypeAndValue(valueXTypes, valueDef, def.value);\n }\n }\n }\n }\n return [type, value];\n }", "function isValidLiteralValue(_x, _x2) {\n\t var _again = true;\n\n\t _function: while (_again) {\n\t var type = _x,\n\t valueAST = _x2;\n\t _ret = fields = errors = fieldASTs = _iteratorNormalCompletion = _didIteratorError = _iteratorError = fieldASTMap = _iteratorNormalCompletion2 = _didIteratorError2 = _iteratorError2 = parseResult = undefined;\n\t _again = false;\n\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _typeDefinition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + type.ofType.name + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t _x = type.ofType;\n\t _x2 = valueAST;\n\t _again = true;\n\t continue _function;\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _languageKinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _typeDefinition.GraphQLList) {\n\t var _ret = (function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _languageKinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t })();\n\n\t if (typeof _ret === 'object') return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _typeDefinition.GraphQLInputObjectType) {\n\t if (valueAST.kind !== _languageKinds.OBJECT) {\n\t return ['Expected \"' + type.name + '\", found not an object.'];\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t var _iteratorNormalCompletion = true;\n\t var _didIteratorError = false;\n\t var _iteratorError = undefined;\n\n\t try {\n\t for (var _iterator = _getIterator(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n\t var providedFieldAST = _step.value;\n\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t }\n\n\t // Ensure every defined field is valid.\n\t } catch (err) {\n\t _didIteratorError = true;\n\t _iteratorError = err;\n\t } finally {\n\t try {\n\t if (!_iteratorNormalCompletion && _iterator['return']) {\n\t _iterator['return']();\n\t }\n\t } finally {\n\t if (_didIteratorError) {\n\t throw _iteratorError;\n\t }\n\t }\n\t }\n\n\t var fieldASTMap = (0, _jsutilsKeyMap2['default'])(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t var _iteratorNormalCompletion2 = true;\n\t var _didIteratorError2 = false;\n\t var _iteratorError2 = undefined;\n\n\t try {\n\t var _loop = function () {\n\t var fieldName = _step2.value;\n\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, _toConsumableArray(result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t })));\n\t };\n\n\t for (var _iterator2 = _getIterator(_Object$keys(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n\t _loop();\n\t }\n\t } catch (err) {\n\t _didIteratorError2 = true;\n\t _iteratorError2 = err;\n\t } finally {\n\t try {\n\t if (!_iteratorNormalCompletion2 && _iterator2['return']) {\n\t _iterator2['return']();\n\t }\n\t } finally {\n\t if (_didIteratorError2) {\n\t throw _iteratorError2;\n\t }\n\t }\n\t }\n\n\t return errors;\n\t }\n\n\t (0, _jsutilsInvariant2['default'])(type instanceof _typeDefinition.GraphQLScalarType || type instanceof _typeDefinition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _jsutilsIsNullish2['default'])(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _languagePrinter.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t }\n\t}", "function Value (val) {\n\tthis.value = val;\n}", "function isValidLiteralValue(_x, _x2) {\n var _again = true;\n\n _function: while (_again) {\n var type = _x,\n valueAST = _x2;\n _ret = fields = errors = fieldASTs = _iteratorNormalCompletion = _didIteratorError = _iteratorError = fieldASTMap = _iteratorNormalCompletion2 = _didIteratorError2 = _iteratorError2 = parseResult = undefined;\n _again = false;\n\n // A value must be provided if the type is non-null.\n if (type instanceof _typeDefinition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n _x = type.ofType;\n _x2 = valueAST;\n _again = true;\n continue _function;\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _languageKinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _typeDefinition.GraphQLList) {\n var _ret = (function () {\n var itemType = type.ofType;\n if (valueAST.kind === _languageKinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n })();\n\n if (typeof _ret === 'object') return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _typeDefinition.GraphQLInputObjectType) {\n if (valueAST.kind !== _languageKinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = _getIterator(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator['return']) {\n _iterator['return']();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _jsutilsKeyMap2['default'])(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function () {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, _toConsumableArray(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = _getIterator(_Object$keys(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2['return']) {\n _iterator2['return']();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _jsutilsInvariant2['default'])(type instanceof _typeDefinition.GraphQLScalarType || type instanceof _typeDefinition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _jsutilsIsNullish2['default'])(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _languagePrinter.print)(valueAST) + '.'];\n }\n\n return [];\n }\n}", "static getValue(value, escapeChar) {\n let escaped = false;\n const skip = util_1.Util.findLeadingNonWhitespace(value, escapeChar);\n if (skip !== 0 && value.charAt(skip) === '#') {\n // need to skip over comments\n escaped = true;\n }\n value = value.substring(skip);\n let first = value.charAt(0);\n let last = value.charAt(value.length - 1);\n let literal = first === '\\'' || first === '\"';\n let inSingle = (first === '\\'' && last === '\\'');\n let inDouble = false;\n if (first === '\"') {\n for (let i = 1; i < value.length; i++) {\n if (value.charAt(i) === escapeChar) {\n i++;\n }\n else if (value.charAt(i) === '\"' && i === value.length - 1) {\n inDouble = true;\n }\n }\n }\n if (inSingle || inDouble) {\n value = value.substring(1, value.length - 1);\n }\n let commentCheck = -1;\n let escapedValue = \"\";\n let start = 0;\n parseValue: for (let i = 0; i < value.length; i++) {\n let char = value.charAt(i);\n switch (char) {\n case escapeChar:\n if (i + 1 === value.length) {\n escapedValue = escapedValue + escapeChar;\n break parseValue;\n }\n char = value.charAt(i + 1);\n if (char === ' ' || char === '\\t') {\n whitespaceCheck: for (let j = i + 2; j < value.length; j++) {\n let char2 = value.charAt(j);\n switch (char2) {\n case ' ':\n case '\\t':\n break;\n case '\\r':\n j++;\n case '\\n':\n escaped = true;\n i = j;\n continue parseValue;\n default:\n if (!inDouble && !inSingle && !literal) {\n if (char2 === escapeChar) {\n // add the escaped character\n escapedValue = escapedValue + char;\n // now start parsing from the next escape character\n i = i + 1;\n }\n else {\n // the expectation is that this j = i + 2 here\n escapedValue = escapedValue + char + char2;\n i = j;\n }\n continue parseValue;\n }\n break whitespaceCheck;\n }\n }\n }\n if (inDouble) {\n if (char === '\\r') {\n escaped = true;\n i = i + 2;\n }\n else if (char === '\\n') {\n escaped = true;\n i++;\n }\n else if (char !== '\"') {\n if (char === escapeChar) {\n i++;\n }\n escapedValue = escapedValue + escapeChar;\n }\n continue parseValue;\n }\n else if (inSingle || literal) {\n if (char === '\\r') {\n escaped = true;\n i = i + 2;\n }\n else if (char === '\\n') {\n escaped = true;\n i++;\n }\n else {\n escapedValue = escapedValue + escapeChar;\n }\n continue parseValue;\n }\n else if (char === escapeChar) {\n // double escape, append one and move on\n escapedValue = escapedValue + escapeChar;\n i++;\n }\n else if (char === '\\r') {\n escaped = true;\n // offset one more for \\r\\n\n i = i + 2;\n }\n else if (char === '\\n') {\n escaped = true;\n i++;\n start = i;\n }\n else {\n // any other escapes are simply ignored\n escapedValue = escapedValue + char;\n i++;\n }\n break;\n case ' ':\n case '\\t':\n if (escaped && commentCheck === -1) {\n commentCheck = i;\n }\n escapedValue = escapedValue + char;\n break;\n case '\\r':\n i++;\n case '\\n':\n if (escaped && commentCheck !== -1) {\n // rollback and remove the whitespace that was previously appended\n escapedValue = escapedValue.substring(0, escapedValue.length - (i - commentCheck - 1));\n commentCheck = -1;\n }\n break;\n case '#':\n // a newline was escaped and now there's a comment\n if (escaped) {\n if (commentCheck !== -1) {\n // rollback and remove the whitespace that was previously appended\n escapedValue = escapedValue.substring(0, escapedValue.length - (i - commentCheck));\n commentCheck = -1;\n }\n newlineCheck: for (let j = i + 1; j < value.length; j++) {\n switch (value.charAt(j)) {\n case '\\r':\n j++;\n case '\\n':\n i = j;\n break newlineCheck;\n }\n }\n continue parseValue;\n }\n default:\n if (escaped) {\n escaped = false;\n commentCheck = -1;\n }\n escapedValue = escapedValue + char;\n break;\n }\n }\n return escapedValue;\n }", "function tt(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? X(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : Gn(\"Invalid value type: \" + JSON.stringify(t));\n}", "function css__VALUE__LIST_ques_(cssValueType) /* (cssValueType : cssValueType) -> bool */ {\n return (cssValueType === 3);\n}", "function value(val, size, specifiers0) {\n var specifiers = set(specifiers0);\n var segment = {value: val};\n segment.type = type_in(specifiers);\n // TODO check type v. value ..\n specs(segment, segment.type, specifiers);\n segment.size = size_of(segment, segment.type, size, segment.unit);\n return segment;\n}", "function value(val, size, specifiers0) {\n var specifiers = set(specifiers0);\n var segment = {value: val};\n segment.type = type_in(specifiers);\n // TODO check type v. value ..\n specs(segment, segment.type, specifiers);\n segment.size = size_of(segment, segment.type, size, segment.unit);\n return segment;\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function M(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? O(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : _e(\"Invalid value type: \" + JSON.stringify(t));\n}", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = (0, _definition.getNullableType)(context.getParentInputType());\n\n if (!(0, _definition.isListType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = (0, _definition.getNamedType)(context.getInputType());\n\n if (!(0, _definition.isInputObjectType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = (0, _keyMap.default)(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = (0, _objectValues3.default)(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && (0, _definition.isRequiredInputField)(fieldDef)) {\n var typeStr = (0, _inspect.default)(fieldDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = (0, _definition.getNamedType)(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && (0, _definition.isInputObjectType)(parentType)) {\n var suggestions = (0, _suggestionList.default)(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if ((0, _definition.isNonNullType)(type)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat((0, _inspect.default)(type), \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = (0, _definition.getNullableType)(context.getParentInputType());\n\n if (!(0, _definition.isListType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = (0, _definition.getNamedType)(context.getInputType());\n\n if (!(0, _definition.isInputObjectType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = (0, _keyMap.default)(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = (0, _objectValues.default)(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && (0, _definition.isRequiredInputField)(fieldDef)) {\n var typeStr = (0, _inspect.default)(fieldDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = (0, _definition.getNamedType)(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && (0, _definition.isInputObjectType)(parentType)) {\n var suggestions = (0, _suggestionList.default)(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if ((0, _definition.isNonNullType)(type)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat((0, _inspect.default)(type), \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "function deserializeValue(value) {\n try {\n return value\n ? value == 'true' ||\n (value == 'false'\n ? false\n : value == 'null'\n ? null\n : +value + '' == value\n ? +value\n : /^[\\[\\{]/.test(value)\n ? h.parseJSON(value)\n : value)\n : value;\n } catch (e) {\n return value;\n }\n }", "function parseInputValueDef(parser) {\n\t var start = parser.token.start;\n\t var name = parseName(parser);\n\t expect(parser, _lexer.TokenKind.COLON);\n\t var type = parseType(parser);\n\t var defaultValue = null;\n\t if (skip(parser, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(parser);\n\t }\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t loc: loc(parser, start)\n\t };\n\t}", "parseList(isConst) {\n const item = () => this.parseValueLiteral(isConst);\n\n return this.node(this._lexer.token, {\n kind: Kind.LIST,\n values: this.any(TokenKind.BRACKET_L, item, TokenKind.BRACKET_R),\n });\n }", "function parseCoreSetting(name,value) {\r\n\r\n if (value===undefined || value===null) value = '';\r\n\r\n value = value.toString();\r\n\r\n switch (name) {\r\n\r\n case 'posts_per_page':\r\n case 'posts_per_feed':\r\n case 'comments_per_page':\r\n case 'mailserver_port':\r\n return validator.toInt(value);\r\n\r\n case 'dated_permalinks':\r\n return validator.toBoolean(value);\r\n\r\n case 'default_avatar':\r\n return (validator.isIn(value,['mm','','blank','identicon','monsterid','wavatar','robohash','retro']))? value : '';\r\n\r\n default:\r\n return value;\r\n }\r\n\r\n}", "function parseInputValueDef(parser) {\n var start = parser.token.start;\n var name = parseName(parser);\n expect(parser, _lexer.TokenKind.COLON);\n var type = parseType(parser);\n var defaultValue = null;\n if (skip(parser, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(parser);\n }\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n loc: loc(parser, start)\n };\n}", "function parseValues(values) {\n return values.split(\",\").reduce(function(result, option) {\n var pair = option.split(\"=\"),\n name = pair[0],\n value = pair.slice(1).join(\"=\");\n if (name && name.length) {\n result[name] = value || true;\n }\n return result;\n }, {});\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function ValidateTypeValue(type, value)\n{\n\tif (type == \"Bool\")\n\t{\n\t\tif (value != \"true\" && value != \"false\")\n\t\t{\n\t\t\treturn \"default value must be either 'True' or 'False' for Bool\";\n\t\t}\n\t}\n\telse if (type == \"Int\" || type == \"Float\")\n\t{\n\t\tif (isNaN(value))\n\t\t{\n\t\t\treturn \"default value must be digit(s) for Int or Float\";\n\t\t}\n\t}\n\telse\n\t{\n\t\t// everything is fine as a string or custom type\n\t\treturn null;\n\t}\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "parseValue(value, exceptionOnInvalidType, objectDecoder) {\n var e, foldedIndent, matches, modifiers, pos, ref, ref1, val;\n if (0 === value.indexOf('*')) {\n pos = value.indexOf('#');\n if (pos !== -1) {\n value = value.substr(1, pos - 2);\n } else {\n value = value.slice(1);\n }\n if (this.refs[value] === void 0) {\n throw new ParseException('Reference \"' + value + '\" does not exist.', this.currentLine);\n }\n return this.refs[value];\n }\n if (matches = this.PATTERN_FOLDED_SCALAR_ALL.exec(value)) {\n modifiers = (ref = matches.modifiers) != null ? ref : '';\n foldedIndent = Math.abs(parseInt(modifiers));\n if (isNaN(foldedIndent)) {\n foldedIndent = 0;\n }\n val = this.parseFoldedScalar(matches.separator, this.PATTERN_DECIMAL.replace(modifiers, ''), foldedIndent);\n if (matches.type != null) {\n // Force correct settings\n Inline.configure(exceptionOnInvalidType, objectDecoder);\n return Inline.parseScalar(matches.type + ' ' + val);\n } else {\n return val;\n }\n }\n // Value can be multiline compact sequence or mapping or string\n if ((ref1 = value.charAt(0)) === '[' || ref1 === '{' || ref1 === '\"' || ref1 === \"'\") {\n while (true) {\n try {\n return Inline.parse(value, exceptionOnInvalidType, objectDecoder);\n } catch (error) {\n e = error;\n if (e instanceof ParseMore && this.moveToNextLine()) {\n value += \"\\n\" + Utils.trim(this.currentLine, ' ');\n } else {\n e.parsedLine = this.getRealCurrentLineNb() + 1;\n e.snippet = this.currentLine;\n throw e;\n }\n }\n }\n } else {\n if (this.isNextLineIndented()) {\n value += \"\\n\" + this.getNextEmbedBlock();\n }\n return Inline.parse(value, exceptionOnInvalidType, objectDecoder);\n }\n }", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNullableType\"])(context.getParentInputType());\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(context.getInputType());\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isRequiredInputField\"])(fieldDef)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(fieldDef.type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(parentType)) {\n var suggestions = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNullableType\"])(context.getParentInputType());\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(context.getInputType());\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isRequiredInputField\"])(fieldDef)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(fieldDef.type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(parentType)) {\n var suggestions = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "function parseList(lexer, isConst) {\n\t var start = lexer.token;\n\t var item = isConst ? parseConstValue : parseValueValue;\n\t return {\n\t kind: _kinds.LIST,\n\t values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseList(lexer, isConst) {\n\t var start = lexer.token;\n\t var item = isConst ? parseConstValue : parseValueValue;\n\t return {\n\t kind: _kinds.LIST,\n\t values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: Kind.LIST,\n values: any(lexer, TokenKind.BRACKET_L, item, TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function valueFromASTUntyped(valueNode, variables) {\n switch (valueNode.kind) {\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].NULL:\n return null;\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].INT:\n return parseInt(valueNode.value, 10);\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].FLOAT:\n return parseFloat(valueNode.value);\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].STRING:\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].ENUM:\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].BOOLEAN:\n return valueNode.value;\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].LIST:\n return valueNode.values.map(function (node) {\n return valueFromASTUntyped(node, variables);\n });\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].OBJECT:\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(valueNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return valueFromASTUntyped(field.value, variables);\n });\n\n case _language_kinds__WEBPACK_IMPORTED_MODULE_3__[\"Kind\"].VARIABLE:\n var variableName = valueNode.name.value;\n return variables && !Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(variables[variableName]) ? variables[variableName] : undefined;\n } // Not reachable. All possible value nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected value node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(valueNode), \"\\\".\"));\n}", "function canBeValue() { }", "Literal(value, options = {}) {\r\n return { ...options, kind: exports.LiteralKind, const: value, type: typeof value };\r\n }", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.ENUM_VALUE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "parseValue (idx) {\n const len = this.size;\n const uson = this.input;\n idx = this.skipWspace (idx);\n\n if (idx === len) {\n return;\n }\n\n const chr = uson[idx];\n\n switch (chr) {\n case '\"': return this.parseString (idx + 1);\n case '{': return this.parseObject (idx + 1);\n case '[': return this.parseArray (idx + 1);\n case '<': return this.parseData (idx + 1);\n case ']':\n /* Catch the closing array bracket */\n this.end = true;\n return;\n default:\n /* USON identifier is a number which failed\n // to parse due to *syntactic* difference\n // from an actual valid number */\n return this.parseNumber (idx);\n }\n}", "function deserializeValue(value) {\r\n try {\r\n return value ?\r\n value == \"true\" ||\r\n ( value == \"false\" ? false :\r\n value == \"null\" ? null :\r\n +value + \"\" == value ? +value :\r\n /^[\\[\\{]/.test(value) ? $.parseJSON(value) :\r\n value )\r\n : value\r\n } catch(e) {\r\n return value\r\n }\r\n }", "'validateValue'(value) {}" ]
[ "0.70570886", "0.6685034", "0.6684451", "0.6651367", "0.6651367", "0.6651367", "0.6651367", "0.6634002", "0.65697414", "0.6566348", "0.656263", "0.656263", "0.65572596", "0.65559214", "0.64911103", "0.6485619", "0.58801836", "0.5734933", "0.57151306", "0.56862545", "0.5681436", "0.5681436", "0.56637824", "0.56571984", "0.5652145", "0.5651429", "0.5651429", "0.562169", "0.55885106", "0.55752456", "0.55752456", "0.55752456", "0.55752456", "0.55456424", "0.5539581", "0.5529083", "0.54675114", "0.54675114", "0.54675114", "0.54675114", "0.54675114", "0.54675114", "0.5464974", "0.5452018", "0.5434332", "0.53666145", "0.5363035", "0.5336919", "0.5336919", "0.531894", "0.5294473", "0.52730805", "0.5256105", "0.52176267", "0.5217", "0.52020913", "0.51881003", "0.5187227", "0.51869875", "0.5185539", "0.5185539", "0.51761276", "0.51761276", "0.5141286", "0.5131128", "0.5119704", "0.50963265", "0.50939745", "0.5078683", "0.5027356", "0.50231326", "0.5006137", "0.50044054", "0.49856848", "0.4983047", "0.4983047", "0.49809876", "0.49734786", "0.49717858", "0.49717858", "0.4933296", "0.4933296", "0.4918223", "0.49167234", "0.4905513", "0.4904774", "0.49026793", "0.49026793", "0.49026793", "0.49026793", "0.49026793", "0.4871056", "0.4869441", "0.48678285", "0.4867361" ]
0.6658609
7
ListValue[Const] : [ ] [ Value[?Const]+ ]
function parseList(lexer, isConst) { var start = lexer.token; var item = isConst ? parseConstValue : parseValueValue; return { kind: _kinds.LIST, values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseList(isConst) {\n const item = () => this.parseValueLiteral(isConst);\n\n return this.node(this._lexer.token, {\n kind: Kind.LIST,\n values: this.any(TokenKind.BRACKET_L, item, TokenKind.BRACKET_R),\n });\n }", "function parseList(lexer$$1, isConst) {\n var start = lexer$$1.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: kinds.LIST,\n values: any(lexer$$1, lexer.TokenKind.BRACKET_L, item, lexer.TokenKind.BRACKET_R),\n loc: loc(lexer$$1, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: Kind.LIST,\n values: any(lexer, TokenKind.BRACKET_L, item, TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.Kind.LIST,\n values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n\t var start = lexer.token;\n\t var item = isConst ? parseConstValue : parseValueValue;\n\t return {\n\t kind: _kinds.LIST,\n\t values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseList(lexer, isConst) {\n\t var start = lexer.token;\n\t var item = isConst ? parseConstValue : parseValueValue;\n\t return {\n\t kind: _kinds.LIST,\n\t values: any(lexer, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseList(parser, isConst) {\n\t var start = parser.token.start;\n\t var item = isConst ? parseConstValue : parseValueValue;\n\t return {\n\t kind: _kinds.LIST,\n\t values: any(parser, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseList(parser, isConst) {\n var start = parser.token.start;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds.LIST,\n values: any(parser, _lexer.TokenKind.BRACKET_L, item, _lexer.TokenKind.BRACKET_R),\n loc: loc(parser, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].LIST,\n values: any(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L, item, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].LIST,\n values: any(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L, item, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].LIST,\n values: any(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L, item, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function parseList(lexer, isConst) {\n var start = lexer.token;\n var item = isConst ? parseConstValue : parseValueValue;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].LIST,\n values: any(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, item, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R),\n loc: loc(lexer, start)\n };\n}", "function List (val, tail) {\n this.val = val;\n this.tail = tail;\n}", "function jlang_list(_domid, _value, _list, _prestr, _posstr){\n\t\t_value = stdlib.toint(_value);\n\t\tvar _label = _value;\n\t\tif('undefined'!=_list[_value]) _label = _list[_value];\n\t\tjlang_put(_domid, _label, _prestr, _posstr);\n\t}", "constructor(type, type_list, value_list=null) {\n super(type)\n this.type_list = type_list\n if(value_list==null){\n value_list = []\n for(var i=0; i<type_list.length; i++) value_list.push(null)\n }\n this.value_list = value_list\n }", "function list(val) {\n\t return util.list(val);\n\t}", "function list(val) {\n\t return util.list(val);\n\t}", "function list(val) {\n return util.list(val);\n}", "function list(val /*:: ?: string*/) /*: Array<string>*/ {\n\t if (!val) {\n\t return [];\n\t } else if (Array.isArray(val)) {\n\t return val;\n\t } else if (typeof val === \"string\") {\n\t return val.split(\",\");\n\t } else {\n\t return [val];\n\t }\n\t}", "parseMaybeConst () {\n const constToken = this.getToken();\n if(constToken.type === this.lexerClass.RK_CONST) {\n this.pos++;\n const typeString = this.parseType();\n return this.parseDeclaration(typeString, true);\n } else if(this.isVariableType(constToken)) {\n const typeString = this.parseType();\n return this.parseDeclaration(typeString);\n } else {\n throw SyntaxErrorFactory.token_missing_list(\n [this.lexer.literalNames[this.lexerClass.RK_CONST]].concat(this.getTypeArray()), constToken);\n }\n\n }", "function field_list_of_fixed_values(data,editable,config) {\n\tif (data == null) data = [];\n\ttyped_field_multiple.call(this, data, editable, config);\n}", "function getValueList(pValueList, pTemplate, pCurrentValue) {\n var lResult = \"\",\n lFound = false;\n\n apex.jQuery.each(pValueList, function(pIndex, pValue){\n lResult += pTemplate\n .replace(/#SEQ#/g, pIndex)\n .replace(/#R#/g, pValue.r)\n .replace(/#D#/g, pValue.d);\n if (pValue.r === pCurrentValue) {\n lFound = true;\n }\n });\n\n // if the current value isn't in the list, we add it to the list and mark the display value with a *\n if (pCurrentValue && !lFound) {\n lResult += pTemplate\n .replace(/#SEQ#/g, 9999)\n .replace(/#R#/g, lValue)\n .replace(/#D#/g, lValue+\"*\");\n }\n\n return lResult;\n }", "function isValidLiteralValue(type, valueAST) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n return isValidLiteralValue(type.ofType, valueAST);\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var _ret = function () {\n var itemType = type.ofType;\n if (valueAST.kind === _kinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n }();\n\n if ((typeof _ret === 'undefined' ? 'undefined' : (0, _typeof3.default)(_ret)) === \"object\") return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueAST.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function _loop() {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, (0, _toConsumableArray3.default)(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = (0, _getIterator3.default)((0, _keys2.default)(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _isNullish2.default)(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n }\n\n return [];\n}", "function make_list (value, next) {\n\treturn {\n\t\tvalue: value,\n\t\tnext: next\n\t};\n}", "if (type instanceof GraphQLList) {\n const itemType = type.ofType;\n if (isCollection(value)) {\n const errors = [];\n forEach((value: any), (item, index) => {\n errors.push.apply(\n errors,\n isValidJSValue(item, itemType).map(\n error => `In element #${index}: ${error}`,\n ),\n );\n });\n return errors;\n }\n return isValidJSValue(value, itemType);\n }", "get value() {\n return [...this.list].join(' ');\n }", "function ListType(){\n\tthis.astObject = ListExpression;\n\t\t\n\tthis.toString = function(){\n\t\treturn 'list'\n\t}\n}", "function css__VALUE__LIST_ques_(cssValueType) /* (cssValueType : cssValueType) -> bool */ {\n return (cssValueType === 3);\n}", "function prependList(value, list) {\n return {value, rest: list};\n}", "function list(val) {\n return val.split(',');\n}", "function list(val) {\n\t if (!val) {\n\t return [];\n\t } else if (Array.isArray(val)) {\n\t return val;\n\t } else if (typeof val === \"string\") {\n\t return val.split(\",\");\n\t } else {\n\t return [val];\n\t }\n\t}", "function list(val) {\n\t if (!val) {\n\t return [];\n\t } else if (Array.isArray(val)) {\n\t return val;\n\t } else if (typeof val === \"string\") {\n\t return val.split(\",\");\n\t } else {\n\t return [val];\n\t }\n\t}", "function list(val) {\n\t if (!val) {\n\t return [];\n\t } else if (Array.isArray(val)) {\n\t return val;\n\t } else if (typeof val === \"string\") {\n\t return val.split(\",\");\n\t } else {\n\t return [val];\n\t }\n\t}", "function ConstV(val, len) {\n this.val = val;\n this.length = len;\n this.cached = false;\n }", "function isValidLiteralValue(type, valueAST) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidLiteralValue(type.ofType, valueAST);\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _kinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _kinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret2 = function () {\n\t if (valueAST.kind !== _kinds.OBJECT) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t fieldASTs.forEach(function (providedFieldAST) {\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t}", "function list(val) {\n if (!val) {\n return [];\n } else if (Array.isArray(val)) {\n return val;\n } else if (typeof val === \"string\") {\n return val.split(\",\");\n } else {\n return [val];\n }\n}", "function ListSetter(value) {\n listBin.push(value);\n while (listBin.length > LIMIT_BIN) {\n listBin.shift(listBin);\n }\n UpdateView(listBin);\n return listBin;\n}", "function Literal(){\n\tthis.value=[];\n\tvar failCnt=0;\n\t\t\n\tthis.create=function(value) {\n\t\treturn new _$optional(value);\n\t}\n\t\n\tthis.get=function(value){\n\t\tif (this.value[value]==undefined) this.value[value]=this.create(value);\n\t\treturn this.value[value];\n\t}\n\t\n\tthis.lookUp=function(value){\n\t\tif (this.value[value]==undefined) {\n\t\t\tif (failCnt<2 && this.value.length<1000) {\n\t\t\t\tthis.value[value]=this.create(value);\n\t\t\t\tfailCnt++;\n\t\t\t} else return this.create(value);\n\t\t} else failCnt=0;\n\t\treturn this.value[value];\n\t}\n}", "constructor(value) {\n if (value)\n this.value = value;\n this.nestedList = [];\n }", "function Listnode(value){\n this.value = value;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val || '';\n this.next = null;\n}", "function pyListRepeat(value, numValues) {\n if (Array.isArray(value)) {\n // tslint:disable-next-line:no-any\n var newArray = [];\n for (var i = 0; i < numValues; i++) {\n newArray = newArray.concat(value);\n }\n return newArray;\n }\n else {\n var newArray = new Array(numValues);\n newArray.fill(value);\n return newArray;\n }\n}", "function pyListRepeat(value, numValues) {\n if (Array.isArray(value)) {\n // tslint:disable-next-line:no-any\n var newArray = [];\n for (var i = 0; i < numValues; i++) {\n newArray = newArray.concat(value);\n }\n return newArray;\n }\n else {\n var newArray = new Array(numValues);\n newArray.fill(value);\n return newArray;\n }\n}", "function valueInList(value, list) {\n var key = null;\n\n if (value.termType == \"literal\") {\n key = \"value\";\n } else if (value.termType == \"symbol\") {\n key = \"uri\";\n } else {\n return list.indexOf(value) >= 0;\n }\n\n // Check the list and compare keys:\n\n var i;\n\n for (i=0; i<list.length; ++i) {\n if (list[i].termType == value.termType\n && list[i][key] == value[key]) {\n return true;\n }\n }\n\n // Not found?\n\n return false;\n }", "function addEmptyParameter(list) {\n return list.push({ 'label': '', 'value': '', 'name': '' });\n}", "static listValue(producer, options = {}) {\n return token_1.Token.asList(new LazyList(producer, false, options), options);\n }", "function addToList(list, newvalue) {\n\tif (newvalue) {\n\t\tif (!list || list === 'None') {\n\t\t\tlist = newvalue;\n\t\t\treturn list;\n\t\t}\n\t\t\n\t\t// Is the value already in the list?\n\t\tvar arr = list.split(',');\n\t\tfor (var i = 0; i < arr.length; i++) {\n\t\t\tif (arr[i] === newvalue) \n\t\t\t\treturn list; // just leave, nothing to add\n\t\t}\t\t\t\t\t\n\t\tlist += (',' + newvalue);\n\t}\n\treturn list;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n return this;\n}", "function ColorList() {}", "parseValueLiteral(isConst) {\n const token = this._lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return this.parseList(isConst);\n\n case TokenKind.BRACE_L:\n return this.parseObject(isConst);\n\n case TokenKind.INT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.INT,\n value: token.value,\n });\n\n case TokenKind.FLOAT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.FLOAT,\n value: token.value,\n });\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return this.parseStringLiteral();\n\n case TokenKind.NAME:\n this._lexer.advance();\n\n switch (token.value) {\n case 'true':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: true,\n });\n\n case 'false':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: false,\n });\n\n case 'null':\n return this.node(token, {\n kind: Kind.NULL,\n });\n\n default:\n return this.node(token, {\n kind: Kind.ENUM,\n value: token.value,\n });\n }\n\n case TokenKind.DOLLAR:\n if (isConst) {\n this.expectToken(TokenKind.DOLLAR);\n\n if (this._lexer.token.kind === TokenKind.NAME) {\n const varName = this._lexer.token.value;\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Unexpected variable \"$${varName}\" in constant value.`,\n );\n } else {\n throw this.unexpected(token);\n }\n }\n\n return this.parseVariable();\n }\n\n throw this.unexpected();\n }", "function ListNode (val) {\n this.val = val\n this.next = null\n}", "function ListNode(value){\n\tthis.val = value;\n\tthis.next = null;\n}", "function ListNode(value){\n\tthis.val = value;\n\tthis.next = null;\n}", "function ListNode(value){\n\tthis.val = value;\n\tthis.next = null;\n}", "function getConstantLiteralFromArray(constantPool,values){return values.length?constantPool.getConstLiteral(literalArr(values),true):NULL_EXPR;}", "function ListItem({ value }) {\n\treturn <li className=\"person\">{value}</li>;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n }", "function ListNode(val) {\n this.val = val;\n this.next = null;}", "function a_listCopy (lst) {\n\n /* Annotation */ isNullableObject(lst);\n\n if (lst === null)\n return null;\n\n return { val: lst.val, prev: lst.prev, next : a_listCopy(lst.next) }\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode( val ) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n }", "function validateLists(part, path) {\n const { list } = part;\n if (!list) {\n return;\n }\n\n const listPath = _.concat(path, 'list').join('.');\n if (!_.isPlainObject(list)) {\n return errors.push(`Attribute ${listPath} after transformation must be an object.`);\n }\n\n const listName = list.name;\n const listVal = list.values;\n const listValByName = _.get(appLib.appModelHelpers, ['Lists', listName]);\n\n if (listValByName && listVal) {\n return errors.push(\n `Attribute ${listPath} must have only one source of values for list (either 'name' or 'values')`\n );\n }\n\n if (!list.isDynamicList && !_.isPlainObject(listValByName || listVal)) {\n errors.push(`Attribute ${listPath} must have list values(inlined or referenced) represented as object`);\n }\n }", "getList() {\n return this.value ? [] : this.nestedList;\n }", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "defineStringListParameter(definition) {\n return this._createParameter(definition, {\n action: 'append'\n }, definition.key);\n }", "function ListNode(val) {\n this.val = val\n this.next = null\n}", "function getListBlock(){ \n \nworkspacePlayground.updateToolbox(\"<category name='%{BKY_CATLISTS}' colour='%{BKY_LISTS_HUE}'> <block type='lists_create_with'> <mutation items='0'></mutation> </block> <block type='lists_create_with'></block> <block type='lists_repeat'> <value name='NUM'> <shadow type='math_number'> <field name='NUM'>5</field> </shadow> </value> </block> <block type='lists_length'></block> <block type='lists_isEmpty'></block> <block type='lists_indexOf'> <value name='VALUE'> <block type='variables_get'> <field name='VAR'>{listVariable}</field> </block> </value> </block> <block type='lists_getIndex'> <value name='VALUE'> <block type='variables_get'> <field name='VAR'>{listVariable}</field> </block> </value> </block> <block type='lists_setIndex'> <value name='LIST'> <block type='variables_get'> <field name='VAR'>{listVariable}</field> </block> </value> </block> <block type='lists_getSublist'> <value name='LIST'> <block type='variables_get'> <field name='VAR'>{listVariable}</field> </block> </value> </block> <block type='lists_split'> <value name='DELIM'> <shadow type='text'> <field name='TEXT'>,</field> </shadow> </value> </block> <block type='lists_sort'></block> </category> \");\n \n }", "function ISSUE_MODIFIER_WITH_LIST$static_(){IssuesPanelBase.ISSUE_MODIFIER_WITH_LIST=( IssuesPanelBase.ISSUE_BLOCK.createModifier(\"with-list\"));}", "function ListNode(val) {\r\n this.val = val;\r\n this.next = null;\r\n}", "function ListNode(val) {\r\n this.val = val;\r\n this.next = null;\r\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n }", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === _kinds.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n }", "SET_EMPTY_LIST_STRUCTURE (state, o) { state.emptyList = o }", "function describeConst(val) {\n return {\n writable: false,\n enumerable: false,\n configurable: false,\n value: val\n };\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}", "function ListNode(val) {\n this.val = val;\n this.next = null;\n}" ]
[ "0.68530875", "0.67082024", "0.6670494", "0.663753", "0.663753", "0.663753", "0.663753", "0.663753", "0.661275", "0.661275", "0.65464705", "0.6488943", "0.6437807", "0.64054286", "0.64054286", "0.6404618", "0.6157263", "0.5797986", "0.5725365", "0.5670116", "0.5670116", "0.5635014", "0.5629229", "0.551781", "0.5427006", "0.540309", "0.5323965", "0.53198385", "0.52427673", "0.5237182", "0.5233192", "0.5227505", "0.5225575", "0.5175764", "0.5171853", "0.5171853", "0.5171853", "0.51642185", "0.51576996", "0.51478887", "0.5140807", "0.5139752", "0.51321346", "0.509924", "0.5082445", "0.50629383", "0.50629383", "0.5056575", "0.5051171", "0.50307506", "0.50174874", "0.5006437", "0.49735284", "0.4973363", "0.4964082", "0.49608868", "0.49608868", "0.49608868", "0.4942833", "0.49421152", "0.49375504", "0.49254385", "0.4915532", "0.49103644", "0.49103644", "0.49103644", "0.49103644", "0.49103644", "0.49103644", "0.4909992", "0.49061754", "0.48911092", "0.48907444", "0.48885834", "0.48853678", "0.4880344", "0.48781887", "0.4872233", "0.48712382", "0.48712382", "0.4864201", "0.4864201", "0.48598012", "0.4858918", "0.48580945", "0.48564857", "0.48547465", "0.4837924", "0.4837924", "0.4837924", "0.4837924", "0.4837924", "0.4837924", "0.4837924", "0.4837924" ]
0.66044474
15
ObjectField[Const] : Name : Value[?Const]
function parseObjectField(lexer, isConst) { var start = lexer.token; return { kind: _kinds.OBJECT_FIELD, name: parseName(lexer), value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)), loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseObjectField(lexer$$1, isConst) {\n var start = lexer$$1.token;\n return {\n kind: kinds.OBJECT_FIELD,\n name: parseName(lexer$$1),\n value: (expect(lexer$$1, lexer.TokenKind.COLON), parseValueLiteral(lexer$$1, isConst)),\n loc: loc(lexer$$1, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n var name = parseName(lexer);\n expectToken(lexer, TokenKind.COLON);\n return {\n kind: Kind.OBJECT_FIELD,\n name: name,\n value: parseValueLiteral(lexer, isConst),\n loc: loc(lexer, start)\n };\n}", "parseObjectField(isConst) {\n const start = this._lexer.token;\n const name = this.parseName();\n this.expectToken(TokenKind.COLON);\n return this.node(start, {\n kind: Kind.OBJECT_FIELD,\n name,\n value: this.parseValueLiteral(isConst),\n });\n }", "function parseObjectField(lexer, isConst) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.OBJECT_FIELD,\n\t name: parseName(lexer),\n\t value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseObjectField(lexer, isConst) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.OBJECT_FIELD,\n\t name: parseName(lexer),\n\t value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(parser, isConst) {\n\t var start = parser.token.start;\n\t return {\n\t kind: _kinds.OBJECT_FIELD,\n\t name: parseName(parser),\n\t value: (expect(parser, _lexer.TokenKind.COLON), parseValueLiteral(parser, isConst)),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n var name = parseName(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_FIELD,\n name: name,\n value: parseValueLiteral(lexer, isConst),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_FIELD,\n name: parseName(lexer),\n value: (expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON), parseValueLiteral(lexer, isConst)),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(parser, isConst) {\n var start = parser.token.start;\n return {\n kind: _kinds.OBJECT_FIELD,\n name: parseName(parser),\n value: (expect(parser, _lexer.TokenKind.COLON), parseValueLiteral(parser, isConst)),\n loc: loc(parser, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_FIELD,\n name: name,\n value: parseValueLiteral(lexer, isConst),\n loc: loc(lexer, start)\n };\n}", "function parseObjectField(lexer, isConst) {\n var start = lexer.token;\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_FIELD,\n name: name,\n value: parseValueLiteral(lexer, isConst),\n loc: loc(lexer, start)\n };\n}", "function Field(val){\n this.value = val;\n}", "function Field(value){\n this.value = value;\n}", "function Field(value) {\n this.value = value;\n}", "function Field(value) {\n this.value = value;\n}", "function Field(value){\n this.value = value;\n }", "function constObjects() {\n const name = {\n person: \"reefath\"\n }\n \n name.person = \"tesla\"\n \n return name.person;\n}", "function Field(value) {\n\tthis.value = value;\n}", "function calcMetaDataField_constant(data,params,field)\n{\n var retval = null;\n\n // if there is no target field => null\n // if there is a target field that was not processed as an array => target.field\n // if there is a target field as array, length 0 => null\n // if there is a target field as array, length 1 => target.field[0]\n // if there is a target field as array, length >1 => target.field\n\n if(field.hasOwnProperty('target')) {\n\tif (Array.isArray(field.target)) {\n\t if(field.target.length == 1) {\n\t\tretval = field.target[0];\n\t } else if(field.target.length > 1) {\n\t\tretval = field.target;\n\t }\n\t} else {\n\t retval = field.target;\n\t}\n }\n\n return(retval);\n}", "get objectReferenceValue() {}", "function getObjectField(obj, field) {\n let value = obj;\n for (const name of field) {\n if (value === undefined) {\n return value;\n }\n value = value[name];\n }\n return value;\n}", "valueOfField() {\n return Rule.valueOfField(...arguments);\n }", "function propertyConstant() {\n this[name] = value;\n }", "function propertyConstant() {\n this[name] = value;\n }", "function sc_jsField(o, field) {\n return o[field];\n}", "const(nameOrPrefix, rhs, _constant) {\n return this._def(scope_1.varKinds.const, nameOrPrefix, rhs, _constant);\n }", "parseMaybeConst () {\n const constToken = this.getToken();\n if(constToken.type === this.lexerClass.RK_CONST) {\n this.pos++;\n const typeString = this.parseType();\n return this.parseDeclaration(typeString, true);\n } else if(this.isVariableType(constToken)) {\n const typeString = this.parseType();\n return this.parseDeclaration(typeString);\n } else {\n throw SyntaxErrorFactory.token_missing_list(\n [this.lexer.literalNames[this.lexerClass.RK_CONST]].concat(this.getTypeArray()), constToken);\n }\n\n }", "valueOf(field, value){\n\t\tif(value === undefined){\n\t\t\treturn this.fields[field].getValue();\n\t\t}\n\t\telse{\n\t\t\tthis.fields[field].setValue(value);\n\t\t}\n\t}", "function propertyConstant() {\n this[name] = value;\n }", "function BaseConstant(value) {\n return {\n type: \"constant\",\n value: () => value\n }\n}", "function guaranteeObjectField(obj, field) {\n const res = getObjectField(obj, field);\n assert(res !== undefined);\n return res;\n}", "get valueField() {\n return this.i.jo;\n }", "function ConstV(val, len) {\n this.val = val;\n this.length = len;\n this.cached = false;\n }", "function describeConst(val) {\n return {\n writable: false,\n enumerable: false,\n configurable: false,\n value: val\n };\n}", "function identity (field, value) { return value }", "function getFieldObject(rawField)\n {\n if('object' == typeof (rawField))\n {\n if(isBlank(rawField.element)) {\n if (settings.titleFormat) {\n rawField[\"element\"] = settings.titleFormat;\n }\n else {\n rawField[\"element\"] = settings.defaultElement;\n }\n }\n return rawField;\n }\n return {name: rawField, element: settings.defaultElement};\n }", "function constantobjects() {\n const user = {\n name: \"John\"\n };\n\n console.log(user.name);\n\n // does it work? // yes\n user.name = \"Pete\";\n console.log(user.name);\n}", "function $const_set(cref, name, value) {\n var new_const = true;\n\n if (cref == null || cref === '::') cref = _Object;\n\n if (value.$$is_a_module) {\n if (value.$$name == null || value.$$name === nil) value.$$name = name;\n if (value.$$base_module == null) value.$$base_module = cref;\n }\n\n cref.$$const = (cref.$$const || Object.create(null));\n\n if (name in cref.$$const || (\"$$autoload\" in cref && name in cref.$$autoload)) {\n new_const = false;\n }\n\n cref.$$const[name] = value;\n\n // Add a short helper to navigate constants manually.\n // @example\n // Opal.$$.Regexp.$$.IGNORECASE\n cref.$$ = cref.$$const;\n\n Opal.const_cache_version++;\n\n // Expose top level constants onto the Opal object\n if (cref === _Object) Opal[name] = value;\n\n // Name new class directly onto current scope (Opal.Foo.Baz = klass)\n $prop(cref, name, value);\n\n if (new_const && cref.$const_added && !cref.$const_added.$$pristine) {\n cref.$const_added(name);\n }\n\n return value;\n }", "value(obj){\n return obj == null ? null : obj.name || obj.full_name || obj;\n }", "function requireValue(field, value) { }", "constant(name, value) {\n return this.singleton(name, () => value);\n }", "getField(listOfObj, fieldToGet) {\n const total = listOfObj.length - 1;\n const lastObj = listOfObj[total];\n const fieldValue = lastObj[fieldToGet];\n return fieldValue;\n }", "function $Object() {\n\t\treturn Field.apply(this, arguments);\n\t}", "function getObject(name, value) {\n return {\n valueOf: function() {\n print('valueOf', name);\n return value;\n }\n }\n}", "function buildObjectField(fieldName, $elements, objRef) {\n if ($elements.is(\":radio\"))\n createInnerObject(fieldName, $elements.filter(\":checked\").val(), objRef);\n else {\n var editorVal = $elements.val();\n\n if ($elements.is(\":checkbox\")) {\n if ($elements.is(\":checked\"))\n editorVal = true;\n else\n editorVal = false;\n }\n\n // Only save if value not null or empty since we don't know \n // what type the property is. We leave that empty so the \n // javascript serializer in the web service knows how to\n // serialize it.\n //// if (editorVal != -1 && editorVal != \"\")\n createInnerObject(fieldName, editorVal, objRef);\n }\n }", "function expectField(candidate, name, required, list, type, defaultValue) {\n if (defaultValue === void 0) { defaultValue = null; }\n var fieldObj = candidate.fields.filter(function (f) { return f.name === name; })[0];\n expect(fieldObj).toBeDefined();\n expect(fieldObj.isRequired).toEqual(required);\n expect(fieldObj.isList).toEqual(list);\n expect(fieldObj.type).toEqual(type);\n expect(fieldObj.defaultValue).toEqual(defaultValue);\n return fieldObj;\n}", "function setConstraint(value, fieldName, fieldData) {\n var claz = fieldData.classification;\n\n if (claz === 'json-property') {\n value[claz] = fieldName;\n } else if (claz === 'element' || claz === 'attribute') {\n value[claz] = {\n name: fieldName,\n ns: fieldData.ns\n };\n if (claz === 'attribute') {\n value.element = {\n name: fieldData['parent-localname'],\n ns: fieldData['parent-namespace-uri']\n };\n }\n } else if (claz === 'field') {\n value[claz] = {\n name: fieldName,\n collation: fieldData.collation\n };\n }\n }", "function h$setField(o,n,v) {\n if(n > 0 && !o.d2) o.d2 = {};\n switch(n) {\n case 0:\n o.d1 = v;\n return;\n case 1:\n o.d2.d1 = v;\n return;\n case 2:\n o.d2.d2 = v;\n return;\n case 3:\n o.d2.d3 = v;\n return;\n case 4:\n o.d2.d4 = v;\n return;\n case 5:\n o.d2.d5 = v;\n return;\n case 6:\n o.d2.d6 = v;\n return;\n case 7:\n o.d2.d7 = v;\n return;\n case 8:\n o.d2.d8 = v;\n return;\n case 9:\n o.d2.d9 = v;\n return;\n case 10:\n o.d2.d10 = v;\n return;\n case 11:\n o.d2.d11 = v;\n return;\n case 12:\n o.d2.d12 = v;\n return;\n case 13:\n o.d2.d13 = v;\n return;\n case 14:\n o.d2.d14 = v;\n return;\n case 15:\n o.d2.d15 = v;\n return;\n case 16:\n o.d2.d16 = v;\n return;\n case 17:\n o.d2.d17 = v;\n return;\n case 18:\n o.d2.d18 = v;\n return;\n case 19:\n o.d2.d19 = v;\n return;\n case 20:\n o.d2.d20 = v;\n return;\n case 21:\n o.d2.d21 = v;\n return;\n case 22:\n o.d2.d22 = v;\n return;\n case 23:\n o.d2.d23 = v;\n return;\n case 24:\n o.d2.d24 = v;\n return;\n case 25:\n o.d2.d25 = v;\n return;\n case 26:\n o.d2.d26 = v;\n return;\n case 27:\n o.d2.d27 = v;\n return;\n case 28:\n o.d2.d28 = v;\n return;\n case 29:\n o.d2.d29 = v;\n return;\n case 30:\n o.d2.d30 = v;\n return;\n case 31:\n o.d2.d31 = v;\n return;\n case 32:\n o.d2.d32 = v;\n return;\n case 33:\n o.d2.d33 = v;\n return;\n case 34:\n o.d2.d34 = v;\n return;\n case 35:\n o.d2.d35 = v;\n return;\n case 36:\n o.d2.d36 = v;\n return;\n case 37:\n o.d2.d37 = v;\n return;\n case 38:\n o.d2.d38 = v;\n return;\n case 39:\n o.d2.d39 = v;\n return;\n case 40:\n o.d2.d40 = v;\n return;\n case 41:\n o.d2.d41 = v;\n return;\n case 42:\n o.d2.d42 = v;\n return;\n case 43:\n o.d2.d43 = v;\n return;\n case 44:\n o.d2.d44 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 46:\n o.d2.d46 = v;\n return;\n case 47:\n o.d2.d47 = v;\n return;\n case 48:\n o.d2.d48 = v;\n return;\n case 49:\n o.d2.d49 = v;\n return;\n case 50:\n o.d2.d50 = v;\n return;\n case 51:\n o.d2.d51 = v;\n return;\n case 52:\n o.d2.d52 = v;\n return;\n case 53:\n o.d2.d53 = v;\n return;\n case 54:\n o.d2.d54 = v;\n return;\n case 55:\n o.d2.d55 = v;\n return;\n case 56:\n o.d2.d56 = v;\n return;\n case 57:\n o.d2.d57 = v;\n return;\n case 58:\n o.d2.d58 = v;\n return;\n case 59:\n o.d2.d59 = v;\n return;\n case 60:\n o.d2.d60 = v;\n return;\n case 61:\n o.d2.d61 = v;\n return;\n case 62:\n o.d2.d62 = v;\n return;\n case 63:\n o.d2.d63 = v;\n return;\n case 64:\n o.d2.d64 = v;\n return;\n case 65:\n o.d2.d65 = v;\n return;\n case 66:\n o.d2.d66 = v;\n return;\n case 67:\n o.d2.d67 = v;\n return;\n case 68:\n o.d2.d68 = v;\n return;\n case 69:\n o.d2.d69 = v;\n return;\n case 70:\n o.d2.d70 = v;\n return;\n case 71:\n o.d2.d71 = v;\n return;\n case 72:\n o.d2.d72 = v;\n return;\n case 73:\n o.d2.d73 = v;\n return;\n case 74:\n o.d2.d74 = v;\n return;\n case 75:\n o.d2.d75 = v;\n return;\n case 76:\n o.d2.d76 = v;\n return;\n case 77:\n o.d2.d77 = v;\n return;\n case 78:\n o.d2.d78 = v;\n return;\n case 79:\n o.d2.d79 = v;\n return;\n case 80:\n o.d2.d80 = v;\n return;\n case 81:\n o.d2.d81 = v;\n return;\n case 82:\n o.d2.d82 = v;\n return;\n case 83:\n o.d2.d83 = v;\n return;\n case 84:\n o.d2.d84 = v;\n return;\n case 85:\n o.d2.d85 = v;\n return;\n case 86:\n o.d2.d86 = v;\n return;\n case 87:\n o.d2.d87 = v;\n return;\n case 88:\n o.d2.d88 = v;\n return;\n case 89:\n o.d2.d89 = v;\n return;\n case 90:\n o.d2.d90 = v;\n return;\n case 91:\n o.d2.d91 = v;\n return;\n case 92:\n o.d2.d92 = v;\n return;\n case 93:\n o.d2.d93 = v;\n return;\n case 94:\n o.d2.d94 = v;\n return;\n case 95:\n o.d2.d95 = v;\n return;\n case 96:\n o.d2.d96 = v;\n return;\n case 97:\n o.d2.d97 = v;\n return;\n case 98:\n o.d2.d98 = v;\n return;\n case 99:\n o.d2.d99 = v;\n return;\n case 100:\n o.d2.d100 = v;\n return;\n default:\n throw (\"h$setField: setter not implemented for field: \" + n);\n }\n}", "function h$setField(o,n,v) {\n if(n > 0 && !o.d2) o.d2 = {};\n switch(n) {\n case 0:\n o.d1 = v;\n return;\n case 1:\n o.d2.d1 = v;\n return;\n case 2:\n o.d2.d2 = v;\n return;\n case 3:\n o.d2.d3 = v;\n return;\n case 4:\n o.d2.d4 = v;\n return;\n case 5:\n o.d2.d5 = v;\n return;\n case 6:\n o.d2.d6 = v;\n return;\n case 7:\n o.d2.d7 = v;\n return;\n case 8:\n o.d2.d8 = v;\n return;\n case 9:\n o.d2.d9 = v;\n return;\n case 10:\n o.d2.d10 = v;\n return;\n case 11:\n o.d2.d11 = v;\n return;\n case 12:\n o.d2.d12 = v;\n return;\n case 13:\n o.d2.d13 = v;\n return;\n case 14:\n o.d2.d14 = v;\n return;\n case 15:\n o.d2.d15 = v;\n return;\n case 16:\n o.d2.d16 = v;\n return;\n case 17:\n o.d2.d17 = v;\n return;\n case 18:\n o.d2.d18 = v;\n return;\n case 19:\n o.d2.d19 = v;\n return;\n case 20:\n o.d2.d20 = v;\n return;\n case 21:\n o.d2.d21 = v;\n return;\n case 22:\n o.d2.d22 = v;\n return;\n case 23:\n o.d2.d23 = v;\n return;\n case 24:\n o.d2.d24 = v;\n return;\n case 25:\n o.d2.d25 = v;\n return;\n case 26:\n o.d2.d26 = v;\n return;\n case 27:\n o.d2.d27 = v;\n return;\n case 28:\n o.d2.d28 = v;\n return;\n case 29:\n o.d2.d29 = v;\n return;\n case 30:\n o.d2.d30 = v;\n return;\n case 31:\n o.d2.d31 = v;\n return;\n case 32:\n o.d2.d32 = v;\n return;\n case 33:\n o.d2.d33 = v;\n return;\n case 34:\n o.d2.d34 = v;\n return;\n case 35:\n o.d2.d35 = v;\n return;\n case 36:\n o.d2.d36 = v;\n return;\n case 37:\n o.d2.d37 = v;\n return;\n case 38:\n o.d2.d38 = v;\n return;\n case 39:\n o.d2.d39 = v;\n return;\n case 40:\n o.d2.d40 = v;\n return;\n case 41:\n o.d2.d41 = v;\n return;\n case 42:\n o.d2.d42 = v;\n return;\n case 43:\n o.d2.d43 = v;\n return;\n case 44:\n o.d2.d44 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 46:\n o.d2.d46 = v;\n return;\n case 47:\n o.d2.d47 = v;\n return;\n case 48:\n o.d2.d48 = v;\n return;\n case 49:\n o.d2.d49 = v;\n return;\n case 50:\n o.d2.d50 = v;\n return;\n case 51:\n o.d2.d51 = v;\n return;\n case 52:\n o.d2.d52 = v;\n return;\n case 53:\n o.d2.d53 = v;\n return;\n case 54:\n o.d2.d54 = v;\n return;\n case 55:\n o.d2.d55 = v;\n return;\n case 56:\n o.d2.d56 = v;\n return;\n case 57:\n o.d2.d57 = v;\n return;\n case 58:\n o.d2.d58 = v;\n return;\n case 59:\n o.d2.d59 = v;\n return;\n case 60:\n o.d2.d60 = v;\n return;\n case 61:\n o.d2.d61 = v;\n return;\n case 62:\n o.d2.d62 = v;\n return;\n case 63:\n o.d2.d63 = v;\n return;\n case 64:\n o.d2.d64 = v;\n return;\n case 65:\n o.d2.d65 = v;\n return;\n case 66:\n o.d2.d66 = v;\n return;\n case 67:\n o.d2.d67 = v;\n return;\n case 68:\n o.d2.d68 = v;\n return;\n case 69:\n o.d2.d69 = v;\n return;\n case 70:\n o.d2.d70 = v;\n return;\n case 71:\n o.d2.d71 = v;\n return;\n case 72:\n o.d2.d72 = v;\n return;\n case 73:\n o.d2.d73 = v;\n return;\n case 74:\n o.d2.d74 = v;\n return;\n case 75:\n o.d2.d75 = v;\n return;\n case 76:\n o.d2.d76 = v;\n return;\n case 77:\n o.d2.d77 = v;\n return;\n case 78:\n o.d2.d78 = v;\n return;\n case 79:\n o.d2.d79 = v;\n return;\n case 80:\n o.d2.d80 = v;\n return;\n case 81:\n o.d2.d81 = v;\n return;\n case 82:\n o.d2.d82 = v;\n return;\n case 83:\n o.d2.d83 = v;\n return;\n case 84:\n o.d2.d84 = v;\n return;\n case 85:\n o.d2.d85 = v;\n return;\n case 86:\n o.d2.d86 = v;\n return;\n case 87:\n o.d2.d87 = v;\n return;\n case 88:\n o.d2.d88 = v;\n return;\n case 89:\n o.d2.d89 = v;\n return;\n case 90:\n o.d2.d90 = v;\n return;\n case 91:\n o.d2.d91 = v;\n return;\n case 92:\n o.d2.d92 = v;\n return;\n case 93:\n o.d2.d93 = v;\n return;\n case 94:\n o.d2.d94 = v;\n return;\n case 95:\n o.d2.d95 = v;\n return;\n case 96:\n o.d2.d96 = v;\n return;\n case 97:\n o.d2.d97 = v;\n return;\n case 98:\n o.d2.d98 = v;\n return;\n case 99:\n o.d2.d99 = v;\n return;\n case 100:\n o.d2.d100 = v;\n return;\n case 101:\n o.d2.d101 = v;\n return;\n case 102:\n o.d2.d102 = v;\n return;\n case 103:\n o.d2.d103 = v;\n return;\n case 104:\n o.d2.d104 = v;\n return;\n case 105:\n o.d2.d105 = v;\n return;\n case 106:\n o.d2.d106 = v;\n return;\n case 107:\n o.d2.d107 = v;\n return;\n default:\n throw (\"h$setField: setter not implemented for field: \" + n);\n }\n}", "function h$setField(o,n,v) {\n if(n > 0 && !o.d2) o.d2 = {};\n switch(n) {\n case 0:\n o.d1 = v;\n return;\n case 1:\n o.d2.d1 = v;\n return;\n case 2:\n o.d2.d2 = v;\n return;\n case 3:\n o.d2.d3 = v;\n return;\n case 4:\n o.d2.d4 = v;\n return;\n case 5:\n o.d2.d5 = v;\n return;\n case 6:\n o.d2.d6 = v;\n return;\n case 7:\n o.d2.d7 = v;\n return;\n case 8:\n o.d2.d8 = v;\n return;\n case 9:\n o.d2.d9 = v;\n return;\n case 10:\n o.d2.d10 = v;\n return;\n case 11:\n o.d2.d11 = v;\n return;\n case 12:\n o.d2.d12 = v;\n return;\n case 13:\n o.d2.d13 = v;\n return;\n case 14:\n o.d2.d14 = v;\n return;\n case 15:\n o.d2.d15 = v;\n return;\n case 16:\n o.d2.d16 = v;\n return;\n case 17:\n o.d2.d17 = v;\n return;\n case 18:\n o.d2.d18 = v;\n return;\n case 19:\n o.d2.d19 = v;\n return;\n case 20:\n o.d2.d20 = v;\n return;\n case 21:\n o.d2.d21 = v;\n return;\n case 22:\n o.d2.d22 = v;\n return;\n case 23:\n o.d2.d23 = v;\n return;\n case 24:\n o.d2.d24 = v;\n return;\n case 25:\n o.d2.d25 = v;\n return;\n case 26:\n o.d2.d26 = v;\n return;\n case 27:\n o.d2.d27 = v;\n return;\n case 28:\n o.d2.d28 = v;\n return;\n case 29:\n o.d2.d29 = v;\n return;\n case 30:\n o.d2.d30 = v;\n return;\n case 31:\n o.d2.d31 = v;\n return;\n case 32:\n o.d2.d32 = v;\n return;\n case 33:\n o.d2.d33 = v;\n return;\n case 34:\n o.d2.d34 = v;\n return;\n case 35:\n o.d2.d35 = v;\n return;\n case 36:\n o.d2.d36 = v;\n return;\n case 37:\n o.d2.d37 = v;\n return;\n case 38:\n o.d2.d38 = v;\n return;\n case 39:\n o.d2.d39 = v;\n return;\n case 40:\n o.d2.d40 = v;\n return;\n case 41:\n o.d2.d41 = v;\n return;\n case 42:\n o.d2.d42 = v;\n return;\n case 43:\n o.d2.d43 = v;\n return;\n case 44:\n o.d2.d44 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 46:\n o.d2.d46 = v;\n return;\n case 47:\n o.d2.d47 = v;\n return;\n case 48:\n o.d2.d48 = v;\n return;\n case 49:\n o.d2.d49 = v;\n return;\n case 50:\n o.d2.d50 = v;\n return;\n case 51:\n o.d2.d51 = v;\n return;\n case 52:\n o.d2.d52 = v;\n return;\n case 53:\n o.d2.d53 = v;\n return;\n case 54:\n o.d2.d54 = v;\n return;\n case 55:\n o.d2.d55 = v;\n return;\n case 56:\n o.d2.d56 = v;\n return;\n case 57:\n o.d2.d57 = v;\n return;\n case 58:\n o.d2.d58 = v;\n return;\n case 59:\n o.d2.d59 = v;\n return;\n case 60:\n o.d2.d60 = v;\n return;\n case 61:\n o.d2.d61 = v;\n return;\n case 62:\n o.d2.d62 = v;\n return;\n case 63:\n o.d2.d63 = v;\n return;\n case 64:\n o.d2.d64 = v;\n return;\n case 65:\n o.d2.d65 = v;\n return;\n case 66:\n o.d2.d66 = v;\n return;\n case 67:\n o.d2.d67 = v;\n return;\n case 68:\n o.d2.d68 = v;\n return;\n case 69:\n o.d2.d69 = v;\n return;\n case 70:\n o.d2.d70 = v;\n return;\n case 71:\n o.d2.d71 = v;\n return;\n case 72:\n o.d2.d72 = v;\n return;\n case 73:\n o.d2.d73 = v;\n return;\n case 74:\n o.d2.d74 = v;\n return;\n case 75:\n o.d2.d75 = v;\n return;\n case 76:\n o.d2.d76 = v;\n return;\n case 77:\n o.d2.d77 = v;\n return;\n case 78:\n o.d2.d78 = v;\n return;\n case 79:\n o.d2.d79 = v;\n return;\n case 80:\n o.d2.d80 = v;\n return;\n case 81:\n o.d2.d81 = v;\n return;\n case 82:\n o.d2.d82 = v;\n return;\n case 83:\n o.d2.d83 = v;\n return;\n case 84:\n o.d2.d84 = v;\n return;\n case 85:\n o.d2.d85 = v;\n return;\n case 86:\n o.d2.d86 = v;\n return;\n case 87:\n o.d2.d87 = v;\n return;\n case 88:\n o.d2.d88 = v;\n return;\n case 89:\n o.d2.d89 = v;\n return;\n case 90:\n o.d2.d90 = v;\n return;\n case 91:\n o.d2.d91 = v;\n return;\n case 92:\n o.d2.d92 = v;\n return;\n case 93:\n o.d2.d93 = v;\n return;\n case 94:\n o.d2.d94 = v;\n return;\n case 95:\n o.d2.d95 = v;\n return;\n case 96:\n o.d2.d96 = v;\n return;\n case 97:\n o.d2.d97 = v;\n return;\n case 98:\n o.d2.d98 = v;\n return;\n case 99:\n o.d2.d99 = v;\n return;\n case 100:\n o.d2.d100 = v;\n return;\n default:\n throw (\"h$setField: setter not implemented for field: \" + n);\n }\n}", "function h$setField(o,n,v) {\n if(n > 0 && !o.d2) o.d2 = {};\n switch(n) {\n case 0:\n o.d1 = v;\n return;\n case 1:\n o.d2.d1 = v;\n return;\n case 2:\n o.d2.d2 = v;\n return;\n case 3:\n o.d2.d3 = v;\n return;\n case 4:\n o.d2.d4 = v;\n return;\n case 5:\n o.d2.d5 = v;\n return;\n case 6:\n o.d2.d6 = v;\n return;\n case 7:\n o.d2.d7 = v;\n return;\n case 8:\n o.d2.d8 = v;\n return;\n case 9:\n o.d2.d9 = v;\n return;\n case 10:\n o.d2.d10 = v;\n return;\n case 11:\n o.d2.d11 = v;\n return;\n case 12:\n o.d2.d12 = v;\n return;\n case 13:\n o.d2.d13 = v;\n return;\n case 14:\n o.d2.d14 = v;\n return;\n case 15:\n o.d2.d15 = v;\n return;\n case 16:\n o.d2.d16 = v;\n return;\n case 17:\n o.d2.d17 = v;\n return;\n case 18:\n o.d2.d18 = v;\n return;\n case 19:\n o.d2.d19 = v;\n return;\n case 20:\n o.d2.d20 = v;\n return;\n case 21:\n o.d2.d21 = v;\n return;\n case 22:\n o.d2.d22 = v;\n return;\n case 23:\n o.d2.d23 = v;\n return;\n case 24:\n o.d2.d24 = v;\n return;\n case 25:\n o.d2.d25 = v;\n return;\n case 26:\n o.d2.d26 = v;\n return;\n case 27:\n o.d2.d27 = v;\n return;\n case 28:\n o.d2.d28 = v;\n return;\n case 29:\n o.d2.d29 = v;\n return;\n case 30:\n o.d2.d30 = v;\n return;\n case 31:\n o.d2.d31 = v;\n return;\n case 32:\n o.d2.d32 = v;\n return;\n case 33:\n o.d2.d33 = v;\n return;\n case 34:\n o.d2.d34 = v;\n return;\n case 35:\n o.d2.d35 = v;\n return;\n case 36:\n o.d2.d36 = v;\n return;\n case 37:\n o.d2.d37 = v;\n return;\n case 38:\n o.d2.d38 = v;\n return;\n case 39:\n o.d2.d39 = v;\n return;\n case 40:\n o.d2.d40 = v;\n return;\n case 41:\n o.d2.d41 = v;\n return;\n case 42:\n o.d2.d42 = v;\n return;\n case 43:\n o.d2.d43 = v;\n return;\n case 44:\n o.d2.d44 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 45:\n o.d2.d45 = v;\n return;\n case 46:\n o.d2.d46 = v;\n return;\n case 47:\n o.d2.d47 = v;\n return;\n case 48:\n o.d2.d48 = v;\n return;\n case 49:\n o.d2.d49 = v;\n return;\n case 50:\n o.d2.d50 = v;\n return;\n case 51:\n o.d2.d51 = v;\n return;\n case 52:\n o.d2.d52 = v;\n return;\n case 53:\n o.d2.d53 = v;\n return;\n case 54:\n o.d2.d54 = v;\n return;\n case 55:\n o.d2.d55 = v;\n return;\n case 56:\n o.d2.d56 = v;\n return;\n case 57:\n o.d2.d57 = v;\n return;\n case 58:\n o.d2.d58 = v;\n return;\n case 59:\n o.d2.d59 = v;\n return;\n case 60:\n o.d2.d60 = v;\n return;\n case 61:\n o.d2.d61 = v;\n return;\n case 62:\n o.d2.d62 = v;\n return;\n case 63:\n o.d2.d63 = v;\n return;\n case 64:\n o.d2.d64 = v;\n return;\n case 65:\n o.d2.d65 = v;\n return;\n case 66:\n o.d2.d66 = v;\n return;\n case 67:\n o.d2.d67 = v;\n return;\n case 68:\n o.d2.d68 = v;\n return;\n case 69:\n o.d2.d69 = v;\n return;\n case 70:\n o.d2.d70 = v;\n return;\n case 71:\n o.d2.d71 = v;\n return;\n case 72:\n o.d2.d72 = v;\n return;\n case 73:\n o.d2.d73 = v;\n return;\n case 74:\n o.d2.d74 = v;\n return;\n case 75:\n o.d2.d75 = v;\n return;\n case 76:\n o.d2.d76 = v;\n return;\n case 77:\n o.d2.d77 = v;\n return;\n case 78:\n o.d2.d78 = v;\n return;\n case 79:\n o.d2.d79 = v;\n return;\n case 80:\n o.d2.d80 = v;\n return;\n case 81:\n o.d2.d81 = v;\n return;\n case 82:\n o.d2.d82 = v;\n return;\n case 83:\n o.d2.d83 = v;\n return;\n case 84:\n o.d2.d84 = v;\n return;\n case 85:\n o.d2.d85 = v;\n return;\n case 86:\n o.d2.d86 = v;\n return;\n case 87:\n o.d2.d87 = v;\n return;\n case 88:\n o.d2.d88 = v;\n return;\n case 89:\n o.d2.d89 = v;\n return;\n case 90:\n o.d2.d90 = v;\n return;\n case 91:\n o.d2.d91 = v;\n return;\n case 92:\n o.d2.d92 = v;\n return;\n case 93:\n o.d2.d93 = v;\n return;\n case 94:\n o.d2.d94 = v;\n return;\n case 95:\n o.d2.d95 = v;\n return;\n case 96:\n o.d2.d96 = v;\n return;\n case 97:\n o.d2.d97 = v;\n return;\n case 98:\n o.d2.d98 = v;\n return;\n case 99:\n o.d2.d99 = v;\n return;\n case 100:\n o.d2.d100 = v;\n return;\n case 101:\n o.d2.d101 = v;\n return;\n case 102:\n o.d2.d102 = v;\n return;\n case 103:\n o.d2.d103 = v;\n return;\n case 104:\n o.d2.d104 = v;\n return;\n case 105:\n o.d2.d105 = v;\n return;\n case 106:\n o.d2.d106 = v;\n return;\n case 107:\n o.d2.d107 = v;\n return;\n default:\n throw (\"h$setField: setter not implemented for field: \" + n);\n }\n}", "get E() { return get_const(0); }", "Literal(value, options = {}) {\r\n return { ...options, kind: exports.LiteralKind, const: value, type: typeof value };\r\n }", "define(name, value) {\n this.record[name] = value;\n return value;\n }", "_createField (name) {\n return new Field(this, name);\n }", "function AbstractMethodField(cls, constantPool, slot, byteStream) {\n this.cls = cls;\n this.slot = slot;\n this.accessFlags = new util.Flags(byteStream.getUint16());\n this.name = constantPool.get(byteStream.getUint16()).value;\n this.rawDescriptor = constantPool.get(byteStream.getUint16()).value;\n this.attrs = attributes.makeAttributes(byteStream, constantPool);\n }", "function getFieldValue(object, fieldName) {\n\t var d = Def.fromValue(object);\n\t if (d) {\n\t var field = d.allFields[fieldName];\n\t if (field) {\n\t return field.getValue(object);\n\t }\n\t }\n\n\t return object[fieldName];\n\t}", "function getFieldValue(object, fieldName) {\n\t var d = Def.fromValue(object);\n\t if (d) {\n\t var field = d.allFields[fieldName];\n\t if (field) {\n\t return field.getValue(object);\n\t }\n\t }\n\n\t return object[fieldName];\n\t}", "set objectReferenceValue(value) {}", "function constant(name) {\n\t\treturn getProperty(CONST, name);\n\t}", "function Obj(){ return Literal.apply(this,arguments) }", "isCompoundField() {\n\t\tif (this.role && this.type) {\n\t\t\tconst isObject = this.type === Type.OBJECT || this.baseType() === Type.OBJECT;\n\t\t\treturn isObject && this.role === ParamRole.COLUMN;\n\t\t}\n\t\treturn false;\n\t}", "function simpleKeyvalFields (op, localParams, fieldConverters, allowDefault) {\n var obj = {};\n _.forEach(op.fields, function (field) {\n var transformed = transformField(field, fieldConverters, allowDefault, op.$index);\n\n //if transformField returns null, field was undefined and optional, so skip it\n if (_.isNull(transformed)) {\n return;\n }\n\n if (_.isObject(localParams) && !_.isEmpty(localParams)) {\n transformed = utils.interpolateObject(transformed, localParams);\n }\n obj[field.name] = transformed;\n });\n return obj;\n}", "static addFieldCo(paylod) {\n return {\n type: FieldAction.ADDFIELD,\n payload\n }\n }", "beforeInit() {\n const { ele } = this.props;\n this._value = [];\n if (!ele.fieldClass) {\n FieldUtiles.prepareFieldsRec(ele);\n }\n this.ele = ele.fieldClass\n ? ele\n : FieldUtiles.getFieldData({ ele }, ObjectField);\n }", "_validateFieldCreation(name, value, schemaField) {\n\n\n if (!schemaField) schemaField = this._schema.fields[name];\n\n if (!schemaField || typeof schemaField !== \"object\")\n throw Error(\"Schema was not found\");\n\n //validate its type\n if (!schemaField.type || !defaultValuesExist[schemaField.type])\n throw Error(\"Type is invalid\");\n }", "constructor(field, condition, value) {\n this.field = field;\n this.condition = condition;\n this.value = value;\n }", "isConstant() {\n if (this.type == \"name\" && this.value == \"x\") {\n return false\n }\n if (this.left != undefined && !this.left.isConstant()) {\n return false\n }\n if (this.right != undefined && !this.right.isConstant()) {\n return false\n }\n return true\n }", "_getFieldsFromValue() {\n const that = this,\n items = that._valueFlat,\n fieldsNames = [],\n fields = [];\n\n for (let i = 0; i < items.length; i++) {\n if (items[i].type === 'condition') {\n const fieldName = items[i].data[0];\n\n if (fieldsNames.indexOf(fieldName) === -1) {\n const fieldElement = { label: fieldName, dataField: fieldName, dataType: 'string', format: null };\n\n fieldsNames.push(fieldName);\n fields.push(fieldElement);\n }\n }\n }\n\n that._valueFields = fields;\n }", "handleFieldChange(name,value) {\n\n var field = {\n name : name,\n source : this.props.source,\n value : value ? this.props.defaultValue : null\n };\n\n //process field always with this format\n this.props.onFieldChange(field);\n }", "parseFieldDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n const args = this.parseArgumentDefs();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.FIELD_DEFINITION,\n description,\n name,\n arguments: args,\n type,\n directives,\n });\n }", "function getFieldValue(object, fieldName) {\n var d = Def.fromValue(object);\n if (d) {\n var field = d.allFields[fieldName];\n if (field) {\n return field.getValue(object);\n }\n }\n\n return object && object[fieldName];\n }", "parseField() {\n const start = this._lexer.token;\n const nameOrAlias = this.parseName();\n let alias;\n let name;\n\n if (this.expectOptionalToken(TokenKind.COLON)) {\n alias = nameOrAlias;\n name = this.parseName();\n } else {\n name = nameOrAlias;\n }\n\n return this.node(start, {\n kind: Kind.FIELD,\n alias,\n name,\n arguments: this.parseArguments(false),\n directives: this.parseDirectives(false),\n selectionSet: this.peek(TokenKind.BRACE_L)\n ? this.parseSelectionSet()\n : undefined,\n });\n }", "field (field) {\n field.isString = function () {\n return typeof this.value === 'string';\n }\n }", "static initialize(obj, type, operation, value) { \n obj['type'] = type;\n obj['operation'] = operation;\n obj['value'] = value;\n }", "handleFieldChange(name,value) {\n\n var field = {\n name : name,\n source : this.props.source,\n value : value ? getDefaultValue() : null\n };\n\n //process field always with this format\n this.props.onFieldChange(field);\n }", "handleFieldChange(name,value) {\n\n var field = {\n name : name,\n source : this.props.source,\n value : value ? getDefaultValue() : null\n };\n\n //process field always with this format\n this.props.onFieldChange(field);\n }", "handleFieldChange(name,value) {\n\n var field = {\n name : name,\n source : this.props.source,\n value : value ? getDefaultValue() : null\n };\n\n //process field always with this format\n this.props.onFieldChange(field);\n }", "function parseField(lexer$$1) {\n var start = lexer$$1.token;\n\n var nameOrAlias = parseName(lexer$$1);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer$$1, lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer$$1);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: kinds.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer$$1, false),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: peek(lexer$$1, lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer$$1) : undefined,\n loc: loc(lexer$$1, start)\n };\n}", "function sc_setJsFieldBang(o, field, val) {\n return o[field] = val;\n}", "parseValueLiteral(isConst) {\n const token = this._lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return this.parseList(isConst);\n\n case TokenKind.BRACE_L:\n return this.parseObject(isConst);\n\n case TokenKind.INT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.INT,\n value: token.value,\n });\n\n case TokenKind.FLOAT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.FLOAT,\n value: token.value,\n });\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return this.parseStringLiteral();\n\n case TokenKind.NAME:\n this._lexer.advance();\n\n switch (token.value) {\n case 'true':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: true,\n });\n\n case 'false':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: false,\n });\n\n case 'null':\n return this.node(token, {\n kind: Kind.NULL,\n });\n\n default:\n return this.node(token, {\n kind: Kind.ENUM,\n value: token.value,\n });\n }\n\n case TokenKind.DOLLAR:\n if (isConst) {\n this.expectToken(TokenKind.DOLLAR);\n\n if (this._lexer.token.kind === TokenKind.NAME) {\n const varName = this._lexer.token.value;\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Unexpected variable \"$${varName}\" in constant value.`,\n );\n } else {\n throw this.unexpected(token);\n }\n }\n\n return this.parseVariable();\n }\n\n throw this.unexpected();\n }", "function getObject(field, initialObject) {\n const parts = field.split(\".\");\n let obj = initialObject;\n let i = 0;\n for (; i < parts.length - 1; i++) {\n if (!obj[parts[i]]) {\n obj[parts[i]] = {};\n }\n obj = obj[parts[i]];\n }\n return { obj, field: parts[i] };\n}", "function getFieldValue(object, fieldName) {\n\t var d = defFromValue(object);\n\t if (d) {\n\t var field = d.allFields[fieldName];\n\t if (field) {\n\t return field.getValue(object);\n\t }\n\t }\n\t return object && object[fieldName];\n\t }", "function constant(value) {\n return new Constant(value)\n}", "objectify(key,value){\n \t return {\n [key]: value\n }\n }", "function manipulationBareObj( value ) {\n\treturn value;\n}", "moveMaterialSchemaValue(fieldName, newField, oldField) {\n this.fields[fieldName].attributes[newField] = this.fields[fieldName].attributes[oldField]; // Copy the oldField value to the newField value\n this.fields[fieldName].attributes[oldField] = null; // And now remove the oldField by Nulling\n }", "function M(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? O(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : _e(\"Invalid value type: \" + JSON.stringify(t));\n}", "function object_object(rule, value, callback, source, options) {\n var errors = [];\n var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field);\n if (validate) {\n if (isEmptyValue(value) && !rule.required) {\n return callback();\n }\n es_rule.required(rule, value, source, errors, options);\n if (value !== undefined) {\n es_rule.type(rule, value, source, errors, options);\n }\n }\n callback(errors);\n}", "function object_object(rule, value, callback, source, options) {\n var errors = [];\n var validate = rule.required || !rule.required && source.hasOwnProperty(rule.field);\n if (validate) {\n if (isEmptyValue(value) && !rule.required) {\n return callback();\n }\n es_rule.required(rule, value, source, errors, options);\n if (value !== undefined) {\n es_rule.type(rule, value, source, errors, options);\n }\n }\n callback(errors);\n}" ]
[ "0.7566483", "0.74207675", "0.7412592", "0.7334251", "0.7334251", "0.7317285", "0.7317285", "0.7317285", "0.7317285", "0.7317285", "0.7045878", "0.7023354", "0.70039093", "0.6991812", "0.6977889", "0.6977889", "0.59030527", "0.5814423", "0.5783798", "0.5783798", "0.5578437", "0.5541234", "0.5476866", "0.5308951", "0.52693874", "0.52678204", "0.5262415", "0.5248508", "0.5248508", "0.5222647", "0.5126528", "0.51239514", "0.5122711", "0.5111774", "0.5063117", "0.50514996", "0.5041719", "0.5030102", "0.50054663", "0.5000311", "0.49931362", "0.49690998", "0.49479073", "0.49372002", "0.49205977", "0.49115434", "0.49105644", "0.487918", "0.4852758", "0.48492712", "0.4805045", "0.4798779", "0.4796412", "0.4796412", "0.4796412", "0.4796412", "0.47919554", "0.47786674", "0.47751197", "0.47738457", "0.47723314", "0.47515872", "0.47515872", "0.4733974", "0.4732183", "0.47237176", "0.4720637", "0.47204018", "0.47203317", "0.47061652", "0.46955284", "0.46955088", "0.4678888", "0.46761456", "0.46645176", "0.46576092", "0.46537694", "0.46310365", "0.46250042", "0.4623669", "0.4620382", "0.4620382", "0.4620382", "0.46175057", "0.46133524", "0.46115565", "0.46098885", "0.46072528", "0.45911157", "0.4576412", "0.4576131", "0.45638973", "0.456199", "0.45462313", "0.45462313" ]
0.73163164
15
Implements the parsing rules in the Directives section. Directives : Directive+
function parseDirectives(lexer) { var directives = []; while (peek(lexer, _lexer.TokenKind.AT)) { directives.push(parseDirective(lexer)); } return directives; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function directives() {\n var i, p, pn;\n \n while (state.tokens.next.id === \"(string)\") {\n p = peek(0);\n if (p.id === \"(endline)\") {\n i = 1;\n do {\n pn = peek(i++);\n } while (pn.id === \"(endline)\");\n if (pn.id === \";\") {\n p = pn;\n } else if (pn.value === \"[\" || pn.value === \".\") {\n // string -> [ | . is a valid production\n return;\n } else if (!state.option.asi || pn.value === \"(\") {\n // string -> ( is not a valid production\n warning(\"W033\", state.tokens.next);\n }\n } else if (p.id === \".\" || p.id === \"[\") {\n return;\n } else if (p.id !== \";\") {\n warning(\"W033\", p);\n }\n \n advance();\n if (state.directive[state.tokens.curr.value]) {\n warning(\"W034\", state.tokens.curr, state.tokens.curr.value);\n }\n \n if (state.tokens.curr.value === \"use strict\") {\n if (!state.option[\"(explicitNewcap)\"]) {\n state.option.newcap = true;\n }\n state.option.undef = true;\n }\n \n // there's no directive negation, so always set to true\n state.directive[state.tokens.curr.value] = true;\n \n if (p.id === \";\") {\n advance(\";\");\n }\n }\n }", "enterDirective(ctx) {\n\t}", "function parseDirectives(parser) {\n\t var directives = [];\n\t while (peek(parser, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(parser));\n\t }\n\t return directives;\n\t}", "function parseDirectives(lexer) {\n\t var directives = [];\n\t while (peek(lexer, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(lexer));\n\t }\n\t return directives;\n\t}", "parseDirectiveLocations() {\n return this.delimitedMany(TokenKind.PIPE, this.parseDirectiveLocation);\n }", "function parseDirectives(parser) {\n var directives = [];\n while (peek(parser, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(parser));\n }\n return directives;\n}", "addDirective(directive) {\n const directives = _get(this.$output, 'Alexa.Directives', []);\n directives.push(directive);\n _set(this.$output, 'Alexa.Directives', directives);\n }", "function DirectiveType(){}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function parseDirectives(lexer, isConst) {\n\t var directives = [];\n\t while (peek(lexer, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(lexer, isConst));\n\t }\n\t return directives;\n\t}", "function DirectiveType() {}", "function parseDirectives(lexer$$1, isConst) {\n var directives = [];\n while (peek(lexer$$1, lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer$$1, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function processDirective ( tokens, parentParser ) {\n\t \tvar result,\n\t \t\tmatch,\n\t \t\ttoken,\n\t \t\tcolonIndex,\n\t \t\tdirectiveName,\n\t \t\tdirectiveArgs,\n\t \t\tparsed;\n\n\t \tif ( typeof tokens === 'string' ) {\n\t \t\tif ( match = methodCallPattern.exec( tokens ) ) {\n\t \t\t\tvar end = tokens.lastIndexOf(')');\n\n\t \t\t\t// check for invalid method calls\n\t \t\t\tif ( !methodCallExcessPattern.test( tokens ) ) {\n\t \t\t\t\tparentParser.error( (\"Invalid input after method call expression '\" + (tokens.slice(end + 1)) + \"'\") );\n\t \t\t\t}\n\n\t \t\t\tresult = { m: match[1] };\n\t \t\t\tvar sliced = tokens.slice( result.m.length + 1, end );\n\n\t \t\t\t// does the method include spread of ...arguments?\n\t \t\t\tvar args = sliced.replace( spreadPattern, '' );\n\n\t \t\t\t// if so, other arguments should be appended to end of method arguments\n\t \t\t\tif ( sliced !== args ) {\n\t \t\t\t\tresult.g = true;\n\t \t\t\t}\n\n\t \t\t\tif ( args ) {\n\t \t\t\t\tvar parser = new ExpressionParser( '[' + args + ']' );\n\t \t\t\t\tresult.a = flattenExpression( parser.result[0] );\n\t \t\t\t}\n\n\t \t\t\treturn result;\n\t \t\t}\n\n\t \t\tif ( tokens.indexOf( ':' ) === -1 ) {\n\t \t\t\treturn tokens.trim();\n\t \t\t}\n\n\t \t\ttokens = [ tokens ];\n\t \t}\n\n\t \tresult = {};\n\n\t \tdirectiveName = [];\n\t \tdirectiveArgs = [];\n\n\t \tif ( tokens ) {\n\t \t\twhile ( tokens.length ) {\n\t \t\t\ttoken = tokens.shift();\n\n\t \t\t\tif ( typeof token === 'string' ) {\n\t \t\t\t\tcolonIndex = token.indexOf( ':' );\n\n\t \t\t\t\tif ( colonIndex === -1 ) {\n\t \t\t\t\t\tdirectiveName.push( token );\n\t \t\t\t\t} else {\n\t \t\t\t\t\t// is the colon the first character?\n\t \t\t\t\t\tif ( colonIndex ) {\n\t \t\t\t\t\t\t// no\n\t \t\t\t\t\t\tdirectiveName.push( token.substr( 0, colonIndex ) );\n\t \t\t\t\t\t}\n\n\t \t\t\t\t\t// if there is anything after the colon in this token, treat\n\t \t\t\t\t\t// it as the first token of the directiveArgs fragment\n\t \t\t\t\t\tif ( token.length > colonIndex + 1 ) {\n\t \t\t\t\t\t\tdirectiveArgs[0] = token.substring( colonIndex + 1 );\n\t \t\t\t\t\t}\n\n\t \t\t\t\t\tbreak;\n\t \t\t\t\t}\n\t \t\t\t}\n\n\t \t\t\telse {\n\t \t\t\t\tdirectiveName.push( token );\n\t \t\t\t}\n\t \t\t}\n\n\t \t\tdirectiveArgs = directiveArgs.concat( tokens );\n\t \t}\n\n\t \tif ( !directiveName.length ) {\n\t \t\tresult = '';\n\t \t} else if ( directiveArgs.length || typeof directiveName !== 'string' ) {\n\t \t\tresult = {\n\t \t\t\t// TODO is this really necessary? just use the array\n\t \t\t\tn: ( directiveName.length === 1 && typeof directiveName[0] === 'string' ? directiveName[0] : directiveName )\n\t \t\t};\n\n\t \t\tif ( directiveArgs.length === 1 && typeof directiveArgs[0] === 'string' ) {\n\t \t\t\tparsed = parseJSON( '[' + directiveArgs[0] + ']' );\n\t \t\t\tresult.a = parsed ? parsed.value : [ directiveArgs[0].trim() ];\n\t \t\t}\n\n\t \t\telse {\n\t \t\t\tresult.d = directiveArgs;\n\t \t\t}\n\t \t} else {\n\t \t\tresult = directiveName;\n\t \t}\n\n\t \treturn result;\n\t }", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function DirectiveType() { }", "function TLD_directive(code)\n{\n\tif (code.indexOf(\"tagAttribute\") != -1)\n\t{\n\t\ttldData += jspattrOpenPattern;\n\n\t\tvar i = code.search(/name=\"([^\"]*)\"/i);\n\t\tif (i != -1)\n\t\t{\n\t\t\ttldData += jspnameOpenPattern;\n\t\t\ttldData += RegExp.$1;\n\t\t\ttldData += jspnameClosePattern;\n\t\t}\n\n\t\tvar i = code.search(/required=\"([^\"]*)\"/i);\n\t\tif (i != -1)\n\t\t{\n\t\t\ttldData += jsprequiredOpenPattern;\n\t\t\ttldData += RegExp.$1;\n\t\t\ttldData += jsprequiredClosePattern;\n\t\t}\n\n\t\tvar i = code.search(/rtexpr=\"([^\"]*)\"/i);\n\t\tif (i != -1)\n\t\t{\n\t\t\ttldData += jsprtexprOpenPattern;\n\t\t\ttldData += RegExp.$1;\n\t\t\ttldData += jsprtexprClosePattern;\n\t\t}\n\n\t\t//if rtexpr failed try to check rtexp\n\t\tif (i==-1)\n\t\t{\n\t\t\tvar i = code.search(/rtexp=\"([^\"]*)\"/i);\n\t\t\tif (i != -1)\n\t\t\t{\n\t\t\t\ttldData += jsprtexprOpenPattern;\n\t\t\t\ttldData += RegExp.$1;\n\t\t\t\ttldData += jsprtexprClosePattern;\n\t\t\t}\n\t\t}\n\n\t\ttldData += jspattrClosePattern;\n\t}\n}", "parseDirectives(isConst) {\n const directives = [];\n\n while (this.peek(TokenKind.AT)) {\n directives.push(this.parseDirective(isConst));\n }\n\n return directives;\n }", "function instantiateAllDirectives(tView,lView,tNode){var start=tNode.directiveStart;var end=tNode.directiveEnd;if(!getFirstTemplatePass()&&start<end){getOrCreateNodeInjectorForNode(tNode,lView);}for(var i=start;i<end;i++){var def=tView.data[i];if(isComponentDef(def)){addComponentLogic(lView,tNode,def);}var directive=getNodeInjectable(tView.data,lView,i,tNode);postProcessDirective(lView,directive,def,i);}}", "function link (scope, elem, attrs) {\n\n\t}", "function link( scope, element, attributes ) {\n\n console.log( \"Main layout directive linking.\" );\n\n }", "function parseDirectiveLocations(lexer) {\n var locations = [];\n do {\n locations.push(parseName(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n var locations = [];\n do {\n locations.push(parseName(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function interpretScrapingDirective(directive, context, implicitArgument) {\n try {\n if (!depthChecker.isValidDepth(directive)) {\n throw new exceptions.RuntimeError('Depth of nesting of the instruction is too high');\n }\n\n var simplified = simplifier.simplifyScrapingDirective(directive);\n return evaluator.evalScrapingDirective(simplified, context, implicitArgument);\n } catch (e) {\n e.scrapingDirective = directive;\n e.storage = context.storage;\n e.implicitArgument = implicitArgument;\n throw e;\n }\n}", "function normalizeDirectives(options) {\n\t\t var dirs = options.directives;\n\t\t if (dirs) {\n\t\t for (var key in dirs) {\n\t\t var def = dirs[key];\n\t\t if (typeof def === 'function') {\n\t\t dirs[key] = { bind: def, update: def };\n\t\t }\n\t\t }\n\t\t }\n\t\t}", "function normalizeDirectives (options) {\n\t\tvar dirs = options.directives;\n\t\tif (dirs) {\n\t\t\tfor (var key in dirs) {\n\t\t\t\tvar def$$1 = dirs[key];\n\t\t\t\tif (typrof def$$1 === 'function') {\n\t\t\t\t\tdirs[key] = { bind: def$$1, undate: def$$1 };\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}", "function parseDirectiveLocations(lexer) {\n\t var locations = [];\n\t do {\n\t locations.push(parseName(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t return locations;\n\t}", "function postProcessBaseDirective(lView,previousOrParentTNode,directive,def){var _native15=getNativeByTNode(previousOrParentTNode,lView);ngDevMode&&assertEqual(lView[BINDING_INDEX],lView[TVIEW].bindingStartIndex,'directives should be created before any bindings');ngDevMode&&assertPreviousIsParent(getIsParent());attachPatchData(directive,lView);if(_native15){attachPatchData(_native15,lView);}// TODO(misko): setUpAttributes should be a feature for better treeshakability.\nif(def.attributes!=null&&previousOrParentTNode.type==3/* Element */){setUpAttributes(_native15,def.attributes);}}", "function compileDirectiveFromRender2(outputCtx,directive,reflector,bindingParser){var name=identifierName(directive.type);name||error(\"Cannot resolver the name of \"+directive.type);var definitionField=outputCtx.constantPool.propertyNameOf(1/* Directive */);var meta=directiveMetadataFromGlobalMetadata(directive,outputCtx,reflector);var res=compileDirectiveFromMetadata(meta,outputCtx.constantPool,bindingParser);// Create the partial class to be merged with the actual class.\noutputCtx.statements.push(new ClassStmt(name,null,[new ClassField(definitionField,INFERRED_TYPE,[StmtModifier.Static],res.expression)],[],new ClassMethod(null,[],[]),[]));}", "*next(token) {\n switch (token.type) {\n case 'directive':\n this.directives.add(token.source, (offset, message, warning) => {\n const pos = getErrorPos(token);\n pos[0] += offset;\n this.onError(pos, 'BAD_DIRECTIVE', message, warning);\n });\n this.prelude.push(token.source);\n this.atDirectives = true;\n break;\n case 'document': {\n const doc = composeDoc(this.options, this.directives, token, this.onError);\n if (this.atDirectives && !doc.directives.docStart)\n this.onError(token, 'MISSING_CHAR', 'Missing directives-end/doc-start indicator line');\n this.decorate(doc, false);\n if (this.doc)\n yield this.doc;\n this.doc = doc;\n this.atDirectives = false;\n break;\n }\n case 'byte-order-mark':\n case 'space':\n break;\n case 'comment':\n case 'newline':\n this.prelude.push(token.source);\n break;\n case 'error': {\n const msg = token.source\n ? `${token.message}: ${JSON.stringify(token.source)}`\n : token.message;\n const error = new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', msg);\n if (this.atDirectives || !this.doc)\n this.errors.push(error);\n else\n this.doc.errors.push(error);\n break;\n }\n case 'doc-end': {\n if (!this.doc) {\n const msg = 'Unexpected doc-end without preceding document';\n this.errors.push(new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', msg));\n break;\n }\n this.doc.directives.docEnd = true;\n const end = resolveEnd(token.end, token.offset + token.source.length, this.doc.options.strict, this.onError);\n this.decorate(this.doc, true);\n if (end.comment) {\n const dc = this.doc.comment;\n this.doc.comment = dc ? `${dc}\\n${end.comment}` : end.comment;\n }\n this.doc.range[2] = end.offset;\n break;\n }\n default:\n this.errors.push(new YAMLParseError(getErrorPos(token), 'UNEXPECTED_TOKEN', `Unsupported token ${token.type}`));\n }\n }", "constructor ($compile, $mdUtil) {\n this.$compile= $compile;\n this.$mdUtil = $mdUtil;\n this.restrict='A';\n\n this.require = '^cdvyLearnMore';\n\n this.scope = {\n template: '=cdvyLearnMoreTemplate',\n compileScope: '=cdvyScope'\n };\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function compileDirectiveFromMetadata(meta,constantPool,bindingParser){var _a=baseDirectiveFields(meta,constantPool,bindingParser),definitionMap=_a.definitionMap,statements=_a.statements;addFeatures(definitionMap,meta);var expression=importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);// On the type side, remove newlines from the selector as it will need to fit into a TypeScript\n// string literal, which must be on one line.\nvar selectorForType=(meta.selector||'').replace(/\\n/g,'');var type=createTypeForDef(meta,Identifiers$1.DirectiveDefWithMeta);return{expression:expression,type:type,statements:statements};}", "function NewsDirective() {\n return {\n restrict: 'E',\n replace: true,\n templateUrl: 'js/directives/news.dir.html',\n scope: {\n id: '=',\n title: '=',\n subtext: '=',\n date: '=',\n thumbnail: '=',\n url: '='\n },\n link: function(scope, element, attrs) {\n var subText = angular.element(element.find('p')[0]);\n subText.html(scope.subtext); // Find and convert trail text to html (Text comes with tags)\n }\n };\n}", "function getDirectives(target){var context=loadLContext(target);if(context.directives===undefined){context.directives=getDirectivesAtNodeIndex(context.nodeIndex,context.lView,false);}return context.directives||[];}", "function normalizeDirectives(options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = {bind: def$$1, update: def$$1};\n }\n }\n }\n }", "function normalizeDirectives(options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === \"function\") {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function isDirective(str) {\n\tvar alpha = /^[a-zA-Z-]+$/;\n\tif (str.match(alpha)) {\n\t\treturn true;\n\t}\t\n\treturn false;\n}", "function translator_translateDirective(code, offset, part, type, openTag, closeTag, attributes, display, lockAttributes)\n{\n offset += this.offsetAdj;\n\n // begin for stored procedures\n if (part == \"script\") \n {\n if (type.length == 0 && openTag.length == 0 && \n closeTag.length == 0 && attributes.length==0 && display.length == 0)\n {\n if (this.translatorClass == \"MM_ASPSCRIPT\")\n {\n var translatedTag = this.isDefaultAndRuntimeParam(code);\n if (!translatedTag.length)\n {\n translatedTag = this.isRuntimeParam(code);\n if (!translatedTag.length)\n {\n translatedTag = this.isASPInitialization(code);\n }\n }\n if (translatedTag.length)\n {\n return this.parser.translateInitializationDirective(code, offset, translatedTag);\n }\n else\n {\n this.parser.translateUnrecognizedDirective(code, offset);\n return true;\n }\n }\n if (this.translatorClass == \"MM_JSPSCRIPT\")\n {\n var translatedTag = this.isPrepared(code, offset);\n if (translatedTag.length)\n {\n return this.parser.translatePreparedDirective(code, offset, translatedTag);\n }\n else\n {\n translatedTag = this.isCallable(code, offset);\n if (translatedTag.length)\n {\n return this.parser.translateCallableDirective(code, offset, translatedTag);\n }\n else\n {\n translatedTag = this.isObjectDeallocation(code, offset);\n if (translatedTag.length)\n {\n return this.parser.translateObjectDeallocationDirective(code, offset, translatedTag);\n }\n else\n {\n translatedTag = this.isAdvancedInitialization(code, offset);\n if (!translatedTag.length)\n {\n translatedTag = this.isInitialization(code);\n }\n if (translatedTag.length)\n {\n return this.parser.translateInitializationDirective(code, offset, translatedTag);\n }\n }\n }\n }\n }\n }\n }\n // end for stored procedures\n return this.parser.translateDirective(code, offset, part, type, openTag, closeTag, attributes, display, lockAttributes);\n}", "function normalizeDirectives (options) {\n\t var dirs = options.directives\n\t if (dirs) {\n\t for (var key in dirs) {\n\t var def = dirs[key]\n\t if (typeof def === 'function') {\n\t dirs[key] = { bind: def, update: def }\n\t }\n\t }\n\t }\n\t}", "function discoverDirectives(nodeIndex, lViewData, includeComponents) {\n var tNode = lViewData[TVIEW].data[nodeIndex];\n var directiveStartIndex = getDirectiveStartIndex(tNode);\n var directiveEndIndex = getDirectiveEndIndex(tNode, directiveStartIndex);\n if (!includeComponents && tNode.flags & 4096 /* isComponent */)\n directiveStartIndex++;\n return lViewData.slice(directiveStartIndex, directiveEndIndex);\n}", "function useDirective(binding) {\n return [binding.value, binding.arg, binding.modifiers];\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n}" ]
[ "0.68262845", "0.6286808", "0.61456513", "0.61375785", "0.6046298", "0.6007161", "0.60071605", "0.59940124", "0.5908961", "0.5908961", "0.5908961", "0.5898839", "0.588673", "0.5848299", "0.57972956", "0.5790462", "0.5790462", "0.5785729", "0.57542944", "0.575228", "0.5745993", "0.5743009", "0.5743009", "0.5743009", "0.5743009", "0.5685406", "0.5649075", "0.55535877", "0.5493694", "0.54532206", "0.5449794", "0.5447128", "0.5447128", "0.5442679", "0.5431329", "0.5425963", "0.5418375", "0.5395052", "0.53920746", "0.5389936", "0.53816456", "0.537291", "0.5359781", "0.5359781", "0.5359781", "0.53512424", "0.5343379", "0.53327733", "0.5308494", "0.53010315", "0.52993846", "0.5299098", "0.5292721", "0.5292243", "0.5288428", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647", "0.52842647" ]
0.6020741
9
Implements the parsing rules in the Types section. Type : NamedType ListType NonNullType
function parseTypeReference(lexer) { var start = lexer.token; var type = void 0; if (skip(lexer, _lexer.TokenKind.BRACKET_L)) { type = parseTypeReference(lexer); expect(lexer, _lexer.TokenKind.BRACKET_R); type = { kind: _kinds.LIST_TYPE, type: type, loc: loc(lexer, start) }; } else { type = parseNamedType(lexer); } if (skip(lexer, _lexer.TokenKind.BANG)) { return { kind: _kinds.NON_NULL_TYPE, type: type, loc: loc(lexer, start) }; } return type; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseType(parser) {\n\t var start = parser.token.start;\n\t var type = undefined;\n\t if (skip(parser, _lexer.TokenKind.BRACKET_L)) {\n\t type = parseType(parser);\n\t expect(parser, _lexer.TokenKind.BRACKET_R);\n\t type = {\n\t kind: _kinds.LIST_TYPE,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t } else {\n\t type = parseNamedType(parser);\n\t }\n\t if (skip(parser, _lexer.TokenKind.BANG)) {\n\t return {\n\t kind: _kinds.NON_NULL_TYPE,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t }\n\t return type;\n\t}", "function parseType(parser) {\n var start = parser.token.start;\n var type = undefined;\n if (skip(parser, _lexer.TokenKind.BRACKET_L)) {\n type = parseType(parser);\n expect(parser, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.LIST_TYPE,\n type: type,\n loc: loc(parser, start)\n };\n } else {\n type = parseNamedType(parser);\n }\n if (skip(parser, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.NON_NULL_TYPE,\n type: type,\n loc: loc(parser, start)\n };\n }\n return type;\n}", "function parse_type() {\n tree.addNode('type', 'branch');\n if (foundTokensCopy[parseCounter][1] == 'int') {\n match('int', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'string') {\n match('string', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'boolean') {\n match('boolean', parseCounter);\n parseCounter++;\n }\n tree.endChildren();\n\n}", "function parseFieldType() {\n var key, rangeStart = previous;\n\n key = parseFieldName();\n if (token === Token.COLON) {\n consume(Token.COLON);\n return maybeAddRange({\n type: Syntax.FieldType,\n key: key,\n value: parseTypeExpression()\n }, [rangeStart, previous]);\n }\n return maybeAddRange({\n type: Syntax.FieldType,\n key: key,\n value: null\n }, [rangeStart, previous]);\n }", "parseTypeReference() {\n const start = this._lexer.token;\n let type;\n\n if (this.expectOptionalToken(TokenKind.BRACKET_L)) {\n const innerType = this.parseTypeReference();\n this.expectToken(TokenKind.BRACKET_R);\n type = this.node(start, {\n kind: Kind.LIST_TYPE,\n type: innerType,\n });\n } else {\n type = this.parseNamedType();\n }\n\n if (this.expectOptionalToken(TokenKind.BANG)) {\n return this.node(start, {\n kind: Kind.NON_NULL_TYPE,\n type,\n });\n }\n\n return type;\n }", "function ListType(){\n\tthis.astObject = ListExpression;\n\t\t\n\tthis.toString = function(){\n\t\treturn 'list'\n\t}\n}", "function getNamedTypeNode(typeNode) {\n var namedType = typeNode;\n while (namedType.kind === _kinds.LIST_TYPE || namedType.kind === _kinds.NON_NULL_TYPE) {\n namedType = namedType.type;\n }\n return namedType;\n}", "static parseType(parseTokens) {\n isASTNode = true;\n this.match([\"int\", \"string\", \"boolean\"], parseTokens[tokenPointer], false);\n }", "function parseTypeReference(lexer$$1) {\n var start = lexer$$1.token;\n var type = void 0;\n if (skip(lexer$$1, lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.BRACKET_R);\n type = {\n kind: kinds.LIST_TYPE,\n type: type,\n loc: loc(lexer$$1, start)\n };\n } else {\n type = parseNamedType(lexer$$1);\n }\n if (skip(lexer$$1, lexer.TokenKind.BANG)) {\n return {\n kind: kinds.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer$$1, start)\n };\n }\n return type;\n}", "function parseTypeReference(lexer) {\n\t var start = lexer.token;\n\t var type = void 0;\n\t if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n\t type = parseTypeReference(lexer);\n\t expect(lexer, _lexer.TokenKind.BRACKET_R);\n\t type = {\n\t kind: _kinds.LIST_TYPE,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t } else {\n\t type = parseNamedType(lexer);\n\t }\n\t if (skip(lexer, _lexer.TokenKind.BANG)) {\n\t return {\n\t kind: _kinds.NON_NULL_TYPE,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t return type;\n\t}", "function parseTypeReference(lexer) {\n\t var start = lexer.token;\n\t var type = void 0;\n\t if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n\t type = parseTypeReference(lexer);\n\t expect(lexer, _lexer.TokenKind.BRACKET_R);\n\t type = {\n\t kind: _kinds.LIST_TYPE,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t } else {\n\t type = parseNamedType(lexer);\n\t }\n\t if (skip(lexer, _lexer.TokenKind.BANG)) {\n\t return {\n\t kind: _kinds.NON_NULL_TYPE,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t return type;\n\t}", "function parseTypeExpression() {\n var expr, rangeStart;\n\n if (token === Token.QUESTION) {\n rangeStart = index - 1;\n consume(Token.QUESTION);\n if (token === Token.COMMA || token === Token.EQUAL || token === Token.RBRACE ||\n token === Token.RPAREN || token === Token.PIPE || token === Token.EOF ||\n token === Token.RBRACK || token === Token.GT) {\n return maybeAddRange({\n type: Syntax.NullableLiteral\n }, [rangeStart, previous]);\n }\n return maybeAddRange({\n type: Syntax.NullableType,\n expression: parseBasicTypeExpression(),\n prefix: true\n }, [rangeStart, previous]);\n } else if (token === Token.BANG) {\n rangeStart = index - 1;\n consume(Token.BANG);\n return maybeAddRange({\n type: Syntax.NonNullableType,\n expression: parseBasicTypeExpression(),\n prefix: true\n }, [rangeStart, previous]);\n } else {\n rangeStart = previous;\n }\n\n expr = parseBasicTypeExpression();\n if (token === Token.BANG) {\n consume(Token.BANG);\n return maybeAddRange({\n type: Syntax.NonNullableType,\n expression: expr,\n prefix: false\n }, [rangeStart, previous]);\n }\n\n if (token === Token.QUESTION) {\n consume(Token.QUESTION);\n return maybeAddRange({\n type: Syntax.NullableType,\n expression: expr,\n prefix: false\n }, [rangeStart, previous]);\n }\n\n if (token === Token.LBRACK) {\n consume(Token.LBRACK);\n expect(Token.RBRACK, 'expected an array-style type declaration (' + value + '[])');\n return maybeAddRange({\n type: Syntax.TypeApplication,\n expression: maybeAddRange({\n type: Syntax.NameExpression,\n name: 'Array'\n }, [rangeStart, previous]),\n applications: [expr]\n }, [rangeStart, previous]);\n }\n\n return expr;\n }", "function tsParseAssignableListItemTypes() {\n const oldIsType = pushTypeContext(0);\n eat(TokenType.question);\n tsTryParseTypeAnnotation();\n popTypeContext(oldIsType);\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type = void 0;\n if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n if (skip(lexer, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type = void 0;\n if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n if (skip(lexer, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type = void 0;\n if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n if (skip(lexer, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type = void 0;\n if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n if (skip(lexer, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (expectOptionalToken(lexer, TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expectToken(lexer, TokenKind.BRACKET_R);\n type = {\n kind: Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (expectOptionalToken(lexer, TokenKind.BANG)) {\n return {\n kind: Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L)) {\n type = parseTypeReference(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R);\n type = {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BANG)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R);\n type = {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (skip(lexer, _lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer);\n expect(lexer, _lexer.TokenKind.BRACKET_R);\n type = {\n kind: _kinds.Kind.LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (skip(lexer, _lexer.TokenKind.BANG)) {\n return {\n kind: _kinds.Kind.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L)) {\n type = parseTypeReference(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R);\n type = {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BANG)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeReference(lexer) {\n var start = lexer.token;\n var type;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L)) {\n type = parseTypeReference(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_R);\n type = {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].LIST_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n } else {\n type = parseNamedType(lexer);\n }\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BANG)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NON_NULL_TYPE,\n type: type,\n loc: loc(lexer, start)\n };\n }\n\n return type;\n}", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "_getTypesList(){\n return [\n {\"optText\": \"Select type\", \"optValue\":\"\"},\n {\"optText\": \"Media Type\", \"optValue\":\"MediaType\"},\n {\"optText\": \"Localization Type\", \"optValue\":\"LocalizationType\"},\n {\"optText\": \"State Type\", \"optValue\":\"StateType\"},\n {\"optText\": \"Leaf Type\", \"optValue\":\"LeafType\"},\n ];\n }", "function parseType (typeStr, fileScope, implied) {\n var valType = [];\n if (!typeStr)\n return valType;\n var valtypeSelectorInfo = typeStr.split(Patterns.typeSelectorWord);\n for (var i=0,j=valtypeSelectorInfo.length-1; i<j; i+=4) {\n var generics = !valtypeSelectorInfo[i+3] ? [] : valtypeSelectorInfo[i+3]\n .split(',')\n .map(function(z){\n var genericStr = z.replace (/\\s/g, '');\n var genericTypeMatch;\n var outPath;\n if (genericStr == '.')\n // outPath = fileScope && fileScope.length ? cloneArr (fileScope) : [];\n outPath = fileScope && fileScope.length ? fileScope.concat() : [];\n else {\n var outPath = parsePath (genericStr, fileScope);\n if (outPath[0][0])\n outPath = fileScope.concat (outPath);\n // outPath = concatPaths (fileScope, outPath);\n }\n var uglysigvalgenerictypepath = '';\n for (var i in outPath)\n uglysigvalgenerictypepath +=\n (outPath[i][0] || '.')\n + outPath[i][1]\n ;\n return { name:uglysigvalgenerictypepath.slice(1), path:outPath };\n })\n ;\n\n var vtstr = valtypeSelectorInfo[i+1];\n var valtypeMatch, valtypefrags;\n if (vtstr == '.')\n // valtypefrags = fileScope && fileScope.length ? cloneArr (fileScope) : [];\n valtypefrags = fileScope && fileScope.length ? fileScope.concat() : [];\n else {\n valtypefrags = parsePath (vtstr, fileScope);\n if (valtypefrags[0][0])\n valtypefrags = fileScope.concat (valtypefrags);\n // valtypefrags = concatPaths (fileScope, valtypefrags);\n }\n\n uglyvaltypepath = '';\n for (var k=0, l=valtypefrags.length; k<l; k++)\n uglyvaltypepath +=\n (valtypefrags[k][0] || '.')\n + valtypefrags[k][1]\n ;\n valType.push ({\n path: valtypefrags,\n isPointer: Boolean (valtypeSelectorInfo[i+2]),\n isArray: Boolean (\n valtypeSelectorInfo[i+3] !== undefined\n && valtypeSelectorInfo[i+3].match (/^[ \\\\t]*$/)\n ),\n generics: generics,\n name: uglyvaltypepath.slice(1),\n explicit: !implied\n });\n }\n return valType;\n}", "function parseBasicTypeExpression() {\n var context, startIndex;\n switch (token) {\n case Token.STAR:\n consume(Token.STAR);\n return maybeAddRange({\n type: Syntax.AllLiteral\n }, [previous - 1, previous]);\n\n case Token.LPAREN:\n return parseUnionType();\n\n case Token.LBRACK:\n return parseArrayType();\n\n case Token.LBRACE:\n return parseRecordType();\n\n case Token.NAME:\n startIndex = index - value.length;\n\n if (value === 'null') {\n consume(Token.NAME);\n return maybeAddRange({\n type: Syntax.NullLiteral\n }, [startIndex, previous]);\n }\n\n if (value === 'undefined') {\n consume(Token.NAME);\n return maybeAddRange({\n type: Syntax.UndefinedLiteral\n }, [startIndex, previous]);\n }\n\n if (value === 'true' || value === 'false') {\n consume(Token.NAME);\n return maybeAddRange({\n type: Syntax.BooleanLiteralType,\n value: value === 'true'\n }, [startIndex, previous]);\n }\n\n context = Context.save();\n if (value === 'function') {\n try {\n return parseFunctionType();\n } catch (e) {\n context.restore();\n }\n }\n\n return parseTypeName();\n\n case Token.STRING:\n next();\n return maybeAddRange({\n type: Syntax.StringLiteralType,\n value: value\n }, [previous - value.length - 2, previous]);\n\n case Token.NUMBER:\n next();\n return maybeAddRange({\n type: Syntax.NumericLiteralType,\n value: value\n }, [previous - String(value).length, previous]);\n\n default:\n utility.throwError('unexpected token');\n }\n }", "function Type(){\n\t\t\tthis.array='Array';\n\t\t\tthis.object='object';\n\t\t\tthis.string='string';\n\t\t\tthis.fn='function';\n\t\t\tthis.number='number';\n\t\t}", "function parseMemberTypesDefinition(lexer) {\n\t var types = [];\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t // Optional leading pipe\n\t skip(lexer, _lexer.TokenKind.PIPE);\n\t do {\n\t types.push(parseNamedType(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t }\n\t return types;\n\t}", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function matchType() {\n\t\tvar pattern = /^(int|string|boolean)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}", "function parsePrimaryType(){var params=null,returnType=null,marker=markerCreate(),rest=null,tmp,typeParameters,token,type,isGroupedType=false;switch(lookahead.type){case Token.Identifier:switch(lookahead.value){case 'any':lex();return markerApply(marker,delegate.createAnyTypeAnnotation());case 'bool': // fallthrough\ncase 'boolean':lex();return markerApply(marker,delegate.createBooleanTypeAnnotation());case 'number':lex();return markerApply(marker,delegate.createNumberTypeAnnotation());case 'string':lex();return markerApply(marker,delegate.createStringTypeAnnotation());}return markerApply(marker,parseGenericType());case Token.Punctuator:switch(lookahead.value){case '{':return markerApply(marker,parseObjectType());case '[':return parseTupleType();case '<':typeParameters = parseTypeParameterDeclaration();expect('(');tmp = parseFunctionTypeParams();params = tmp.params;rest = tmp.rest;expect(')');expect('=>');returnType = parseType();return markerApply(marker,delegate.createFunctionTypeAnnotation(params,returnType,rest,typeParameters));case '(':lex(); // Check to see if this is actually a grouped type\nif(!match(')') && !match('...')){if(lookahead.type === Token.Identifier){token = lookahead2();isGroupedType = token.value !== '?' && token.value !== ':';}else {isGroupedType = true;}}if(isGroupedType){type = parseType();expect(')'); // If we see a => next then someone was probably confused about\n// function types, so we can provide a better error message\nif(match('=>')){throwError({},Messages.ConfusedAboutFunctionType);}return type;}tmp = parseFunctionTypeParams();params = tmp.params;rest = tmp.rest;expect(')');expect('=>');returnType = parseType();return markerApply(marker,delegate.createFunctionTypeAnnotation(params,returnType,rest,null /* typeParameters */));}break;case Token.Keyword:switch(lookahead.value){case 'void':return markerApply(marker,parseVoidType());case 'typeof':return markerApply(marker,parseTypeofType());}break;case Token.StringLiteral:token = lex();if(token.octal){throwError(token,Messages.StrictOctalLiteral);}return markerApply(marker,delegate.createStringLiteralTypeAnnotation(token));}throwUnexpected(lookahead);}", "function parseTypeExpressionList() {\n var elements = [];\n\n elements.push(parseTop());\n while (token === Token.COMMA) {\n consume(Token.COMMA);\n elements.push(parseTop());\n }\n return elements;\n }", "constructor(type, type_list, value_list=null) {\n super(type)\n this.type_list = type_list\n if(value_list==null){\n value_list = []\n for(var i=0; i<type_list.length; i++) value_list.push(null)\n }\n this.value_list = value_list\n }", "function parseTypeString(s) {\n if (/list|pair/.test(s)) {\n var baseType = /list/.test(s) ? 'list' : 'pair';\n\n var uStart = s.indexOf(\"<\");\n var uEnd = s.lastIndexOf(\">\");\n\n var baseChecker = typeCheckers[baseType];\n\n if (uStart == -1 || uEnd == -1) {\n return baseChecker;\n }\n\n var u = s.slice(uStart + 1, uEnd);\n var uChecker = parseTypeString(u);\n\n if (baseType == 'pair') {\n return function(x) {\n if (!baseChecker(x)) {\n return false;\n }\n\n return uChecker(x[0]) && uChecker(_rest(x));\n };\n\n }\n\n // otherwise, return checker for list<...>\n return function(x) {\n if (!baseChecker(x)) {\n return false;\n }\n var x_array = listToArray(x);\n for(var i = 0, ii = x_array.length; i < ii; i++) {\n if (!uChecker(x_array[i])) {\n return false;\n };\n }\n return true;\n };\n\n\n } else {\n return typeCheckers[s];\n }\n}", "function parseTypeName() {\n var expr, applications, startIndex = index - value.length;\n\n expr = parseNameExpression();\n if (token === Token.DOT_LT || token === Token.LT) {\n next();\n applications = parseTypeExpressionList();\n expect(Token.GT);\n return maybeAddRange({\n type: Syntax.TypeApplication,\n expression: expr,\n applications: applications\n }, [startIndex, previous]);\n }\n return expr;\n }", "function parseTypeString(s) {\n if (/list|pair/.test(s)) {\n var baseType = /list/.test(s) ? 'list' : 'pair';\n\n var uStart = s.indexOf(\"<\");\n var uEnd = s.lastIndexOf(\">\");\n\n var baseChecker = typeCheckers[baseType];\n\n if (uStart == -1 || uEnd == -1) {\n return baseChecker;\n }\n\n var u = s.slice(uStart + 1, uEnd);\n var uChecker = parseTypeString(u);\n\n if (baseType == 'pair') {\n return function(x) {\n if (!baseChecker(x)) {\n return false;\n }\n\n return uChecker(x[0]) && uChecker(_rest(x));\n };\n }\n\n // otherwise, return checker for list<...>\n return function(x) {\n if (!baseChecker(x)) {\n return false;\n }\n var x_array = listToArray(x);\n for(var i = 0, ii = x_array.length; i < ii; i++) {\n if (!uChecker(x_array[i])) {\n return false;\n };\n }\n return true;\n };\n } else {\n return typeCheckers[s];\n }\n}", "function parseMemberTypesDefinition(lexer$$1) {\n var types = [];\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer$$1, lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer$$1));\n } while (skip(lexer$$1, lexer.TokenKind.PIPE));\n }\n return types;\n}", "function getNamedTypeAST(typeAST) {\n\t var namedType = typeAST;\n\t while (namedType.kind === _kinds.LIST_TYPE || namedType.kind === _kinds.NON_NULL_TYPE) {\n\t namedType = namedType.type;\n\t }\n\t return namedType;\n\t}", "function parseType(line) {\n var match = line.match(/^ Type <([^>]*)>( \\(derives from ([^)]*)\\))?/);\n if (!match) {\n throw new Error('Invalid type line: ' + line);\n }\n\n return {\n name: match[1].trim(),\n parent: match[3] ? match[3].trim() : undefined\n };\n}", "function parseTypeDefinition(parser) {\n if (!peek(parser, _lexer.TokenKind.NAME)) {\n throw unexpected(parser);\n }\n switch (parser.token.value) {\n case 'type':\n return parseObjectTypeDefinition(parser);\n case 'interface':\n return parseInterfaceTypeDefinition(parser);\n case 'union':\n return parseUnionTypeDefinition(parser);\n case 'scalar':\n return parseScalarTypeDefinition(parser);\n case 'enum':\n return parseEnumTypeDefinition(parser);\n case 'input':\n return parseInputObjectTypeDefinition(parser);\n default:\n throw unexpected(parser);\n }\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === _kinds.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function typeToken() {\n\t\tvar type = thisToken;\n\t\tif (lastToken == '*')\n\t\t\ttype = '*' + type;\n\t\tgetToken();\n\t\tremoveNewLine();\n\t\tif (thisToken == '*' || thisToken == '&') {\n\t\t\tif (thisToken == '*')\n\t\t\t\ttype = thisToken + type;\n\t\t\tgetToken();\n\t\t}\n\t\t//type cast, not implemented\n\t\tif (thisToken == ')') {\n\t\t\tgetToken();\n\t\t\texecut();\n\t\t\treturn;\n\t\t}\n\t\tgetToken();\n\t\t//call function registration\n\t\tif (thisToken == '(') {\n\t\t\tpreviousToken();\n\t\t\taddFunction(type);\n\t\t} else if (thisToken == '[') {\n\t\t\taddArray(type);\n\t\t}\n\t\t//declaration of variables of the same type, separated by commas, assignment is not supported\n\t\telse if (thisToken == ',') {\n\t\t\tpreviousToken();\n\t\t\taddVar(type);\n\t\t\tgetToken();\n\t\t\twhile (thisToken && thisToken != ';') {\n\t\t\t\tgetToken();\n\t\t\t\taddVar(type);\n\t\t\t\tgetToken();\n\t\t\t\tif (!(thisToken == ',' || thisToken == ';'))\n\t\t\t\t\tputError(lineCount, 17, '');\n\t\t\t\t//info(\"\" + lineCount + \" unsupported variable declaration\");\n\t\t\t}\n\t\t} else {\n\t\t\tpreviousToken();\n\t\t\taddVar(type);\n\t\t}\n\t}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "constructor(tokens) {\n this.tokens = tokens\n this.pos = 0\n this.types = {}\n for( var i=0; i<tokens.length; i++) this.types[tokens[i].type] = \"\"\n }", "function astFromValue(value, type) {\n if ((0, _definition.isNonNullType)(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if ((astValue === null || astValue === void 0 ? void 0 : astValue.kind) === _kinds.Kind.NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _kinds.Kind.NULL\n };\n } // undefined\n\n\n if (value === undefined) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if ((0, _definition.isListType)(type)) {\n var itemType = type.ofType;\n var items = (0, _safeArrayFrom.default)(value);\n\n if (items != null) {\n var valuesNodes = [];\n\n for (var _i2 = 0; _i2 < items.length; _i2++) {\n var item = items[_i2];\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode != null) {\n valuesNodes.push(itemNode);\n }\n }\n\n return {\n kind: _kinds.Kind.LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n if (!(0, _isObjectLike.default)(value)) {\n return null;\n }\n\n var fieldNodes = [];\n\n for (var _i4 = 0, _objectValues2 = (0, _objectValues3.default)(type.getFields()); _i4 < _objectValues2.length; _i4++) {\n var field = _objectValues2[_i4];\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _kinds.Kind.OBJECT_FIELD,\n name: {\n kind: _kinds.Kind.NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n\n return {\n kind: _kinds.Kind.OBJECT,\n fields: fieldNodes\n };\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isLeafType)(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (serialized == null) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number' && (0, _isFinite.default)(serialized)) {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _kinds.Kind.INT,\n value: stringNum\n } : {\n kind: _kinds.Kind.FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if ((0, _definition.isEnumType)(type)) {\n return {\n kind: _kinds.Kind.ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _scalars.GraphQLID && integerStringRegExp.test(serialized)) {\n return {\n kind: _kinds.Kind.INT,\n value: serialized\n };\n }\n\n return {\n kind: _kinds.Kind.STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat((0, _inspect.default)(serialized), \".\"));\n } // istanbul ignore next (Not reachable. All possible input types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected input type: ' + (0, _inspect.default)(type));\n}", "function astFromValue(value, type) {\n if ((0, _definition.isNonNullType)(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if ((astValue === null || astValue === void 0 ? void 0 : astValue.kind) === _kinds.Kind.NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _kinds.Kind.NULL\n };\n } // undefined\n\n\n if (value === undefined) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if ((0, _definition.isListType)(type)) {\n var itemType = type.ofType;\n var items = (0, _safeArrayFrom.default)(value);\n\n if (items != null) {\n var valuesNodes = [];\n\n for (var _i2 = 0; _i2 < items.length; _i2++) {\n var item = items[_i2];\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode != null) {\n valuesNodes.push(itemNode);\n }\n }\n\n return {\n kind: _kinds.Kind.LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n if (!(0, _isObjectLike.default)(value)) {\n return null;\n }\n\n var fieldNodes = [];\n\n for (var _i4 = 0, _objectValues2 = (0, _objectValues.default)(type.getFields()); _i4 < _objectValues2.length; _i4++) {\n var field = _objectValues2[_i4];\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _kinds.Kind.OBJECT_FIELD,\n name: {\n kind: _kinds.Kind.NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n\n return {\n kind: _kinds.Kind.OBJECT,\n fields: fieldNodes\n };\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isLeafType)(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (serialized == null) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number' && (0, _isFinite.default)(serialized)) {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _kinds.Kind.INT,\n value: stringNum\n } : {\n kind: _kinds.Kind.FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if ((0, _definition.isEnumType)(type)) {\n return {\n kind: _kinds.Kind.ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _scalars.GraphQLID && integerStringRegExp.test(serialized)) {\n return {\n kind: _kinds.Kind.INT,\n value: serialized\n };\n }\n\n return {\n kind: _kinds.Kind.STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat((0, _inspect.default)(serialized), \".\"));\n } // istanbul ignore next (Not reachable. All possible input types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected input type: ' + (0, _inspect.default)(type));\n}", "function astFromValue(value, type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if (astValue && astValue.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL\n };\n } // undefined, NaN\n\n\n if (Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(value)) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type)) {\n var itemType = type.ofType;\n\n if (Object(iterall__WEBPACK_IMPORTED_MODULE_0__[\"isCollection\"])(value)) {\n var valuesNodes = [];\n Object(iterall__WEBPACK_IMPORTED_MODULE_0__[\"forEach\"])(value, function (item) {\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode) {\n valuesNodes.push(itemNode);\n }\n });\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isInputObjectType\"])(type)) {\n if (value === null || _typeof(value) !== 'object') {\n return null;\n }\n\n var fields = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type.getFields());\n var fieldNodes = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = fields[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var field = _step.value;\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_FIELD,\n name: {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT,\n fields: fieldNodes\n };\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (Object(_jsutils_isNullish__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(serialized)) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number') {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: stringNum\n } : {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isEnumType\"])(type)) {\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _type_scalars__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLID\"] && integerStringRegExp.test(serialized)) {\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: serialized\n };\n }\n\n return {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(serialized)));\n } // Not reachable. All possible input types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected input type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n}", "type_spec() {\n const startToken = this.currentToken;\n\n let typeTok = this.currentToken;\n if (typeTok.type === Lexer.TokenTypes.TYPE_INTEGER || typeTok.type === Lexer.TokenTypes.TYPE_REAL || typeTok.type === Lexer.TokenTypes.TYPE_BOOLEAN) {\n this.eat(typeTok.type);\n return new AST.TypeNode(typeTok);\n } else {\n throw new ParserException(`Error processing TYPESPEC: Expecting TYPE_INTEGER, TYPE_REAL, or TYPE_BOOLEAN got ${typeTok.type}`, startToken);\n }\n }", "function astFromValue(value, type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isNonNullType\"])(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if ((astValue === null || astValue === void 0 ? void 0 : astValue.kind) === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NULL\n };\n } // undefined\n\n\n if (value === undefined) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isListType\"])(type)) {\n var itemType = type.ofType;\n\n if (Object(_jsutils_isCollection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(value)) {\n var valuesNodes = []; // Since we transpile for-of in loose mode it doesn't support iterators\n // and it's required to first convert iteratable into array\n\n for (var _i2 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(value); _i2 < _arrayFrom2.length; _i2++) {\n var item = _arrayFrom2[_i2];\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode != null) {\n valuesNodes.push(itemNode);\n }\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isInputObjectType\"])(type)) {\n if (!Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(value)) {\n return null;\n }\n\n var fieldNodes = [];\n\n for (var _i4 = 0, _objectValues2 = Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type.getFields()); _i4 < _objectValues2.length; _i4++) {\n var field = _objectValues2[_i4];\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].OBJECT_FIELD,\n name: {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].OBJECT,\n fields: fieldNodes\n };\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isLeafType\"])(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (serialized == null) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number' && Object(_polyfills_isFinite_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(serialized)) {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].INT,\n value: stringNum\n } : {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isEnumType\"])(type)) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _type_scalars_mjs__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLID\"] && integerStringRegExp.test(serialized)) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].INT,\n value: serialized\n };\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(serialized), \".\"));\n } // istanbul ignore next (Not reachable. All possible input types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(0, 'Unexpected input type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(type));\n}", "function astFromValue(value, type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isNonNullType\"])(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if ((astValue === null || astValue === void 0 ? void 0 : astValue.kind) === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NULL\n };\n } // undefined\n\n\n if (value === undefined) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isListType\"])(type)) {\n var itemType = type.ofType;\n\n if (Object(_jsutils_isCollection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(value)) {\n var valuesNodes = []; // Since we transpile for-of in loose mode it doesn't support iterators\n // and it's required to first convert iteratable into array\n\n for (var _i2 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(value); _i2 < _arrayFrom2.length; _i2++) {\n var item = _arrayFrom2[_i2];\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode != null) {\n valuesNodes.push(itemNode);\n }\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isInputObjectType\"])(type)) {\n if (!Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(value)) {\n return null;\n }\n\n var fieldNodes = [];\n\n for (var _i4 = 0, _objectValues2 = Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type.getFields()); _i4 < _objectValues2.length; _i4++) {\n var field = _objectValues2[_i4];\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].OBJECT_FIELD,\n name: {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].OBJECT,\n fields: fieldNodes\n };\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isLeafType\"])(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (serialized == null) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number' && Object(_polyfills_isFinite_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(serialized)) {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].INT,\n value: stringNum\n } : {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_9__[\"isEnumType\"])(type)) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _type_scalars_mjs__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLID\"] && integerStringRegExp.test(serialized)) {\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].INT,\n value: serialized\n };\n }\n\n return {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_7__[\"Kind\"].STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(serialized), \".\"));\n } // istanbul ignore next (Not reachable. All possible input types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(0, 'Unexpected input type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(type));\n}", "function tokenTypes(n) {\r\n\tif (n.parent) {\r\n\t\tvar tt = [n.type];\r\n\t\treturn tt.concat(tokenTypes(n.parent));\r\n } else {\r\n \treturn n.type;\r\n\t}\r\n}", "function astFromValue(value, type) {\n if ((0, _definition.isNonNullType)(type)) {\n var astValue = astFromValue(value, type.ofType);\n\n if ((astValue === null || astValue === void 0 ? void 0 : astValue.kind) === _kinds.Kind.NULL) {\n return null;\n }\n\n return astValue;\n } // only explicit null, not undefined, NaN\n\n\n if (value === null) {\n return {\n kind: _kinds.Kind.NULL\n };\n } // undefined\n\n\n if (value === undefined) {\n return null;\n } // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n // the value is not an array, convert the value using the list's item type.\n\n\n if ((0, _definition.isListType)(type)) {\n var itemType = type.ofType;\n\n if ((0, _isCollection[\"default\"])(value)) {\n var valuesNodes = []; // Since we transpile for-of in loose mode it doesn't support iterators\n // and it's required to first convert iteratable into array\n\n for (var _i2 = 0, _arrayFrom2 = (0, _arrayFrom3[\"default\"])(value); _i2 < _arrayFrom2.length; _i2++) {\n var item = _arrayFrom2[_i2];\n var itemNode = astFromValue(item, itemType);\n\n if (itemNode != null) {\n valuesNodes.push(itemNode);\n }\n }\n\n return {\n kind: _kinds.Kind.LIST,\n values: valuesNodes\n };\n }\n\n return astFromValue(value, itemType);\n } // Populate the fields of the input object by creating ASTs from each value\n // in the JavaScript object according to the fields in the input type.\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n if (!(0, _isObjectLike[\"default\"])(value)) {\n return null;\n }\n\n var fieldNodes = [];\n\n for (var _i4 = 0, _objectValues2 = (0, _objectValues3[\"default\"])(type.getFields()); _i4 < _objectValues2.length; _i4++) {\n var field = _objectValues2[_i4];\n var fieldValue = astFromValue(value[field.name], field.type);\n\n if (fieldValue) {\n fieldNodes.push({\n kind: _kinds.Kind.OBJECT_FIELD,\n name: {\n kind: _kinds.Kind.NAME,\n value: field.name\n },\n value: fieldValue\n });\n }\n }\n\n return {\n kind: _kinds.Kind.OBJECT,\n fields: fieldNodes\n };\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isLeafType)(type)) {\n // Since value is an internally represented value, it must be serialized\n // to an externally represented value before converting into an AST.\n var serialized = type.serialize(value);\n\n if (serialized == null) {\n return null;\n } // Others serialize based on their corresponding JavaScript scalar types.\n\n\n if (typeof serialized === 'boolean') {\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: serialized\n };\n } // JavaScript numbers can be Int or Float values.\n\n\n if (typeof serialized === 'number' && (0, _isFinite[\"default\"])(serialized)) {\n var stringNum = String(serialized);\n return integerStringRegExp.test(stringNum) ? {\n kind: _kinds.Kind.INT,\n value: stringNum\n } : {\n kind: _kinds.Kind.FLOAT,\n value: stringNum\n };\n }\n\n if (typeof serialized === 'string') {\n // Enum types use Enum literals.\n if ((0, _definition.isEnumType)(type)) {\n return {\n kind: _kinds.Kind.ENUM,\n value: serialized\n };\n } // ID types can use Int literals.\n\n\n if (type === _scalars.GraphQLID && integerStringRegExp.test(serialized)) {\n return {\n kind: _kinds.Kind.INT,\n value: serialized\n };\n }\n\n return {\n kind: _kinds.Kind.STRING,\n value: serialized\n };\n }\n\n throw new TypeError(\"Cannot convert value to AST: \".concat((0, _inspect[\"default\"])(serialized), \".\"));\n } // istanbul ignore next (Not reachable. All possible input types have been considered)\n\n\n false || (0, _invariant[\"default\"])(0, 'Unexpected input type: ' + (0, _inspect[\"default\"])(type));\n}", "function parsePrimaryType() {\n var params = null, returnType = null,\n marker = markerCreate(), rest = null, tmp,\n typeParameters, token, type, isGroupedType = false;\n \n switch (lookahead.type) {\n case Token.Identifier:\n switch (lookahead.value) {\n case 'any':\n lex();\n return markerApply(marker, delegate.createAnyTypeAnnotation());\n case 'bool': // fallthrough\n case 'boolean':\n lex();\n return markerApply(marker, delegate.createBooleanTypeAnnotation());\n case 'number':\n lex();\n return markerApply(marker, delegate.createNumberTypeAnnotation());\n case 'string':\n lex();\n return markerApply(marker, delegate.createStringTypeAnnotation());\n }\n return markerApply(marker, parseGenericType());\n case Token.Punctuator:\n switch (lookahead.value) {\n case '{':\n return markerApply(marker, parseObjectType());\n case '[':\n return parseTupleType();\n case '<':\n typeParameters = parseTypeParameterDeclaration();\n expect('(');\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n expect(')');\n \n expect('=>');\n \n returnType = parseType();\n \n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n typeParameters\n ));\n case '(':\n lex();\n // Check to see if this is actually a grouped type\n if (!match(')') && !match('...')) {\n if (lookahead.type === Token.Identifier) {\n token = lookahead2();\n isGroupedType = token.value !== '?' && token.value !== ':';\n } else {\n isGroupedType = true;\n }\n }\n \n if (isGroupedType) {\n type = parseType();\n expect(')');\n \n // If we see a => next then someone was probably confused about\n // function types, so we can provide a better error message\n if (match('=>')) {\n throwError({}, Messages.ConfusedAboutFunctionType);\n }\n \n return type;\n }\n \n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n \n expect(')');\n \n expect('=>');\n \n returnType = parseType();\n \n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n null /* typeParameters */\n ));\n }\n break;\n case Token.Keyword:\n switch (lookahead.value) {\n case 'void':\n return markerApply(marker, parseVoidType());\n case 'typeof':\n return markerApply(marker, parseTypeofType());\n }\n break;\n case Token.StringLiteral:\n token = lex();\n if (token.octal) {\n throwError(token, Messages.StrictOctalLiteral);\n }\n return markerApply(marker, delegate.createStringLiteralTypeAnnotation(\n token\n ));\n }\n \n throwUnexpected(lookahead);\n }", "function List(ary, type) {\n\n if (ary !== undefined) {\n var array = ary;\n }\n else {\n array = [];\n }\n\n this.ListContentType = type;\n\n this.TypeCheck = function (item) {\n\n if (this.ListContentType === undefined) {\n return true; // not typed\n }\n\n\n if (item instanceof this.ListContentType) {\n return true;\n }\n else {\n throw new Error(\"incompatible type cannot add to list\");\n return false;\n }\n };\n\n if (array === undefined) {\n array = [];\n }\n\n this.Select = function (selection) {\n var temp = [];\n for (var i = 0; i < array.length; i++) {\n temp.push(selection(array[i]));\n }\n\n return new List(temp);\n };\n this.ToArray = function () {\n\n return array.slice();\n };\n this.Get = function (index) {\n return array[index];\n };\n\n\n // this.TypeCheck = function (item) { alert(\"test\");};\n\n this.Add = function (item) {\n\n\n if (this.TypeCheck(item)) {\n array.push(item);\n }\n\n\n };\n this.AddUnique = function (item) {\n if (this.TypeCheck(item)) {\n if (!array.Contains(item)) {\n array.push(item);\n }\n }\n };\n this.AddRange = function (items) {\n for (var i = 0; i < items.length; i++) {\n if (this.TypeCheck(items[i])) {\n this.Add(items[i]);\n }\n }\n }\n this.AddUniqueRange = function () {\n for (var i = 0; i < items.length; i++) {\n if (this.TypeCheck(items[i])) {\n if (!array.Contains(items[i])) {\n this.AddUnique(items[i]);\n }\n }\n }\n };\n this.IndexOf = function (item) {\n return array.IndexOf(item);\n };\n this.Remove = function (item) {\n if (array.indexOf(item) != -1) {\n array.splice(i, 1);\n }\n };\n this.RemoveRange = function (items) {\n for (var i = 0; i < array.length; i++) {\n if (array.indexOf(items[i]) != -1) {\n array.splice(i, 1);\n }\n }\n };\n this.Count = function () {\n return array.length;\n }\n\n this.OrderByAsc = function (selectfunc) {\n array.sort(function (a, b) {\n \n \n\n if (selectfunc(a) < selectfunc(b)) { return -1; }\n if (selectfunc(a) > selectfunc(b)) { return 1; }\n });\n return this;\n };\n \n this.OrderByDesc = function (selectfunc) {\n array.sort(function (a, b) {\n if (selectfunc(a) > selectfunc(b)) { return -1; }\n if (selectfunc(a) < selectfunc(b)) { return 1; }\n });\n return this;\n };\n\n\n this.ForEach = function (fnc) {\n array.forEach(fnc);\n };\n}", "function parseParametersType() {\n var params = [], optionalSequence = false, expr, rest = false, startIndex, restStartIndex = index - 3, nameStartIndex;\n\n while (token !== Token.RPAREN) {\n if (token === Token.REST) {\n // RestParameterType\n consume(Token.REST);\n rest = true;\n }\n\n startIndex = previous;\n\n expr = parseTypeExpression();\n if (expr.type === Syntax.NameExpression && token === Token.COLON) {\n nameStartIndex = previous - expr.name.length;\n // Identifier ':' TypeExpression\n consume(Token.COLON);\n expr = maybeAddRange({\n type: Syntax.ParameterType,\n name: expr.name,\n expression: parseTypeExpression()\n }, [nameStartIndex, previous]);\n }\n if (token === Token.EQUAL) {\n consume(Token.EQUAL);\n expr = maybeAddRange({\n type: Syntax.OptionalType,\n expression: expr\n }, [startIndex, previous]);\n optionalSequence = true;\n } else {\n if (optionalSequence) {\n utility.throwError('unexpected token');\n }\n }\n if (rest) {\n expr = maybeAddRange({\n type: Syntax.RestType,\n expression: expr\n }, [restStartIndex, previous]);\n }\n params.push(expr);\n if (token !== Token.RPAREN) {\n expect(Token.COMMA);\n }\n }\n return params;\n }", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function Type() {}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "function types(type) {\n // XXX: type('string').validator('lte')\n // would default to `validator('gte')` if not explicitly defined.\n type('string')\n .use(String)\n .validator('gte', function gte(a, b){\n return a.length >= b.length;\n })\n .validator('gt', function gt(a, b){\n return a.length > b.length;\n });\n\n type('id');\n\n type('integer')\n .use(parseInt);\n\n type('float')\n .use(parseFloat);\n\n type('decimal')\n .use(parseFloat);\n\n type('number')\n .use(parseFloat);\n \n type('date')\n .use(parseDate);\n\n type('boolean')\n .use(parseBoolean);\n\n type('array')\n // XXX: test? test('asdf') // true/false if is type.\n // or `validate`\n .use(function(val){\n // XXX: handle more cases.\n return isArray(val)\n ? val\n : val.split(/,\\s*/);\n })\n .validator('lte', function lte(a, b){\n return a.length <= b.length;\n });\n\n function parseDate(val) {\n return isDate(val)\n ? val\n : new Date(val);\n }\n\n function parseBoolean(val) {\n // XXX: can be made more robust\n return !!val;\n }\n}", "function isValidLiteralValue(type, valueAST) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidLiteralValue(type.ofType, valueAST);\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _kinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _kinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret2 = function () {\n\t if (valueAST.kind !== _kinds.OBJECT) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t fieldASTs.forEach(function (providedFieldAST) {\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "parseUnionMemberTypes() {\n return this.expectOptionalToken(TokenKind.EQUALS)\n ? this.delimitedMany(TokenKind.PIPE, this.parseNamedType)\n : [];\n }", "function checkNodeType(node, type) {\n if (node && node.type === type) {\n // The definition of ParseNode<TYPE> doesn't communicate to flow that\n // `type: TYPE` (as that's not explicitly mentioned anywhere), though that\n // happens to be true for all our value types.\n // $FlowFixMe\n return node;\n }\n\n return null;\n}", "function checkNodeType(node, type) {\n if (node && node.type === type) {\n // The definition of ParseNode<TYPE> doesn't communicate to flow that\n // `type: TYPE` (as that's not explicitly mentioned anywhere), though that\n // happens to be true for all our value types.\n // $FlowFixMe\n return node;\n }\n\n return null;\n}", "function checkNodeType(node, type) {\n if (node && node.type === type) {\n // The definition of ParseNode<TYPE> doesn't communicate to flow that\n // `type: TYPE` (as that's not explicitly mentioned anywhere), though that\n // happens to be true for all our value types.\n // $FlowFixMe\n return node;\n }\n\n return null;\n}", "tokenTypes(){\n var lex = []\n for(var k in this.lexeme ) \n if( !this.removable(k) ) lex.push(k)\n return lex\n }", "function importTypes(_fileList) {\n print(\"\");\n print(\"Import Types\");\n print(\"~~~~~~~~~~~~\");\n for (indx in _fileList) {\n var fileName = new File(_fileList[indx]);\n if (fileName.getName().startsWith(Type.prototype.FILE_PREFIX) && fileName.getName().endsWith(\".js\")) {\n var objName = new String(fileName.getName().substring(5, fileName.getName().length()-3));\n var type = new Type(objName);\n if (type.getOid()==null || type.getOid()==\"\" || type.getOid()==\"0\") {\n print(\"Create Type '\"+objName+\"'\");\n type._create(objName);\n }\n }\n }\n for (indx in _fileList) {\n importType(_fileList[indx]);\n }\n print(\"\");\n}", "static createItem(typeName, ctx=null) {\n console.debug(\"Types.createItem\", typeName);\n if (typeof typeName !== 'string') {\n throw new Error(\"expected type string\");\n }\n var ret;\n const type= allTypes.get( typeName );\n if (!type ) {\n throw new Error(`unknown type '${typeName}'`);\n }\n const { uses } = type;\n switch (uses) {\n case \"flow\": {\n const data= {};\n const spec= type.with;\n const { params } = spec;\n for ( const token in params ) {\n const param= params[token];\n if (!param.optional || param.repeats) {\n const val= (!param.optional) && Types.createItem( param.type, {\n token: token,\n param: param\n });\n // if the param repeats then we'll wind up with an array (of items)\n data[token]= param.repeats? (val? [val]: []): val;\n }\n }\n ret= allTypes.newItem(type.name, data);\n }\n break;\n case \"slot\":\n case \"swap\": {\n // note: \"initially\", if any, is: object { string type; object value; }\n // FIX: \"initially\" wont work properly for opts.\n // slots dont have a $TOKEN entry, but options do.\n const pair= Types._unpack(ctx);\n if (!pair) {\n ret= allTypes.newItem(type.name, null);\n } else {\n const { type:slatType, value:slatValue } = pair;\n ret= Types.createItem(slatType, slatValue);\n }\n }\n break;\n case \"str\":\n case \"txt\": {\n // ex. Item(\"trait\", \"testing\")\n // determine default value\n let defautValue= \"\";\n const spec= type.with;\n const { tokens, params }= spec;\n if (tokens.length === 1) {\n const t= tokens[0];\n const param= params[t];\n // FIX: no .... this is in the \"flow\"... the container of the str.\n // if (param.filterVals && ('default' in param.filterVals)) {\n // defaultValue= param.filterVals['default'];\n // } else {\n // if there's only one token, and that token isn't the \"floating value\" token....\n if (param.value !== null) {\n defautValue= t; // then we can use the token as our default value.\n }\n // }\n }\n const value= Types._unpack(ctx, defautValue);\n // fix? .value for string elements *can* be null,\n // but if they are things in autoText throw.\n // apparently default String prop validation allows null.\n ret= allTypes.newItem(type.name, value);\n }\n break;\n case \"num\": {\n const value= Types._unpack(ctx, 0);\n ret= allTypes.newItem(type.name, value);\n }\n break;\n default:\n throw new Error(`unknown type ${uses}`);\n break;\n }\n return ret;\n }", "function parsePrimaryType() {\n var typeIdentifier = null, params = null, returnType = null,\n marker = markerCreate(), rest = null, tmp,\n typeParameters, token, type, isGroupedType = false;\n\n switch (lookahead.type) {\n case Token.Identifier:\n switch (lookahead.value) {\n case 'any':\n lex();\n return markerApply(marker, delegate.createAnyTypeAnnotation());\n case 'bool': // fallthrough\n case 'boolean':\n lex();\n return markerApply(marker, delegate.createBooleanTypeAnnotation());\n case 'number':\n lex();\n return markerApply(marker, delegate.createNumberTypeAnnotation());\n case 'string':\n lex();\n return markerApply(marker, delegate.createStringTypeAnnotation());\n }\n return markerApply(marker, parseGenericType());\n case Token.Punctuator:\n switch (lookahead.value) {\n case '{':\n return markerApply(marker, parseObjectType());\n case '[':\n return parseTupleType();\n case '<':\n typeParameters = parseTypeParameterDeclaration();\n expect('(');\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n typeParameters\n ));\n case '(':\n lex();\n // Check to see if this is actually a grouped type\n if (!match(')') && !match('...')) {\n if (lookahead.type === Token.Identifier) {\n token = lookahead2();\n isGroupedType = token.value !== '?' && token.value !== ':';\n } else {\n isGroupedType = true;\n }\n }\n\n if (isGroupedType) {\n type = parseType();\n expect(')');\n\n // If we see a => next then someone was probably confused about\n // function types, so we can provide a better error message\n if (match('=>')) {\n throwError({}, Messages.ConfusedAboutFunctionType);\n }\n\n return type;\n }\n\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n null /* typeParameters */\n ));\n }\n break;\n case Token.Keyword:\n switch (lookahead.value) {\n case 'void':\n return markerApply(marker, parseVoidType());\n case 'typeof':\n return markerApply(marker, parseTypeofType());\n }\n break;\n case Token.StringLiteral:\n token = lex();\n if (token.octal) {\n throwError(token, Messages.StrictOctalLiteral);\n }\n return markerApply(marker, delegate.createStringLiteralTypeAnnotation(\n token\n ));\n }\n\n throwUnexpected(lookahead);\n }", "function parseSimpleJsDocTypeExpression(str) {\n // Fail safe if \"str\" is somehow undefined\n if (str == null) {\n return { kind: SimpleTypeKind.ANY };\n }\n // Parse normal types\n switch (str.toLowerCase()) {\n case \"undefined\":\n return { kind: SimpleTypeKind.UNDEFINED };\n case \"null\":\n return { kind: SimpleTypeKind.NULL };\n case \"string\":\n return { kind: SimpleTypeKind.STRING };\n case \"number\":\n return { kind: SimpleTypeKind.NUMBER };\n case \"boolean\":\n return { kind: SimpleTypeKind.BOOLEAN };\n case \"array\":\n return { kind: SimpleTypeKind.ARRAY, type: { kind: SimpleTypeKind.ANY } };\n case \"object\":\n return { kind: SimpleTypeKind.OBJECT, members: [] };\n case \"any\":\n case \"*\":\n return { kind: SimpleTypeKind.ANY };\n }\n // Match\n // { string }\n if (str.startsWith(\" \") || str.endsWith(\" \")) {\n return parseSimpleJsDocTypeExpression(str.trim());\n }\n // Match:\n // {string|number}\n if (str.includes(\"|\")) {\n return {\n kind: SimpleTypeKind.UNION,\n types: str.split(\"|\").map(function (str) {\n var childType = parseSimpleJsDocTypeExpression(str);\n // Convert ANY types to string literals so that {on|off} is \"on\"|\"off\" and not ANY|ANY\n if (childType.kind === SimpleTypeKind.ANY) {\n return {\n kind: SimpleTypeKind.STRING_LITERAL,\n value: str\n };\n }\n return childType;\n })\n };\n }\n // Match:\n // {?number} (nullable)\n // {!number} (not nullable)\n // {...number} (array of)\n var prefixMatch = str.match(/^(\\?|!|(\\.\\.\\.))(.+)$/);\n if (prefixMatch != null) {\n var modifier = prefixMatch[1];\n var type = parseSimpleJsDocTypeExpression(prefixMatch[3]);\n switch (modifier) {\n case \"?\":\n return {\n kind: SimpleTypeKind.UNION,\n types: [\n {\n kind: SimpleTypeKind.NULL\n },\n type\n ]\n };\n case \"!\":\n return type;\n case \"...\":\n return {\n kind: SimpleTypeKind.ARRAY,\n type: type\n };\n }\n }\n // Match:\n // {(......)}\n var parenMatch = str.match(/^\\((.+)\\)$/);\n if (parenMatch != null) {\n return parseSimpleJsDocTypeExpression(parenMatch[1]);\n }\n // Match\n // {\"red\"}\n var stringLiteralMatch = str.match(/^[\"'](.+)[\"']$/);\n if (stringLiteralMatch != null) {\n return {\n kind: SimpleTypeKind.STRING_LITERAL,\n value: stringLiteralMatch[1]\n };\n }\n // Match\n // {[number]}\n var arrayMatch = str.match(/^\\[(.+)]$/);\n if (arrayMatch != null) {\n return {\n kind: SimpleTypeKind.ARRAY,\n type: parseSimpleJsDocTypeExpression(arrayMatch[1])\n };\n }\n return { kind: SimpleTypeKind.ANY };\n}", "function parseTypeArray (type) {\n\t var tmp = type.match(/(.*)\\[(.*?)\\]$/)\n\t if (tmp) {\n\t return tmp[2] === '' ? 'dynamic' : parseInt(tmp[2], 10)\n\t }\n\t return null\n\t}", "function getTypeStrings(parsedType, isOutermostType) {\n\t\tlet applications;\n\t\tlet typeString;\n\t\tlet types = [];\n\t\tswitch (parsedType.type) {\n\t\t\tcase TYPES.AllLiteral:\n\t\t\t\ttypes.push('*');\n\t\t\t\tbreak;\n\t\t\tcase TYPES.FunctionType:\n\t\t\t\ttypeString = 'function';\n\t\t\t\t// #### BEGIN: MODIFIED BY SAP\n\t\t\t\tconst paramTypes = [];\n\t\t\t\tif (parsedType.new) {\n\t\t\t\t\tparamTypes.push(toTypeString(parsedType.new));\n\t\t\t\t}\n\t\t\t\tif (Array.isArray(parsedType.params)) {\n\t\t\t\t\tparamTypes.push(...parsedType.params.map(toTypeString));\n\t\t\t\t}\n\t\t\t\tif (paramTypes.length || parsedType.result) {\n\t\t\t\t\ttypeString += `(${paramTypes.join(\", \")})`;\n\t\t\t\t}\n\t\t\t\tif (parsedType.result) {\n\t\t\t\t\tlet resultType = toTypeString(parsedType.result);\n\t\t\t\t\t// ensure the function result remains belonging together even when a union of the entire function with other types is created\n\t\t\t\t\t// Example: ensure parentheses around function result in: function(int):({rows: int, columns: int}|null)|undefined\n\t\t\t\t\tif (parsedType.result.type === \"TypeUnion\") {\n\t\t\t\t\t\tresultType = `(${resultType})`;\n\t\t\t\t\t}\n\t\t\t\t\ttypeString += `:${resultType}`;\n\t\t\t\t}\n\t\t\t\ttypes.push(typeString);\n\t\t\t\t// #### END: MODIFIED BY SAP\n\t\t\t\tbreak;\n\t\t\t case TYPES.NameExpression:\n\t\t\t\ttypes.push(parsedType.name);\n\t\t\t\tbreak;\n\t\t\tcase TYPES.NullLiteral:\n\t\t\t\ttypes.push('null');\n\t\t\t\tbreak;\n\t\t\tcase TYPES.RecordType:\n\t\t\t\t// #### BEGIN: MODIFIED BY SAP\n\t\t\t\t// types.push('Object');\n\t\t\t\tif (Array.isArray(parsedType.fields)) {\n\t\t\t\t\ttypeString = `{${parsedType.fields.map(\n\t\t\t\t\t\t({key,value}) => {\n\t\t\t\t\t\t\tconst keyString = catharsis.stringify(key);\n\t\t\t\t\t\t\tif (value) {\n\t\t\t\t\t\t\t\tvar propertyPlusType = `${keyString}: ${toTypeString(value)}`;\n\t\t\t\t\t\t\t\treturn propertyPlusType;\n\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\tlet pos;\n\t\t\t\t\t\t\t\tif (keyString && (pos = keyString.indexOf(\":\")) > -1) {\n\t\t\t\t\t\t\t\t\t// When no space is present between colon and type (e.g. the structure looks like \"{x:number}\" with no space after\n\t\t\t\t\t\t\t\t\t// the colon), then Catharsis parses this as property name \"x:number\" with no type given.\n\t\t\t\t\t\t\t\t\t// In this case give a clear hint that this space is needed and throw an error to prevent such issues from being merged\n\t\t\t\t\t\t\t\t\tconst realName = keyString.substring(0, pos);\n\t\t\t\t\t\t\t\t\tconst realValue = keyString.substring(pos + 1, keyString.length);\n\t\t\t\t\t\t\t\t\tlet message = `Cannot parse the \"${keyString}\" part of \"${parsedType.typeExpression}\" in RecordType (log output above may give a hint in which file).\\n`;\n\t\t\t\t\t\t\t\t\tmessage += `Did you mean to specify a property \"${realName}\" of type \"${realValue}\"? Then insert a space after the colon and write \"${realName}: ${realValue}\".`\n\t\t\t\t\t\t\t\t\terror(message);\n\t\t\t\t\t\t\t\t\treturn \"x: any\"; // unparseable property set to \"any\" - but the JSDoc run will fail now, anyway\n\t\t\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\t\t\t// only property given without type; this will be turned into type \"any\" further downstream\n\t\t\t\t\t\t\t\t\treturn keyString;\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\t).join(', ')}}`;\n\t\t\t\t\ttypes.push(typeString);\n\t\t\t\t} else {\n\t\t\t\t\ttypes.push('Object');\n\t\t\t\t}\n\t\t\t\t// #### END: MODIFIED BY SAP\n\t\t\t\tbreak;\n\t\t\tcase TYPES.TypeApplication:\n\t\t\t\t// if this is the outermost type, we strip the modifiers; otherwise, we keep them\n\t\t\t\tif (isOutermostType) {\n\t\t\t\t\tapplications = parsedType.applications.map(application =>\n\t\t\t\t\t\tcatharsis.stringify(application)).join(', ');\n\t\t\t\t\ttypeString = `${getTypeStrings(parsedType.expression)[0]}.<${applications}>`;\n\t\t\t\t\ttypes.push(typeString);\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\ttypes.push( catharsis.stringify(parsedType) );\n\t\t\t\t}\n\t\t\t\tbreak;\n\t\t\tcase TYPES.TypeUnion:\n\t\t\t\tparsedType.elements.forEach(element => {\n\t\t\t\t\ttypes = types.concat( getTypeStrings(element) );\n\t\t\t\t});\n\t\t\t\tbreak;\n\t\t\tcase TYPES.UndefinedLiteral:\n\t\t\t\ttypes.push('undefined');\n\t\t\t\tbreak;\n\t\t\tcase TYPES.UnknownLiteral:\n\t\t\t\ttypes.push('?');\n\t\t\t\tbreak;\n\t\t\tdefault:\n\t\t\t\t// this shouldn't happen\n\t\t\t\tthrow new Error(`unrecognized type ${parsedType.type} in parsed type: ${parsedType}`);\n\t\t}\n\t\treturn types;\n\t}", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function processType(typeCache, resLoader, rawType, ctx) {\n var xsdNS = 'http://www.w3.org/2001/XMLSchema';\n if(!rawType || !(ctx instanceof LocalContext))\n throw new Error('Invalid raw type or context.');\n var result = undefined;\n // Function to process attributes\n var processAttrs = function(target) {\n var attrs = { };\n Util.arrayEach(target.attribute, function(attr) {\n attrs[attr.name + ((attr.use === 'required') ? '' : '?')] = stripNS(attr.type);\n }); \n return attrs; \n }\n if(rawType.sequence) {\n result = { '_$attrs': processAttrs(rawType) };\n var processElements = function(elements, context, target) {\n Util.arrayEach(elements, function(el) {\n var elType = undefined,\n elTypeNS = undefined;\n // Find occurrence info\n if(el.minOccurs === 'unbounded') el.minOccurs = 0;\n if(el.maxOccurs === 'unbounded') el.maxOccurs = Number.MAX_VALUE;\n if(typeof el.minOccurs !== 'number') el.minOccurs = 1;\n if(typeof el.maxOccurs !== 'number') el.maxOccurs = 1;\n var namePost = '';\n if(el.minOccurs === 1 && el.maxOccurs === 1) namePost = '';\n else if(el.minOccurs === 0 && el.maxOccurs === 1) namePost = '?';\n else namePost = '*';\n if(el.ref) {\n var referred = context.parseNamespace(el.ref),\n refEl = resLoader.searchInNamespace(referred.namespace, ['element', referred.value]);\n if(!refEl) throw new Error(\n 'Referred element `' + referred.value + '\\' not found in namespace `' + referred.namespace + '\\'.'\n );\n elType = refEl.type;\n elTypeNS = refEl.typeNamespace;\n } else {\n if(!el.type) {\n if(el.complexType) target[el.name + namePost] = processType(typeCache, resLoader, el.complexType, context);\n else if(el.simpleType) throw new Error('Not supported.');\n else throw new Error('Invalid element definition, no type specified.');\n return;\n }\n var parsed = context.parseNamespace(el.type);\n elType = parsed.value;\n elTypeNS = parsed.namespace;\n }\n // Basic Type\n if(elTypeNS === xsdNS) target[el.name + namePost] = elType;\n else {\n // console.log('ns: ' + elTypeNS + ' type: ' + elType);\n cacheType(typeCache, resLoader, elTypeNS, elType, true);\n target[el.name + namePost] = { '_$type': elType, '_$namespace': elTypeNS };\n }\n });\n }\n processElements(rawType.sequence.element, ctx, result);\n Util.arrayEach(rawType.sequence.choice, function(ch) {\n result['_$choices'] = result['_$choices'] || [];\n var thisChoice = { };\n // Find occurrence info\n if(ch.minOccurs === 'unbounded') ch.minOccurs = 0;\n if(ch.maxOccurs === 'unbounded') ch.maxOccurs = Number.MAX_VALUE;\n if(typeof ch.minOccurs !== 'number') ch.minOccurs = 1;\n if(typeof ch.maxOccurs !== 'number') ch.maxOccurs = 1;\n if(ch.minOccurs === 1 && ch.maxOccurs === 1) thisChoice['_$occurrence'] = '';\n else if(ch.minOccurs === 0 && ch.maxOccurs === 1) thisChoice['_$occurrence'] = '?';\n else thisChoice['_$occurrence'] = '*'; \n processElements(ch.element, ctx, thisChoice);\n result['_$choices'].push(thisChoice);\n });\n } else if(rawType.simpleContent || rawType.complexContent) {\n // We're processing some complexType\n // Under complexContent/simpleContent we only support [extension]\n result = processType(typeCache, resLoader, rawType.simpleContent ||rawType.complexContent, ctx); \n } else if(rawType.extension) { \n var baseType = ctx.parseNamespace(rawType.extension.base);\n if(baseType.namespace === xsdNS) {\n // If rawType.extension.base is base type(ie. under xsd namespace), then it has only [attribute]s.\n result = { '_$attrs': processAttrs(rawType.extension) };\n } else {\n // If rawType.extension.base is defined type, then it may have [attribute]s or [sequence,element]s.\n result = processType(typeCache, resLoader, rawType.extension, ctx) || { }; // in case that no sequence is defined.\n cacheType(typeCache, resLoader, baseType.namespace, baseType.value, true);\n result['_$base'] = { '_$type': baseType.value, '_$namespace': baseType.namespace };\n }\n } else if(rawType.restriction) {\n // We're processing some simpleType, only support enumeration for now, and ignore [base].\n result = [];\n Util.arrayEach(rawType.restriction.enumeration, \n function(entry) { entry.value && result.push(entry.value); });\n }\n \n return result;\n}", "function parsePrimaryType() {\n var params = null, returnType = null,\n marker = markerCreate(), rest = null, tmp,\n typeParameters, token, type, isGroupedType = false;\n\n switch (lookahead.type) {\n case Token.Identifier:\n switch (lookahead.value) {\n case 'any':\n lex();\n return markerApply(marker, delegate.createAnyTypeAnnotation());\n case 'bool': // fallthrough\n case 'boolean':\n lex();\n return markerApply(marker, delegate.createBooleanTypeAnnotation());\n case 'number':\n lex();\n return markerApply(marker, delegate.createNumberTypeAnnotation());\n case 'string':\n lex();\n return markerApply(marker, delegate.createStringTypeAnnotation());\n }\n return markerApply(marker, parseGenericType());\n case Token.Punctuator:\n switch (lookahead.value) {\n case '{':\n return markerApply(marker, parseObjectType());\n case '[':\n return parseTupleType();\n case '<':\n typeParameters = parseTypeParameterDeclaration();\n expect('(');\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n typeParameters\n ));\n case '(':\n lex();\n // Check to see if this is actually a grouped type\n if (!match(')') && !match('...')) {\n if (lookahead.type === Token.Identifier) {\n token = lookahead2();\n isGroupedType = token.value !== '?' && token.value !== ':';\n } else {\n isGroupedType = true;\n }\n }\n\n if (isGroupedType) {\n type = parseType();\n expect(')');\n\n // If we see a => next then someone was probably confused about\n // function types, so we can provide a better error message\n if (match('=>')) {\n throwError({}, Messages.ConfusedAboutFunctionType);\n }\n\n return type;\n }\n\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n null /* typeParameters */\n ));\n }\n break;\n case Token.Keyword:\n switch (lookahead.value) {\n case 'void':\n return markerApply(marker, parseVoidType());\n case 'typeof':\n return markerApply(marker, parseTypeofType());\n }\n break;\n case Token.StringLiteral:\n token = lex();\n if (token.octal) {\n throwError(token, Messages.StrictOctalLiteral);\n }\n return markerApply(marker, delegate.createStringLiteralTypeAnnotation(\n token\n ));\n }\n\n throwUnexpected(lookahead);\n }", "function parsePrimaryType() {\n var params = null, returnType = null,\n marker = markerCreate(), rest = null, tmp,\n typeParameters, token, type, isGroupedType = false;\n\n switch (lookahead.type) {\n case Token.Identifier:\n switch (lookahead.value) {\n case 'any':\n lex();\n return markerApply(marker, delegate.createAnyTypeAnnotation());\n case 'bool': // fallthrough\n case 'boolean':\n lex();\n return markerApply(marker, delegate.createBooleanTypeAnnotation());\n case 'number':\n lex();\n return markerApply(marker, delegate.createNumberTypeAnnotation());\n case 'string':\n lex();\n return markerApply(marker, delegate.createStringTypeAnnotation());\n }\n return markerApply(marker, parseGenericType());\n case Token.Punctuator:\n switch (lookahead.value) {\n case '{':\n return markerApply(marker, parseObjectType());\n case '[':\n return parseTupleType();\n case '<':\n typeParameters = parseTypeParameterDeclaration();\n expect('(');\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n typeParameters\n ));\n case '(':\n lex();\n // Check to see if this is actually a grouped type\n if (!match(')') && !match('...')) {\n if (lookahead.type === Token.Identifier) {\n token = lookahead2();\n isGroupedType = token.value !== '?' && token.value !== ':';\n } else {\n isGroupedType = true;\n }\n }\n\n if (isGroupedType) {\n type = parseType();\n expect(')');\n\n // If we see a => next then someone was probably confused about\n // function types, so we can provide a better error message\n if (match('=>')) {\n throwError({}, Messages.ConfusedAboutFunctionType);\n }\n\n return type;\n }\n\n tmp = parseFunctionTypeParams();\n params = tmp.params;\n rest = tmp.rest;\n\n expect(')');\n\n expect('=>');\n\n returnType = parseType();\n\n return markerApply(marker, delegate.createFunctionTypeAnnotation(\n params,\n returnType,\n rest,\n null /* typeParameters */\n ));\n }\n break;\n case Token.Keyword:\n switch (lookahead.value) {\n case 'void':\n return markerApply(marker, parseVoidType());\n case 'typeof':\n return markerApply(marker, parseTypeofType());\n }\n break;\n case Token.StringLiteral:\n token = lex();\n if (token.octal) {\n throwError(token, Messages.StrictOctalLiteral);\n }\n return markerApply(marker, delegate.createStringLiteralTypeAnnotation(\n token\n ));\n }\n\n throwUnexpected(lookahead);\n }", "analyze(lexer) {\n var pos = lexer.pos\n var current = lexer.current()\n if(current==null) return this.eof(lexer)\n if(!this.startsWith(current)) return this.error(lexer,current.toError(),pos)\n var start = current.start\n var end = current.end\n var list = []\n for( var i=0; i<this.type_list.length; i++) {\n pos = lexer.pos\n var t = this.check(this.type_list[i], this.value_list[i], lexer)\n if( t.isError() ) return this.error(lexer,t,pos)\n if(this.value_list[i]==null) list.push(t)\n end = t.end\n }\n return this.token(lexer.input(),start,end,list)\n }", "function tag_list( type )\r\n{\r\n\tvar listitem = \"init\";\r\n\tvar thelist = \"\";\r\n\t\r\n\topentag = ( type == 'ordered' ) ? '[listo]' : '[list]';\r\n\tclosetag = ( type == 'ordered' ) ? '[/listo]' : '[/list]';\r\n\t\r\n\twhile ((listitem != \"\") && (listitem != null))\r\n\t{\r\n\t\tlistitem = prompt(list_prompt, \"\");\r\n\t\t\r\n\t\tif ((listitem != \"\") && (listitem != null))\r\n\t\t{\r\n\t\t\tthelist = thelist + \"[li]\" + listitem + \"[/li]\";\r\n\t\t}\r\n\t}\r\n\t\r\n\tif ( thelist != \"\" )\r\n\t{\r\n\t\tthelist = opentag + thelist + closetag;\r\n\t\tinsert_text(thelist, \"\");\r\n\t}\r\n}", "isTokenType(type) { return this.lexeme[type] !== undefined }", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = (0, _definition.getNullableType)(context.getParentInputType());\n\n if (!(0, _definition.isListType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = (0, _definition.getNamedType)(context.getInputType());\n\n if (!(0, _definition.isInputObjectType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = (0, _keyMap.default)(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = (0, _objectValues3.default)(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && (0, _definition.isRequiredInputField)(fieldDef)) {\n var typeStr = (0, _inspect.default)(fieldDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = (0, _definition.getNamedType)(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && (0, _definition.isInputObjectType)(parentType)) {\n var suggestions = (0, _suggestionList.default)(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if ((0, _definition.isNonNullType)(type)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat((0, _inspect.default)(type), \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "constructor(type) { \n this.type = type \n this.parser = null\n }", "function type(rule,value,source,errors,options){if(rule.required&&value===undefined){(0,_required2[\"default\"])(rule,value,source,errors,options);return;}var custom=['integer','float','array','regexp','object','method','email','number','date','url','hex'];var ruleType=rule.type;if(custom.indexOf(ruleType)>-1){if(!types[ruleType](value)){errors.push(util.format(options.messages.types[ruleType],rule.fullField,rule.type));}// straight typeof check\r\n\t}else if(ruleType&&(typeof value==='undefined'?'undefined':_typeof(value))!==rule.type){errors.push(util.format(options.messages.types[ruleType],rule.fullField,rule.type));}}", "function ValuesOfCorrectTypeRule(context) {\n return {\n ListValue: function ListValue(node) {\n // Note: TypeInfo will traverse into a list's item type, so look to the\n // parent input type to check if it is a list.\n var type = (0, _definition.getNullableType)(context.getParentInputType());\n\n if (!(0, _definition.isListType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n }\n },\n ObjectValue: function ObjectValue(node) {\n var type = (0, _definition.getNamedType)(context.getInputType());\n\n if (!(0, _definition.isInputObjectType)(type)) {\n isValidValueNode(context, node);\n return false; // Don't traverse further.\n } // Ensure every required field exists.\n\n\n var fieldNodeMap = (0, _keyMap.default)(node.fields, function (field) {\n return field.name.value;\n });\n\n for (var _i2 = 0, _objectValues2 = (0, _objectValues.default)(type.getFields()); _i2 < _objectValues2.length; _i2++) {\n var fieldDef = _objectValues2[_i2];\n var fieldNode = fieldNodeMap[fieldDef.name];\n\n if (!fieldNode && (0, _definition.isRequiredInputField)(fieldDef)) {\n var typeStr = (0, _inspect.default)(fieldDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(type.name, \".\").concat(fieldDef.name, \"\\\" of required type \\\"\").concat(typeStr, \"\\\" was not provided.\"), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var parentType = (0, _definition.getNamedType)(context.getParentInputType());\n var fieldType = context.getInputType();\n\n if (!fieldType && (0, _definition.isInputObjectType)(parentType)) {\n var suggestions = (0, _suggestionList.default)(node.name.value, Object.keys(parentType.getFields()));\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(node.name.value, \"\\\" is not defined by type \\\"\").concat(parentType.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), node));\n }\n },\n NullValue: function NullValue(node) {\n var type = context.getInputType();\n\n if ((0, _definition.isNonNullType)(type)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat((0, _inspect.default)(type), \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n },\n EnumValue: function EnumValue(node) {\n return isValidValueNode(context, node);\n },\n IntValue: function IntValue(node) {\n return isValidValueNode(context, node);\n },\n FloatValue: function FloatValue(node) {\n return isValidValueNode(context, node);\n },\n StringValue: function StringValue(node) {\n return isValidValueNode(context, node);\n },\n BooleanValue: function BooleanValue(node) {\n return isValidValueNode(context, node);\n }\n };\n}", "function isValidLiteralValue(type, valueAST) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n return isValidLiteralValue(type.ofType, valueAST);\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var _ret = function () {\n var itemType = type.ofType;\n if (valueAST.kind === _kinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n }();\n\n if ((typeof _ret === 'undefined' ? 'undefined' : (0, _typeof3.default)(_ret)) === \"object\") return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueAST.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function _loop() {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, (0, _toConsumableArray3.default)(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = (0, _getIterator3.default)((0, _keys2.default)(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _isNullish2.default)(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n }\n\n return [];\n}", "function flowParsePrimaryType() {\n let isGroupedType = false;\n const oldNoAnonFunctionType = state.noAnonFunctionType;\n\n switch (state.type) {\n case TokenType.name: {\n if (isContextual(ContextualKeyword._interface)) {\n flowParseInterfaceType();\n return;\n }\n parseIdentifier();\n flowParseGenericType();\n return;\n }\n\n case TokenType.braceL:\n flowParseObjectType(false, false, false);\n return;\n\n case TokenType.braceBarL:\n flowParseObjectType(false, true, false);\n return;\n\n case TokenType.bracketL:\n flowParseTupleType();\n return;\n\n case TokenType.lessThan:\n flowParseTypeParameterDeclaration();\n expect(TokenType.parenL);\n flowParseFunctionTypeParams();\n expect(TokenType.parenR);\n expect(TokenType.arrow);\n flowParseType();\n return;\n\n case TokenType.parenL:\n next();\n\n // Check to see if this is actually a grouped type\n if (!match(TokenType.parenR) && !match(TokenType.ellipsis)) {\n if (match(TokenType.name)) {\n const token = lookaheadType();\n isGroupedType = token !== TokenType.question && token !== TokenType.colon;\n } else {\n isGroupedType = true;\n }\n }\n\n if (isGroupedType) {\n state.noAnonFunctionType = false;\n flowParseType();\n state.noAnonFunctionType = oldNoAnonFunctionType;\n\n // A `,` or a `) =>` means this is an anonymous function type\n if (\n state.noAnonFunctionType ||\n !(match(TokenType.comma) || (match(TokenType.parenR) && lookaheadType() === TokenType.arrow))\n ) {\n expect(TokenType.parenR);\n return;\n } else {\n // Eat a comma if there is one\n eat(TokenType.comma);\n }\n }\n\n flowParseFunctionTypeParams();\n\n expect(TokenType.parenR);\n expect(TokenType.arrow);\n flowParseType();\n return;\n\n case TokenType.minus:\n next();\n parseLiteral();\n return;\n\n case TokenType.string:\n case TokenType.num:\n case TokenType._true:\n case TokenType._false:\n case TokenType._null:\n case TokenType._this:\n case TokenType._void:\n case TokenType.star:\n next();\n return;\n\n default:\n if (state.type === TokenType._typeof) {\n flowParseTypeofType();\n return;\n } else if (state.type & TokenType.IS_KEYWORD) {\n next();\n state.tokens[state.tokens.length - 1].type = TokenType.name;\n return;\n }\n }\n\n unexpected();\n}", "function parseTypeArray (type) {\n var tmp = type.match(/(.*)\\[(.*?)\\]$/)\n if (tmp) {\n return tmp[2] === '' ? 'dynamic' : parseInt(tmp[2], 10)\n }\n return null\n}", "function parseTypeArray (type) {\n var tmp = type.match(/(.*)\\[(.*?)\\]$/)\n if (tmp) {\n return tmp[2] === '' ? 'dynamic' : parseInt(tmp[2], 10)\n }\n return null\n}", "function parseTypeArray (type) {\n var tmp = type.match(/(.*)\\[(.*?)\\]$/)\n if (tmp) {\n return tmp[2] === '' ? 'dynamic' : parseInt(tmp[2], 10)\n }\n return null\n}", "function type(rule,value,source,errors,options){if(rule.required&&value===undefined){(0,_required2[\"default\"])(rule,value,source,errors,options);return;}var custom=['integer','float','array','regexp','object','method','email','number','date','url','hex'];var ruleType=rule.type;if(custom.indexOf(ruleType)>-1){if(!types[ruleType](value)){errors.push(util.format(options.messages.types[ruleType],rule.fullField,rule.type));}// straight typeof check\n\t}else if(ruleType&&(typeof value==='undefined'?'undefined':_typeof(value))!==rule.type){errors.push(util.format(options.messages.types[ruleType],rule.fullField,rule.type));}}", "function _Type(\n type, // :: String\n name, // :: String\n url, // :: String\n arity, // :: NonNegativeInteger\n format,\n // :: Nullable ((String -> String, String -> String -> String) -> String)\n supertypes, // :: Array Type\n test, // :: Any -> Boolean\n tuples // :: Array (Array3 String (a -> Array b) Type)\n ) {\n var t = Object.create (Type$prototype);\n t._test = test;\n t._extractors = tuples.reduce (function(_extractors, tuple) {\n _extractors[tuple[0]] = tuple[1];\n return _extractors;\n }, {});\n t.arity = arity; // number of type parameters\n t.extractors = Z.map (B (toArray), t._extractors);\n t.format = format || function(outer, inner) {\n return Z.reduce (function(s, tuple) {\n return s +\n outer (' ') +\n when (tuple[2].arity > 0)\n (parenthesize (outer))\n (inner (tuple[0]) (show (tuple[2])));\n }, outer (name), tuples);\n };\n t.keys = tuples.map (function(tuple) { return tuple[0]; });\n t.name = name;\n t.supertypes = supertypes;\n t.type = type;\n t.types = tuples.reduce (function(types, tuple) {\n types[tuple[0]] = tuple[2];\n return types;\n }, {});\n t.url = url;\n return t;\n }", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function test_type_unification_fixListCtorCrashedWhenDisconnecting() {\n var workspace = create_typed_workspace();\n try {\n var defineCtr = workspace.newBlock('defined_datatype_typed');\n defineCtr.getField('DATANAME').setText('fooo');\n var ctorValue = getVariable(defineCtr, 0);\n ctorValue.setVariableName('Bar');\n var listType = workspace.newBlock('alist_type_constructor_typed');\n defineCtr.getInput('CTR_INP0').connection.connect(listType.outputConnection);\n var intType = workspace.newBlock('int_type_typed');\n listType.getInput('ITEM').connection.connect(intType.outputConnection);\n\n var ctorBlock = createReferenceBlock(ctorValue);\n assertStructureInputSize(ctorBlock, 1);\n var param = ctorBlock.getInput('PARAM0').connection;\n assertTrue(param.typeExpr.isList());\n assertTrue(param.typeExpr.element_type.isInt());\n\n var listBlock = workspace.newBlock('lists_create_with_typed');\n param.connect(listBlock.outputConnection);\n\n var failed = false;\n try {\n intType.outputConnection.disconnect();\n } catch (e) {\n failed = true;\n }\n assertTrue(failed);\n } finally {\n workspace.dispose();\n }\n}" ]
[ "0.6707498", "0.65781015", "0.641714", "0.6298393", "0.62269354", "0.62095207", "0.61652607", "0.6067785", "0.6067331", "0.60430384", "0.60430384", "0.60142046", "0.6012585", "0.59662765", "0.59662765", "0.59662765", "0.59662765", "0.5927915", "0.5876502", "0.5874435", "0.5820128", "0.580688", "0.580688", "0.58067733", "0.57837427", "0.57511497", "0.57491976", "0.5746277", "0.57290274", "0.57282186", "0.57232016", "0.5682586", "0.5658022", "0.5651644", "0.5645358", "0.5616435", "0.56064427", "0.5594071", "0.5558988", "0.55555886", "0.5529778", "0.5520887", "0.55176866", "0.551762", "0.551762", "0.55175203", "0.54899156", "0.54862523", "0.54683834", "0.5466563", "0.5461981", "0.5461981", "0.5428001", "0.5412523", "0.53972054", "0.5384928", "0.5384699", "0.53640515", "0.53640515", "0.53515154", "0.53496015", "0.5341889", "0.53407675", "0.53135604", "0.5253881", "0.5248141", "0.5248141", "0.5248141", "0.5245657", "0.5241417", "0.5237614", "0.5234282", "0.5220563", "0.52129227", "0.5211523", "0.5195662", "0.5192232", "0.51914346", "0.51914346", "0.5177287", "0.51665926", "0.51563495", "0.51538455", "0.5147215", "0.5146269", "0.51456434", "0.51446486", "0.5129889", "0.5129719", "0.5129719", "0.5129719", "0.5128732", "0.51287216", "0.5127989", "0.5125757" ]
0.60295254
16
Implements the parsing rules in the Type Definition section. TypeSystemDefinition : SchemaDefinition TypeDefinition TypeExtensionDefinition DirectiveDefinition TypeDefinition : ScalarTypeDefinition ObjectTypeDefinition InterfaceTypeDefinition UnionTypeDefinition EnumTypeDefinition InputObjectTypeDefinition
function parseTypeSystemDefinition(lexer) { if (peek(lexer, _lexer.TokenKind.NAME)) { switch (lexer.token.value) { case 'schema': return parseSchemaDefinition(lexer); case 'scalar': return parseScalarTypeDefinition(lexer); case 'type': return parseObjectTypeDefinition(lexer); case 'interface': return parseInterfaceTypeDefinition(lexer); case 'union': return parseUnionTypeDefinition(lexer); case 'enum': return parseEnumTypeDefinition(lexer); case 'input': return parseInputObjectTypeDefinition(lexer); case 'extend': return parseTypeExtensionDefinition(lexer); case 'directive': return parseDirectiveDefinition(lexer); } } throw unexpected(lexer); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseTypeSystemDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'schema':\n\t return parseSchemaDefinition(lexer);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(lexer);\n\t case 'type':\n\t return parseObjectTypeDefinition(lexer);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(lexer);\n\t case 'union':\n\t return parseUnionTypeDefinition(lexer);\n\t case 'enum':\n\t return parseEnumTypeDefinition(lexer);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(lexer);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(lexer);\n\t case 'directive':\n\t return parseDirectiveDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtension(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n\t // Many definitions begin with a description and require a lookahead.\n\t var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n\t if (keywordToken.kind === _lexer.TokenKind.NAME) {\n\t switch (keywordToken.value) {\n\t case 'schema':\n\t return parseSchemaDefinition(lexer);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(lexer);\n\t case 'type':\n\t return parseObjectTypeDefinition(lexer);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(lexer);\n\t case 'union':\n\t return parseUnionTypeDefinition(lexer);\n\t case 'enum':\n\t return parseEnumTypeDefinition(lexer);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(lexer);\n\t case 'extend':\n\t return parseTypeExtension(lexer);\n\t case 'directive':\n\t return parseDirectiveDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer, keywordToken);\n\t}", "function parseTypeSystemDefinition(lexer$$1) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer$$1) ? lexer$$1.lookahead() : lexer$$1.token;\n\n if (keywordToken.kind === lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer$$1);\n case 'scalar':\n return parseScalarTypeDefinition(lexer$$1);\n case 'type':\n return parseObjectTypeDefinition(lexer$$1);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer$$1);\n case 'union':\n return parseUnionTypeDefinition(lexer$$1);\n case 'enum':\n return parseEnumTypeDefinition(lexer$$1);\n case 'input':\n return parseInputObjectTypeDefinition(lexer$$1);\n case 'extend':\n return parseTypeExtension(lexer$$1);\n case 'directive':\n return parseDirectiveDefinition(lexer$$1);\n }\n }\n\n throw unexpected(lexer$$1, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemDefinition(lexer) {\n // Many definitions begin with a description and require a lookahead.\n var keywordToken = peekDescription(lexer) ? lexer.lookahead() : lexer.token;\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n\n case 'type':\n return parseObjectTypeDefinition(lexer);\n\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n\n case 'union':\n return parseUnionTypeDefinition(lexer);\n\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseTypeDefinition(parser) {\n if (!peek(parser, _lexer.TokenKind.NAME)) {\n throw unexpected(parser);\n }\n switch (parser.token.value) {\n case 'type':\n return parseObjectTypeDefinition(parser);\n case 'interface':\n return parseInterfaceTypeDefinition(parser);\n case 'union':\n return parseUnionTypeDefinition(parser);\n case 'scalar':\n return parseScalarTypeDefinition(parser);\n case 'enum':\n return parseEnumTypeDefinition(parser);\n case 'input':\n return parseInputObjectTypeDefinition(parser);\n default:\n throw unexpected(parser);\n }\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t case 'fragment':\n\t return parseExecutableDefinition(lexer);\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseExecutableDefinition(lexer);\n\t } else if (peekDescription(lexer)) {\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "parseDefinition() {\n if (this.peek(TokenKind.BRACE_L)) {\n return this.parseOperationDefinition();\n } // Many definitions begin with a description and require a lookahead.\n\n const hasDescription = this.peekDescription();\n const keywordToken = hasDescription\n ? this._lexer.lookahead()\n : this._lexer.token;\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return this.parseSchemaDefinition();\n\n case 'scalar':\n return this.parseScalarTypeDefinition();\n\n case 'type':\n return this.parseObjectTypeDefinition();\n\n case 'interface':\n return this.parseInterfaceTypeDefinition();\n\n case 'union':\n return this.parseUnionTypeDefinition();\n\n case 'enum':\n return this.parseEnumTypeDefinition();\n\n case 'input':\n return this.parseInputObjectTypeDefinition();\n\n case 'directive':\n return this.parseDirectiveDefinition();\n }\n\n if (hasDescription) {\n throw syntaxError(\n this._lexer.source,\n this._lexer.token.start,\n 'Unexpected description, descriptions are supported only on type definitions.',\n );\n }\n\n switch (keywordToken.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return this.parseOperationDefinition();\n\n case 'fragment':\n return this.parseFragmentDefinition();\n\n case 'extend':\n return this.parseTypeSystemExtension();\n }\n }\n\n throw this.unexpected(keywordToken);\n }", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n // Note: subscription is an experimental non-spec addition.\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n\n // Note: the Type System IDL is an experimental non-spec addition.\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer$$1) {\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n switch (lexer$$1.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer$$1);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n } else if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer$$1);\n } else if (peekDescription(lexer$$1)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n\n throw unexpected(lexer$$1);\n}", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\n\t // Note: the Type System IDL is an experimental non-spec addition.\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === _lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function Definitions(parent){ \n SchemaCollection.call(this,parent); \n this.nodeType = 'Definitions';\n}", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "parseTypeSystemExtension() {\n const keywordToken = this._lexer.lookahead();\n\n if (keywordToken.kind === TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return this.parseSchemaExtension();\n\n case 'scalar':\n return this.parseScalarTypeExtension();\n\n case 'type':\n return this.parseObjectTypeExtension();\n\n case 'interface':\n return this.parseInterfaceTypeExtension();\n\n case 'union':\n return this.parseUnionTypeExtension();\n\n case 'enum':\n return this.parseEnumTypeExtension();\n\n case 'input':\n return this.parseInputObjectTypeExtension();\n }\n }\n\n throw this.unexpected(keywordToken);\n }", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseTypeSystemExtension(lexer) {\n var keywordToken = lexer.lookahead();\n\n if (keywordToken.kind === _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME) {\n switch (keywordToken.value) {\n case 'schema':\n return parseSchemaExtension(lexer);\n\n case 'scalar':\n return parseScalarTypeExtension(lexer);\n\n case 'type':\n return parseObjectTypeExtension(lexer);\n\n case 'interface':\n return parseInterfaceTypeExtension(lexer);\n\n case 'union':\n return parseUnionTypeExtension(lexer);\n\n case 'enum':\n return parseEnumTypeExtension(lexer);\n\n case 'input':\n return parseInputObjectTypeExtension(lexer);\n }\n }\n\n throw unexpected(lexer, keywordToken);\n}", "function parseObjectTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'type');\n\t var name = parseName(lexer);\n\t var interfaces = parseImplementsInterfaces(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t return {\n\t kind: _kinds.OBJECT_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t interfaces: interfaces,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function mergeTypeDefs (typeDefs) {\n const documents = typeDefs.map((document) => {\n if (typeof document === 'string') {\n return parse(document)\n }\n return document\n })\n const definitions = []\n\n documents.forEach((document) => {\n document.definitions.forEach(definition => {\n switch (definition.kind) {\n case 'ObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'ObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.interfaces = mergeInterfaces(existingDefinition.interfaces, definition.interfaces)\n return\n }\n break\n }\n case 'InterfaceTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InterfaceTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n case 'UnionTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'UnionTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.types = mergeUnionTypes(existingDefinition.types, definition.types)\n return\n }\n break\n }\n case 'EnumTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'EnumTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.values = mergeEnumValues(existingDefinition.values, definition.values)\n return\n }\n break\n }\n case 'InputObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InputObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeInputValues(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n }\n definitions.push(definition)\n })\n })\n\n return {\n kind: 'Document',\n definitions,\n }\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "parseInputObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('input');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const fields = this.parseInputFieldsDefinition();\n return this.node(start, {\n kind: Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description,\n name,\n directives,\n fields,\n });\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'type');\n var name = parseName(lexer$$1);\n var interfaces = parseImplementsInterfaces(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n return {\n kind: kinds.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'input');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseInputFieldsDefinition(lexer);\n\t return {\n\t kind: _kinds.INPUT_OBJECT_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function valueDefinition(definition, scopes) {\n let result;\n //first: is there a value type already there? if so just use that\n if (definition.valueType) {\n return definition.valueType;\n }\n if (definition.typeName && definition.typeName.valueType) {\n return definition.typeName.valueType;\n }\n //otherwise: is there a referencedDeclaration? if so try using that\n let baseDeclarationId = definition.referencedDeclaration;\n debug(\"baseDeclarationId %d\", baseDeclarationId);\n //if there's a referencedDeclaration, we'll use that\n if (baseDeclarationId !== undefined) {\n let baseDeclaration = scopes[baseDeclarationId].definition;\n return baseDeclaration.valueType || baseDeclaration.typeName.valueType;\n }\n //otherwise, we'll need to perform some hackery, similarly to in keyDefinition;\n //we'll have to spoof it up ourselves\n let valueIdentifier = typeIdentifier(definition).match(/^t_mapping\\$_.*?_\\$_(.*)_\\$/)[1];\n //use *non*-greedy match on the key; note that if the key type could include\n //the sequence \"_$_\", this could cause a problem, but they can't; the only\n //valid key types that include dollar signs at all are user-defined types,\n //which contain both \"$_\" and \"_$\" but never \"_$_\".\n // HACK - internal types for memory or storage also seem to be pointers\n valueIdentifier = regularizeTypeIdentifier(valueIdentifier);\n let valueString = typeString(definition).match(/mapping\\(.*? => (.*)\\)( storage)?$/)[1];\n //use *non*-greedy match; note that if the key type could include\n //\"=>\", this could cause a problem, but mappings are not allowed as key\n //types, so this can't come up\n // another HACK - we get away with it because we're only using that one property\n result = lodash_clonedeep_1.default(definition);\n result.typeDescriptions = {\n typeIdentifier: valueIdentifier,\n typeString: valueString\n };\n return result;\n}", "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "function definitionToStoredType(definition, compilationId, compiler, referenceDeclarations) {\n switch (definition.nodeType) {\n case \"StructDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let definingContractName;\n let typeName;\n if (definition.canonicalName.includes(\".\")) {\n [definingContractName, typeName] = definition.canonicalName.split(\".\");\n }\n else {\n typeName = definition.canonicalName;\n //leave definingContractName undefined\n }\n let memberTypes = definition.members.map(member => ({\n name: member.name,\n type: definitionToType(member, compilationId, compiler, null)\n }));\n let definingContract;\n if (referenceDeclarations) {\n let contractDefinition = Object.values(referenceDeclarations).find(node => node.nodeType === \"ContractDefinition\" &&\n node.nodes.some((subNode) => import_1.makeTypeId(subNode.id, compilationId) === id));\n if (contractDefinition) {\n definingContract = (definitionToStoredType(contractDefinition, compilationId, compiler)); //can skip reference declarations\n }\n }\n if (definingContract) {\n return {\n typeClass: \"struct\",\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n definingContract,\n memberTypes\n };\n }\n else {\n return {\n typeClass: \"struct\",\n kind: \"global\",\n id,\n typeName,\n memberTypes\n };\n }\n }\n case \"EnumDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let definingContractName;\n let typeName;\n debug(\"typeName: %s\", typeName);\n if (definition.canonicalName.includes(\".\")) {\n [definingContractName, typeName] = definition.canonicalName.split(\".\");\n }\n else {\n typeName = definition.canonicalName;\n //leave definingContractName undefined\n }\n let options = definition.members.map(member => member.name);\n let definingContract;\n if (referenceDeclarations) {\n let contractDefinition = Object.values(referenceDeclarations).find(node => node.nodeType === \"ContractDefinition\" &&\n node.nodes.some((subNode) => import_1.makeTypeId(subNode.id, compilationId) === id));\n if (contractDefinition) {\n definingContract = (definitionToStoredType(contractDefinition, compilationId, compiler)); //can skip reference declarations\n debug(\"contractDefinition: %o\", contractDefinition);\n debug(\"definingContract: %o\", definingContract);\n }\n }\n if (definingContract) {\n return {\n typeClass: \"enum\",\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n definingContract,\n options\n };\n }\n else {\n return {\n typeClass: \"enum\",\n kind: \"global\",\n id,\n typeName,\n options\n };\n }\n }\n case \"ContractDefinition\": {\n let id = import_1.makeTypeId(definition.id, compilationId);\n let typeName = definition.name;\n let contractKind = definition.contractKind;\n let payable = Utils.isContractPayable(definition);\n return {\n typeClass: \"contract\",\n kind: \"native\",\n id,\n typeName,\n contractKind,\n payable\n };\n }\n }\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "function GetDocumentType(system) {\n var type = \"\";\n const DocTypeToSystemMap = options.SystemMap;\n var MyIndex = -1;\n for (let i = 0; i < DocTypeToSystemMap.length; i++) {\n if (DocTypeToSystemMap[i].system == system) {\n MyIndex = i;\n break;\n }\n };\n if (MyIndex > -1) {\n type = DocTypeToSystemMap[MyIndex].type;\n }\n return type;\n}", "function parse_type() {\n tree.addNode('type', 'branch');\n if (foundTokensCopy[parseCounter][1] == 'int') {\n match('int', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'string') {\n match('string', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'boolean') {\n match('boolean', parseCounter);\n parseCounter++;\n }\n tree.endChildren();\n\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function isDefinitionNode(node) {\n return isExecutableDefinitionNode(node) || isTypeSystemDefinitionNode(node) || isTypeSystemExtensionNode(node);\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function KnownTypeNames(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = context.getDocument().definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var definitionNode = ancestors[2] || parent;\n var isSDL = isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](unknownTypeMessage(typeName, suggestedTypes), node));\n }\n }\n };\n}", "function definitionToType(definition, compilationId, compiler, forceLocation) {\n let typeClass = Utils.typeClass(definition);\n let typeHint = Utils.typeStringWithoutLocation(definition);\n switch (typeClass) {\n case \"bool\":\n return {\n typeClass,\n typeHint\n };\n case \"address\": {\n switch (Compiler.Utils.solidityFamily(compiler)) {\n case \"unknown\": //I guess?\n case \"pre-0.5.0\":\n return {\n typeClass,\n kind: \"general\",\n typeHint\n };\n case \"0.5.x\":\n case \"0.8.x\":\n return {\n typeClass,\n kind: \"specific\",\n payable: Utils.typeIdentifier(definition) === \"t_address_payable\"\n };\n }\n break; //to satisfy typescript\n }\n case \"uint\": {\n let bytes = Utils.specifiedSize(definition);\n return {\n typeClass,\n bits: bytes * 8,\n typeHint\n };\n }\n case \"int\": {\n //typeScript won't let me group these for some reason\n let bytes = Utils.specifiedSize(definition);\n return {\n typeClass,\n bits: bytes * 8,\n typeHint\n };\n }\n case \"fixed\": {\n //typeScript won't let me group these for some reason\n let bytes = Utils.specifiedSize(definition);\n let places = Utils.decimalPlaces(definition);\n return {\n typeClass,\n bits: bytes * 8,\n places,\n typeHint\n };\n }\n case \"ufixed\": {\n let bytes = Utils.specifiedSize(definition);\n let places = Utils.decimalPlaces(definition);\n return {\n typeClass,\n bits: bytes * 8,\n places,\n typeHint\n };\n }\n case \"string\": {\n if (forceLocation === null) {\n return {\n typeClass,\n typeHint\n };\n }\n let location = forceLocation || Utils.referenceType(definition);\n return {\n typeClass,\n location,\n typeHint\n };\n }\n case \"bytes\": {\n let length = Utils.specifiedSize(definition);\n if (length !== null) {\n return {\n typeClass,\n kind: \"static\",\n length,\n typeHint\n };\n }\n else {\n if (forceLocation === null) {\n return {\n typeClass,\n kind: \"dynamic\",\n typeHint\n };\n }\n let location = forceLocation || Utils.referenceType(definition);\n return {\n typeClass,\n kind: \"dynamic\",\n location,\n typeHint\n };\n }\n }\n case \"array\": {\n let baseDefinition = Utils.baseDefinition(definition);\n let baseType = definitionToType(baseDefinition, compilationId, compiler, forceLocation);\n let location = forceLocation || Utils.referenceType(definition);\n if (Utils.isDynamicArray(definition)) {\n if (forceLocation !== null) {\n return {\n typeClass,\n baseType,\n kind: \"dynamic\",\n location,\n typeHint\n };\n }\n else {\n return {\n typeClass,\n baseType,\n kind: \"dynamic\",\n typeHint\n };\n }\n }\n else {\n let length = new bn_js_1.default(Utils.staticLengthAsString(definition));\n if (forceLocation !== null) {\n return {\n typeClass,\n baseType,\n kind: \"static\",\n length,\n location,\n typeHint\n };\n }\n else {\n return {\n typeClass,\n baseType,\n kind: \"static\",\n length,\n typeHint\n };\n }\n }\n }\n case \"mapping\": {\n let keyDefinition = Utils.keyDefinition(definition);\n //note that we can skip the scopes argument here! that's only needed when\n //a general node, rather than a declaration, is being passed in\n let keyType = (definitionToType(keyDefinition, compilationId, compiler, null));\n //suppress the location on the key type (it'll be given as memory but\n //this is meaningless)\n //also, we have to tell TypeScript ourselves that this will be an elementary\n //type; it has no way of knowing that\n debug(\"definition: %O\", definition);\n let valueDefinition = Utils.valueDefinition(definition);\n let valueType = definitionToType(valueDefinition, compilationId, compiler, forceLocation);\n if (forceLocation === null) {\n return {\n typeClass,\n keyType,\n valueType\n };\n }\n return {\n typeClass,\n keyType,\n valueType,\n location: \"storage\"\n };\n }\n case \"function\": {\n //WARNING! This case will not work unless given the actual\n //definition! It should return something *roughly* usable, though.\n let visibility = Utils.visibility(definition); //undefined if bad node\n let mutability = Utils.mutability(definition); //undefined if bad node\n let [inputParameters, outputParameters] = Utils.parameters(definition) || [[], []]; //HACK\n //note: don't force a location on these! use the listed location!\n let inputParameterTypes = inputParameters.map(parameter => definitionToType(parameter, compilationId, compiler));\n let outputParameterTypes = outputParameters.map(parameter => definitionToType(parameter, compilationId, compiler));\n switch (visibility) {\n case \"internal\":\n return {\n typeClass,\n visibility,\n mutability,\n inputParameterTypes,\n outputParameterTypes\n };\n case \"external\":\n return {\n typeClass,\n visibility,\n kind: \"specific\",\n mutability,\n inputParameterTypes,\n outputParameterTypes\n };\n }\n break; //to satisfy typescript\n }\n case \"struct\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let qualifiedName = Utils.typeStringWithoutLocation(definition).match(/struct (.*)/)[1];\n let definingContractName;\n let typeName;\n if (qualifiedName.includes(\".\")) {\n [definingContractName, typeName] = qualifiedName.split(\".\");\n }\n else {\n typeName = qualifiedName;\n //leave definingContractName undefined\n }\n if (forceLocation === null) {\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName\n };\n }\n }\n let location = forceLocation || Utils.referenceType(definition);\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName,\n location\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName,\n location\n };\n }\n }\n case \"enum\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let qualifiedName = Utils.typeStringWithoutLocation(definition).match(/enum (.*)/)[1];\n let definingContractName;\n let typeName;\n if (qualifiedName.includes(\".\")) {\n [definingContractName, typeName] = qualifiedName.split(\".\");\n }\n else {\n typeName = qualifiedName;\n //leave definingContractName undefined\n }\n if (definingContractName) {\n return {\n typeClass,\n kind: \"local\",\n id,\n typeName,\n definingContractName\n };\n }\n else {\n return {\n typeClass,\n kind: \"global\",\n id,\n typeName\n };\n }\n }\n case \"contract\": {\n let id = import_1.makeTypeId(Utils.typeId(definition), compilationId);\n let typeName = Utils.typeStringWithoutLocation(definition).match(/(contract|library|interface) (.*)/)[2]; //note: we use the type string rather than the type identifier\n //in order to avoid having to deal with the underscore problem\n let contractKind = Utils.contractKind(definition);\n return {\n typeClass,\n kind: \"native\",\n id,\n typeName,\n contractKind\n };\n }\n case \"magic\": {\n let typeIdentifier = Utils.typeIdentifier(definition);\n let variable = (typeIdentifier.match(/^t_magic_(.*)$/)[1]);\n return {\n typeClass,\n variable\n };\n }\n }\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "type_spec() {\n const startToken = this.currentToken;\n\n let typeTok = this.currentToken;\n if (typeTok.type === Lexer.TokenTypes.TYPE_INTEGER || typeTok.type === Lexer.TokenTypes.TYPE_REAL || typeTok.type === Lexer.TokenTypes.TYPE_BOOLEAN) {\n this.eat(typeTok.type);\n return new AST.TypeNode(typeTok);\n } else {\n throw new ParserException(`Error processing TYPESPEC: Expecting TYPE_INTEGER, TYPE_REAL, or TYPE_BOOLEAN got ${typeTok.type}`, startToken);\n }\n }", "function parseInputObjectTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'input');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseInputFieldsDefinition(lexer$$1);\n return {\n kind: kinds.INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function classFieldType(chunk, context, bodies, params) {\n const type = context.get(\"type\");\n const options = context.get(\"options\");\n\n const result = convertBasicType(type, options);\n // if result is empty, it's Type or Enum\n return chunk.write(result || type);\n}", "function parse(definition) {\n // tokenize\n let pos = 0;\n function consumeSpaces() {\n let c;\n while (c = definition[pos], [' ', '\\r', '\\n', '\\t'].includes(c)) {\n pos++;\n }\n }\n function consumeCharacter(c) {\n if (definition[pos] !== c) {\n throw new Error(`Unexpected character at position ${pos}. Expected: '${c}', found '${definition[pos]}'`);\n }\n pos++;\n }\n function readProperty() {\n consumeSpaces();\n const prop = { name: '', optional: false, wildcard: false };\n let c;\n while (c = definition[pos], c === '_' || c === '$' || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (prop.name.length > 0 && c >= '0' && c <= '9') || (prop.name.length === 0 && c === '*')) {\n prop.name += c;\n pos++;\n }\n if (prop.name.length === 0) {\n throw new Error(`Property name expected at position ${pos}, found: ${definition.slice(pos, pos + 10)}..`);\n }\n if (definition[pos] === '?') {\n prop.optional = true;\n pos++;\n }\n if (prop.name === '*' || prop.name[0] === '$') {\n prop.optional = true;\n prop.wildcard = true;\n }\n consumeSpaces();\n consumeCharacter(':');\n return prop;\n }\n function readType() {\n consumeSpaces();\n let type = { typeOf: 'any' }, c;\n // try reading simple type first: (string,number,boolean,Date etc)\n let name = '';\n while (c = definition[pos], (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')) {\n name += c;\n pos++;\n }\n if (name.length === 0) {\n if (definition[pos] === '*') {\n // any value\n consumeCharacter('*');\n type.typeOf = 'any';\n }\n else if (['\\'', '\"', '`'].includes(definition[pos])) {\n // Read string value\n type.typeOf = 'string';\n type.value = '';\n const quote = definition[pos];\n consumeCharacter(quote);\n while (c = definition[pos], c && c !== quote) {\n type.value += c;\n pos++;\n }\n consumeCharacter(quote);\n }\n else if (definition[pos] >= '0' && definition[pos] <= '9') {\n // read numeric value\n type.typeOf = 'number';\n let nr = '';\n while (c = definition[pos], c === '.' || c === 'n' || (c >= '0' && c <= '9')) {\n nr += c;\n pos++;\n }\n if (nr.endsWith('n')) {\n type.value = BigInt(nr);\n }\n else if (nr.includes('.')) {\n type.value = parseFloat(nr);\n }\n else {\n type.value = parseInt(nr);\n }\n }\n else if (definition[pos] === '{') {\n // Read object (interface) definition\n consumeCharacter('{');\n type.typeOf = 'object';\n type.instanceOf = Object;\n // Read children:\n type.children = [];\n while (true) {\n const prop = readProperty();\n const types = readTypes();\n type.children.push({ name: prop.name, optional: prop.optional, wildcard: prop.wildcard, types });\n consumeSpaces();\n if (definition[pos] === ';' || definition[pos] === ',') {\n consumeCharacter(definition[pos]);\n consumeSpaces();\n }\n if (definition[pos] === '}') {\n break;\n }\n }\n consumeCharacter('}');\n }\n else if (definition[pos] === '/') {\n // Read regular expression definition\n consumeCharacter('/');\n let pattern = '', flags = '';\n while (c = definition[pos], c !== '/' || pattern.endsWith('\\\\')) {\n pattern += c;\n pos++;\n }\n consumeCharacter('/');\n while (c = definition[pos], ['g', 'i', 'm', 's', 'u', 'y', 'd'].includes(c)) {\n flags += c;\n pos++;\n }\n type.typeOf = 'string';\n type.matches = new RegExp(pattern, flags);\n }\n else {\n throw new Error(`Expected a type definition at position ${pos}, found character '${definition[pos]}'`);\n }\n }\n else if (['string', 'number', 'boolean', 'bigint', 'undefined', 'String', 'Number', 'Boolean', 'BigInt'].includes(name)) {\n type.typeOf = name.toLowerCase();\n }\n else if (name === 'Object' || name === 'object') {\n type.typeOf = 'object';\n type.instanceOf = Object;\n }\n else if (name === 'Date') {\n type.typeOf = 'object';\n type.instanceOf = Date;\n }\n else if (name === 'Binary' || name === 'binary') {\n type.typeOf = 'object';\n type.instanceOf = ArrayBuffer;\n }\n else if (name === 'any') {\n type.typeOf = 'any';\n }\n else if (name === 'null') {\n // This is ignored, null values are not stored in the db (null indicates deletion)\n type.typeOf = 'object';\n type.value = null;\n }\n else if (name === 'Array') {\n // Read generic Array defintion\n consumeCharacter('<');\n type.typeOf = 'object';\n type.instanceOf = Array; //name;\n type.genericTypes = readTypes();\n consumeCharacter('>');\n }\n else if (['true', 'false'].includes(name)) {\n type.typeOf = 'boolean';\n type.value = name === 'true';\n }\n else {\n throw new Error(`Unknown type at position ${pos}: \"${type}\"`);\n }\n // Check if it's an Array of given type (eg: string[] or string[][])\n // Also converts to generics, string[] becomes Array<string>, string[][] becomes Array<Array<string>>\n consumeSpaces();\n while (definition[pos] === '[') {\n consumeCharacter('[');\n consumeCharacter(']');\n type = { typeOf: 'object', instanceOf: Array, genericTypes: [type] };\n }\n return type;\n }\n function readTypes() {\n consumeSpaces();\n const types = [readType()];\n while (definition[pos] === '|') {\n consumeCharacter('|');\n types.push(readType());\n consumeSpaces();\n }\n return types;\n }\n return readType();\n}", "parseEnumTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('enum');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const values = this.parseEnumValuesDefinition();\n return this.node(start, {\n kind: Kind.ENUM_TYPE_DEFINITION,\n description,\n name,\n directives,\n values,\n });\n }", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INPUT_OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function serializeTypeMapping(xmlDoc, name, type) {\n // Create new rule\n var ruleXml = xmlDoc.createElement(\"TransformRule\");\n ruleXml.setAttribute(\"name\", name);\n ruleXml.setAttribute(\"targetProperty\", \"http://www.w3.org/1999/02/22-rdf-syntax-ns#type\");\n\n // Input is the constant type URI\n var transformXml = xmlDoc.createElement(\"TransformInput\");\n transformXml.setAttribute(\"function\", \"constantUri\");\n\n var paramXml = xmlDoc.createElement(\"Param\");\n paramXml.setAttribute(\"name\", \"value\");\n paramXml.setAttribute(\"value\", type);\n\n transformXml.appendChild(paramXml);\n ruleXml.appendChild(transformXml);\n\n // Add to document\n xmlDoc.documentElement.appendChild(ruleXml);\n}", "function parseDefinition(parser) {\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(parser);\n\t }\n\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t switch (parser.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return parseOperationDefinition(parser);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(parser);\n\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'scalar':\n\t case 'enum':\n\t case 'input':\n\t return parseTypeDefinition(parser);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(parser);\n\t }\n\t }\n\n\t throw unexpected(parser);\n\t}", "function parseDefinition(parser) {\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(parser);\n }\n\n if (peek(parser, _lexer.TokenKind.NAME)) {\n switch (parser.token.value) {\n case 'query':\n case 'mutation':\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return parseOperationDefinition(parser);\n\n case 'fragment':\n return parseFragmentDefinition(parser);\n\n case 'type':\n case 'interface':\n case 'union':\n case 'scalar':\n case 'enum':\n case 'input':\n return parseTypeDefinition(parser);\n case 'extend':\n return parseTypeExtensionDefinition(parser);\n }\n }\n\n throw unexpected(parser);\n}", "setupSchema() {\n\t\tfor (const type in this.Definition) {\n\t\t\tif (this.Definition.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.Definition[type];\n\t\t\t\tthis.Schema[type] = oas.compile(typeDef);\n\t\t\t}\n\t\t}\n\t\tfor (const type in this.precompiled) {\n\t\t\tif (this.precompiled.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.precompiled[type];\n\t\t\t\tthis.Schema[type] = typeDef;\n\t\t\t}\n\t\t}\n\t}", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function parseOperationTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var operation = parseOperationType(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseNamedType(lexer);\n\t return {\n\t kind: _kinds.OPERATION_TYPE_DEFINITION,\n\t operation: operation,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}" ]
[ "0.76655704", "0.7429532", "0.7429532", "0.7429532", "0.7429532", "0.7425481", "0.74038315", "0.73311204", "0.726112", "0.7259963", "0.72349787", "0.72349787", "0.72287154", "0.6201402", "0.6171853", "0.61450917", "0.6008277", "0.58167905", "0.56895465", "0.56895465", "0.568156", "0.567697", "0.562782", "0.562782", "0.562782", "0.562782", "0.5607152", "0.5529707", "0.55113816", "0.55113816", "0.55113816", "0.55113816", "0.55113816", "0.55113816", "0.551072", "0.5460011", "0.54484427", "0.5430348", "0.5408539", "0.53931034", "0.53691787", "0.5289791", "0.5289791", "0.5285554", "0.5284273", "0.52495366", "0.5192378", "0.5171843", "0.51638937", "0.51638937", "0.51638937", "0.51638937", "0.51638937", "0.5101915", "0.4998205", "0.49828708", "0.49828708", "0.4962359", "0.4960929", "0.49426806", "0.49361452", "0.49275643", "0.49275643", "0.49206463", "0.49111918", "0.4907657", "0.4892914", "0.4875275", "0.4845933", "0.4835153", "0.4835153", "0.4835153", "0.4835153", "0.4835153", "0.4807058", "0.4805407", "0.4777841", "0.47658452", "0.4763254", "0.47451174", "0.47429007", "0.47306868", "0.4727758", "0.4691317", "0.46624115", "0.46616226", "0.46616226", "0.46581638", "0.46564493", "0.46518013", "0.4622897", "0.4618281", "0.45924908", "0.45713466", "0.45390603" ]
0.768092
4
ScalarTypeDefinition : scalar Name Directives?
function parseScalarTypeDefinition(lexer) { var start = lexer.token; expectKeyword(lexer, 'scalar'); var name = parseName(lexer); var directives = parseDirectives(lexer); return { kind: _kinds.SCALAR_TYPE_DEFINITION, name: name, directives: directives, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseScalarTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('scalar');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.SCALAR_TYPE_DEFINITION,\n description,\n name,\n directives,\n });\n }", "function parseScalarTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'scalar');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.SCALAR_TYPE_DEFINITION,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseScalarTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'scalar');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.SCALAR_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'scalar');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].SCALAR_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'scalar');\n\t var name = parseName(parser);\n\t return {\n\t kind: _kinds.SCALAR_TYPE_DEFINITION,\n\t name: name,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseScalarTypeDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'scalar');\n var name = parseName(parser);\n return {\n kind: _kinds.SCALAR_TYPE_DEFINITION,\n name: name,\n loc: loc(parser, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'scalar');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n if (directives.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'scalar');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t if (directives.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.SCALAR_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "parseScalarTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('scalar');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n\n if (directives.length === 0) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.SCALAR_TYPE_EXTENSION,\n name,\n directives,\n });\n }", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseScalarTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'scalar');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n\n if (directives.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.SCALAR_TYPE_EXTENSION,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "get type() {\n return 'Scalar';\n }", "function _scalar( mixed ) {\n\t\treturn\ttypeof mixed == 'number' && 'number' ||\n\t\t\t\t\t\ttypeof mixed == 'string' && 'string' ||\n\t\t\t\t\t\ttypeof mixed == 'boolean' && 'boolean' ||\n\t\t\t\t\t\ttypeof mixed == 'undefined' && 'undefined' ||\n\t\t\t\t\t\tfalse;\n\t}", "function TypedObjectSetScalar(descr, typedObj, offset, fromValue) {\n assert(DESCR_KIND(descr) === JS_TYPEREPR_SCALAR_KIND,\n \"Expected scalar type descriptor\");\n var type = DESCR_TYPE(descr);\n switch (type) {\n case JS_SCALARTYPEREPR_INT8:\n return Store_int8(typedObj, offset,\n TO_INT32(fromValue) & 0xFF);\n\n case JS_SCALARTYPEREPR_UINT8:\n return Store_uint8(typedObj, offset,\n TO_UINT32(fromValue) & 0xFF);\n\n case JS_SCALARTYPEREPR_UINT8_CLAMPED:\n var v = ClampToUint8(+fromValue);\n return Store_int8(typedObj, offset, v);\n\n case JS_SCALARTYPEREPR_INT16:\n return Store_int16(typedObj, offset,\n TO_INT32(fromValue) & 0xFFFF);\n\n case JS_SCALARTYPEREPR_UINT16:\n return Store_uint16(typedObj, offset,\n TO_UINT32(fromValue) & 0xFFFF);\n\n case JS_SCALARTYPEREPR_INT32:\n return Store_int32(typedObj, offset,\n TO_INT32(fromValue));\n\n case JS_SCALARTYPEREPR_UINT32:\n return Store_uint32(typedObj, offset,\n TO_UINT32(fromValue));\n\n case JS_SCALARTYPEREPR_FLOAT32:\n return Store_float32(typedObj, offset, +fromValue);\n\n case JS_SCALARTYPEREPR_FLOAT64:\n return Store_float64(typedObj, offset, +fromValue);\n }\n\n assert(false, \"Unhandled scalar type: \" + type);\n return undefined;\n}", "function StructType() {}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNames(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var definitionNode = ancestors[2] || parent;\n var isSDL = isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(unknownTypeMessage(typeName, suggestedTypes), node));\n }\n }\n };\n}", "static typeLiteral(value) {\n if (typeof value === 'string') {\n return TypeNames.anyType(`'${value}'`);\n }\n else {\n return TypeNames.anyType(`${value}`);\n }\n }", "function isScalarType(type) {\n return (0, _instanceOf[\"default\"])(type, GraphQLScalarType);\n}", "function isScalarType(type) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(type, GraphQLScalarType);\n}", "function isScalarType(type) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(type, GraphQLScalarType);\n}", "function registerSingleType(customTypeName, customTypeValue) {\n if (typeof customTypeName === 'object') {\n registerTypes(customTypeName);\n return;\n }\n if (typeof customTypeName !== 'string') {\n return;\n }\n \n var typeDefinitions = extensionInterface.getTypeDefinitions(),\n customTypeDefinition,\n composedCustomTypeDefinition,\n schemeAliases,\n matchMode;\n \n if (objKeys(typeDefinitions).indexOf(customTypeName) > -1) {\n throw 'Custom type name \"' + customTypeName + '\" conflicts with existing type name';\n }\n \n if (!/^([0-9a-z_]+)$/.test(customTypeName)) {\n throw 'Type name must only contain lowercase alphanumeric characters and underscore';\n }\n \n if (typeof customTypeValue === 'object' && customTypeValue !== null && ('definition' in customTypeValue)) {\n customTypeDefinition = customTypeValue.definition;\n schemeAliases = customTypeValue.schemeAliases;\n matchMode = customTypeValue.matchMode;\n } else {\n customTypeDefinition = customTypeValue;\n }\n \n if (typeof customTypeDefinition === 'string') {\n customTypeDefinition = composedCustomTypeDefinition = getCustomTypeDefinition(customTypeDefinition, matchMode, customTypeName);\n }\n \n if (typeof customTypeDefinition === 'number') {\n if ((customTypeDefinition & xtype.ANY) !== customTypeDefinition) {\n throw 'Custom extended type composite \\'' + customTypeName + '\\' can only be derived using built-in extended type Ids.';\n }\n } else if (typeof customTypeDefinition === 'object' && customTypeDefinition !== null) {\n if (typeof customTypeDefinition.validator !== 'function') {\n throw 'Custom type \\'' + customTypeName + '\\' definition is missing the validator function.';\n }\n if (composedCustomTypeDefinition !== customTypeDefinition) { // make internal copy of externally supplied object\n composedCustomTypeDefinition = objCreate(null);\n composedCustomTypeDefinition.validator = customTypeDefinition.validator;\n customTypeDefinition = composedCustomTypeDefinition;\n }\n } else if (typeof customTypeDefinition !== 'function') {\n throw 'No valid type definition provided for requested custom type \\'' + customTypeName + '\\'';\n }\n \n var customTypeIdentity = (typeof composedCustomTypeDefinition === 'object' ? composedCustomTypeDefinition.identity\n : typeof customTypeDefinition === 'object' ? customTypeDefinition.validator \n : customTypeDefinition);\n \n var existingTypeName = getTypeWithIdentity(customTypeIdentity);\n \n if (existingTypeName) {\n throw 'Custom type \\'' + customTypeName + '\\' conflicts with other type' +\n ' \\'' + existingTypeName + '\\' with identical definition';\n }\n \n if (schemeAliases) {\n if (typeof schemeAliases !== 'object') {\n throw 'Custom type \"' + customTypeName + '\" scheme aliases is not an object';\n }\n setSchemeAliases(customTypeName, schemeAliases);\n }\n extensionInterface.defineType(customTypeName, customTypeDefinition);\n }", "function isScalarType(type) {\n return Object(_jsutils_instanceOf__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(type, GraphQLScalarType);\n}", "get datatype() {\n return new NamedNode(this.datatypeString);\n }", "get datatype() {\n return new NamedNode(this.datatypeString);\n }", "function createScalarToken(value, context) {\n const { implicitKey = false, indent, inFlow = false, offset = -1, type = 'PLAIN' } = context;\n const source = stringifyString.stringifyString({ type, value }, {\n implicitKey,\n indent: indent > 0 ? ' '.repeat(indent) : '',\n inFlow,\n options: { blockQuote: true, lineWidth: -1 }\n });\n const end = context.end ?? [\n { type: 'newline', offset: -1, indent, source: '\\n' }\n ];\n switch (source[0]) {\n case '|':\n case '>': {\n const he = source.indexOf('\\n');\n const head = source.substring(0, he);\n const body = source.substring(he + 1) + '\\n';\n const props = [\n { type: 'block-scalar-header', offset, indent, source: head }\n ];\n if (!addEndtoBlockProps(props, end))\n props.push({ type: 'newline', offset: -1, indent, source: '\\n' });\n return { type: 'block-scalar', offset, indent, props, source: body };\n }\n case '\"':\n return { type: 'double-quoted-scalar', offset, indent, source, end };\n case \"'\":\n return { type: 'single-quoted-scalar', offset, indent, source, end };\n default:\n return { type: 'scalar', offset, indent, source, end };\n }\n}", "function Type() {}", "function isScalarType(type) {\n return (0, _instanceOf.default)(type, GraphQLScalarType);\n}", "function isScalarType(type) {\n return (0, _instanceOf.default)(type, GraphQLScalarType);\n}", "function KnownTypeNames(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = context.getDocument().definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var definitionNode = ancestors[2] || parent;\n var isSDL = isSDLNode(definitionNode);\n\n if (isSDL && isSpecifiedScalarName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? specifiedScalarsNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](unknownTypeMessage(typeName, suggestedTypes), node));\n }\n }\n };\n}", "function parseTypeExtension(lexer$$1) {\n var keywordToken = lexer$$1.lookahead();\n\n if (keywordToken.kind === lexer.TokenKind.NAME) {\n switch (keywordToken.value) {\n case 'scalar':\n return parseScalarTypeExtension(lexer$$1);\n case 'type':\n return parseObjectTypeExtension(lexer$$1);\n case 'interface':\n return parseInterfaceTypeExtension(lexer$$1);\n case 'union':\n return parseUnionTypeExtension(lexer$$1);\n case 'enum':\n return parseEnumTypeExtension(lexer$$1);\n case 'input':\n return parseInputObjectTypeExtension(lexer$$1);\n }\n }\n\n throw unexpected(lexer$$1, keywordToken);\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_3__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown type \\\"\".concat(typeName, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function isValidScalar(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isScalarType\"])(type)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node), enumTypeSuggestion(type, node)), node));\n return;\n } // Scalars determine if a literal value is valid via parseLiteral() which\n // may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(parseResult)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node)), node));\n }\n } catch (error) {\n // Ensure a reference to the original error is maintained.\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node), error.message), node, undefined, undefined, undefined, error));\n }\n}", "__getTypeLabel() {\n return this.constructor.LabelSingular;\n }", "['@_kind']() {\n super['@_kind']();\n if (this._value.kind) return;\n\n this._value.kind = 'variable';\n }", "function StringType(){\n\tthis.astObject = TextExpression;\n\t\n\tthis.toString = function(){\n\t\treturn 'string'\n\t}\n}", "get_type_id( name ){ return this.names.get( name ); }", "function createReadableTypeName(identifier) {\n return t.conditionalExpression(t.binaryExpression(\"===\", identifier, t.literal(null)), t.literal(\"null\"), t.conditionalExpression(t.logicalExpression(\"&&\", t.binaryExpression(\"instanceof\", identifier, t.identifier(\"Object\")), t.memberExpression(identifier, t.identifier(\"constructor\"))), t.memberExpression(t.memberExpression(identifier, t.identifier(\"constructor\")), t.identifier(\"name\")), t.unaryExpression(\"typeof\", identifier)));\n }", "function Type(){\n\t\t\tthis.array='Array';\n\t\t\tthis.object='object';\n\t\t\tthis.string='string';\n\t\t\tthis.fn='function';\n\t\t\tthis.number='number';\n\t\t}", "parseBindingValueType() {\n\t\tthis.nextIf('punctuation', ':');\n\n\t\treturn this.typestore.getDefinition(this.nextIf('identifier'));\n\t}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var operation = parseOperationType(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseNamedType(lexer$$1);\n return {\n kind: kinds.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer$$1, start)\n };\n}", "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "function BinaryTypeVariable(name) {\n return function($1) {\n return function($2) {\n var tuples = [['$1', K ([]), $1],\n ['$2', K ([]), $2]];\n var test = typeVarPred (tuples.length);\n return _Type (VARIABLE, name, '', 2, null, [], test, tuples);\n };\n };\n }", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "function createTypedLiteral(value, type) {\n if (type && type.termType !== 'NamedNode'){\n type = Parser.factory.namedNode(type);\n }\n return Parser.factory.literal(value, type);\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function variable(name, argumentCount, isBuiltIn, value)\r\n{\r\n\tthis.name = name\r\n\tthis.argumentCount = argumentCount\r\n\tthis.isBuiltIn = isBuiltIn\r\n\tthis.value = value\r\n}", "function typeName(value) {\n {\n // toStringTag is needed for namespaced types like Temporal.Instant\n var hasToStringTag = typeof Symbol === 'function' && Symbol.toStringTag;\n var type = hasToStringTag && value[Symbol.toStringTag] || value.constructor.name || 'Object';\n return type;\n }\n} // $FlowFixMe only called in DEV, so void return is not possible.", "function makeTagTypes(name) {\n const parts = splitOne(name, '::');\n const tag = parts ? parts[1] : name;\n // Translate in the same way for all types, to match Python's generic translation.\n return ['scalar', 'sequence', 'mapping'].map(kind => new jsYaml.Type('!' + tag, {\n kind: kind,\n construct: data => ({[name]: applyOverrides(data, tag, 'parse')}),\n predicate: obj => checkType(obj, name),\n represent: obj => applyOverrides(obj[name], tag, 'dump'),\n }));\n}", "type() { }", "function Literal(node) {\n\t var value = node.value;\n\t if (typeof value === \"string\") return t.stringTypeAnnotation();\n\t if (typeof value === \"number\") return t.numberTypeAnnotation();\n\t if (typeof value === \"boolean\") return t.booleanTypeAnnotation();\n\t if (value === null) return t.voidTypeAnnotation();\n\t if (node.regex) return t.genericTypeAnnotation(t.identifier(\"RegExp\"));\n\t}", "function Literal(node) {\n\t var value = node.value;\n\t if (typeof value === \"string\") return t.stringTypeAnnotation();\n\t if (typeof value === \"number\") return t.numberTypeAnnotation();\n\t if (typeof value === \"boolean\") return t.booleanTypeAnnotation();\n\t if (value === null) return t.voidTypeAnnotation();\n\t if (node.regex) return t.genericTypeAnnotation(t.identifier(\"RegExp\"));\n\t}", "function Type() {\r\n}", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function parseOperationTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var operation = parseOperationType(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseNamedType(lexer);\n\t return {\n\t kind: _kinds.OPERATION_TYPE_DEFINITION,\n\t operation: operation,\n\t type: type,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function renderKind(value) {\n var typeString = typeof value;\n if (/(string)|(undefined)|(number)/.test(typeString)) {\n return typeString;\n }\n return value.$kind;\n }", "function AddTypeReference( subType, subTypeName )\r\n\t{\r\n\t\tmyTypes[ subType ] = subTypeName;\r\n\t}", "function Type() {\n}", "function valueDescriptor(value) {\n if (Array.isArray(value)) {\n return `Array (${value.length ? `${value.length} ${value.length > 1 ? 'elements' : 'element'}` : 'empty'})`;\n }\n\n if (value && typeof value === 'object') {\n const keys = Object.keys(value);\n\n return `Object (${keys.length ? `${keys.length} ${keys.length > 1 ? 'keys' : 'key'}` : 'empty'})`;\n }\n\n return `Scalar (${value === 'null' ? 'null' : typeof value})`;\n}", "function getTypeName(type) {\n if (!type) {\n return type;\n }\n var typeName = lodash_1.startCase(type);\n if (scalarTypeNames.includes(typeName)) {\n return typeName;\n }\n return \"\" + typePrefix + typeName.replace(/\\s+/g, '').replace(/^Sanity/, '');\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function generateTypeNameTransform(context) {\n cache = new Map();\n var schema = context.getSchema();\n var typenameField = {\n kind: 'ScalarField',\n alias: TYPENAME_KEY,\n args: [],\n directives: [],\n handles: null,\n loc: {\n kind: 'Generated'\n },\n metadata: null,\n name: TYPENAME_KEY,\n type: schema.assertScalarFieldType(schema.getNonNullType(schema.expectStringType()))\n };\n return IRTransformer.transform(context, {\n Fragment: visitFragment,\n LinkedField: visitLinkedField,\n InlineFragment: visitInlineFragment\n }, function (node) {\n return {\n typenameField: typenameField\n };\n });\n}", "function parseTypeReference(lexer$$1) {\n var start = lexer$$1.token;\n var type = void 0;\n if (skip(lexer$$1, lexer.TokenKind.BRACKET_L)) {\n type = parseTypeReference(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.BRACKET_R);\n type = {\n kind: kinds.LIST_TYPE,\n type: type,\n loc: loc(lexer$$1, start)\n };\n } else {\n type = parseNamedType(lexer$$1);\n }\n if (skip(lexer$$1, lexer.TokenKind.BANG)) {\n return {\n kind: kinds.NON_NULL_TYPE,\n type: type,\n loc: loc(lexer$$1, start)\n };\n }\n return type;\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function floatScalar(val) {\n if (typeof val === 'number') {\n return val;\n }\n if (typeof val === 'boolean') {\n return val ? 1 : 0;\n }\n if (typeof val === 'string') {\n return parseFloat(val);\n }\n if (val instanceof Char) {\n return val.code;\n }\n }", "function parseTypeDefinition(parser) {\n if (!peek(parser, _lexer.TokenKind.NAME)) {\n throw unexpected(parser);\n }\n switch (parser.token.value) {\n case 'type':\n return parseObjectTypeDefinition(parser);\n case 'interface':\n return parseInterfaceTypeDefinition(parser);\n case 'union':\n return parseUnionTypeDefinition(parser);\n case 'scalar':\n return parseScalarTypeDefinition(parser);\n case 'enum':\n return parseEnumTypeDefinition(parser);\n case 'input':\n return parseInputObjectTypeDefinition(parser);\n default:\n throw unexpected(parser);\n }\n}", "function getSingularSetter( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase 0x1406: return setValue1f; // FLOAT\n\t\tcase 0x8b50: return setValue2fv; // _VEC2\n\t\tcase 0x8b51: return setValue3fv; // _VEC3\n\t\tcase 0x8b52: return setValue4fv; // _VEC4\n\n\t\tcase 0x8b5a: return setValue2fm; // _MAT2\n\t\tcase 0x8b5b: return setValue3fm; // _MAT3\n\t\tcase 0x8b5c: return setValue4fm; // _MAT4\n\n\t\tcase 0x8b5e: return setValueT1; // SAMPLER_2D\n\t\tcase 0x8b60: return setValueT6; // SAMPLER_CUBE\n\n\t\tcase 0x1404: case 0x8b56: return setValue1i; // INT, BOOL\n\t\tcase 0x8b53: case 0x8b57: return setValue2iv; // _VEC2\n\t\tcase 0x8b54: case 0x8b58: return setValue3iv; // _VEC3\n\t\tcase 0x8b55: case 0x8b59: return setValue4iv; // _VEC4\n\n\t}\n\n}", "function getSingularSetter( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase 0x1406: return setValue1f; // FLOAT\n\t\tcase 0x8b50: return setValue2fv; // _VEC2\n\t\tcase 0x8b51: return setValue3fv; // _VEC3\n\t\tcase 0x8b52: return setValue4fv; // _VEC4\n\n\t\tcase 0x8b5a: return setValue2fm; // _MAT2\n\t\tcase 0x8b5b: return setValue3fm; // _MAT3\n\t\tcase 0x8b5c: return setValue4fm; // _MAT4\n\n\t\tcase 0x8b5e: return setValueT1; // SAMPLER_2D\n\t\tcase 0x8b60: return setValueT6; // SAMPLER_CUBE\n\n\t\tcase 0x1404: case 0x8b56: return setValue1i; // INT, BOOL\n\t\tcase 0x8b53: case 0x8b57: return setValue2iv; // _VEC2\n\t\tcase 0x8b54: case 0x8b58: return setValue3iv; // _VEC3\n\t\tcase 0x8b55: case 0x8b59: return setValue4iv; // _VEC4\n\n\t}\n\n}", "function getSingularSetter( type ) {\n\n\tswitch ( type ) {\n\n\t\tcase 0x1406: return setValue1f; // FLOAT\n\t\tcase 0x8b50: return setValue2fv; // _VEC2\n\t\tcase 0x8b51: return setValue3fv; // _VEC3\n\t\tcase 0x8b52: return setValue4fv; // _VEC4\n\n\t\tcase 0x8b5a: return setValue2fm; // _MAT2\n\t\tcase 0x8b5b: return setValue3fm; // _MAT3\n\t\tcase 0x8b5c: return setValue4fm; // _MAT4\n\n\t\tcase 0x8b5e: return setValueT1; // SAMPLER_2D\n\t\tcase 0x8b60: return setValueT6; // SAMPLER_CUBE\n\n\t\tcase 0x1404: case 0x8b56: return setValue1i; // INT, BOOL\n\t\tcase 0x8b53: case 0x8b57: return setValue2iv; // _VEC2\n\t\tcase 0x8b54: case 0x8b58: return setValue3iv; // _VEC3\n\t\tcase 0x8b55: case 0x8b59: return setValue4iv; // _VEC4\n\n\t}\n\n}" ]
[ "0.83981085", "0.8193177", "0.8142972", "0.8129371", "0.8107919", "0.8107919", "0.8107919", "0.8107919", "0.8107919", "0.8044898", "0.8037876", "0.80359125", "0.8035722", "0.8035722", "0.8029403", "0.7966847", "0.6736141", "0.6734414", "0.6731313", "0.6731313", "0.6725698", "0.66206", "0.65812284", "0.65666896", "0.65627396", "0.65627396", "0.65627396", "0.65627396", "0.6555759", "0.63382494", "0.58385736", "0.5657562", "0.5584718", "0.5500264", "0.545207", "0.54055923", "0.53939843", "0.5351121", "0.5351121", "0.5343903", "0.53261024", "0.5302958", "0.5302958", "0.52427894", "0.5180756", "0.51638585", "0.51638585", "0.5128789", "0.5051869", "0.5028042", "0.5008782", "0.5008782", "0.50080377", "0.49821064", "0.49749008", "0.49739075", "0.49693048", "0.49461263", "0.49413347", "0.48997602", "0.48964944", "0.4889617", "0.48843256", "0.4879617", "0.48579633", "0.48509735", "0.4850688", "0.4850688", "0.4850688", "0.4850688", "0.4850688", "0.48339102", "0.48290697", "0.48222873", "0.48163635", "0.4814927", "0.4814927", "0.48108748", "0.48029083", "0.4789403", "0.47841418", "0.47840366", "0.4775016", "0.47659126", "0.4747031", "0.47359094", "0.4730391", "0.47236472", "0.47227156", "0.47227156", "0.47216678", "0.47216582", "0.47205266", "0.47205266", "0.47205266" ]
0.8139874
7
ImplementsInterfaces : implements NamedType+
function parseImplementsInterfaces(lexer) { var types = []; if (lexer.token.value === 'implements') { lexer.advance(); do { types.push(parseNamedType(lexer)); } while (peek(lexer, _lexer.TokenKind.NAME)); } return types; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseImplementsInterfaces(lexer$$1) {\n var types = [];\n if (lexer$$1.token.value === 'implements') {\n lexer$$1.advance();\n do {\n types.push(parseNamedType(lexer$$1));\n } while (peek(lexer$$1, lexer.TokenKind.NAME));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n\t var types = [];\n\t if (lexer.token.value === 'implements') {\n\t lexer.advance();\n\t do {\n\t types.push(parseNamedType(lexer));\n\t } while (peek(lexer, _lexer.TokenKind.NAME));\n\t }\n\t return types;\n\t}", "function parseImplementsInterfaces(lexer) {\n\t var types = [];\n\t if (lexer.token.value === 'implements') {\n\t lexer.advance();\n\t do {\n\t types.push(parseNamedType(lexer));\n\t } while (peek(lexer, _lexer.TokenKind.NAME));\n\t }\n\t return types;\n\t}", "parseImplementsInterfaces() {\n return this.expectOptionalKeyword('implements')\n ? this.delimitedMany(TokenKind.AMP, this.parseNamedType)\n : [];\n }", "function parseImplementsInterfaces(parser) {\n\t var types = [];\n\t if (parser.token.value === 'implements') {\n\t advance(parser);\n\t do {\n\t types.push(parseNamedType(parser));\n\t } while (!peek(parser, _lexer.TokenKind.BRACE_L));\n\t }\n\t return types;\n\t}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (expectOptionalKeyword(lexer, 'implements')) {\n // Optional leading ampersand\n expectOptionalToken(lexer, TokenKind.AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, TokenKind.AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, TokenKind.NAME));\n }\n\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (lexer.token.value === 'implements') {\n lexer.advance(); // Optional leading ampersand\n\n skip(lexer, _lexer.TokenKind.AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer.TokenKind.NAME));\n }\n\n return types;\n}", "function parseImplementsInterfaces(parser) {\n var types = [];\n if (parser.token.value === 'implements') {\n advance(parser);\n do {\n types.push(parseNamedType(parser));\n } while (!peek(parser, _lexer.TokenKind.BRACE_L));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n if (lexer.token.value === 'implements') {\n lexer.advance();\n // Optional leading ampersand\n skip(lexer, _lexer.TokenKind.AMP);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.AMP) ||\n // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer.TokenKind.NAME));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n if (lexer.token.value === 'implements') {\n lexer.advance();\n // Optional leading ampersand\n skip(lexer, _lexer.TokenKind.AMP);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.AMP) ||\n // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer.TokenKind.NAME));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n if (lexer.token.value === 'implements') {\n lexer.advance();\n // Optional leading ampersand\n skip(lexer, _lexer.TokenKind.AMP);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.AMP) ||\n // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer.TokenKind.NAME));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n if (lexer.token.value === 'implements') {\n lexer.advance();\n // Optional leading ampersand\n skip(lexer, _lexer.TokenKind.AMP);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.AMP) ||\n // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer.TokenKind.NAME));\n }\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (expectOptionalKeyword(lexer, 'implements')) {\n // Optional leading ampersand\n expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME));\n }\n\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (expectOptionalKeyword(lexer, 'implements')) {\n // Optional leading ampersand\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME));\n }\n\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (expectOptionalKeyword(lexer, 'implements')) {\n // Optional leading ampersand\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME));\n }\n\n return types;\n}", "function parseImplementsInterfaces(lexer) {\n var types = [];\n\n if (lexer.token.value === 'implements') {\n lexer.advance(); // Optional leading ampersand\n\n skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP) || // Legacy support for the SDL?\n lexer.options.allowLegacySDLImplementsInterfaces && peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME));\n }\n\n return types;\n}", "implements(doesThis, implementThat) {\n const t= this.get(doesThis);\n return t && (t.with && t.with.slots && t.with.slots.indexOf(implementThat)>=0);\n }", "function possibleInterfaces(classNames) { }", "parseInterfaceTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('interface');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.INTERFACE_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function InterfaceExtends(node, print) {\n print.plain(node.id);\n print.plain(node.typeParameters);\n}", "TSClassImplements(node) {\n this.visitTypeNodes(node);\n }", "function addImplementationToInterfaces(impl) {\n\t impl.getInterfaces().forEach(function (type) {\n\t type._implementations.push(impl);\n\t });\n\t}", "function InterfaceMixin(interfaces) {\n interfaces = _lodash2.default.isString(interfaces) ? [interfaces] : interfaces;\n return {\n statics: {\n implementsInterface: function implementsInterface(name) {\n return interfaces.indexOf(name) > -1;\n }\n }\n };\n}", "function InterfaceExtends(node, print) {\n\t print.plain(node.id);\n\t print.plain(node.typeParameters);\n\t}", "function InterfaceExtends(node, print) {\n\t print.plain(node.id);\n\t print.plain(node.typeParameters);\n\t}", "function addImplementationToInterfaces(impl) {\n impl.getInterfaces().forEach(function (type) {\n type._implementations.push(impl);\n });\n}", "function addImplementationToInterfaces(impl) {\n impl.getInterfaces().forEach(function (type) {\n type._implementations.push(impl);\n });\n}", "function parseInterfaceTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'interface');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n return {\n kind: kinds.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "parseInterfaceTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('interface');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n\n if (\n interfaces.length === 0 &&\n directives.length === 0 &&\n fields.length === 0\n ) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.INTERFACE_TYPE_EXTENSION,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function interfaces(names) {\n\n // RESPONSE PLACEHOLDER\n const response = {}\n\n // LOOP THROUGH & ATTACH ABI\n names.forEach(name => {\n response[name] = references[name].abi\n })\n\n return response;\n}", "implement(cls,...interfaces) {\n let clsPrototype = cls.prototype;\n for (let i = 0; i < interfaces.length; i++) {\n \tthis.implementInterface(cls,clsPrototype,interfaces[i])\n }\n return cls;\n }", "function $implements(that, $interface)\n {\n if (!that._interfaces || !($interface instanceof Interface)) return false;\n if (!$.isArray(that._interfaces))\n {\n $.error(\"$implements\", \"The interfaces property should be an Array: \" + that._interfaces);\n }\n\n var i, len = that._interfaces.length;\n for (i = 0; i < len; i++)\n {\n if (that._interfaces[i] === $interface) return true;\n }\n return false;\n }", "function mayImplement(schema, type, typeName) {\n\t var unmodifiedType = getRawType(type);\n\t return unmodifiedType.toString() === typeName || implementsInterface(unmodifiedType, typeName) || isAbstractType(unmodifiedType) && hasConcreteTypeThatImplements(schema, unmodifiedType, typeName);\n\t}", "function _interfaceish(node, print) {\n\t print.plain(node.id);\n\t print.plain(node.typeParameters);\n\t if (node[\"extends\"].length) {\n\t this.push(\" extends \");\n\t print.join(node[\"extends\"], { separator: \", \" });\n\t }\n\t this.space();\n\t print.plain(node.body);\n\t}", "function _interfaceish(node, print) {\n\t print.plain(node.id);\n\t print.plain(node.typeParameters);\n\t if (node[\"extends\"].length) {\n\t this.push(\" extends \");\n\t print.join(node[\"extends\"], { separator: \", \" });\n\t }\n\t this.space();\n\t print.plain(node.body);\n\t}", "function parseInterfaceTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'interface');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t return {\n\t kind: _kinds.INTERFACE_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function _interfaceish(node, print) {\n print.plain(node.id);\n print.plain(node.typeParameters);\n if (node[\"extends\"].length) {\n this.push(\" extends \");\n print.join(node[\"extends\"], { separator: \", \" });\n }\n if (node.mixins && node.mixins.length) {\n this.push(\" mixins \");\n print.join(node.mixins, { separator: \", \" });\n }\n this.space();\n print.plain(node.body);\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "get_interfaces_object() {\n return {\n title: 'Interfaces',\n collapsable: true,\n children: this.interfaces\n }\n }", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'interface');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "addInterface(id, data) {\n this.interfaces[id] = new InterfaceData(data);\n this.interfaceNames.push(data.name);\n }", "function isExtensionInterface(node, context, name) {\n return context.ts.isInterfaceDeclaration(node) /*&& context.ts.isModuleBlock(node.parent)*/ && node.name.text === name;\n}", "TSInterfaceDeclaration(node) {\n this.visitTypeNodes(node);\n }", "function _implement(that, $$interface, caller)\n {\n if (!that._interfaces) {\n Object.defineProperty(that, \"_interfaces\", {\n value: [],\n writable: false,\n configurable: false,\n enumerable: false\n })\n }\n var $methods = $$interface.methods, errors = [], i;\n for (i in $methods)\n {\n if ($methods.hasOwnProperty(i)){\n if ($.isUndefined(that[i]) || !$.isFunction(that[i])) {\n errors.push(i);\n }\n }\n }\n if (errors.length > 0) {\n throw new $.AbstractMethodError(errors.join(\", \") + \"in \" + caller);\n }\n that._interfaces[that._interfaces.length] = $$interface; // Adding an array property \"interfaces\" to obj to store the interfaces implemented.\n }", "getSubclasses(interfaceName) {\n return this._entities.filter((t) => t.interfaces &&\n t.interfaces.length > 0 &&\n t.interfaces[0].name === interfaceName);\n }", "function importInterfaces(objImportTo, objImportFrom, strInnerName) {\n\t//local variables\n\tvar reArgList = /\\([^)]*\\)/;\n\n\t//loop over all properties and methods in the object to import from\n\tfor (var strPropOrMethod in objImportFrom) {\n\t\t//if prop or method starts with an underscore, ignore it ... it is private\n\t\t//Also ignore it if it is overridden in the class we're importing to!\n\t\tif ((strPropOrMethod.substr(0, 1) != \"_\") && (objImportTo[strPropOrMethod] == undefined)) {\n\t\t\t//get the value of the current prop or method\n\t\t\tvar varCurPropOrMethod = objImportFrom[strPropOrMethod];\n\n\t\t\t//if current item is a function\n\t\t\tif ((varCurPropOrMethod != undefined) && (varCurPropOrMethod.constructor == Function)) {\n\t\t\t\t//capture the argument list from the function definition\n\t\t\t\tvar strFuncDefinition = varCurPropOrMethod.toString();\n\t\t\t\tvar strArgList = strFuncDefinition.match(reArgList)[0];\n\n\t\t\t\t//generate a string representing a new function\n\t\t\t\tvar strNewFunction = \"function \" + strArgList + \" { return this.\" + strInnerName + \".\" + strPropOrMethod + strArgList + \";}\";\n\n\t\t\t\t//make the new function a method of the object we're importing into\n\t\t\t\teval(\"objImportTo[strPropOrMethod] = \" + strNewFunction + \";\");\n\t\t\t} else {\n\t\t\t\t//import the property into the \"to\" object\n\t\t\t\tobjImportTo[strPropOrMethod] = objImportFrom[strPropOrMethod];\n\t\t\t} //end if we're dealing with a function or a property\n\t\t} //end if prop/method isn't private\n\t} //next prop/method\n} //end function importInterfaces", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'interface');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t if (directives.length === 0 && fields.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.INTERFACE_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function getSiblingInterfacesIncludingField(type, fieldName) {\n\t var implementingObjects = type.getPossibleTypes().filter(function (t) {\n\t return t instanceof _typeDefinition.GraphQLObjectType;\n\t });\n\n\t var suggestedInterfaces = implementingObjects.reduce(function (acc, t) {\n\t t.getInterfaces().forEach(function (i) {\n\t if (i.getFields()[fieldName] === undefined) {\n\t return;\n\t }\n\t if (acc[i.name] === undefined) {\n\t acc[i.name] = 0;\n\t }\n\t acc[i.name] += 1;\n\t });\n\t return acc;\n\t }, {});\n\t return _Object$keys(suggestedInterfaces).sort(function (a, b) {\n\t return suggestedInterfaces[b] - suggestedInterfaces[a];\n\t });\n\t}", "function JavascriptInterface(interfaces=[]) {\n\n if ( !(interfaces instanceof Array) && !(interfaces instanceof Set)) {\n throw `InvalidArgumentException - expected a Set or an Array, got '${interfaces.toString()}'`;\n }\n\n const interfaceSet = new Set(interfaces);\n // Add the \"__isobjectinstance__\" builtin interface\n interfaceSet.add(\"__isobjectinstance__\");\n\n /// A map where keys are function types (\"classes\") and values are Objects containing\n /// the different interfaces implementations which are registered at Runtime by users' Javascript code\n /// using [JavascriptInterface.prototype.setImplementation()]\n Object.defineProperty(this, \"classMap\", {\n value: new Map(),\n writable: false,\n enumerable: true,\n configurable: false,\n });\n\n /// Defines a set of supported interfaces\n Object.defineProperty(this, \"interfaces\", {\n value: interfaceSet,\n writable: false,\n enumerable: true,\n configurable: false,\n });\n}", "function setupInterfaces() {\n setUpMessageInterface(aliceSimple, bobAor,\n 'alice-message-display',\n 'alice-message-input',\n 'alice-message-button');\n setUpMessageInterface(bobSimple, aliceAor,\n 'bob-message-display',\n 'bob-message-input',\n 'bob-message-button');\n }", "static isInterface(structure) {\r\n return structure.kind === StructureKind_1.StructureKind.Interface;\r\n }", "function InterfaceDeclaration(node, print) {\n this.push(\"interface \");\n this._interfaceish(node, print);\n}", "function testMyInterfaceCall(name) {\n\treturn name;\n}", "createInterface(nameConfigOrCallback, configuror) {\n const configure = typeof nameConfigOrCallback === \"function\" ? nameConfigOrCallback : configuror;\n const friendlyName = typeof nameConfigOrCallback === \"string\" ? nameConfigOrCallback : nameConfigOrCallback && \"friendlyName\" in nameConfigOrCallback ? nameConfigOrCallback.friendlyName || defaultFriendlyName : defaultFriendlyName;\n const respectConnection = typeof nameConfigOrCallback === \"string\" ? false : nameConfigOrCallback && \"respectConnection\" in nameConfigOrCallback ? nameConfigOrCallback.respectConnection || false : false;\n\n const Interface = function (target, property, index) {\n if (target == null || new.target !== undefined) {\n throw new Error(`No registration for interface: '${Interface.friendlyName}'`);\n }\n\n if (property) {\n DI.defineProperty(target, property, Interface, respectConnection);\n } else {\n const annotationParamtypes = DI.getOrCreateAnnotationParamTypes(target);\n annotationParamtypes[index] = Interface;\n }\n };\n\n Interface.$isInterface = true;\n Interface.friendlyName = friendlyName == null ? \"(anonymous)\" : friendlyName;\n\n if (configure != null) {\n Interface.register = function (container, key) {\n return configure(new ResolverBuilder(container, key !== null && key !== void 0 ? key : Interface));\n };\n }\n\n Interface.toString = function toString() {\n return `InterfaceSymbol<${Interface.friendlyName}>`;\n };\n\n return Interface;\n }", "function getSiblingInterfacesIncludingField(type, fieldName) {\n var implementingObjects = type.getPossibleTypes().filter(function (t) {\n return t instanceof _typeDefinition.GraphQLObjectType;\n });\n\n var suggestedInterfaces = implementingObjects.reduce(function (acc, t) {\n t.getInterfaces().forEach(function (i) {\n if (i.getFields()[fieldName] === undefined) {\n return;\n }\n if (acc[i.name] === undefined) {\n acc[i.name] = 0;\n }\n acc[i.name] += 1;\n });\n return acc;\n }, {});\n return _Object$keys(suggestedInterfaces).sort(function (a, b) {\n return suggestedInterfaces[b] - suggestedInterfaces[a];\n });\n}", "function IPrinter() {\r\n\t\tthrow 'Interfaces shouldn`t be instanciated';\r\n\t}", "hasInterface(ifaceName, namespaceName) {\n return !!this.getInterface(ifaceName, namespaceName);\n }", "function InterfaceDeclaration(node, print) {\n\t this.push(\"interface \");\n\t this._interfaceish(node, print);\n\t}", "function InterfaceDeclaration(node, print) {\n\t this.push(\"interface \");\n\t this._interfaceish(node, print);\n\t}", "function setInterfaces() {\n var options = is;\n for (var option in options) {\n if (hasOwnProperty.call(options, option) && is['function'](options[option])) {\n var interfaces = options[option].api || ['not', 'all', 'any'];\n for (var i = 0; i < interfaces.length; i++) {\n if (interfaces[i] === 'not') {\n is.not[option] = not(is[option]);\n }\n if (interfaces[i] === 'all') {\n is.all[option] = all(is[option]);\n }\n if (interfaces[i] === 'any') {\n is.any[option] = any(is[option]);\n }\n }\n }\n }\n }", "function setInterfaces() {\n var options = is;\n for (var option in options) {\n if (hasOwnProperty.call(options, option) && is['function'](options[option])) {\n var interfaces = options[option].api || ['not', 'all', 'any'];\n for (var i = 0; i < interfaces.length; i++) {\n if (interfaces[i] === 'not') {\n is.not[option] = not(is[option]);\n }\n if (interfaces[i] === 'all') {\n is.all[option] = all(is[option]);\n }\n if (interfaces[i] === 'any') {\n is.any[option] = any(is[option]);\n }\n }\n }\n }\n }", "function setInterfaces() {\n var options = is;\n for (var option in options) {\n if (hasOwnProperty.call(options, option) && is['function'](options[option])) {\n var interfaces = options[option].api || ['not', 'all', 'any'];\n for (var i = 0; i < interfaces.length; i++) {\n if (interfaces[i] === 'not') {\n is.not[option] = not(is[option]);\n }\n if (interfaces[i] === 'all') {\n is.all[option] = all(is[option]);\n }\n if (interfaces[i] === 'any') {\n is.any[option] = any(is[option]);\n }\n }\n }\n }\n }", "function isInterface(cell) {\r\n\t\tvar cellSubType = cell.attributes.subtype;\r\n\t\tif(cellSubType === 'out' || cellSubType === 'in') return true;\r\n\t}", "function test_code_generator_checkIfImplementations() {\n var workspace = create_typed_workspace();\n try {\n var prototypes = Object.keys(Blockly.Blocks);\n var blocks = [];\n for (var i = 0, type; type = prototypes[i]; i++) {\n if (!type.match(/\\w+_typed/)) {\n continue;\n }\n blocks.push(workspace.newBlock(type));\n }\n var code = Blockly.TypedLang.workspaceToCode(workspace);\n assertTrue(goog.isString(code));\n } finally {\n workspace.dispose();\n }\n}", "function getSupportedInterfaces(o) {\n const interfaces = [];\n if (o instanceof Window) {\n interfaces.push('Window', 'EventTarget');\n } else if (o instanceof Document) {\n if (o instanceof HTMLDocument) {\n interfaces.push('HTMLDocument');\n }\n interfaces.push('Document', 'Node', 'EventTarget');\n } else if (o instanceof DocumentFragment) {\n interfaces.push('Node', 'EventTarget', 'DocumentFragment');\n } else if (o instanceof Element) {\n if (o instanceof HTMLElement) {\n // Look for all HTMLElement subtypes\n if (o instanceof HTMLAnchorElement) {\n interfaces.push('HTMLAnchorElement');\n } else if (o instanceof HTMLAreaElement) {\n interfaces.push('HTMLAreaElement');\n } else if (o instanceof HTMLMediaElement) {\n if (o instanceof HTMLAudioElement) {\n interfaces.push('HTMLAudioElement');\n } else if (o instanceof HTMLVideoElement) {\n interfaces.push('HTMLVideoElement');\n }\n interfaces.push('HTMLMediaElement');\n } else if (o instanceof HTMLBaseElement) {\n interfaces.push('HTMLBaseElement');\n } else if (o instanceof HTMLButtonElement) {\n interfaces.push('HTMLButtonElement');\n } else if (o instanceof HTMLCanvasElement) {\n interfaces.push('HTMLCanvasElement');\n } else if (o instanceof HTMLTableColElement) {\n interfaces.push('HTMLTableColElement');\n } else if (o instanceof HTMLTableRowElement) {\n interfaces.push('HTMLTableRowElement');\n } else if (o instanceof HTMLModElement) {\n interfaces.push('HTMLModElement');\n } else if (typeof HTMLDetailsElement !== 'undefined' && o instanceof HTMLDetailsElement) {\n interfaces.push('HTMLDetailsElement');\n } else if (o instanceof HTMLEmbedElement) {\n interfaces.push('HTMLEmbedElement');\n } else if (o instanceof HTMLFieldSetElement) {\n interfaces.push('HTMLFieldSetElement');\n } else if (o instanceof HTMLFormElement) {\n interfaces.push('HTMLFormElement');\n } else if (o instanceof HTMLIFrameElement) {\n interfaces.push('HTMLIFrameElement');\n } else if (o instanceof HTMLImageElement) {\n interfaces.push('HTMLImageElement');\n } else if (o instanceof HTMLInputElement) {\n interfaces.push('HTMLInputElement');\n } else if (o instanceof HTMLLabelElement) {\n interfaces.push('HTMLLabelElement');\n } else if (o instanceof HTMLLIElement) {\n interfaces.push('HTMLLIElement');\n } else if (o instanceof HTMLLinkElement) {\n interfaces.push('HTMLLinkElement');\n } else if (o instanceof HTMLMapElement) {\n interfaces.push('HTMLMapElement');\n } else if (o instanceof HTMLMetaElement) {\n interfaces.push('HTMLMetaElement');\n } else if (typeof HTMLMeterElement !== 'undefined' && o instanceof HTMLMeterElement) {\n interfaces.push('HTMLMeterElement');\n } else if (o instanceof HTMLObjectElement) {\n interfaces.push('HTMLObjectElement');\n } else if (o instanceof HTMLOListElement) {\n interfaces.push('HTMLOListElement');\n } else if (o instanceof HTMLOptGroupElement) {\n interfaces.push('HTMLOptGroupElement');\n } else if (o instanceof HTMLOptionElement) {\n interfaces.push('HTMLOptionElement');\n } else if (typeof HTMLOutputElement !== 'undefined' && o instanceof HTMLOutputElement) {\n interfaces.push('HTMLOutputElement');\n } else if (o instanceof HTMLParamElement) {\n interfaces.push('HTMLParamElement');\n } else if (o instanceof HTMLProgressElement) {\n interfaces.push('HTMLProgressElement');\n } else if (o instanceof HTMLQuoteElement) {\n interfaces.push('HTMLQuoteElement');\n } else if (o instanceof HTMLScriptElement) {\n interfaces.push('HTMLScriptElement');\n } else if (o instanceof HTMLSelectElement) {\n interfaces.push('HTMLSelectElement');\n } else if (typeof HTMLSlotElement !== 'undefined' && o instanceof HTMLSlotElement) {\n interfaces.push('HTMLSlotElement');\n } else if (o instanceof HTMLSourceElement) {\n interfaces.push('HTMLSourceElement');\n } else if (o instanceof HTMLTableCellElement) {\n interfaces.push('HTMLTableCellElement');\n } else if (o instanceof HTMLTableElement) {\n interfaces.push('HTMLTableElement');\n } else if (typeof HTMLTemplateElement !== 'undefined' && o instanceof HTMLTemplateElement) {\n interfaces.push('HTMLTemplateElement');\n } else if (o instanceof HTMLTextAreaElement) {\n interfaces.push('HTMLTextAreaElement');\n } else if (o instanceof HTMLTrackElement) {\n interfaces.push('HTMLTrackElement');\n }\n\n if (o instanceof HTMLTableSectionElement) {\n interfaces.push('HTMLTableSectionElement');\n }\n\n interfaces.push('HTMLElement');\n } else if (o instanceof SVGElement) {\n if (o instanceof SVGSVGElement) {\n interfaces.push('SVGSVGElement');\n } else if (o instanceof SVGAngle) {\n interfaces.push('SVGAngle');\n } else if (o instanceof SVGCircleElement) {\n interfaces.push('SVGCircleElement');\n } else if (o instanceof SVGClipPathElement) {\n interfaces.push('SVGClipPathElement');\n } else if (o instanceof SVGDefsElement) {\n interfaces.push('SVGGraphicsElement');\n } else if (o instanceof SVGEllipseElement) {\n interfaces.push('SVGEllipseElement');\n } else if (o instanceof SVGFilterElement) {\n interfaces.push('SVGFilterElement');\n } else if (o instanceof SVGForeignObjectElement) {\n interfaces.push('SVGForeignObjectElement');\n } else if (o instanceof SVGImageElement) {\n interfaces.push('SVGImageElement');\n } else if (o instanceof SVGLength) {\n interfaces.push('SVGLength');\n } else if (o instanceof SVGLengthList) {\n interfaces.push('SVGLengthList');\n } else if (o instanceof SVGLineElement) {\n interfaces.push('SVGLineElement');\n } else if (o instanceof SVGLinearGradientElement) {\n interfaces.push('SVGLinearGradientElement');\n } else if (o instanceof SVGMaskElement) {\n interfaces.push('SVGMaskElement');\n } else if (o instanceof SVGNumber) {\n interfaces.push('SVGNumber');\n } else if (o instanceof SVGNumberList) {\n interfaces.push('SVGNumberList');\n } else if (o instanceof SVGPatternElement) {\n interfaces.push('SVGPatternElement');\n } else if (o instanceof SVGPreserveAspectRatio) {\n interfaces.push('SVGPreserveAspectRatio');\n } else if (o instanceof SVGRadialGradientElement) {\n interfaces.push('SVGRadialGradientElement');\n } else if (o instanceof SVGRect) {\n interfaces.push('SVGRect');\n } else if (o instanceof SVGRectElement) {\n interfaces.push('SVGRectElement');\n } else if (o instanceof SVGScriptElement) {\n interfaces.push('SVGScriptElement');\n } else if (o instanceof SVGStopElement) {\n interfaces.push('SVGStopElement');\n } else if (o instanceof SVGStringList) {\n interfaces.push('SVGStringList');\n } else if (o instanceof SVGStyleElement) {\n interfaces.push('SVGStyleElement');\n } else if (o instanceof SVGTransform) {\n interfaces.push('SVGTransform');\n } else if (o instanceof SVGTransformList) {\n interfaces.push('SVGTransformList');\n } else if (o instanceof SVGUseElement) {\n interfaces.push('SVGUseElement');\n } else if (o instanceof SVGViewElement) {\n interfaces.push('SVGViewElement');\n } else if (o instanceof SVGAnimatedAngle) {\n interfaces.push('SVGAnimatedAngle');\n } else if (o instanceof SVGAnimatedBoolean) {\n interfaces.push('SVGAnimatedBoolean');\n } else if (o instanceof SVGAnimatedEnumeration) {\n interfaces.push('SVGAnimatedEnumeration');\n } else if (o instanceof SVGAnimatedInteger) {\n interfaces.push('SVGAnimatedInteger');\n } else if (o instanceof SVGAnimatedLength) {\n interfaces.push('SVGAnimatedLength');\n } else if (o instanceof SVGAnimatedLengthList) {\n interfaces.push('SVGAnimatedLengthList');\n } else if (o instanceof SVGAnimatedNumber) {\n interfaces.push('SVGAnimatedNumber');\n } else if (o instanceof SVGAnimatedNumberList) {\n interfaces.push('SVGAnimatedNumberList');\n } else if (o instanceof SVGAnimatedPreserveAspectRatio) {\n interfaces.push('SVGAnimatedPreserveAspectRatio');\n } else if (o instanceof SVGAnimatedRect) {\n interfaces.push('SVGAnimatedRect');\n } else if (o instanceof SVGAnimatedString) {\n interfaces.push('SVGAnimatedString');\n } else if (o instanceof SVGAnimatedTransformList) {\n interfaces.push('SVGAnimatedTransformList');\n }\n\n // below may be implemented by multiple types\n if (o instanceof SVGTextContentElement) {\n interfaces.push('SVGTextContentElement');\n }\n if (typeof SVGAnimationElement !== 'undefined' && o instanceof SVGAnimationElement) {\n interfaces.push('SVGAnimationElement');\n }\n if (o instanceof SVGGradientElement) {\n interfaces.push('SVGGradientElement');\n }\n if (typeof SVGGraphicsElement !== 'undefined' && o instanceof SVGGraphicsElement) {\n interfaces.push('SVGGraphicsElement');\n }\n if (typeof SVGGeometryElement !== 'undefined' && o instanceof SVGGeometryElement) {\n interfaces.push('SVGGeometryElement');\n }\n if (o instanceof SVGTextPositioningElement) {\n interfaces.push('SVGTextPositioningElement');\n }\n\n interfaces.push('SVGElement');\n }\n\n interfaces.push('Element', 'Node', 'EventTarget');\n } else if (o instanceof Text) {\n interfaces.push('Text', 'CharacterData', 'Node');\n } else if (o instanceof Comment) {\n interfaces.push('CharacterData', 'Node');\n } else if (o instanceof Attr) {\n interfaces.push('Attr', 'Node', 'EventTarget');\n } else if (o instanceof CanvasRenderingContext2D) {\n interfaces.push('CanvasRenderingContext2D');\n } else if (typeof RTCPeerConnection !== 'undefined' && o instanceof RTCPeerConnection) {\n interfaces.push('RTCPeerConnection');\n }\n\n return interfaces;\n}", "function setInterfaces() {\n var options = is;\n for (var option in options) {\n if (\n hasOwnProperty.call(options, option) &&\n is['function'](options[option])\n ) {\n var interfaces = options[option].api || ['not', 'all', 'any'];\n for (var i = 0; i < interfaces.length; i++) {\n if (interfaces[i] === 'not') {\n is.not[option] = not(is[option]);\n }\n if (interfaces[i] === 'all') {\n is.all[option] = all(is[option]);\n }\n if (interfaces[i] === 'any') {\n is.any[option] = any(is[option]);\n }\n }\n }\n }\n }", "function interfaceFieldType(chunk, context, bodies, params) {\n const type = context.get(\"type\");\n const options = context.get(\"options\");\n\n const result = convertBasicType(type, options);\n if (result) {\n return chunk.write(result);\n }\n\n const resolvedType = context.get(\"resolvedType\");\n if (!resolvedType) {\n return chunk;\n }\n\n // filter enum type\n if (resolvedType instanceof protobuf.Enum) {\n return chunk.write(type);\n }\n\n // By default, it's a message \"interface\" identifier\n return chunk.write(messageNameToInterfaceName(type));\n}", "function InterfaceThis() {\n this.a = 12;\n}", "function getImplementationsIncludingField(type, fieldName) {\n\t return type.getPossibleTypes().filter(function (t) {\n\t return t.getFields()[fieldName] !== undefined;\n\t }).map(function (t) {\n\t return t.name;\n\t }).sort();\n\t}", "function getValidTagNames(namespace, name) {\n if (INTERFACE_TAG_MAPPING[namespace] && INTERFACE_TAG_MAPPING[namespace][name]) {\n return INTERFACE_TAG_MAPPING[namespace][name];\n }\n\n return [];\n}", "function HostDecorator(){}// WARNING: interface has both a type and a value, skipping emit", "getInterfaceMap() {\n return this.cache.getOrAdd('interfaceMap', () => {\n const map = new Map();\n this.enumerateBrsFiles((file) => {\n var _a;\n if ((0, reflection_1.isBrsFile)(file)) {\n for (let iface of file.parser.references.interfaceStatements) {\n const lowerIfaceName = (_a = iface.getName(Parser_1.ParseMode.BrighterScript)) === null || _a === void 0 ? void 0 : _a.toLowerCase();\n //only track classes with a defined name (i.e. exclude nameless malformed classes)\n if (lowerIfaceName) {\n map.set(lowerIfaceName, { item: iface, file: file });\n }\n }\n }\n });\n return map;\n });\n }", "function KnownTypeNames(context) {\n\t return {\n\t // TODO: when validating IDL, re-enable these. Experimental version does not\n\t // add unreferenced types, resulting in false-positive errors. Squelched\n\t // errors for now.\n\t ObjectTypeDefinition: function ObjectTypeDefinition() {\n\t return false;\n\t },\n\t InterfaceTypeDefinition: function InterfaceTypeDefinition() {\n\t return false;\n\t },\n\t UnionTypeDefinition: function UnionTypeDefinition() {\n\t return false;\n\t },\n\t InputObjectTypeDefinition: function InputObjectTypeDefinition() {\n\t return false;\n\t },\n\t NamedType: function NamedType(node) {\n\t var typeName = node.name.value;\n\t var type = context.getSchema().getType(typeName);\n\t if (!type) {\n\t context.reportError(new _error.GraphQLError(unknownTypeMessage(typeName), [node]));\n\t }\n\t }\n\t };\n\t}", "serialize () {\n throw new Error(ERROR_MSG.INTERFACE_IMPL);\n }", "function jv_EmptyInterface() {}", "function InterfaceFtn($log, BaseInterface) {\n var iface = function(config) {\n var ifaceInst = this;\n var config = config || {};\n\n angular.merge(ifaceInst, ifaceInst, new BaseInterface());\n\n ifaceInst.config = {\n groupId : config.groupId || null\n };\n\n ifaceInst.notify = function(eventName) {\n var api = ifaceInst.getObjectAPI();\n api.notify(eventName);\n };\n\n return ifaceInst;\n };\n return iface;\n }" ]
[ "0.75167805", "0.7466684", "0.7466684", "0.73151207", "0.7131874", "0.7095719", "0.70173657", "0.7017177", "0.698607", "0.698607", "0.698607", "0.698607", "0.6984648", "0.693063", "0.693063", "0.68409795", "0.6276432", "0.61391926", "0.597205", "0.585664", "0.5825495", "0.5821304", "0.57942086", "0.5763264", "0.5763264", "0.57530904", "0.57530904", "0.57055426", "0.56832993", "0.568228", "0.5656593", "0.56264484", "0.5590315", "0.5553165", "0.5553165", "0.54527444", "0.5452162", "0.53976977", "0.53971934", "0.53971934", "0.5394452", "0.5394169", "0.53890556", "0.5386537", "0.5386537", "0.5386537", "0.5386537", "0.5386537", "0.5384222", "0.5378467", "0.5342658", "0.52789176", "0.52748096", "0.52731955", "0.52570087", "0.5227137", "0.5223725", "0.5223725", "0.5223302", "0.51653993", "0.5161226", "0.51585567", "0.51513684", "0.51513684", "0.51513684", "0.51513684", "0.5089592", "0.50825644", "0.5041842", "0.50379044", "0.50056076", "0.5005104", "0.4962989", "0.4922479", "0.4915187", "0.48595676", "0.48378444", "0.48378444", "0.48357648", "0.48357648", "0.48357648", "0.4831788", "0.48031205", "0.480286", "0.47797662", "0.47749436", "0.47146732", "0.46860546", "0.46705955", "0.4631747", "0.45921037", "0.45772308", "0.45745644", "0.45381683", "0.45351407" ]
0.74047166
7
FieldDefinition : Name ArgumentsDefinition? : Type Directives?
function parseFieldDefinition(lexer) { var start = lexer.token; var name = parseName(lexer); var args = parseArgumentDefs(lexer); expect(lexer, _lexer.TokenKind.COLON); var type = parseTypeReference(lexer); var directives = parseDirectives(lexer); return { kind: _kinds.FIELD_DEFINITION, name: name, arguments: args, type: type, directives: directives, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseFieldDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n const args = this.parseArgumentDefs();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.FIELD_DEFINITION,\n description,\n name,\n arguments: args,\n type,\n directives,\n });\n }", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "arg(name, type, defaultValue, description) {\n if (!description) {\n /* eslint-disable no-param-reassign */\n description = defaultValue;\n defaultValue = undefined;\n /* eslint-enable no-param-reassign */\n }\n\n invariant(this._field, `arg(...): '${name}' must appear under a field`);\n\n //If the first param is string, we do the normal setup with eh type, default value and description\n if (typeof name === 'string') {\n invariant(!this._field.args[name],\n `arg(...): '${name}' is already defined by ${this._field.name}`);\n\n this._field.args[name] = {name, type, description, defaultValue};\n }\n //if the first param name is not string, we assume it is a complete args definition\n else if(name.name){\n this._field.args[name.name] = name;\n }\n return this;\n }", "function parseFieldDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n var args = parseArgumentDefs(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t var args = parseArgumentDefs(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t description: description,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFieldDefinition(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t var args = parseArgumentDefs(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "visitFieldDefinition() {\n return;\n }", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function getMemberDefinition(spaces, fieldName, val) {\n if (fieldName === undefined) {\n return '';\n }\n return '\\n' + spaces + fieldName + '?:' + getType(val) + ';';\n}", "function parseFieldDefinition(parser) {\n\t var start = parser.token.start;\n\t var name = parseName(parser);\n\t var args = parseArgumentDefs(parser);\n\t expect(parser, _lexer.TokenKind.COLON);\n\t var type = parseType(parser);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t}", "function Field(type, options) {\n this.type = type;\n this.document = options.document;\n this.requisition = options.requisition;\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "visitFieldDefinition(field, details) {\n this.ensureFieldsWrapped(details.objectType)\n field._requiredAuthScopes = this.args.requires\n }", "function parseFieldDefinition(parser) {\n var start = parser.token.start;\n var name = parseName(parser);\n var args = parseArgumentDefs(parser);\n expect(parser, _lexer.TokenKind.COLON);\n var type = parseType(parser);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n loc: loc(parser, start)\n };\n}", "field(name, type, description, resolve) {\n if (typeof description === 'function') {\n /* eslint-disable no-param-reassign */\n resolve = description;\n description = null;\n /* eslint-enable no-param-reassign */\n }\n\n this._saveField();\n if(typeof name === 'string') {\n /// only allowed to update description and resolve\n if (this.fields[name]) {\n this._field = this.fields[name];\n if (description)\n this._field.description = description;\n if (resolve)\n this._field.resolve = resolve;\n if (type)\n this._field.type = type;\n if(name === 'id' && (description || resolve || type))\n console.log(this._field);\n }\n else {\n invariant(type,\n `field(...): '${name}' has an undefined or null type. If you ` +\n `are trying to refer to '${this.name}' then you should use a function`);\n\n this._field = {\n name,\n type,\n description,\n resolve,\n args: {}\n };\n }\n }\n else if(typeof name === 'object'){\n //console.log(name);\n invariant(name.name, 'Must supply a name for graph ql field')\n invariant(name.type, 'Must supply a graphql compatible type');\n if(this.fields[name.name]){\n this._field = this.fields[name.name];\n let {type, description, resolve, args} = name;\n this._field = {...name}\n }\n else\n this._field = {...name};\n }\n return this;\n }", "function isDefinitionOfAnArgument(definition) {\n // {type:'InteractionDefinition',interaction:interaction,signature:{type:'Signature',interface:interface,operator:temp.operator,operand:temp.operand},definitions:(definitions===null?[]:definitions)};\n return definition === \"Argument\";\n}", "function argsDataType() {\n\n}", "function declaringFields() { }", "function Field(val){\n this.value = val;\n}", "function Field(value){\n this.value = value;\n }", "function Field(value){\n this.value = value;\n}", "function Field(value) {\n this.value = value;\n}", "function Field(value) {\n this.value = value;\n}", "define(type, nameOrDef) {\n return new FASTElementDefinition(type, nameOrDef).define().type;\n }", "define(type, nameOrDef) {\n return new FASTElementDefinition(type, nameOrDef).define().type;\n }", "function ProvidedNonNullArguments(context) {\n\t return {\n\t Field: {\n\t // Validate on leave to allow for deeper errors to appear first.\n\t leave: function leave(fieldAST) {\n\t var fieldDef = context.getFieldDef();\n\t if (!fieldDef) {\n\t return false;\n\t }\n\t var argASTs = fieldAST.arguments || [];\n\n\t var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n\t return arg.name.value;\n\t });\n\t fieldDef.args.forEach(function (argDef) {\n\t var argAST = argASTMap[argDef.name];\n\t if (!argAST && argDef.type instanceof _typeDefinition.GraphQLNonNull) {\n\t context.reportError(new _error.GraphQLError(missingFieldArgMessage(fieldAST.name.value, argDef.name, argDef.type), [fieldAST]));\n\t }\n\t });\n\t }\n\t },\n\n\t Directive: {\n\t // Validate on leave to allow for deeper errors to appear first.\n\t leave: function leave(directiveAST) {\n\t var directiveDef = context.getDirective();\n\t if (!directiveDef) {\n\t return false;\n\t }\n\t var argASTs = directiveAST.arguments || [];\n\n\t var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n\t return arg.name.value;\n\t });\n\t directiveDef.args.forEach(function (argDef) {\n\t var argAST = argASTMap[argDef.name];\n\t if (!argAST && argDef.type instanceof _typeDefinition.GraphQLNonNull) {\n\t context.reportError(new _error.GraphQLError(missingDirectiveArgMessage(directiveAST.name.value, argDef.name, argDef.type), [directiveAST]));\n\t }\n\t });\n\t }\n\t }\n\t };\n\t}", "function addFieldDef(key, type, dataGenerator){\n\t\ttype = type || 'string';\n\t\t// Get the default data generator based on the type\n\t\tvar defaultDataGenerator = getDataGenerator(type);\n\t\t// Each field should have a key, a data type, and a function to randomly generate some data\n\t\tfieldDefs[key] = {type: type, getData: dataGenerator || defaultDataGenerator};\n\n\t\treturn fieldDefs[key];\n\t}", "visitFieldDefinition(field) {\n const { resolve = defaultFieldResolver } = field;\n field.resolve = async (...args) => {\n const params = args[1];\n const context = args[2];\n // Validate JWT token first, then put the user id into the context\n // for fast access from the resolvers.\n await setUserInRequestContextFromJwt(context);\n // If a `role` argument is provided, check that the user has access\n // to the organization (assumed to be given by the query/mutation\n // arguments) with the given `role`.\n if (this.args.role)\n await hasUserAccessToOrganization(this.args.role, params, context);\n return resolve.apply(this, args);\n };\n }", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n\n var argNodeMap = Object(_jsutils_keyMap__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var hasValue = void 0;\n var isNull = void 0;\n\n if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var variableName = argumentNode.value.name.value;\n hasValue = variableValues && hasOwnProperty(variableValues, variableName);\n isNull = variableValues && variableValues[variableName] === null;\n } else {\n hasValue = argumentNode != null;\n isNull = argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL;\n }\n\n if (!hasValue && argDef.defaultValue !== undefined) {\n // If no argument was provided where the definition has a default value,\n // use the default value.\n coercedValues[name] = argDef.defaultValue;\n } else if ((!hasValue || isNull) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_10__[\"isNonNullType\"])(argType)) {\n // If no argument or a null value was provided to an argument with a\n // non-null type (required), produce a field error.\n if (isNull) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', argumentNode.value);\n } else if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName = argumentNode.value.name.value;\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(_variableName, \"\\\" \") + 'which was not provided a runtime value.', argumentNode.value);\n } else {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n } else if (hasValue) {\n if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL) {\n // If the explicit value `null` was provided, an entry in the coerced\n // values must exist as the value `null`.\n coercedValues[name] = null;\n } else if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName2 = argumentNode.value.name.value;\n !variableValues ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must exist for hasValue to be true.') : void 0; // Note: This does no further checking that this variable is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n\n coercedValues[name] = variableValues[_variableName2];\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = Object(_utilities_valueFromAST__WEBPACK_IMPORTED_MODULE_7__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectType validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer__WEBPACK_IMPORTED_MODULE_9__[\"print\"])(valueNode), \".\"), argumentNode.value);\n }\n\n coercedValues[name] = coercedValue;\n }\n }\n }\n\n return coercedValues;\n}", "_createDefinition(name: string, dataType: RosDatatype): BinaryDefinition {\n const definition = this._getDefinitions().create(name);\n for (const field of dataType.fields) {\n if (field.isConstant) {\n // ignore constant fields since they have no values in the message's data.\n continue;\n }\n if (!definition.addField(field.type, field.name, field.isArray, field.arrayLength ?? -1)) {\n throw new Error(`Could not add field with type \"${field.type}\"`);\n }\n }\n return definition;\n }", "function Field(value) {\n\tthis.value = value;\n}", "parseField() {\n const start = this._lexer.token;\n const nameOrAlias = this.parseName();\n let alias;\n let name;\n\n if (this.expectOptionalToken(TokenKind.COLON)) {\n alias = nameOrAlias;\n name = this.parseName();\n } else {\n name = nameOrAlias;\n }\n\n return this.node(start, {\n kind: Kind.FIELD,\n alias,\n name,\n arguments: this.parseArguments(false),\n directives: this.parseDirectives(false),\n selectionSet: this.peek(TokenKind.BRACE_L)\n ? this.parseSelectionSet()\n : undefined,\n });\n }", "function ProvidedRequiredArgumentsRule(context) {\n return _objectSpread(_objectSpread({}, ProvidedRequiredArgumentsOnDirectivesRule(context)), {}, {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldNode) {\n var _fieldNode$arguments;\n\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n return false;\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var argNodes = (_fieldNode$arguments = fieldNode.arguments) !== null && _fieldNode$arguments !== void 0 ? _fieldNode$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i2 = 0, _fieldDef$args2 = fieldDef.args; _i2 < _fieldDef$args2.length; _i2++) {\n var argDef = _fieldDef$args2[_i2];\n var argNode = argNodeMap[argDef.name];\n\n if (!argNode && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isRequiredArgument\"])(argDef)) {\n var argTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(argDef.type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Field \\\"\".concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" of type \\\"\").concat(argTypeStr, \"\\\" is required, but it was not provided.\"), fieldNode));\n }\n }\n }\n }\n });\n}", "function ProvidedRequiredArgumentsRule(context) {\n return _objectSpread(_objectSpread({}, ProvidedRequiredArgumentsOnDirectivesRule(context)), {}, {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldNode) {\n var _fieldNode$arguments;\n\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n return false;\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var argNodes = (_fieldNode$arguments = fieldNode.arguments) !== null && _fieldNode$arguments !== void 0 ? _fieldNode$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i2 = 0, _fieldDef$args2 = fieldDef.args; _i2 < _fieldDef$args2.length; _i2++) {\n var argDef = _fieldDef$args2[_i2];\n var argNode = argNodeMap[argDef.name];\n\n if (!argNode && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isRequiredArgument\"])(argDef)) {\n var argTypeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(argDef.type);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Field \\\"\".concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" of type \\\"\").concat(argTypeStr, \"\\\" is required, but it was not provided.\"), fieldNode));\n }\n }\n }\n }\n });\n}", "function _vgField(fieldDef) {\n var opt = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n\n var _a, _b, _c;\n\n var field = fieldDef.field;\n var prefix = opt.prefix;\n var suffix = opt.suffix;\n var argAccessor = ''; // for accessing argmin/argmax field at the end without getting escaped\n\n if (isCount(fieldDef)) {\n field = internalField('count');\n } else {\n var fn;\n\n if (!opt.nofn) {\n if (isOpFieldDef(fieldDef)) {\n fn = fieldDef.op;\n } else {\n var bin = fieldDef.bin,\n aggregate = fieldDef.aggregate,\n timeUnit = fieldDef.timeUnit;\n\n if (isBinning(bin)) {\n fn = binToString(bin);\n suffix = ((_a = opt.binSuffix) !== null && _a !== void 0 ? _a : '') + ((_b = opt.suffix) !== null && _b !== void 0 ? _b : '');\n } else if (aggregate) {\n if (isArgmaxDef(aggregate)) {\n argAccessor = \"[\\\"\".concat(field, \"\\\"]\");\n field = \"argmax_\".concat(aggregate.argmax);\n } else if (isArgminDef(aggregate)) {\n argAccessor = \"[\\\"\".concat(field, \"\\\"]\");\n field = \"argmin_\".concat(aggregate.argmin);\n } else {\n fn = String(aggregate);\n }\n } else if (timeUnit) {\n fn = timeUnitToString(timeUnit);\n suffix = (!contains(['range', 'mid'], opt.binSuffix) && opt.binSuffix || '') + ((_c = opt.suffix) !== null && _c !== void 0 ? _c : '');\n }\n }\n }\n\n if (fn) {\n field = field ? \"\".concat(fn, \"_\").concat(field) : fn;\n }\n }\n\n if (suffix) {\n field = \"\".concat(field, \"_\").concat(suffix);\n }\n\n if (prefix) {\n field = \"\".concat(prefix, \"_\").concat(field);\n }\n\n if (opt.forAs) {\n return removePathFromField(field);\n } else if (opt.expr) {\n // Expression to access flattened field. No need to escape dots.\n return flatAccessWithDatum(field, opt.expr) + argAccessor;\n } else {\n // We flattened all fields so paths should have become dot.\n return replacePathInField(field) + argAccessor;\n }\n }", "function validateDefinition(type, name, def) {\n\n // Basic Validations for type and name here\n if (!_.isString(name)) { throw new Error(type + ' name must be a string!!!'); }\n if (!type) { throw new Error('Failed to validate definition params. Type is null or undefined!!'); }\n\n // Definition checks here\n var error = null;\n var prefix = (type === 'component') ? 'controller' : 'primary';\n\n if (!_.isFunction(def) && _.isEmpty(def)) { error = 'definition is empty and cannot be processed.'; }\n else if (!_.isFunction(def) && !_.isArray(def)) { error = 'definition must be a Function or an Array!!!'; }\n\n if (error) { throw new Error((type + ' [' + name + '] ' + prefix + ' ' + error)); }\n }", "parseArgumentDefs() {\n return this.optionalMany(\n TokenKind.PAREN_L,\n this.parseInputValueDef,\n TokenKind.PAREN_R,\n );\n }", "function InputDefinition() {\n\t this.metadata = {};\n\t this.inputs = {};\n\t }", "function validateArgType(functionName,type,position,argument){validateType(functionName,type,ordinal(position)+\" argument\",argument);}", "function fieldDefs$1(spec) {\n return vals(fieldDefIndex(spec));\n }", "function missingFieldArgMessage(fieldName, argName, type) {\n return 'Field \"' + fieldName + '\" argument \"' + argName + '\" of type ' + ('\"' + String(type) + '\" is required but not provided.');\n}", "function ArgumentsOfCorrectType(context) {\n return {\n Argument: function Argument(node) {\n var argDef = context.getArgument();\n if (argDef) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argDef.type, node.value);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueMessage(node.name.value, argDef.type, (0, _printer.print)(node.value), errors), [node.value]));\n }\n }\n return false;\n }\n };\n}", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === _languageKinds.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n (0, _jsutilsInvariant2['default'])(parentType);\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n }\n }\n } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n }\n }\n }\n }\n };\n}", "function ProvidedRequiredArgumentsRule(context) {\n return _objectSpread(_objectSpread({}, ProvidedRequiredArgumentsOnDirectivesRule(context)), {}, {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldNode) {\n var _fieldNode$arguments;\n\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n return false;\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var argNodes = (_fieldNode$arguments = fieldNode.arguments) !== null && _fieldNode$arguments !== void 0 ? _fieldNode$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i2 = 0, _fieldDef$args2 = fieldDef.args; _i2 < _fieldDef$args2.length; _i2++) {\n var argDef = _fieldDef$args2[_i2];\n var argNode = argNodeMap[argDef.name];\n\n if (!argNode && (0, _definition.isRequiredArgument)(argDef)) {\n var argTypeStr = (0, _inspect.default)(argDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" of type \\\"\").concat(argTypeStr, \"\\\" is required, but it was not provided.\"), fieldNode));\n }\n }\n }\n }\n });\n}", "function ProvidedRequiredArgumentsRule(context) {\n return _objectSpread(_objectSpread({}, ProvidedRequiredArgumentsOnDirectivesRule(context)), {}, {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldNode) {\n var _fieldNode$arguments;\n\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n return false;\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var argNodes = (_fieldNode$arguments = fieldNode.arguments) !== null && _fieldNode$arguments !== void 0 ? _fieldNode$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i2 = 0, _fieldDef$args2 = fieldDef.args; _i2 < _fieldDef$args2.length; _i2++) {\n var argDef = _fieldDef$args2[_i2];\n var argNode = argNodeMap[argDef.name];\n\n if (!argNode && (0, _definition.isRequiredArgument)(argDef)) {\n var argTypeStr = (0, _inspect.default)(argDef.type);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" of type \\\"\").concat(argTypeStr, \"\\\" is required, but it was not provided.\"), fieldNode));\n }\n }\n }\n }\n });\n}", "desc(field) {\r\n\t\treturn this.push('desc', [...arguments]);\r\n\t}", "function isDefinition(node) {\n return node.type === 'definition';\n}", "visitFieldDefinition(field) {\n const requiredRole = this.args.requires;\n // eslint-disable-next-line no-undef\n const { resolve = defaultFieldResolver } = field;\n \n field.resolve = async function (...args) {\n // eslint-disable-next-line prefer-destructuring\n const context = args[2];\n if (!context.me) {\n throw new Error('Unauthenticate User');\n }\n\n const user = await context.models.User.findById(context.me.id);\n const isCheck = await context.models.Role.aggregate([\n {\n $match:{ '_id':user.role}\n },\n {\n $lookup:{\n from :'permissions',\n localField:'permissions._id',\n foreignField: '_id',\n as : 'permissions'\n \n },\n },\n {\n $match:{ 'permissions.name':requiredRole}\n }\n ]);\n \n if (!isCheck || isCheck.length <= 0) {\n throw new Error('Not authorized to perform this operation');\n }\n\n return await resolve.apply(this, args);\n };\n\n }", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === Kind.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _find2.default)(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n !parentType ? (0, _invariant2.default)(0) : void 0;\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name, (0, _suggestionList2.default)(node.name.value, fieldDef.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n } else if (argumentOf.kind === Kind.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _find2.default)(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name, (0, _suggestionList2.default)(node.name.value, directive.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n }\n }\n };\n}", "function missingFieldArgMessage(fieldName, argName, type) {\n return \"Field \\\"\".concat(fieldName, \"\\\" argument \\\"\").concat(argName, \"\\\" of type \") + \"\\\"\".concat(type, \"\\\" is required, but it was not provided.\");\n}", "constructor (def) {\n if (def.struct == null ||\n def.initType == null ||\n def.class == null ||\n def.name == null ||\n def.createType == null\n ) {\n throw new Error('Custom type was not initialized correctly!')\n }\n this.struct = def.struct\n this.initType = def.initType\n this.createType = def.createType\n this.class = def.class\n this.name = def.name\n if (def.appendAdditionalInfo != null) {\n this.appendAdditionalInfo = def.appendAdditionalInfo\n }\n this.parseArguments = (def.parseArguments || function () {\n return [this]\n }).bind(this)\n this.parseArguments.typeDefinition = this\n }", "function argument(arg) \n\t{\n\t if (arg instanceof Array) \n\t {\n\t\tarray(arg,argument);\n\t\treturn;\n\t }\n\n\t if (typeof arg === 'object')\n\t {\n\t\tvar out = {};\n\t\tvar first = true;\n\t\t\n\t\tgenerated.push('dictionary(');\n\n\t\tfor (var k in arg) \n\t\t{\n\t\t if (first) first = false;\n\t\t else comma();\n\t\t \n\t\t string(k);\n\t\t comma();\n\t\t argument(arg[k]);\n\t\t}\n\n\t\tgenerated.push(')');\n\n\t\treturn;\n\t }\n\n\t if (arg.charAt(0) === ':') \n\t {\n\t\tvar key = arg.substring(1);\n\t\t\n\t\tfor (var i = 0; i < args.length; ++i) \n\t\t if (args[i] === key) \n\t\t\treturn generated.push('getArgument(',i,')');\n\n\t\tthrow (\"Unknown argument \" + arg + \" in \" + path + \".\" + name)\n\t }\n\n\t if (arg.charAt(0) === '@') \n\t {\n\t\tvar key = arg.substring(1);\n\n\t\tif (key === '') \n\t\t{\n\t\t generated.push('identity');\n\t\t return;\n\t\t}\n\n\t\tfor (var i = 0; i < model.fields.length; ++i) \n\t\t{\n\t\t if (model.fields[i] === key) \n\t\t {\t\n\t\t\tgenerated.push('getMember(');\n\t\t\tstring(key);\n\t\t\tgenerated.push(')');\n\t\t\treturn;\n\t\t }\n\t\t}\n\n\t\tthrow (\"Unknown field \" + arg + \" in \" + path + \".\" + name)\n\t }\n\n\t return string(arg);\t \n\t}", "constructor(fields, data = {}) {\n fields.forEach((fieldDefinition) => {\n if (typeof fieldDefinition === \"string\") {\n this[fieldDefinition] = this.convertSimpleField(\n data[fieldDefinition],\n null\n );\n } else {\n // fieldDefinition must be an object\n let fieldName = fieldDefinition.name;\n let fieldType = fieldDefinition.type;\n let fieldIsList =\n typeof fieldDefinition.list !== \"undefined\"\n ? fieldDefinition.list\n : false;\n let fieldDefault =\n typeof fieldDefinition.default !== \"undefined\"\n ? this.getDefaultValue(fieldDefinition.default)\n : null;\n let fieldValue = data[fieldName];\n if (fieldIsList) {\n this[fieldName] = fieldValue\n ? fieldValue.map((item) =>\n this.convertField(fieldType, item, fieldDefault)\n )\n : fieldDefault;\n } else {\n this[fieldName] = this.convertField(\n fieldType,\n fieldValue,\n fieldDefault\n );\n }\n }\n });\n }", "function TypeParam(pos) { this.pos = pos }", "function recordArg(value) {\n\n if (options.json) {\n\n // Do our best to corece it into JSON\n if (!sg.isObject(value) && !_.isArray(value)) {\n if (_.isString(value)) {\n value = sg.safeJSONParse(value);\n }\n }\n\n // If still not an Object or Array, might be an error\n if (!sg.isObject(value) && !_.isArray(value)) {\n if (required) {\n self.argErrs = sg.ap(self.argErrs, {code: 'ENOTJSON', ...self.argTypes[defName]});\n return recordArg2(def);\n\n } else {\n value = { __just__ : value };\n }\n }\n }\n\n return recordArg2(value);\n }", "function FieldsOnCorrectType(context) {\n\t return {\n\t Field: function Field(node) {\n\t var type = context.getParentType();\n\t if (type) {\n\t var fieldDef = context.getFieldDef();\n\t if (!fieldDef) {\n\t // This isn't valid. Let's find suggestions, if any.\n\t var suggestedTypes = [];\n\t if ((0, _typeDefinition.isAbstractType)(type)) {\n\t suggestedTypes = getSiblingInterfacesIncludingField(type, node.name.value);\n\t suggestedTypes = suggestedTypes.concat(getImplementationsIncludingField(type, node.name.value));\n\t }\n\t context.reportError(new _error.GraphQLError(undefinedFieldMessage(node.name.value, type.name, suggestedTypes), [node]));\n\t }\n\t }\n\t }\n\t };\n\t}", "function ProvidedNonNullArguments(context) {\n return {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(node) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n return false;\n }\n var argNodes = node.arguments || [];\n\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n fieldDef.args.forEach(function (argDef) {\n var argNode = argNodeMap[argDef.name];\n if (!argNode && argDef.type instanceof _definition.GraphQLNonNull) {\n context.reportError(new _error.GraphQLError(missingFieldArgMessage(node.name.value, argDef.name, argDef.type), [node]));\n }\n });\n }\n },\n\n Directive: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(node) {\n var directiveDef = context.getDirective();\n if (!directiveDef) {\n return false;\n }\n var argNodes = node.arguments || [];\n\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n directiveDef.args.forEach(function (argDef) {\n var argNode = argNodeMap[argDef.name];\n if (!argNode && argDef.type instanceof _definition.GraphQLNonNull) {\n context.reportError(new _error.GraphQLError(missingDirectiveArgMessage(node.name.value, argDef.name, argDef.type), [node]));\n }\n });\n }\n }\n };\n}", "function KnownArgumentNames(context) {\n\t return {\n\t Argument: function Argument(node, key, parent, path, ancestors) {\n\t var argumentOf = ancestors[ancestors.length - 1];\n\t if (argumentOf.kind === _languageKinds.FIELD) {\n\t var fieldDef = context.getFieldDef();\n\t if (fieldDef) {\n\t var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!fieldArgDef) {\n\t var parentType = context.getParentType();\n\t (0, _jsutilsInvariant2['default'])(parentType);\n\t context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n\t }\n\t }\n\t } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n\t var directive = context.getDirective();\n\t if (directive) {\n\t var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!directiveArgDef) {\n\t context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n\t }\n\t }\n\t }\n\t }\n\t };\n\t}", "_createField (name) {\n return new Field(this, name);\n }", "function FieldsOnCorrectTypeRule(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n\n if (type) {\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value; // First determine if there are any suggested types to condition on.\n\n var suggestion = (0, _didYouMean.default)('to use an inline fragment on', getSuggestedTypeNames(schema, type, fieldName)); // If there are no suggested types, then perhaps this was a typo?\n\n if (suggestion === '') {\n suggestion = (0, _didYouMean.default)(getSuggestedFieldNames(type, fieldName));\n } // Report an error, including helpful suggestions.\n\n\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot query field \\\"\".concat(fieldName, \"\\\" on type \\\"\").concat(type.name, \"\\\".\") + suggestion, node));\n }\n }\n }\n };\n}", "function FieldsOnCorrectTypeRule(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n\n if (type) {\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value; // First determine if there are any suggested types to condition on.\n\n var suggestion = (0, _didYouMean.default)('to use an inline fragment on', getSuggestedTypeNames(schema, type, fieldName)); // If there are no suggested types, then perhaps this was a typo?\n\n if (suggestion === '') {\n suggestion = (0, _didYouMean.default)(getSuggestedFieldNames(type, fieldName));\n } // Report an error, including helpful suggestions.\n\n\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot query field \\\"\".concat(fieldName, \"\\\" on type \\\"\").concat(type.name, \"\\\".\") + suggestion, node));\n }\n }\n }\n };\n}", "function FunctionTypeParam(node, print) {\n\t print.plain(node.name);\n\t if (node.optional) this.push(\"?\");\n\t this.push(\":\");\n\t this.space();\n\t print.plain(node.typeAnnotation);\n\t}", "function FunctionTypeParam(node, print) {\n\t print.plain(node.name);\n\t if (node.optional) this.push(\"?\");\n\t this.push(\":\");\n\t this.space();\n\t print.plain(node.typeAnnotation);\n\t}", "function FieldsOnCorrectType(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n if (type) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n // This isn't valid. Let's find suggestions, if any.\n var suggestedTypes = [];\n if ((0, _typeDefinition.isAbstractType)(type)) {\n suggestedTypes = getSiblingInterfacesIncludingField(type, node.name.value);\n suggestedTypes = suggestedTypes.concat(getImplementationsIncludingField(type, node.name.value));\n }\n context.reportError(new _error.GraphQLError(undefinedFieldMessage(node.name.value, type.name, suggestedTypes), [node]));\n }\n }\n }\n };\n}", "function FieldsOnCorrectType(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n if (type) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value;\n // First determine if there are any suggested types to condition on.\n var suggestedTypeNames = getSuggestedTypeNames(schema, type, fieldName);\n // If there are no suggested types, then perhaps this was a typo?\n var suggestedFieldNames = suggestedTypeNames.length !== 0 ? [] : getSuggestedFieldNames(schema, type, fieldName);\n\n // Report an error, including helpful suggestions.\n context.reportError(new _error.GraphQLError(undefinedFieldMessage(fieldName, type.name, suggestedTypeNames, suggestedFieldNames), [node]));\n }\n }\n }\n };\n}", "function vgField(fieldDef, opt = {}) {\n\t let field = fieldDef.field;\n\t const prefix = opt.prefix;\n\t let suffix = opt.suffix;\n\t let argAccessor = ''; // for accessing argmin/argmax field at the end without getting escaped\n\t if (isCount(fieldDef)) {\n\t field = internalField('count');\n\t }\n\t else {\n\t let fn;\n\t if (!opt.nofn) {\n\t if (isOpFieldDef(fieldDef)) {\n\t fn = fieldDef.op;\n\t }\n\t else {\n\t const { bin, aggregate, timeUnit } = fieldDef;\n\t if (isBinning(bin)) {\n\t fn = binToString(bin);\n\t suffix = (opt.binSuffix || '') + (opt.suffix || '');\n\t }\n\t else if (aggregate) {\n\t if (isArgmaxDef(aggregate)) {\n\t argAccessor = `.${field}`;\n\t field = `argmax_${aggregate.argmax}`;\n\t }\n\t else if (isArgminDef(aggregate)) {\n\t argAccessor = `.${field}`;\n\t field = `argmin_${aggregate.argmin}`;\n\t }\n\t else {\n\t fn = String(aggregate);\n\t }\n\t }\n\t else if (timeUnit) {\n\t fn = String(timeUnit);\n\t }\n\t }\n\t }\n\t if (fn) {\n\t field = field ? `${fn}_${field}` : fn;\n\t }\n\t }\n\t if (suffix) {\n\t field = `${field}_${suffix}`;\n\t }\n\t if (prefix) {\n\t field = `${prefix}_${field}`;\n\t }\n\t if (opt.forAs) {\n\t return field;\n\t }\n\t else if (opt.expr) {\n\t // Expression to access flattened field. No need to escape dots.\n\t return flatAccessWithDatum(field, opt.expr) + argAccessor;\n\t }\n\t else {\n\t // We flattened all fields so paths should have become dot.\n\t return replacePathInField(field) + argAccessor;\n\t }\n\t}", "function gqlFieldsResolve(fields) {\n const fieldNames = Object.keys(fields);\n const fieldDefs = {};\n for (const fieldName of fieldNames) {\n const field = fields[fieldName];\n const { type } = field;\n\n fieldDefs[fieldName] = {\n ...field,\n //resolve the fields for args from the args def\n args: gqlFieldsResolve(field.args || {}),\n //if the type is a circular referencing then it was supposed to use function to define it.\n type: typeof type === 'function' ? type() : type\n };\n }\n return fieldDefs;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = (0, _suggestionList.default)(argName, knownArgsNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), argNode));\n }\n }\n });\n}", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = (0, _suggestionList.default)(argName, knownArgsNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), argNode));\n }\n }\n });\n}", "field (field) {\n field.isString = function () {\n return typeof this.value === 'string';\n }\n }", "function FieldsOnCorrectTypeRule(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n\n if (type) {\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value; // First determine if there are any suggested types to condition on.\n\n var suggestion = Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])('to use an inline fragment on', getSuggestedTypeNames(schema, type, fieldName)); // If there are no suggested types, then perhaps this was a typo?\n\n if (suggestion === '') {\n suggestion = Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(getSuggestedFieldNames(type, fieldName));\n } // Report an error, including helpful suggestions.\n\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLError\"](\"Cannot query field \\\"\".concat(fieldName, \"\\\" on type \\\"\").concat(type.name, \"\\\".\") + suggestion, node));\n }\n }\n }\n };\n}", "function FieldsOnCorrectTypeRule(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n\n if (type) {\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value; // First determine if there are any suggested types to condition on.\n\n var suggestion = Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])('to use an inline fragment on', getSuggestedTypeNames(schema, type, fieldName)); // If there are no suggested types, then perhaps this was a typo?\n\n if (suggestion === '') {\n suggestion = Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(getSuggestedFieldNames(type, fieldName));\n } // Report an error, including helpful suggestions.\n\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLError\"](\"Cannot query field \\\"\".concat(fieldName, \"\\\" on type \\\"\").concat(type.name, \"\\\".\") + suggestion, node));\n }\n }\n }\n };\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n }", "add(fields) {\r\n\t\t\tconst addField = (path, options) => {\r\n\t\t\t\tif (obsidian.Field === options || obsidian.Field === options.type) {\r\n\t\t\t\t\tthrow new Error(\"The field type must be a child class of obsidian.Field\");\r\n\t\t\t\t}\r\n\r\n\t\t\t\t// Check if the options param is a Field\r\n\t\t\t\tif (obsidian.Field.isPrototypeOf(options)) {\r\n\t\t\t\t\toptions = {type: options};\r\n\t\t\t\t}\r\n\r\n\t\t\t\t// Make sure the type field is a Field\r\n\t\t\t\tif (!obsidian.Field.isPrototypeOf(options.type)) {\r\n\t\t\t\t\tthrow new Error(\"The type parameter must be an instance of the Field class\");\r\n\t\t\t\t}\r\n\r\n\t\t\t\tthis.schemaFields[path] = new options.type(this, path, options);\r\n\t\t\t}\r\n\r\n\t\t\tconst processFieldDefinition = (definition, prefix = \"\") => {\r\n\t\t\t\tObject.keys(definition).forEach((key) => {\r\n\t\t\t\t\tconst obj = definition[key];\r\n\r\n\t\t\t\t\tif (!obj) {\r\n\t\t\t\t\t\tthrow new Error(`Invalid value for schema path ${prefix+key} in ${this.listName}`);\r\n\t\t\t\t\t}\r\n\r\n\t\t\t\t\tif (isPlainObject(obj) && !obj.type && Object.keys(obj).length) {\r\n\t\t\t\t\t\t// obj is a nested field\r\n\t\t\t\t\t\tprocessFieldDefinition(obj, prefix + key + \".\");\r\n\t\t\t\t\t}\r\n\t\t\t\t\telse {\r\n\t\t\t\t\t\taddField(prefix + key, obj);\r\n\t\t\t\t\t}\r\n\t\t\t\t});\r\n\t\t\t}\r\n\r\n\t\t\t// Recursivly process the field definitions\r\n\t\t\tprocessFieldDefinition(fields);\r\n\t\t}", "function ArgumentsOfCorrectType(context) {\n return {\n Argument: function Argument(argAST) {\n var argDef = context.getArgument();\n if (argDef) {\n var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(argDef.type, argAST.value);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueMessage(argAST.name.value, argDef.type, (0, _languagePrinter.print)(argAST.value), errors), [argAST.value]));\n }\n }\n return false;\n }\n };\n}", "function ArgumentsOfCorrectType(context) {\n\t return {\n\t Argument: function Argument(argAST) {\n\t var argDef = context.getArgument();\n\t if (argDef) {\n\t var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(argDef.type, argAST.value);\n\t if (errors && errors.length > 0) {\n\t context.reportError(new _error.GraphQLError(badValueMessage(argAST.name.value, argDef.type, (0, _languagePrinter.print)(argAST.value), errors), [argAST.value]));\n\t }\n\t }\n\t return false;\n\t }\n\t };\n\t}", "function ProvidedNonNullArguments(context) {\n return {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldAST) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n return false;\n }\n var argASTs = fieldAST.arguments || [];\n\n var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n return arg.name.value;\n });\n fieldDef.args.forEach(function (argDef) {\n var argAST = argASTMap[argDef.name];\n if (!argAST && argDef.type instanceof _typeDefinition.GraphQLNonNull) {\n context.reportError(new _error.GraphQLError(missingFieldArgMessage(fieldAST.name.value, argDef.name, argDef.type), [fieldAST]));\n }\n });\n }\n },\n\n Directive: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(directiveAST) {\n var directiveDef = context.getDirective();\n if (!directiveDef) {\n return false;\n }\n var argASTs = directiveAST.arguments || [];\n\n var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n return arg.name.value;\n });\n directiveDef.args.forEach(function (argDef) {\n var argAST = argASTMap[argDef.name];\n if (!argAST && argDef.type instanceof _typeDefinition.GraphQLNonNull) {\n context.reportError(new _error.GraphQLError(missingDirectiveArgMessage(directiveAST.name.value, argDef.name, argDef.type), [directiveAST]));\n }\n });\n }\n }\n };\n}", "function Field (list, path, options) {\n\n\t// Set field properties and options\n\tthis.list = list;\n\tthis._path = new Path(path);\n\tthis.path = path;\n\n\tthis.type = this.constructor.name;\n\tthis.options = _.defaults({}, options, this.defaults);\n\tthis.label = options.label || utils.keyToLabel(this.path);\n\tthis.typeDescription = options.typeDescription || this.typeDescription || this.type;\n\n\tthis.list.automap(this);\n\n\t// Warn on required fields that aren't initial\n\tif (this.options.required\n\t\t&& this.options.initial === undefined\n\t\t&& this.options.default === undefined\n\t\t&& !this.options.value\n\t\t&& !this.list.get('nocreate')\n\t\t&& this.path !== this.list.mappings.name\n\t) {\n\t\tconsole.error('\\nError: Invalid Configuration\\n\\n'\n\t\t+ 'Field (' + list.key + '.' + path + ') is required but not initial, and has no default or generated value.\\n'\n\t\t+ 'Please provide a default, remove the required setting, or set initial: false to override this error.\\n');\n\t\tprocess.exit(1);\n\t}\n\n\t// if dependsOn and required, set required to a function for validation\n\tif (this.options.dependsOn && this.options.required === true) {\n\t\tvar opts = this.options;\n\t\tthis.options.required = function () {\n\t\t\t// `this` refers to the validating document\n\t\t\tdebug('validate dependsOn required', evalDependsOn(opts.dependsOn, this.toObject()));\n\t\t\treturn evalDependsOn(opts.dependsOn, this.toObject());\n\t\t};\n\t}\n\n\t// Add the field to the schema\n\tthis.addToSchema(this.list.schema);\n\n\t// Add pre-save handler to the list if this field watches others\n\tif (this.options.watch) {\n\t\tthis.list.schema.pre('save', this.getPreSaveWatcher());\n\t}\n\n\t// Convert notes from markdown to html\n\tvar note = null;\n\tObject.defineProperty(this, 'note', {\n\t\tget: function () {\n\t\t\treturn (note === null) ? (note = (this.options.note) ? marked(this.options.note) : '') : note;\n\t\t},\n\t});\n\n}", "addField(fieldDef) {\n let fieldObject = null;\n switch (fieldDef.type.toUpperCase()) {\n case \"TEXT\":\n fieldObject = new Text(fieldDef);\n break;\n\n case \"EMAIL\":\n fieldObject = new Email(fieldDef);\n break;\n\n case \"TEXTAREA\":\n fieldObject = new Textarea(fieldDef);\n break;\n case \"BUTTON\":\n fieldObject = new Button(fieldDef);\n // Is the submit button ?\n if (\n fieldDef.hasOwnProperty(\"buttonType\") &&\n fieldDef.buttonType.toUpperCase() === \"SUBMIT\"\n ) {\n this.submitButton = fieldObject;\n }\n break;\n }\n if (fieldDef.hasOwnProperty(\"placeholder\")) {\n fieldObject.setPlaceholder(fieldDef.placeholder);\n }\n\n this._fieldCollection.addField(fieldDef.id, fieldObject);\n\n return this;\n }", "function SimpleArgs() {\r\n}", "function parseFieldSpecs(input){var specs=[];var tokens=[];var i;var token;if(typeof input==='string'){tokens=input.split(/\\s*,\\s*/);}else if(typeof input==='function'){tokens=[input];}else if($.isArray(input)){tokens=input;}for(i=0;i<tokens.length;i++){token=tokens[i];if(typeof token==='string'){specs.push(token.charAt(0)==='-'?{field:token.substring(1),order:-1}:{field:token,order:1});}else if(typeof token==='function'){specs.push({func:token});}}return specs;}", "function ProvidedRequiredArguments(context) {\n return _objectSpread({}, ProvidedRequiredArgumentsOnDirectives(context), {\n Field: {\n // Validate on leave to allow for deeper errors to appear first.\n leave: function leave(fieldNode) {\n var fieldDef = context.getFieldDef();\n\n if (!fieldDef) {\n return false;\n }\n\n var argNodes = fieldNode.arguments || [];\n var argNodeMap = Object(_jsutils_keyMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = fieldDef.args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var argDef = _step.value;\n var argNode = argNodeMap[argDef.name];\n\n if (!argNode && Object(_type_definition__WEBPACK_IMPORTED_MODULE_4__[\"isRequiredArgument\"])(argDef)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](missingFieldArgMessage(fieldDef.name, argDef.name, Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argDef.type)), fieldNode));\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }\n }\n });\n} // @internal", "function RequiredField() {\n\n }", "function ValidationDefinition() {\n\t this.metadata = {};\n\t this.parameters = {};\n\t }", "function calcMetaDataField_constant(data,params,field)\n{\n var retval = null;\n\n // if there is no target field => null\n // if there is a target field that was not processed as an array => target.field\n // if there is a target field as array, length 0 => null\n // if there is a target field as array, length 1 => target.field[0]\n // if there is a target field as array, length >1 => target.field\n\n if(field.hasOwnProperty('target')) {\n\tif (Array.isArray(field.target)) {\n\t if(field.target.length == 1) {\n\t\tretval = field.target[0];\n\t } else if(field.target.length > 1) {\n\t\tretval = field.target;\n\t }\n\t} else {\n\t retval = field.target;\n\t}\n }\n\n return(retval);\n}", "parseIdent(liberal, isBinding) {\n const ident = super.parseIdent(liberal, isBinding)\n if (this._inFieldValue && ident.name == \"arguments\") this.raise(ident.start, \"A class field initializer may not contain arguments\")\n return ident\n }" ]
[ "0.70443845", "0.64568156", "0.6419295", "0.6314216", "0.6285715", "0.6285715", "0.6285715", "0.6285715", "0.6285715", "0.6277438", "0.6260801", "0.6184807", "0.6102944", "0.60624665", "0.60624665", "0.6043432", "0.60264546", "0.5976885", "0.59559834", "0.59483516", "0.5937761", "0.59011", "0.5825769", "0.5794377", "0.56910807", "0.5479469", "0.5460958", "0.54519874", "0.5423515", "0.5423515", "0.54136646", "0.53802264", "0.5364935", "0.53484887", "0.5344648", "0.5315897", "0.5301553", "0.52997524", "0.5274437", "0.5253156", "0.5253156", "0.5237552", "0.52031565", "0.5195309", "0.5168716", "0.51679546", "0.5167763", "0.51615775", "0.5161313", "0.5160076", "0.5158294", "0.5158294", "0.51505345", "0.5148197", "0.5147037", "0.51420844", "0.5137258", "0.5136187", "0.513601", "0.5131053", "0.5109112", "0.51086044", "0.509691", "0.5093874", "0.5089287", "0.5083423", "0.50632036", "0.50632036", "0.5059927", "0.5059927", "0.5054282", "0.5043745", "0.5031157", "0.5027215", "0.5026719", "0.5026719", "0.50261444", "0.50261444", "0.5015145", "0.50127286", "0.50127286", "0.500769", "0.50058913", "0.5000098", "0.49942562", "0.49894792", "0.4978523", "0.49682406", "0.4967434", "0.49467453", "0.49460775", "0.49455845", "0.49201688", "0.49187994", "0.49165455" ]
0.6231216
15
ArgumentsDefinition : ( InputValueDefinition+ )
function parseArgumentDefs(lexer) { if (!peek(lexer, _lexer.TokenKind.PAREN_L)) { return []; } return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseArgumentDefs() {\n return this.optionalMany(\n TokenKind.PAREN_L,\n this.parseInputValueDef,\n TokenKind.PAREN_R,\n );\n }", "function parseArgumentDefs(lexer$$1) {\n if (!peek(lexer$$1, lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer$$1, lexer.TokenKind.PAREN_L, parseInputValueDef, lexer.TokenKind.PAREN_R);\n}", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n\n var argNodeMap = Object(_jsutils_keyMap__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var hasValue = void 0;\n var isNull = void 0;\n\n if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var variableName = argumentNode.value.name.value;\n hasValue = variableValues && hasOwnProperty(variableValues, variableName);\n isNull = variableValues && variableValues[variableName] === null;\n } else {\n hasValue = argumentNode != null;\n isNull = argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL;\n }\n\n if (!hasValue && argDef.defaultValue !== undefined) {\n // If no argument was provided where the definition has a default value,\n // use the default value.\n coercedValues[name] = argDef.defaultValue;\n } else if ((!hasValue || isNull) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_10__[\"isNonNullType\"])(argType)) {\n // If no argument or a null value was provided to an argument with a\n // non-null type (required), produce a field error.\n if (isNull) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', argumentNode.value);\n } else if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName = argumentNode.value.name.value;\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(_variableName, \"\\\" \") + 'which was not provided a runtime value.', argumentNode.value);\n } else {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n } else if (hasValue) {\n if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL) {\n // If the explicit value `null` was provided, an entry in the coerced\n // values must exist as the value `null`.\n coercedValues[name] = null;\n } else if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName2 = argumentNode.value.name.value;\n !variableValues ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must exist for hasValue to be true.') : void 0; // Note: This does no further checking that this variable is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n\n coercedValues[name] = variableValues[_variableName2];\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = Object(_utilities_valueFromAST__WEBPACK_IMPORTED_MODULE_7__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectType validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer__WEBPACK_IMPORTED_MODULE_9__[\"print\"])(valueNode), \".\"), argumentNode.value);\n }\n\n coercedValues[name] = coercedValue;\n }\n }\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function parseArgumentDefs(lexer) {\n\t if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n\t return [];\n\t }\n\t return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n\t}", "function parseArgumentDefs(lexer) {\n\t if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n\t return [];\n\t }\n\t return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n\t}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, TokenKind.PAREN_L)) {\n return [];\n }\n\n return many(lexer, TokenKind.PAREN_L, parseInputValueDef, TokenKind.PAREN_R);\n}", "function InputDefinition() {\n\t this.metadata = {};\n\t this.inputs = {};\n\t }", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function isDefinitionOfAnArgument(definition) {\n // {type:'InteractionDefinition',interaction:interaction,signature:{type:'Signature',interface:interface,operator:temp.operator,operand:temp.operand},definitions:(definitions===null?[]:definitions)};\n return definition === \"Argument\";\n}", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function parseArgumentDefs(parser) {\n\t if (!peek(parser, _lexer.TokenKind.PAREN_L)) {\n\t return [];\n\t }\n\t return many(parser, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n\t}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L)) {\n return [];\n }\n\n return many(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseInputValueDef, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R);\n}", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && Object.prototype.hasOwnProperty.call(variableValues, variableName) && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === Kind.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _find2.default)(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n !parentType ? (0, _invariant2.default)(0) : void 0;\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name, (0, _suggestionList2.default)(node.name.value, fieldDef.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n } else if (argumentOf.kind === Kind.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _find2.default)(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name, (0, _suggestionList2.default)(node.name.value, directive.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n }\n }\n };\n}", "function argsFor() {\n\n}", "ParameterList_normal(defParameters, _, optRest) {\n const sourceMap = this.args.sourceMap;\n const idContext = this.args.idContext;\n const positional = defParameters.asIteration().toAST(sourceMap, idContext);\n const rest = optRest.numChildren === 1 ?\n optRest.toAST(sourceMap, idContext)[0] : {vararg: null, kwonlyargs: [], kwarg: null, defaults: []};\n \n return new Arguments(this.sourceLoc(sourceMap), this.id(idContext),\n positional.map(i => i.param), rest.vararg, rest.kwonlyargs, rest.kwarg, \n positional.map(i => i.default), rest.defaults);\n }", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L)) {\n return [];\n }\n\n return many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, parseInputValueDef, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R);\n}", "arguments(args, value, context, special) {\n const $args = [];\n const $kwargs = {};\n args.forEach(arg => {\n const v = this.value(value, arg.value, context);\n if (arg instanceof JQLKeywordArgument) {\n $kwargs[arg.name] = v;\n }\n else {\n $args.push(v);\n }\n });\n return Query.parseArgs($args, $kwargs, special);\n }", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L)) {\n return [];\n }\n\n return many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseInputValueDef, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L)) {\n return [];\n }\n\n return many(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_L, parseInputValueDef, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PAREN_R);\n}", "arg(name, type, defaultValue, description) {\n if (!description) {\n /* eslint-disable no-param-reassign */\n description = defaultValue;\n defaultValue = undefined;\n /* eslint-enable no-param-reassign */\n }\n\n invariant(this._field, `arg(...): '${name}' must appear under a field`);\n\n //If the first param is string, we do the normal setup with eh type, default value and description\n if (typeof name === 'string') {\n invariant(!this._field.args[name],\n `arg(...): '${name}' is already defined by ${this._field.name}`);\n\n this._field.args[name] = {name, type, description, defaultValue};\n }\n //if the first param name is not string, we assume it is a complete args definition\n else if(name.name){\n this._field.args[name.name] = name;\n }\n return this;\n }", "function parseArgumentDefs(parser) {\n if (!peek(parser, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(parser, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function storingDefinitions(arg) {\n definitions = arg;\n Output.printHeadingAndArrayElements(\"Definition\", definitions);\n}", "function saludarArgumentos(referencia){\n console.log(arguments);\n}", "function KnownArgumentNames(context) {\n\t return {\n\t Argument: function Argument(node, key, parent, path, ancestors) {\n\t var argumentOf = ancestors[ancestors.length - 1];\n\t if (argumentOf.kind === _languageKinds.FIELD) {\n\t var fieldDef = context.getFieldDef();\n\t if (fieldDef) {\n\t var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!fieldArgDef) {\n\t var parentType = context.getParentType();\n\t (0, _jsutilsInvariant2['default'])(parentType);\n\t context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n\t }\n\t }\n\t } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n\t var directive = context.getDirective();\n\t if (directive) {\n\t var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!directiveArgDef) {\n\t context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n\t }\n\t }\n\t }\n\t }\n\t };\n\t}", "function parseArguments(lexer$$1, isConst) {\n var item = isConst ? parseConstArgument : parseArgument;\n return peek(lexer$$1, lexer.TokenKind.PAREN_L) ? many(lexer$$1, lexer.TokenKind.PAREN_L, item, lexer.TokenKind.PAREN_R) : [];\n}", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === _languageKinds.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n (0, _jsutilsInvariant2['default'])(parentType);\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n }\n }\n } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n }\n }\n }\n }\n };\n}", "function argsDataType() {\n\n}", "funcArguments () {\n let args = [];\n let ch = this.next('(');\n\n while (ch) {\n ch = this.white();\n if (ch === ')') {\n this.next(')');\n return new Arguments(this, args)\n } else {\n args.push(this.expression());\n ch = this.white();\n }\n if (ch !== ')') { this.next(','); }\n }\n\n this.error('Bad arguments to function');\n }", "function ArgumentsOfCorrectType(context) {\n\t return {\n\t Argument: function Argument(argAST) {\n\t var argDef = context.getArgument();\n\t if (argDef) {\n\t var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(argDef.type, argAST.value);\n\t if (errors && errors.length > 0) {\n\t context.reportError(new _error.GraphQLError(badValueMessage(argAST.name.value, argDef.type, (0, _languagePrinter.print)(argAST.value), errors), [argAST.value]));\n\t }\n\t }\n\t return false;\n\t }\n\t };\n\t}", "function receiveArguments()\n{\n if (arguments[0] && arguments[0].designTimeObj)\n {\n DS_DESIGN_TIME_ARG = arguments[0].designTimeObj;\n if (arguments[0].insertObj)\n {\n INSERT_OPTIONS_ARG = arguments[0].insertObj;\n }\n }\n}", "function ArgumentsOfCorrectType(context) {\n return {\n Argument: function Argument(node) {\n var argDef = context.getArgument();\n if (argDef) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argDef.type, node.value);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueMessage(node.name.value, argDef.type, (0, _printer.print)(node.value), errors), [node.value]));\n }\n }\n return false;\n }\n };\n}", "function parseArgument(lexer$$1) {\n var start = lexer$$1.token;\n return {\n kind: kinds.ARGUMENT,\n name: parseName(lexer$$1),\n value: (expect(lexer$$1, lexer.TokenKind.COLON), parseValueLiteral(lexer$$1, false)),\n loc: loc(lexer$$1, start)\n };\n}", "function args() {\n\n}", "function add() {\n\tvar _args = arguejs2.getArguments([{a: Number}, {b: Number}], arguments);\n\n\tconsole.log(\"\" + _args.a + \" + \" + _args.b + \" = \" + (_args.a + _args.b));\n}", "function SimpleArgs() {\r\n}", "parseArguments(isConst) {\n const item = isConst ? this.parseConstArgument : this.parseArgument;\n return this.optionalMany(TokenKind.PAREN_L, item, TokenKind.PAREN_R);\n }", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = (0, _suggestionList.default)(argName, knownArgsNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), argNode));\n }\n }\n });\n}", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = (0, _suggestionList.default)(argName, knownArgsNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + (0, _didYouMean.default)(suggestions), argNode));\n }\n }\n });\n}", "function getArgumentValues(argDefs, argASTs, variableValues) {\n\t if (!argDefs || !argASTs) {\n\t return {};\n\t }\n\t var argASTMap = (0, _keyMap2.default)(argASTs, function (arg) {\n\t return arg.name.value;\n\t });\n\t return argDefs.reduce(function (result, argDef) {\n\t var name = argDef.name;\n\t var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n\t var value = (0, _valueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n\t if ((0, _isNullish2.default)(value)) {\n\t value = argDef.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(value)) {\n\t result[name] = value;\n\t }\n\t return result;\n\t }, {});\n\t}", "arguments(desc) {\n return this.parseExpectedArgs(desc.split(/ +/));\n }", "function ArgumentsOfCorrectType(context) {\n return {\n Argument: function Argument(argAST) {\n var argDef = context.getArgument();\n if (argDef) {\n var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(argDef.type, argAST.value);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueMessage(argAST.name.value, argDef.type, (0, _languagePrinter.print)(argAST.value), errors), [argAST.value]));\n }\n }\n return false;\n }\n };\n}", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function parseArguments() {\n\t var args = [], expr;\n\n\t expect('(');\n\n\t if (!match(')')) {\n\t while (startIndex < length) {\n\t if (match('...')) {\n\t expr = new Node();\n\t lex();\n\t expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n\t } else {\n\t expr = isolateCoverGrammar(parseAssignmentExpression);\n\t }\n\t args.push(expr);\n\t if (match(')')) {\n\t break;\n\t }\n\t expectCommaSeparator();\n\t }\n\t }\n\n\t expect(')');\n\n\t return args;\n\t }", "function insertArgsValues(input){\n var argIndex=0;\n while (input.length>0){\n if (input[0]=='['){\n var endArg = input.indexOf(']')+1;\n globals.set(functionArgs[argIndex].arg+'', input.substring(0, endArg));\n argIndex++;\n if (endArg<input.length) { //has more arguments\n input=input.substring(endArg+1);}\n else\n break;}\n else{\n var psikIndex=input.indexOf(','); //has an argument\n if (psikIndex>-1){\n globals.set(functionArgs[argIndex].arg+'', input.substring(0, psikIndex));\n input=input.substring(psikIndex+1);\n argIndex++;}\n else {\n globals.set(functionArgs[argIndex].arg + '', input); //last argument\n break;}}}}", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argName, knownArgsNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestions), argNode));\n }\n }\n });\n}", "function KnownArgumentNamesRule(context) {\n return _objectSpread(_objectSpread({}, KnownArgumentNamesOnDirectivesRule(context)), {}, {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n var suggestions = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argName, knownArgsNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"Unknown argument \\\"\".concat(argName, \"\\\" on field \\\"\").concat(parentType.name, \".\").concat(fieldDef.name, \"\\\".\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestions), argNode));\n }\n }\n });\n}", "function Arguments(args, categories) {\n if (args === void 0) { args = {}; }\n if (categories === void 0) { categories = {}; }\n /**\n * ``[key => value]`` pairs\n */\n this.args = {};\n this.changes = [];\n this.args = $clone(args);\n this.categories = {};\n for (var category in categories) {\n var keys = categories[category];\n for (var _i = 0, keys_1 = keys; _i < keys_1.length; _i++) {\n var key = keys_1[_i];\n this.categories[key] = category;\n }\n }\n }", "function parseArgument(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n expectToken(lexer, TokenKind.COLON);\n return {\n kind: Kind.ARGUMENT,\n name: name,\n value: parseValueLiteral(lexer, false),\n loc: loc(lexer, start)\n };\n}", "function Rectangle(x) {\n console.log(x);\n console.log(arguments);\n let example = () => {\n let numbers = [];\n for (let number of arguments) {\n numbers.push(number * number);\n }\n return numbers;\n }\n return example();\n}", "function X(a) {\n a = 5;\n arguments[1] = 12;\n console.log(arguments)\n}", "function ArrayArgument() {\n this.args = [];\n}", "function ArrayArgument() {\n this.args = [];\n}", "function parseInputValueDef(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer$$1);\n var defaultValue = void 0;\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer$$1);\n }\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "arguments(desc) {\n return this._parseExpectedArgs(desc.split(/ +/));\n }", "function getArguments() {\n return arguments;\n}", "function get_arg() { return arguments; }", "parseArgument(isConst = false) {\n const start = this._lexer.token;\n const name = this.parseName();\n this.expectToken(TokenKind.COLON);\n return this.node(start, {\n kind: Kind.ARGUMENT,\n name,\n value: this.parseValueLiteral(isConst),\n });\n }", "function getArgumentValues(argDefs, argASTs, variableValues) {\n if (!argDefs || !argASTs) {\n return {};\n }\n var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n return arg.name.value;\n });\n return argDefs.reduce(function (result, argDef) {\n var name = argDef.name;\n var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n var value = (0, _utilitiesValueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n if ((0, _jsutilsIsNullish2['default'])(value)) {\n value = argDef.defaultValue;\n }\n if (!(0, _jsutilsIsNullish2['default'])(value)) {\n result[name] = value;\n }\n return result;\n }, {});\n}", "function KnownArgumentNames(context) {\n return _objectSpread({}, KnownArgumentNamesOnDirectives(context), {\n Argument: function Argument(argNode) {\n var argDef = context.getArgument();\n var fieldDef = context.getFieldDef();\n var parentType = context.getParentType();\n\n if (!argDef && fieldDef && parentType) {\n var argName = argNode.name.value;\n var knownArgsNames = fieldDef.args.map(function (arg) {\n return arg.name;\n });\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](unknownArgMessage(argName, fieldDef.name, parentType.name, Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argName, knownArgsNames)), argNode));\n }\n }\n });\n} // @internal", "function f_arg (arguments)\n{\n return arguments;\n}", "function parameterValue(def, value, scope) {\n var type = def.type;\n\n if ((0,_util__WEBPACK_IMPORTED_MODULE_1__.isSignal)(value)) {\n return isExpr(type) ? (0,vega_util__WEBPACK_IMPORTED_MODULE_4__.error)('Expression references can not be signals.')\n : isField(type) ? scope.fieldRef(value)\n : isCompare(type) ? scope.compareRef(value)\n : scope.signalRef(value.signal);\n } else {\n var expr = def.expr || isField(type);\n return expr && outerExpr(value) ? (0,_expression__WEBPACK_IMPORTED_MODULE_0__.default)(value.expr, scope)\n : expr && outerField(value) ? (0,_util__WEBPACK_IMPORTED_MODULE_1__.fieldRef)(value.field)\n : isExpr(type) ? (0,_expression__WEBPACK_IMPORTED_MODULE_0__.default)(value, scope)\n : isData(type) ? (0,_util__WEBPACK_IMPORTED_MODULE_1__.ref)(scope.getData(value).values)\n : isField(type) ? (0,_util__WEBPACK_IMPORTED_MODULE_1__.fieldRef)(value)\n : isCompare(type) ? scope.compareRef(value)\n : value;\n }\n}", "function recordArg(value) {\n\n if (options.json) {\n\n // Do our best to corece it into JSON\n if (!sg.isObject(value) && !_.isArray(value)) {\n if (_.isString(value)) {\n value = sg.safeJSONParse(value);\n }\n }\n\n // If still not an Object or Array, might be an error\n if (!sg.isObject(value) && !_.isArray(value)) {\n if (required) {\n self.argErrs = sg.ap(self.argErrs, {code: 'ENOTJSON', ...self.argTypes[defName]});\n return recordArg2(def);\n\n } else {\n value = { __just__ : value };\n }\n }\n }\n\n return recordArg2(value);\n }", "function sc_values() {\n if (arguments.length === 1)\n\treturn arguments[0];\n else\n\treturn new sc_Values(arguments);\n}", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function parseArguments() {\n var args = [], expr;\n\n expect('(');\n\n if (!match(')')) {\n while (startIndex < length) {\n if (match('...')) {\n expr = new Node();\n lex();\n expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n } else {\n expr = isolateCoverGrammar(parseAssignmentExpression);\n }\n args.push(expr);\n if (match(')')) {\n break;\n }\n expectCommaSeparator();\n }\n }\n\n expect(')');\n\n return args;\n }", "function args($this) {\n\t\treturn $this.attr(VALS);\n\t}", "function parseArgument(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.ARGUMENT,\n\t name: parseName(lexer),\n\t value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseArgument(lexer) {\n\t var start = lexer.token;\n\t return {\n\t kind: _kinds.ARGUMENT,\n\t name: parseName(lexer),\n\t value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArgument(lexer) {\n var start = lexer.token;\n return {\n kind: _kinds.Kind.ARGUMENT,\n name: parseName(lexer),\n value: (expect(lexer, _lexer.TokenKind.COLON), parseValueLiteral(lexer, false)),\n loc: loc(lexer, start)\n };\n}", "function parseArguments(lexer, isConst) {\n var item = isConst ? parseConstArgument : parseArgument;\n return peek(lexer, TokenKind.PAREN_L) ? many(lexer, TokenKind.PAREN_L, item, TokenKind.PAREN_R) : [];\n}", "function parameterValue(def, value, scope) {\n var type = def.type;\n\n if (Object(__WEBPACK_IMPORTED_MODULE_1__util__[\"g\" /* isSignal */])(value)) {\n return isExpr(type) ? Object(__WEBPACK_IMPORTED_MODULE_4_vega_util__[\"k\" /* error */])('Expression references can not be signals.')\n : isField(type) ? scope.fieldRef(value)\n : isCompare(type) ? scope.compareRef(value)\n : scope.signalRef(value.signal);\n } else {\n var expr = def.expr || isField(type);\n return expr && outerExpr(value) ? Object(__WEBPACK_IMPORTED_MODULE_0__expression__[\"a\" /* default */])(value.expr, scope)\n : expr && outerField(value) ? Object(__WEBPACK_IMPORTED_MODULE_1__util__[\"f\" /* fieldRef */])(value.field)\n : isExpr(type) ? Object(__WEBPACK_IMPORTED_MODULE_0__expression__[\"a\" /* default */])(value, scope)\n : isData(type) ? Object(__WEBPACK_IMPORTED_MODULE_1__util__[\"k\" /* ref */])(scope.getData(value).values)\n : isField(type) ? Object(__WEBPACK_IMPORTED_MODULE_1__util__[\"f\" /* fieldRef */])(value)\n : isCompare(type) ? scope.compareRef(value)\n : value;\n }\n}" ]
[ "0.6459641", "0.6177845", "0.6175874", "0.60900456", "0.60900456", "0.60688555", "0.60688555", "0.59616387", "0.5929642", "0.58954644", "0.5881806", "0.58314556", "0.58314556", "0.58064735", "0.58064735", "0.56615597", "0.5652079", "0.5644433", "0.5548949", "0.5535848", "0.55249965", "0.5502455", "0.55014586", "0.54960734", "0.54960734", "0.5473856", "0.54673535", "0.5465174", "0.54627115", "0.5449593", "0.54311466", "0.54200107", "0.539268", "0.53835326", "0.53675324", "0.53539747", "0.53405124", "0.53297126", "0.532558", "0.5303609", "0.5300062", "0.5262637", "0.5259226", "0.5259226", "0.5253508", "0.52503455", "0.5243381", "0.521672", "0.52129835", "0.5194308", "0.5187112", "0.5187112", "0.51666", "0.5153495", "0.51523674", "0.5146635", "0.5133992", "0.5133992", "0.5133584", "0.51299745", "0.51299745", "0.51299745", "0.51299745", "0.51296175", "0.51266265", "0.51248646", "0.5118398", "0.5099059", "0.50960535", "0.50955427", "0.5082417", "0.50776714", "0.5069421", "0.5069421", "0.5069421", "0.5030947", "0.5013233", "0.5013233", "0.49909365", "0.49909365", "0.49909365", "0.49909365", "0.49909365", "0.49909365", "0.4981518", "0.4981518", "0.4981518", "0.4981518", "0.4981518", "0.49703145", "0.49672693" ]
0.5929815
16
InputValueDefinition : Name : Type DefaultValue? Directives?
function parseInputValueDef(lexer) { var start = lexer.token; var name = parseName(lexer); expect(lexer, _lexer.TokenKind.COLON); var type = parseTypeReference(lexer); var defaultValue = null; if (skip(lexer, _lexer.TokenKind.EQUALS)) { defaultValue = parseConstValue(lexer); } var directives = parseDirectives(lexer); return { kind: _kinds.INPUT_VALUE_DEFINITION, name: name, type: type, defaultValue: defaultValue, directives: directives, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseInputValueDef() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n let defaultValue;\n\n if (this.expectOptionalToken(TokenKind.EQUALS)) {\n defaultValue = this.parseConstValueLiteral();\n }\n\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.INPUT_VALUE_DEFINITION,\n description,\n name,\n type,\n defaultValue,\n directives,\n });\n }", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue = void 0;\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var defaultValue = void 0;\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(lexer);\n\t }\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t description: description,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var defaultValue = null;\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(lexer);\n\t }\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInputValueDef(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer$$1);\n var defaultValue = void 0;\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(lexer$$1);\n }\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseInputValueDef(parser) {\n\t var start = parser.token.start;\n\t var name = parseName(parser);\n\t expect(parser, _lexer.TokenKind.COLON);\n\t var type = parseType(parser);\n\t var defaultValue = null;\n\t if (skip(parser, _lexer.TokenKind.EQUALS)) {\n\t defaultValue = parseConstValue(parser);\n\t }\n\t return {\n\t kind: _kinds.INPUT_VALUE_DEFINITION,\n\t name: name,\n\t type: type,\n\t defaultValue: defaultValue,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseInputValueDef(parser) {\n var start = parser.token.start;\n var name = parseName(parser);\n expect(parser, _lexer.TokenKind.COLON);\n var type = parseType(parser);\n var defaultValue = null;\n if (skip(parser, _lexer.TokenKind.EQUALS)) {\n defaultValue = parseConstValue(parser);\n }\n return {\n kind: _kinds.INPUT_VALUE_DEFINITION,\n name: name,\n type: type,\n defaultValue: defaultValue,\n loc: loc(parser, start)\n };\n}", "function parseInputValueDef(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var defaultValue;\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS)) {\n defaultValue = parseConstValue(lexer);\n }\n\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INPUT_VALUE_DEFINITION,\n description: description,\n name: name,\n type: type,\n defaultValue: defaultValue,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "set default( value )\n {\n if ( typeof value === 'string' || typeof value === 'number' )\n {\n this.mDefaultInput.value = value;\n }\n }", "function InputDefinition() {\n\t this.metadata = {};\n\t this.inputs = {};\n\t }", "function Input(workflow, id, type, default_value) {\n\tthis.workflow = workflow ;\n\tthis.id = id ;\n\tthis.type = type ;\n\tthis.options = {} ;\n\tthis.is_linked = false ;\n\tthis.value = '' ; //final value\n\tthis.doc = '' ;\n\tthis.selected_id = '' ;\n\tthis.previous_text_value = '' ;\n\tthis.default_value = default_value ;\n}", "function defaultValue(v) { }", "function defaulted(value,defaultValue){return value!==undefined?value:defaultValue;}", "function getInputDefaultValue(obj) {\r\n if ((typeof obj.type != \"string\") && (obj.length > 0) && (obj[0] != null) && (obj[0].type==\"radio\")) {\r\n for (var i=0; i<obj.length; i++) {\r\n if (obj[i].defaultChecked == true) { return obj[i].value; }\r\n }\r\n return \"\";\r\n }\r\n if (obj.type==\"text\")\r\n { return obj.defaultValue; }\r\n if (obj.type==\"hidden\")\r\n { return obj.defaultValue; }\r\n if (obj.type==\"textarea\")\r\n { return obj.defaultValue; }\r\n if (obj.type==\"checkbox\") {\r\n if (obj.defaultChecked == true) {\r\n return obj.value;\r\n }\r\n return \"\";\r\n }\r\n if (obj.type==\"select-one\") {\r\n if (obj.options.length > 0) {\r\n for (var i=0; i<obj.options.length; i++) {\r\n if (obj.options[i].defaultSelected) {\r\n return obj.options[i].value;\r\n }\r\n }\r\n }\r\n return \"\";\r\n }\r\n if (obj.type==\"select-multiple\") {\r\n var val = \"\";\r\n for (var i=0; i<obj.options.length; i++) {\r\n if (obj.options[i].defaultSelected) {\r\n val = val + \"\" + obj.options[i].value + \",\";\r\n }\r\n }\r\n if (val.length > 0) {\r\n val = val.substring(0,val.length-1); // remove trailing comma\r\n }\r\n return val;\r\n }\r\n return \"\";\r\n }", "getFallbackInputDefinition() {\n return new InputDefinition([new InputOption('--custom', '-c', InputOption.VALUE_NONE, 'Set the custom input definition.')]);\n }", "get inputValue() {\n if (this.getAsElem(0).getIf(\"value\").isPresent()) {\n return new ValueEmbedder(this.getAsElem(0).value);\n }\n else {\n return ValueEmbedder.absent;\n }\n }", "function DefaultValuesOfCorrectType(context) {\n return {\n VariableDefinition: function VariableDefinition(node) {\n var name = node.variable.name.value;\n var defaultValue = node.defaultValue;\n var type = context.getInputType();\n if (type instanceof _definition.GraphQLNonNull && defaultValue) {\n context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n }\n if (type && defaultValue) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _printer.print)(defaultValue), errors), [defaultValue]));\n }\n }\n return false;\n },\n\n SelectionSet: function SelectionSet() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition() {\n return false;\n }\n };\n}", "setInput(\n elementType = 'input',\n initValue = 'default',\n elementConfig = null,\n validation = null,\n invalidMessage = 'Input is not valid'\n ) {\n return {\n elementType: elementType,\n value: initValue,\n elementConfig: elementConfig,\n validation: validation,\n valid: validation ? false : true,\n invalidMessage: invalidMessage,\n touched: false\n };\n }", "function value(val) { return control_1.default(val); }", "function DefaultValuesOfCorrectType(context) {\n return {\n VariableDefinition: function VariableDefinition(varDefAST) {\n var name = varDefAST.variable.name.value;\n var defaultValue = varDefAST.defaultValue;\n var type = context.getInputType();\n if (type instanceof _typeDefinition.GraphQLNonNull && defaultValue) {\n context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n }\n if (type && defaultValue) {\n var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n if (errors && errors.length > 0) {\n context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _languagePrinter.print)(defaultValue), errors), [defaultValue]));\n }\n }\n return false;\n },\n SelectionSet: function SelectionSet() {\n return false;\n },\n FragmentDefinition: function FragmentDefinition() {\n return false;\n }\n };\n}", "function setDefault( value, defaultValue ) {\n\tif( value==''){\n\t\treturn defaultValue;\n\t} else {\n\t\treturn value;\n\t}\n}", "get defaultValue() {\n return this.getStringAttribute('default_value');\n }", "function DefaultValuesOfCorrectType(context) {\n\t return {\n\t VariableDefinition: function VariableDefinition(varDefAST) {\n\t var name = varDefAST.variable.name.value;\n\t var defaultValue = varDefAST.defaultValue;\n\t var type = context.getInputType();\n\t if (type instanceof _typeDefinition.GraphQLNonNull && defaultValue) {\n\t context.reportError(new _error.GraphQLError(defaultForNonNullArgMessage(name, type, type.ofType), [defaultValue]));\n\t }\n\t if (type && defaultValue) {\n\t var errors = (0, _utilitiesIsValidLiteralValue.isValidLiteralValue)(type, defaultValue);\n\t if (errors && errors.length > 0) {\n\t context.reportError(new _error.GraphQLError(badValueForDefaultArgMessage(name, type, (0, _languagePrinter.print)(defaultValue), errors), [defaultValue]));\n\t }\n\t }\n\t return false;\n\t },\n\t SelectionSet: function SelectionSet() {\n\t return false;\n\t },\n\t FragmentDefinition: function FragmentDefinition() {\n\t return false;\n\t }\n\t };\n\t}", "defaultValue(props) {\n // check if there is a value in the model, if there is, display it. Otherwise, check if\n // there is a default value, display it.\n //console.log('Text.defaultValue key', this.props.form.key);\n //console.log('Text.defaultValue model', this.props.model);\n let value = utils.selectOrSet(props.form.key, props.model); //console.log('Text defaultValue value = ', value);\n // check if there is a default value\n\n if (!value && props.form['default']) {\n value = props.form['default'];\n }\n\n if (!value && props.form.schema && props.form.schema['default']) {\n value = props.form.schema['default'];\n } // Support for Select\n // The first value in the option will be the default.\n\n\n if (!value && props.form.titleMap && props.form.titleMap[0].value) {\n value = props.form.titleMap[0].value;\n } //console.log('value', value);\n\n\n return value;\n }", "setInputValue(value) {\n\t\tthis._input.value = value;\n\t}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||getActiveElement(node.ownerDocument)!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||getActiveElement(node.ownerDocument)!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "get value() { return this._inputValueAccessor.value; }", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=''+node._wrapperState.initialValue;}else if(node.defaultValue!==''+value){node.defaultValue=''+value;}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=''+node._wrapperState.initialValue;}else if(node.defaultValue!==''+value){node.defaultValue=''+value;}}}", "function defaultValue(value, theDefault)\n {\n return (value !== undefined) ? value : theDefault;\n }", "function setDefaultValue(node, type, value) {\n if (type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) node.defaultValue = toString(node._wrapperState.initialValue);\n else if (node.defaultValue !== toString(value)) node.defaultValue = toString(value);\n }\n }", "function setDefaultInputValue() {\n if (!lodash.isNil(ctrl.selectedItem)) {\n ctrl.typedValue = getName(angular.isDefined(ctrl.selectPropertyOnly) ?\n lodash.find(ctrl.valuesArray, [ctrl.selectPropertyOnly, ctrl.selectedItem]) : ctrl.selectedItem);\n\n if (ctrl.typedValue === '' && ctrl.enableTyping) {\n ctrl.typedValue = ctrl.selectedItem;\n }\n }\n }", "parseInputObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('input');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const fields = this.parseInputFieldsDefinition();\n return this.node(start, {\n kind: Kind.INPUT_OBJECT_TYPE_DEFINITION,\n description,\n name,\n directives,\n fields,\n });\n }", "function setDefaultValue(node, type, value) {\n if (// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function setDefaultValue(node,type,value){if(// Focused number inputs synchronize on blur. See ChangeEventPlugin.js\ntype!=='number'||node.ownerDocument.activeElement!==node){if(value==null){node.defaultValue=toString(node._wrapperState.initialValue);}else if(node.defaultValue!==toString(value)){node.defaultValue=toString(value);}}}", "function _defaultValueForType(typeName) {\n switch (typeName) {\n case 'string':\n return '';\n break;\n case 'number':\n return 0;\n break;\n case 'boolean':\n return false;\n break;\n case 'object':\n return {};\n break;\n case 'array':\n return [];\n break;\n case 'datetime':\n return new Date();\n break;\n default:\n return '';\n break;\n }\n }", "function toDefault(val, def) {\n if (is_1.isValue(val) && !(is_1.isEmpty(val) && !is_1.isEmpty(def)))\n return val;\n return is_1.isValue(def) ? def : null;\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "set Input(value) {\n this._input = value;\n }", "function ConstantInputWidget(value) {\n\tWidget.apply(this);\n\tthis.behaviors.value = constant_b(value);\n\tthis.behaviors.inputElems = [];\n\tthis.dom = SPAN();\n}", "constructor(defaultValue) {\n\t\tsuper(); \n\t\tthis.defaultValue = defaultValue;\n\t}", "getAttributeDefaultValueInternal(propertyName){if(!propertyName)return null;const t=e.System.Services.controlManager.getDescriptionAttributeByPropertyName(this.__type,propertyName);if(!t)return null;if(void 0===t.defaultValueInternal){let schema=e.Type.getSchema(t.type);return schema?e.Type.Schema.resolveDefault(schema):null}return tchmi_clone_object(t.defaultValueInternal)}", "constructor(name, displayName, options, defaultValue) {\n this.name = name;\n this.displayName = displayName;\n this.options = options;\n this.defaultValue = defaultValue;\n this.observableValue = ko.observable(this.defaultValue);\n this.set(defaultValue);\n }", "constructor(name, displayName, options, defaultValue) {\n this.name = name;\n this.displayName = displayName;\n this.options = options;\n this.defaultValue = defaultValue;\n this.observableValue = ko.observable(this.defaultValue);\n this.set(defaultValue);\n }", "function setDefaultValue(node, type, value) {\n if (\n // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' ||\n node.ownerDocument.activeElement !== node\n ) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function getInputDefault(idx) {\r\n\tvar result = $(inputmetadata[idx]).find(\"defaults>data\");\r\n\tif (result == null|| result.text() == null) {return -100;}\r\n\telse return parseFloat(extract(result.text()));\r\n}", "function defaultValue(defaultVal, data) {\n if (data === undefined) {\n return defaultVal;\n } else {\n return data;\n }\n}", "getDefaultValue(type) {\n switch (type) {\n case \"string\":\n return \"New Value\";\n case \"array\":\n return [];\n case \"boolean\":\n return false;\n case \"null\":\n return null;\n case \"number\":\n return 0;\n case \"object\":\n return {};\n default:\n // We don't have a datatype for some reason (perhaps additionalProperties was true)\n return \"New Value\";\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || node.ownerDocument.activeElement !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n }", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "function setDefaultValue(node, type, value) {\n if ( // Focused number inputs synchronize on blur. See ChangeEventPlugin.js\n type !== 'number' || getActiveElement(node.ownerDocument) !== node) {\n if (value == null) {\n node.defaultValue = toString(node._wrapperState.initialValue);\n } else if (node.defaultValue !== toString(value)) {\n node.defaultValue = toString(value);\n }\n }\n}", "filterInput(input) {\n if (!input) {\n return this.opt.default == null ? '' : this.opt.default;\n }\n\n return input;\n }", "filterInput(input) {\n if (!input) {\n return this.opt.default == null ? '' : this.opt.default;\n }\n\n return input;\n }", "filterInput(input) {\n if (!input) {\n return this.opt.default == null ? '' : this.opt.default;\n }\n\n return input;\n }", "filterInput(input) {\n if (!input) {\n return this.opt.default == null ? '' : this.opt.default;\n }\n\n return input;\n }", "function setInputValue(name, val) {\n findInputElm(name).val(val);\n }", "function valueDescription(input){if(input===undefined){return'undefined';}else if(input===null){return'null';}else if(typeof input==='string'){if(input.length>20){input=input.substring(0,20)+\"...\";}return JSON.stringify(input);}else if(typeof input==='number'||typeof input==='boolean'){return''+input;}else if(typeof input==='object'){if(input instanceof Array){return'an array';}else{var customObjectName=tryGetCustomObjectType(input);if(customObjectName){return\"a custom \"+customObjectName+\" object\";}else{return'an object';}}}else if(typeof input==='function'){return'a function';}else{return fail('Unknown wrong type: '+typeof input);}}", "get valueInput() {\n return this._value;\n }" ]
[ "0.7755709", "0.73994255", "0.7284767", "0.7284767", "0.7284767", "0.7284767", "0.72812206", "0.72745436", "0.72430205", "0.71549386", "0.7082239", "0.7027068", "0.7027068", "0.70051235", "0.6944897", "0.69158816", "0.6588673", "0.62046576", "0.6169607", "0.6000942", "0.59673756", "0.592598", "0.5891472", "0.5805989", "0.57285756", "0.5727781", "0.5707862", "0.5705206", "0.5674701", "0.5660463", "0.56517696", "0.5635139", "0.56349325", "0.56298685", "0.56298685", "0.56100005", "0.5582579", "0.5582579", "0.5576545", "0.5576356", "0.5573286", "0.55605173", "0.55499536", "0.554866", "0.554866", "0.554866", "0.554866", "0.554866", "0.5543831", "0.5542249", "0.5533685", "0.5533685", "0.5533685", "0.5533685", "0.5515886", "0.5515104", "0.55140364", "0.55017996", "0.5482648", "0.5482648", "0.54785407", "0.54723537", "0.5469833", "0.54667115", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54620737", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.54468614", "0.5446138", "0.5446138", "0.5446138", "0.5446138", "0.5438775", "0.54310566", "0.5417134" ]
0.71953994
13
UnionTypeDefinition : union Name Directives? = UnionMembers
function parseUnionTypeDefinition(lexer) { var start = lexer.token; expectKeyword(lexer, 'union'); var name = parseName(lexer); var directives = parseDirectives(lexer); expect(lexer, _lexer.TokenKind.EQUALS); var types = parseUnionMembers(lexer); return { kind: _kinds.UNION_TYPE_DEFINITION, name: name, directives: directives, types: types, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseUnionTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('union');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const types = this.parseUnionMemberTypes();\n return this.node(start, {\n kind: Kind.UNION_TYPE_DEFINITION,\n description,\n name,\n directives,\n types,\n });\n }", "function parseUnionTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var types = parseMemberTypesDefinition(lexer);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer);\n\t expect(lexer, _lexer.TokenKind.EQUALS);\n\t var types = parseUnionMembers(lexer);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'union');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var types = parseMemberTypesDefinition(lexer$$1);\n return {\n kind: kinds.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer$$1, start)\n };\n}", "function parseUnionTypeDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'union');\n\t var name = parseName(parser);\n\t expect(parser, _lexer.TokenKind.EQUALS);\n\t var types = parseUnionMembers(parser);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t name: name,\n\t types: types,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseUnionTypeDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'union');\n var name = parseName(parser);\n expect(parser, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(parser);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n types: types,\n loc: loc(parser, start)\n };\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, TokenKind.EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, TokenKind.PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, TokenKind.PIPE));\n }\n\n return types;\n}", "function parseUnionMembers(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMembers(lexer) {\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n\n return types;\n}", "parseUnionMemberTypes() {\n return this.expectOptionalToken(TokenKind.EQUALS)\n ? this.delimitedMany(TokenKind.PIPE, this.parseNamedType)\n : [];\n }", "function parseUnionMembers(lexer) {\n\t var members = [];\n\t do {\n\t members.push(parseNamedType(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t return members;\n\t}", "function parseUnionType() {\n var elements, startIndex = index - 1;\n consume(Token.LPAREN, 'UnionType should start with (');\n elements = [];\n if (token !== Token.RPAREN) {\n while (true) {\n elements.push(parseTypeExpression());\n if (token === Token.RPAREN) {\n break;\n }\n expect(Token.PIPE);\n }\n }\n consume(Token.RPAREN, 'UnionType should end with )');\n return maybeAddRange({\n type: Syntax.UnionType,\n elements: elements\n }, [startIndex, previous]);\n }", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "parseUnionTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('union');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const types = this.parseUnionMemberTypes();\n\n if (directives.length === 0 && types.length === 0) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.UNION_TYPE_EXTENSION,\n name,\n directives,\n types,\n });\n }", "function parseUnionTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'union');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var types = parseMemberTypesDefinition(lexer$$1);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer$$1, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionMembers(parser) {\n var members = [];\n do {\n members.push(parseNamedType(parser));\n } while (skip(parser, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var types = parseMemberTypesDefinition(lexer);\n\t if (directives.length === 0 && types.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.UNION_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionMembers(parser) {\n\t var members = [];\n\t do {\n\t members.push(parseNamedType(parser));\n\t } while (skip(parser, _lexer.TokenKind.PIPE));\n\t return members;\n\t}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function union() {\n var typeSpec = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n typeSpec[_i] = arguments[_i];\n }\n return new TUnion(typeSpec.map(function (t) { return parseSpec(t); }));\n}", "function UnionType() {\n // Copy arguments object as an array:\n this.types = [].slice.call(arguments).sort();\n }", "function UnionTypeAnnotation(node, print) {\n\t print.join(node.types, { separator: \" | \" });\n\t}", "function UnionTypeAnnotation(node, print) {\n\t print.join(node.types, { separator: \" | \" });\n\t}", "function UnionType(schema, opts) {\n Type.call(this);\n\n if (!Array.isArray(schema)) {\n throw new Error(f('non-array union schema: %j', schema));\n }\n if (!schema.length) {\n throw new Error('empty union');\n }\n this.types = Object.freeze(schema.map(function (obj) {\n return Type.forSchema(obj, opts);\n }));\n\n this._branchIndices = {};\n this.types.forEach(function (type, i) {\n if (Type.isType(type, 'union')) {\n throw new Error('unions cannot be directly nested');\n }\n var branch = type.branchName;\n if (this._branchIndices[branch] !== undefined) {\n throw new Error(f('duplicate union branch name: %j', branch));\n }\n this._branchIndices[branch] = i;\n }, this);\n}", "function WrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n Object.freeze(this);\n}", "function WrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n Object.freeze(this);\n}", "function UnionType(schema, opts) {\n Type$2.call(this);\n\n if (!Array.isArray(schema)) {\n throw new Error(f('non-array union schema: %j', schema));\n }\n if (!schema.length) {\n throw new Error('empty union');\n }\n this.types = Object.freeze(schema.map(function (obj) {\n return Type$2.forSchema(obj, opts);\n }));\n\n this._branchIndices = {};\n this.types.forEach(function (type, i) {\n if (Type$2.isType(type, 'union')) {\n throw new Error('unions cannot be directly nested');\n }\n var branch = type.branchName;\n if (this._branchIndices[branch] !== undefined) {\n throw new Error(f('duplicate union branch name: %j', branch));\n }\n this._branchIndices[branch] = i;\n }, this);\n}", "function getUnionTypeFromSortedList(types, aliasSymbol, aliasTypeArguments) {\n if (types.length === 0) {\n return neverType;\n }\n if (types.length === 1) {\n return types[0];\n }\n var id = getTypeListId(types);\n var type = unionTypes[id];\n if (!type) {\n var propagatedFlags = getPropagatingFlagsOfTypes(types, /*excludeKinds*/ 6144 /* Nullable */);\n type = unionTypes[id] = createObjectType(524288 /* Union */ | propagatedFlags);\n type.types = types;\n type.aliasSymbol = aliasSymbol;\n type.aliasTypeArguments = aliasTypeArguments;\n }\n return type;\n }", "static unionType(firstType, secondType, ...additionalTypes) {\r\n return getWriteFunctionForUnionOrIntersectionType(\"|\", [firstType, secondType, ...additionalTypes]);\r\n }", "function UnionTypeAnnotation(node, print) {\n print.join(node.types, { separator: \" | \" });\n}", "function UnwrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n\n this._dynamicBranches = null;\n this._bucketIndices = {};\n this.types.forEach(function (type, index) {\n if (Type$2.isType(type, 'abstract', 'logical')) {\n if (!this._dynamicBranches) {\n this._dynamicBranches = [];\n }\n this._dynamicBranches.push({index: index, type: type});\n } else {\n var bucket = getTypeBucket(type);\n if (this._bucketIndices[bucket] !== undefined) {\n throw new Error(f('ambiguous unwrapped union: %j', this));\n }\n this._bucketIndices[bucket] = index;\n }\n }, this);\n\n Object.freeze(this);\n}", "function UnwrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n\n this._dynamicBranches = null;\n this._bucketIndices = {};\n this.types.forEach(function (type, index) {\n if (Type.isType(type, 'abstract', 'logical')) {\n if (!this._dynamicBranches) {\n this._dynamicBranches = [];\n }\n this._dynamicBranches.push({index: index, type: type});\n } else {\n var bucket = getTypeBucket(type);\n if (this._bucketIndices[bucket] !== undefined) {\n throw new Error(f('ambiguous unwrapped union: %j', this));\n }\n this._bucketIndices[bucket] = index;\n }\n }, this);\n\n Object.freeze(this);\n}", "function getUnionType(types, subtypeReduction, aliasSymbol, aliasTypeArguments) {\n if (types.length === 0) {\n return neverType;\n }\n if (types.length === 1) {\n return types[0];\n }\n var typeSet = [];\n addTypesToUnion(typeSet, types);\n if (typeSet.containsAny) {\n return anyType;\n }\n if (subtypeReduction) {\n removeSubtypes(typeSet);\n }\n if (typeSet.length === 0) {\n return typeSet.containsNull ? typeSet.containsNonWideningType ? nullType : nullWideningType :\n typeSet.containsUndefined ? typeSet.containsNonWideningType ? undefinedType : undefinedWideningType :\n neverType;\n }\n return getUnionTypeFromSortedList(typeSet, aliasSymbol, aliasTypeArguments);\n }", "function extractUnionInfo(ctx, idlType, errPrefix) {\n const seen = {\n sequenceLike: null,\n record: null,\n get dictionaryLike() {\n return this.dictionary !== null || this.record !== null || this.callbackInterface !== null;\n },\n ArrayBuffer: false,\n ArrayBufferViews: new Set(),\n get BufferSource() {\n return this.ArrayBuffer || this.ArrayBufferViews.size > 0;\n },\n object: false,\n string: null,\n numeric: null,\n boolean: null,\n callbackFunction: null,\n dictionary: null,\n callbackInterface: null,\n interfaces: new Set(),\n get interfaceLike() {\n return this.interfaces.size > 0 || this.BufferSource;\n },\n unknown: false\n };\n for (const item of idlType.idlType) {\n if (item.generic === \"sequence\" || item.generic === \"FrozenArray\") {\n if (seen.sequenceLike) {\n error(\"There can only be one sequence-like type in a union type\");\n }\n seen.sequenceLike = item;\n } else if (item.generic === \"record\") {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.record = item;\n } else if (item.generic === \"Promise\") {\n error(\"Promise types are not supported in union types\");\n } else if (item.generic) {\n error(`Unknown generic type ${item.generic}`);\n } else if (item.idlType === \"any\") {\n error(\"any type is not allowed in a union type\");\n } else if (item.idlType === \"ArrayBuffer\") {\n if (seen.object) {\n error(\"ArrayBuffer is not distinguishable with object type\");\n }\n seen.ArrayBuffer = true;\n } else if (arrayBufferViewTypes.has(item.idlType)) {\n if (seen.object) {\n error(`${item.idlType} is not distinguishable with object type`);\n }\n seen.ArrayBufferViews.add(item.idlType);\n } else if (stringTypes.has(item.idlType) || ctx.enumerations.has(item.idlType)) {\n if (seen.string) {\n error(\"There can only be one string type in a union type\");\n }\n seen.string = item;\n } else if (numericTypes.has(item.idlType)) {\n if (seen.numeric) {\n error(\"There can only be one numeric type in a union type\");\n }\n seen.numeric = item;\n } else if (item.idlType === \"object\") {\n if (seen.interfaceLike) {\n error(\"Object type is not distinguishable with interface-like types\");\n }\n if (seen.callbackFunction) {\n error(\"Object type is not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"Object type is not distinguishable with dictionary-like types\");\n }\n if (seen.sequenceLike) {\n error(\"Object type is not distinguishable with sequence-like types\");\n }\n seen.object = true;\n } else if (item.idlType === \"boolean\") {\n seen.boolean = item;\n } else if (ctx.callbackFunctions.has(item.idlType)) {\n if (seen.object) {\n error(\"Callback functions are not distinguishable with object type\");\n }\n if (seen.dictionaryLike) {\n error(\"Callback functions are not distinguishable with dictionary-like types\");\n }\n seen.callbackFunction = item.idlType;\n } else if (ctx.dictionaries.has(item.idlType)) {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.dictionary = item;\n } else if (ctx.callbackInterfaces.has(item.idlType)) {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.callbackInterface = item.idlType;\n } else if (ctx.interfaces.has(item.idlType)) {\n if (seen.object) {\n error(\"Interface types are not distinguishable with object type\");\n }\n seen.interfaces.add(item.idlType);\n } else {\n seen.unknown = true;\n }\n }\n return seen;\n\n function error(msg) {\n throw new Error(`${msg}\\n When compiling \"${eval(errPrefix)}\"`); // eslint-disable-line no-eval\n }\n}", "function union(...typeSpec) {\n return new TUnion(typeSpec.map((t) => parseSpec(t)));\n}", "function generateUnion(unionType, fileBuffer) {\n var typeRef = \"_\" + crypto_random_string_1.default(9);\n var errorDef = \"type \" + typeRef + \" {\\n\\terror: String\\n}\\n\";\n fileBuffer.push(errorDef);\n /* const isGraphQLScalar = (avroType: BaseType | string) => (\n typeof avroType === \"string\" || isEnumType(avroType)\n );\n const gqlTypes = unionType.map((t: NameOrType) => {\n const converted = convertType(t, fileBuffer, true);\n return isGraphQLScalar(t) ? generateTypeAlias(converted, fileBuffer) : converted;\n });\n const unionDef = `union ${typeRef} = ${gqlTypes.join(\" | \")}`;\n fileBuffer.push(unionDef);*/\n return typeRef;\n}", "static unionType(...typeChoices) {\n return new Union(this.typesOrStrings(typeChoices));\n }", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "static taggedUnion(...types) {\n return async function typeFn(message, phrase) {\n for (let entry of types) {\n entry = Argument.tagged(entry);\n const res = await Argument.cast(entry, this.handler.resolver, message, phrase);\n if (!Argument.isFailure(res))\n return res;\n }\n return null;\n };\n }", "function createUnionTypeAnnotation(types) {\n var flattened = removeTypeDuplicates(types);\n\n if (flattened.length === 1) {\n return flattened[0];\n } else {\n return t.unionTypeAnnotation(flattened);\n }\n}", "function createUnionTypeAnnotation(types /*: Array<Object>*/) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function containsUnion( pwf ) {\n if( typeof pwf == 'number' ) {\n return false;\n } else {\n return (('op' in pwf) && (pwf.op == 'U')) || containsUnion( pwf.op1 ) || containsUnion( pwf.op2 );\n }\n }", "static unionBound(type, keyOf = false) {\n return TypeNames.bound(type, Combiner.UNION, keyOf ? BoundModifier.KEY_OF : undefined);\n }", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "Union(items, options = {}) {\r\n return { ...options, kind: exports.UnionKind, anyOf: items };\r\n }", "function StructType() {}", "function parseMemberTypesDefinition(lexer) {\n\t var types = [];\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t // Optional leading pipe\n\t skip(lexer, _lexer.TokenKind.PIPE);\n\t do {\n\t types.push(parseNamedType(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t }\n\t return types;\n\t}", "function parseMemberTypesDefinition(lexer$$1) {\n var types = [];\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer$$1, lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer$$1));\n } while (skip(lexer$$1, lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseTypeDefinition(parser) {\n if (!peek(parser, _lexer.TokenKind.NAME)) {\n throw unexpected(parser);\n }\n switch (parser.token.value) {\n case 'type':\n return parseObjectTypeDefinition(parser);\n case 'interface':\n return parseInterfaceTypeDefinition(parser);\n case 'union':\n return parseUnionTypeDefinition(parser);\n case 'scalar':\n return parseScalarTypeDefinition(parser);\n case 'enum':\n return parseEnumTypeDefinition(parser);\n case 'input':\n return parseInputObjectTypeDefinition(parser);\n default:\n throw unexpected(parser);\n }\n}", "function relaxType(type) {\n switch (type.kind) {\n case SimpleTypeKind.INTERSECTION:\n case SimpleTypeKind.UNION:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ENUM:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ARRAY:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.PROMISE:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.OBJECT:\n return {\n name: type.name,\n kind: SimpleTypeKind.OBJECT\n };\n case SimpleTypeKind.INTERFACE:\n case SimpleTypeKind.FUNCTION:\n case SimpleTypeKind.CLASS:\n return {\n name: type.name,\n kind: SimpleTypeKind.ANY\n };\n case SimpleTypeKind.NUMBER_LITERAL:\n return { kind: SimpleTypeKind.NUMBER };\n case SimpleTypeKind.STRING_LITERAL:\n return { kind: SimpleTypeKind.STRING };\n case SimpleTypeKind.BOOLEAN_LITERAL:\n return { kind: SimpleTypeKind.BOOLEAN };\n case SimpleTypeKind.BIG_INT_LITERAL:\n return { kind: SimpleTypeKind.BIG_INT };\n case SimpleTypeKind.ENUM_MEMBER:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.ALIAS:\n return __assign(__assign({}, type), { target: relaxType(type.target) });\n case SimpleTypeKind.NULL:\n case SimpleTypeKind.UNDEFINED:\n return { kind: SimpleTypeKind.ANY };\n default:\n return type;\n }\n}", "parseOperationTypeDefinition() {\n const start = this._lexer.token;\n const operation = this.parseOperationType();\n this.expectToken(TokenKind.COLON);\n const type = this.parseNamedType();\n return this.node(start, {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation,\n type,\n });\n }", "function typesToStringUnion(types) {\n return arrayDefined(types.map(function (t) {\n switch (t.kind) {\n case SimpleTypeKind.STRING_LITERAL:\n case SimpleTypeKind.NUMBER_LITERAL:\n return { name: t.value.toString() };\n default:\n return undefined;\n }\n }));\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "union (table) {\n this._add(table, 'UNION');\n }", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function parseOperationTypeDefinition(lexer) {\n var start = lexer.token;\n var operation = parseOperationType(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseNamedType(lexer);\n return {\n kind: _kinds.Kind.OPERATION_TYPE_DEFINITION,\n operation: operation,\n type: type,\n loc: loc(lexer, start)\n };\n}", "function UnionContract(first, second) {\n if(!(this instanceof UnionContract)) return new UnionContract(first, second);\n\n if(!(first instanceof Contract)) error(\"Wrong Contract\", (new Error()).fileName, (new Error()).lineNumber);\n if(!(second instanceof Contract)) error(\"Wrong Contract\", (new Error()).fileName, (new Error()).lineNumber);\n\n Object.defineProperties(this, {\n \"first\": {\n get: function () { return first; } },\n \"second\": {\n get: function () { return second; } }\n });\n\n this.toString = function() { return \"(\" + first.toString() + \"cup\" + second.toString() + \")\"; };\n }", "union() {\n return CSG.moduleOp('manifold.union', 'union', ...arguments);\n }" ]
[ "0.8724834", "0.8276988", "0.8275097", "0.8244607", "0.8244607", "0.8244607", "0.8244607", "0.8244607", "0.8196522", "0.8194654", "0.8190183", "0.8190183", "0.817318", "0.8033671", "0.7842884", "0.7788939", "0.7037094", "0.7014835", "0.69509476", "0.69509476", "0.69509476", "0.69509476", "0.6940536", "0.6940536", "0.6924472", "0.6924472", "0.69014287", "0.69014287", "0.69014287", "0.69014287", "0.6880776", "0.68654853", "0.68438286", "0.68045187", "0.67792815", "0.6772462", "0.67071265", "0.6696302", "0.6694201", "0.66918844", "0.66915756", "0.66915756", "0.6687418", "0.6652421", "0.65368724", "0.6495379", "0.647414", "0.647414", "0.647414", "0.647414", "0.64691633", "0.6217663", "0.6179691", "0.6179691", "0.6179528", "0.6170517", "0.6170517", "0.6155256", "0.61534566", "0.6146138", "0.60564315", "0.59993356", "0.59762174", "0.5968178", "0.5940364", "0.5922529", "0.58809733", "0.58798414", "0.56916857", "0.56916857", "0.56916857", "0.56916857", "0.5642478", "0.55429286", "0.5465599", "0.5423749", "0.5418511", "0.53859454", "0.5339278", "0.53132606", "0.5256428", "0.5227212", "0.5192031", "0.50691813", "0.5001871", "0.49354628", "0.4912411", "0.48886132", "0.48094553", "0.48094553", "0.48094553", "0.48094553", "0.48094553", "0.47701007", "0.47633934" ]
0.8138545
18
UnionMembers : `|`? NamedType UnionMembers | NamedType
function parseUnionMembers(lexer) { // Optional leading pipe skip(lexer, _lexer.TokenKind.PIPE); var members = []; do { members.push(parseNamedType(lexer)); } while (skip(lexer, _lexer.TokenKind.PIPE)); return members; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseUnionMembers(lexer) {\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n var members = [];\n do {\n members.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(lexer) {\n\t var members = [];\n\t do {\n\t members.push(parseNamedType(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t return members;\n\t}", "function parseUnionMembers(parser) {\n var members = [];\n do {\n members.push(parseNamedType(parser));\n } while (skip(parser, _lexer.TokenKind.PIPE));\n return members;\n}", "function parseUnionMembers(parser) {\n\t var members = [];\n\t do {\n\t members.push(parseNamedType(parser));\n\t } while (skip(parser, _lexer.TokenKind.PIPE));\n\t return members;\n\t}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, TokenKind.EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, TokenKind.PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, TokenKind.PIPE));\n }\n\n return types;\n}", "parseUnionMemberTypes() {\n return this.expectOptionalToken(TokenKind.EQUALS)\n ? this.delimitedMany(TokenKind.PIPE, this.parseNamedType)\n : [];\n }", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "function parseUnionMemberTypes(lexer) {\n var types = [];\n\n if (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS)) {\n // Optional leading pipe\n skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE);\n\n do {\n types.push(parseNamedType(lexer));\n } while (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE));\n }\n\n return types;\n}", "parseUnionTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('union');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const types = this.parseUnionMemberTypes();\n return this.node(start, {\n kind: Kind.UNION_TYPE_DEFINITION,\n description,\n name,\n directives,\n types,\n });\n }", "function parseUnionTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'union');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var types = parseMemberTypesDefinition(lexer$$1);\n return {\n kind: kinds.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer$$1, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var types = parseMemberTypesDefinition(lexer);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer);\n\t expect(lexer, _lexer.TokenKind.EQUALS);\n\t var types = parseUnionMembers(lexer);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds.Kind.UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer);\n expect(lexer, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(lexer);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionType() {\n var elements, startIndex = index - 1;\n consume(Token.LPAREN, 'UnionType should start with (');\n elements = [];\n if (token !== Token.RPAREN) {\n while (true) {\n elements.push(parseTypeExpression());\n if (token === Token.RPAREN) {\n break;\n }\n expect(Token.PIPE);\n }\n }\n consume(Token.RPAREN, 'UnionType should end with )');\n return maybeAddRange({\n type: Syntax.UnionType,\n elements: elements\n }, [startIndex, previous]);\n }", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function union() {\n var typeSpec = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n typeSpec[_i] = arguments[_i];\n }\n return new TUnion(typeSpec.map(function (t) { return parseSpec(t); }));\n}", "function parseUnionTypeDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'union');\n\t var name = parseName(parser);\n\t expect(parser, _lexer.TokenKind.EQUALS);\n\t var types = parseUnionMembers(parser);\n\t return {\n\t kind: _kinds.UNION_TYPE_DEFINITION,\n\t name: name,\n\t types: types,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseUnionTypeDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'union');\n var name = parseName(parser);\n expect(parser, _lexer.TokenKind.EQUALS);\n var types = parseUnionMembers(parser);\n return {\n kind: _kinds.UNION_TYPE_DEFINITION,\n name: name,\n types: types,\n loc: loc(parser, start)\n };\n}", "function UnionType() {\n // Copy arguments object as an array:\n this.types = [].slice.call(arguments).sort();\n }", "parseUnionTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('union');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const types = this.parseUnionMemberTypes();\n\n if (directives.length === 0 && types.length === 0) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.UNION_TYPE_EXTENSION,\n name,\n directives,\n types,\n });\n }", "static unionType(firstType, secondType, ...additionalTypes) {\r\n return getWriteFunctionForUnionOrIntersectionType(\"|\", [firstType, secondType, ...additionalTypes]);\r\n }", "function parseUnionTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'union');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var types = parseMemberTypesDefinition(lexer$$1);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer$$1, start)\n };\n}", "Union(items, options = {}) {\r\n return { ...options, kind: exports.UnionKind, anyOf: items };\r\n }", "function UnionType(schema, opts) {\n Type.call(this);\n\n if (!Array.isArray(schema)) {\n throw new Error(f('non-array union schema: %j', schema));\n }\n if (!schema.length) {\n throw new Error('empty union');\n }\n this.types = Object.freeze(schema.map(function (obj) {\n return Type.forSchema(obj, opts);\n }));\n\n this._branchIndices = {};\n this.types.forEach(function (type, i) {\n if (Type.isType(type, 'union')) {\n throw new Error('unions cannot be directly nested');\n }\n var branch = type.branchName;\n if (this._branchIndices[branch] !== undefined) {\n throw new Error(f('duplicate union branch name: %j', branch));\n }\n this._branchIndices[branch] = i;\n }, this);\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function UnionType(schema, opts) {\n Type$2.call(this);\n\n if (!Array.isArray(schema)) {\n throw new Error(f('non-array union schema: %j', schema));\n }\n if (!schema.length) {\n throw new Error('empty union');\n }\n this.types = Object.freeze(schema.map(function (obj) {\n return Type$2.forSchema(obj, opts);\n }));\n\n this._branchIndices = {};\n this.types.forEach(function (type, i) {\n if (Type$2.isType(type, 'union')) {\n throw new Error('unions cannot be directly nested');\n }\n var branch = type.branchName;\n if (this._branchIndices[branch] !== undefined) {\n throw new Error(f('duplicate union branch name: %j', branch));\n }\n this._branchIndices[branch] = i;\n }, this);\n}", "function parseUnionTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'union');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var types = parseMemberTypesDefinition(lexer);\n\t if (directives.length === 0 && types.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.UNION_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t types: types,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "static unionType(...typeChoices) {\n return new Union(this.typesOrStrings(typeChoices));\n }", "static taggedUnion(...types) {\n return async function typeFn(message, phrase) {\n for (let entry of types) {\n entry = Argument.tagged(entry);\n const res = await Argument.cast(entry, this.handler.resolver, message, phrase);\n if (!Argument.isFailure(res))\n return res;\n }\n return null;\n };\n }", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function parseUnionTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'union');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var types = parseUnionMemberTypes(lexer);\n if (directives.length === 0 && types.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.UNION_TYPE_EXTENSION,\n name: name,\n directives: directives,\n types: types,\n loc: loc(lexer, start)\n };\n}", "function UnionTypeAnnotation(node, print) {\n\t print.join(node.types, { separator: \" | \" });\n\t}", "function UnionTypeAnnotation(node, print) {\n\t print.join(node.types, { separator: \" | \" });\n\t}", "function union(...typeSpec) {\n return new TUnion(typeSpec.map((t) => parseSpec(t)));\n}", "function UnionTypeAnnotation(node, print) {\n print.join(node.types, { separator: \" | \" });\n}", "function parseMemberTypesDefinition(lexer$$1) {\n var types = [];\n if (skip(lexer$$1, lexer.TokenKind.EQUALS)) {\n // Optional leading pipe\n skip(lexer$$1, lexer.TokenKind.PIPE);\n do {\n types.push(parseNamedType(lexer$$1));\n } while (skip(lexer$$1, lexer.TokenKind.PIPE));\n }\n return types;\n}", "function containsUnion( pwf ) {\n if( typeof pwf == 'number' ) {\n return false;\n } else {\n return (('op' in pwf) && (pwf.op == 'U')) || containsUnion( pwf.op1 ) || containsUnion( pwf.op2 );\n }\n }", "function parseMemberTypesDefinition(lexer) {\n\t var types = [];\n\t if (skip(lexer, _lexer.TokenKind.EQUALS)) {\n\t // Optional leading pipe\n\t skip(lexer, _lexer.TokenKind.PIPE);\n\t do {\n\t types.push(parseNamedType(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t }\n\t return types;\n\t}", "function getUnionTypeFromSortedList(types, aliasSymbol, aliasTypeArguments) {\n if (types.length === 0) {\n return neverType;\n }\n if (types.length === 1) {\n return types[0];\n }\n var id = getTypeListId(types);\n var type = unionTypes[id];\n if (!type) {\n var propagatedFlags = getPropagatingFlagsOfTypes(types, /*excludeKinds*/ 6144 /* Nullable */);\n type = unionTypes[id] = createObjectType(524288 /* Union */ | propagatedFlags);\n type.types = types;\n type.aliasSymbol = aliasSymbol;\n type.aliasTypeArguments = aliasTypeArguments;\n }\n return type;\n }", "function WrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n Object.freeze(this);\n}", "function WrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n Object.freeze(this);\n}", "union() {\n return CSG.moduleOp('manifold.union', 'union', ...arguments);\n }", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function createUnionTypeAnnotation(types) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function extractUnionInfo(ctx, idlType, errPrefix) {\n const seen = {\n sequenceLike: null,\n record: null,\n get dictionaryLike() {\n return this.dictionary !== null || this.record !== null || this.callbackInterface !== null;\n },\n ArrayBuffer: false,\n ArrayBufferViews: new Set(),\n get BufferSource() {\n return this.ArrayBuffer || this.ArrayBufferViews.size > 0;\n },\n object: false,\n string: null,\n numeric: null,\n boolean: null,\n callbackFunction: null,\n dictionary: null,\n callbackInterface: null,\n interfaces: new Set(),\n get interfaceLike() {\n return this.interfaces.size > 0 || this.BufferSource;\n },\n unknown: false\n };\n for (const item of idlType.idlType) {\n if (item.generic === \"sequence\" || item.generic === \"FrozenArray\") {\n if (seen.sequenceLike) {\n error(\"There can only be one sequence-like type in a union type\");\n }\n seen.sequenceLike = item;\n } else if (item.generic === \"record\") {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.record = item;\n } else if (item.generic === \"Promise\") {\n error(\"Promise types are not supported in union types\");\n } else if (item.generic) {\n error(`Unknown generic type ${item.generic}`);\n } else if (item.idlType === \"any\") {\n error(\"any type is not allowed in a union type\");\n } else if (item.idlType === \"ArrayBuffer\") {\n if (seen.object) {\n error(\"ArrayBuffer is not distinguishable with object type\");\n }\n seen.ArrayBuffer = true;\n } else if (arrayBufferViewTypes.has(item.idlType)) {\n if (seen.object) {\n error(`${item.idlType} is not distinguishable with object type`);\n }\n seen.ArrayBufferViews.add(item.idlType);\n } else if (stringTypes.has(item.idlType) || ctx.enumerations.has(item.idlType)) {\n if (seen.string) {\n error(\"There can only be one string type in a union type\");\n }\n seen.string = item;\n } else if (numericTypes.has(item.idlType)) {\n if (seen.numeric) {\n error(\"There can only be one numeric type in a union type\");\n }\n seen.numeric = item;\n } else if (item.idlType === \"object\") {\n if (seen.interfaceLike) {\n error(\"Object type is not distinguishable with interface-like types\");\n }\n if (seen.callbackFunction) {\n error(\"Object type is not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"Object type is not distinguishable with dictionary-like types\");\n }\n if (seen.sequenceLike) {\n error(\"Object type is not distinguishable with sequence-like types\");\n }\n seen.object = true;\n } else if (item.idlType === \"boolean\") {\n seen.boolean = item;\n } else if (ctx.callbackFunctions.has(item.idlType)) {\n if (seen.object) {\n error(\"Callback functions are not distinguishable with object type\");\n }\n if (seen.dictionaryLike) {\n error(\"Callback functions are not distinguishable with dictionary-like types\");\n }\n seen.callbackFunction = item.idlType;\n } else if (ctx.dictionaries.has(item.idlType)) {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.dictionary = item;\n } else if (ctx.callbackInterfaces.has(item.idlType)) {\n if (seen.object) {\n error(\"Dictionary-like types are not distinguishable with object type\");\n }\n if (seen.callbackFunction) {\n error(\"Dictionary-like types are not distinguishable with callback functions\");\n }\n if (seen.dictionaryLike) {\n error(\"There can only be one dictionary-like type in a union type\");\n }\n seen.callbackInterface = item.idlType;\n } else if (ctx.interfaces.has(item.idlType)) {\n if (seen.object) {\n error(\"Interface types are not distinguishable with object type\");\n }\n seen.interfaces.add(item.idlType);\n } else {\n seen.unknown = true;\n }\n }\n return seen;\n\n function error(msg) {\n throw new Error(`${msg}\\n When compiling \"${eval(errPrefix)}\"`); // eslint-disable-line no-eval\n }\n}", "static unionBound(type, keyOf = false) {\n return TypeNames.bound(type, Combiner.UNION, keyOf ? BoundModifier.KEY_OF : undefined);\n }", "function createUnionTypeAnnotation(types /*: Array<Object>*/) {\n\t var flattened = removeTypeDuplicates(types);\n\n\t if (flattened.length === 1) {\n\t return flattened[0];\n\t } else {\n\t return t.unionTypeAnnotation(flattened);\n\t }\n\t}", "function generateUnion(unionType, fileBuffer) {\n var typeRef = \"_\" + crypto_random_string_1.default(9);\n var errorDef = \"type \" + typeRef + \" {\\n\\terror: String\\n}\\n\";\n fileBuffer.push(errorDef);\n /* const isGraphQLScalar = (avroType: BaseType | string) => (\n typeof avroType === \"string\" || isEnumType(avroType)\n );\n const gqlTypes = unionType.map((t: NameOrType) => {\n const converted = convertType(t, fileBuffer, true);\n return isGraphQLScalar(t) ? generateTypeAlias(converted, fileBuffer) : converted;\n });\n const unionDef = `union ${typeRef} = ${gqlTypes.join(\" | \")}`;\n fileBuffer.push(unionDef);*/\n return typeRef;\n}", "static from(members) {\n switch (members.length) {\n case 0:\n return empty;\n case 1:\n return members[0];\n default:\n return new DecorationGroup(members.every((m) => m instanceof DecorationSet) ? members : members.reduce((r, m) => r.concat(m instanceof DecorationSet ? m : m.members), []));\n }\n }", "function createUnionTypeAnnotation(types) {\n var flattened = removeTypeDuplicates(types);\n\n if (flattened.length === 1) {\n return flattened[0];\n } else {\n return t.unionTypeAnnotation(flattened);\n }\n}", "function UnwrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n\n this._dynamicBranches = null;\n this._bucketIndices = {};\n this.types.forEach(function (type, index) {\n if (Type$2.isType(type, 'abstract', 'logical')) {\n if (!this._dynamicBranches) {\n this._dynamicBranches = [];\n }\n this._dynamicBranches.push({index: index, type: type});\n } else {\n var bucket = getTypeBucket(type);\n if (this._bucketIndices[bucket] !== undefined) {\n throw new Error(f('ambiguous unwrapped union: %j', this));\n }\n this._bucketIndices[bucket] = index;\n }\n }, this);\n\n Object.freeze(this);\n}", "function UnwrappedUnionType(schema, opts) {\n UnionType.call(this, schema, opts);\n\n this._dynamicBranches = null;\n this._bucketIndices = {};\n this.types.forEach(function (type, index) {\n if (Type.isType(type, 'abstract', 'logical')) {\n if (!this._dynamicBranches) {\n this._dynamicBranches = [];\n }\n this._dynamicBranches.push({index: index, type: type});\n } else {\n var bucket = getTypeBucket(type);\n if (this._bucketIndices[bucket] !== undefined) {\n throw new Error(f('ambiguous unwrapped union: %j', this));\n }\n this._bucketIndices[bucket] = index;\n }\n }, this);\n\n Object.freeze(this);\n}", "function getUnionType(types, subtypeReduction, aliasSymbol, aliasTypeArguments) {\n if (types.length === 0) {\n return neverType;\n }\n if (types.length === 1) {\n return types[0];\n }\n var typeSet = [];\n addTypesToUnion(typeSet, types);\n if (typeSet.containsAny) {\n return anyType;\n }\n if (subtypeReduction) {\n removeSubtypes(typeSet);\n }\n if (typeSet.length === 0) {\n return typeSet.containsNull ? typeSet.containsNonWideningType ? nullType : nullWideningType :\n typeSet.containsUndefined ? typeSet.containsNonWideningType ? undefinedType : undefinedWideningType :\n neverType;\n }\n return getUnionTypeFromSortedList(typeSet, aliasSymbol, aliasTypeArguments);\n }", "function generateSetOperation(ast, options) {\n var members = ast.params.map(function (_) { return generateType(_, options); });\n var separator = ast.type === 'UNION' ? '|' : '&';\n return members.length === 1 ? members[0] : '(' + members.join(' ' + separator + ' ') + ')';\n}", "function UnionContract(first, second) {\n if(!(this instanceof UnionContract)) return new UnionContract(first, second);\n\n if(!(first instanceof Contract)) error(\"Wrong Contract\", (new Error()).fileName, (new Error()).lineNumber);\n if(!(second instanceof Contract)) error(\"Wrong Contract\", (new Error()).fileName, (new Error()).lineNumber);\n\n Object.defineProperties(this, {\n \"first\": {\n get: function () { return first; } },\n \"second\": {\n get: function () { return second; } }\n });\n\n this.toString = function() { return \"(\" + first.toString() + \"cup\" + second.toString() + \")\"; };\n }", "union (table) {\n this._add(table, 'UNION');\n }", "static union(o,p) { return extend(extend({},o), p); }", "function unionExpr(stream, a) { return binaryL(pathExpr, stream, a, '|'); }", "function unionExpr(stream, a) { return binaryL(pathExpr, stream, a, '|'); }", "function parseEnumMember() {\n var node = createNode(255 /* EnumMember */, scanner.getStartPos());\n node.name = parsePropertyName();\n node.initializer = allowInAnd(parseNonParameterInitializer);\n return finishNode(node);\n }", "static union(...types) {\n return async function typeFn(message, phrase) {\n for (let entry of types) {\n if (typeof entry === \"function\")\n entry = entry.bind(this);\n const res = await Argument.cast(entry, this.handler.resolver, message, phrase);\n if (!Argument.isFailure(res))\n return res;\n }\n return null;\n };\n }", "function typesToStringUnion(types) {\n return arrayDefined(types.map(function (t) {\n switch (t.kind) {\n case SimpleTypeKind.STRING_LITERAL:\n case SimpleTypeKind.NUMBER_LITERAL:\n return { name: t.value.toString() };\n default:\n return undefined;\n }\n }));\n}", "function unionAll() {\n\t var union = [];\n\t for (var i = 0, l = arguments.length; i < l; i++) {\n\t union = union.concat.apply(union, arguments[i]);\n\t }return union;\n\t }", "function union(o, p) {\n return extend(extend({}, o), p);\n}", "function union(o, p) {\n\treturn extend(extend({}, o), p);\n}", "union(expression) {\n return new SelectQueryBuilder({\n ...this.#props,\n queryNode: SelectQueryNode.cloneWithSetOperation(this.#props.queryNode, parseSetOperation('union', expression, false)),\n });\n }" ]
[ "0.8031646", "0.8031646", "0.79166913", "0.77637833", "0.7708086", "0.7668339", "0.76194954", "0.7561891", "0.7561891", "0.7561891", "0.7561891", "0.7539163", "0.7533797", "0.741854", "0.741854", "0.7285285", "0.7002373", "0.6606566", "0.657404", "0.6554488", "0.6547767", "0.65374345", "0.65374345", "0.65374345", "0.65374345", "0.65374345", "0.65324247", "0.65324247", "0.65324247", "0.65324247", "0.65324247", "0.65324247", "0.65157694", "0.65038884", "0.64938617", "0.6491931", "0.6491931", "0.62966555", "0.62892103", "0.6198234", "0.6100818", "0.60256314", "0.5932882", "0.58473283", "0.58387643", "0.5837755", "0.58285314", "0.581909", "0.5818646", "0.5818646", "0.5816879", "0.58080125", "0.57873785", "0.57670283", "0.575537", "0.5729624", "0.5711905", "0.5711905", "0.5711905", "0.5711905", "0.56902677", "0.56902677", "0.5627103", "0.5624485", "0.5444405", "0.5404388", "0.53779685", "0.5364089", "0.53521174", "0.53521174", "0.53386295", "0.5137718", "0.5137718", "0.5137718", "0.5137718", "0.50873953", "0.5087175", "0.5056156", "0.5046246", "0.50427", "0.50355256", "0.5012066", "0.49968034", "0.49795905", "0.494975", "0.49342695", "0.48766813", "0.485781", "0.48297992", "0.48297992", "0.4788178", "0.4750412", "0.47493133", "0.47431883", "0.47376037", "0.46639344", "0.46571928" ]
0.79965776
5
EnumValueDefinition : EnumValue Directives? EnumValue : Name
function parseEnumValueDefinition(lexer) { var start = lexer.token; var name = parseName(lexer); var directives = parseDirectives(lexer); return { kind: _kinds.ENUM_VALUE_DEFINITION, name: name, directives: directives, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseEnumValueDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseEnumValueName();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.ENUM_VALUE_DEFINITION,\n description,\n name,\n directives,\n });\n }", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.ENUM_VALUE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseEnumValueDefinition(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.ENUM_VALUE_DEFINITION,\n\t name: name,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(parser) {\n\t var start = parser.token.start;\n\t var name = parseName(parser);\n\t return {\n\t kind: _kinds.ENUM_VALUE_DEFINITION,\n\t name: name,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseEnumValueDefinition(parser) {\n var start = parser.token.start;\n var name = parseName(parser);\n return {\n kind: _kinds.ENUM_VALUE_DEFINITION,\n name: name,\n loc: loc(parser, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseEnumValueDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.ENUM_VALUE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "parseEnumValueName() {\n if (\n this._lexer.token.value === 'true' ||\n this._lexer.token.value === 'false' ||\n this._lexer.token.value === 'null'\n ) {\n throw syntaxError(\n this._lexer.source,\n this._lexer.token.start,\n `${getTokenDesc(\n this._lexer.token,\n )} is reserved and cannot be used for an enum value.`,\n );\n }\n\n return this.parseName();\n }", "parseEnumTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('enum');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const values = this.parseEnumValuesDefinition();\n return this.node(start, {\n kind: Kind.ENUM_TYPE_DEFINITION,\n description,\n name,\n directives,\n values,\n });\n }", "function parseEnumTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'enum');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var values = parseEnumValuesDefinition(lexer);\n\t return {\n\t kind: _kinds.ENUM_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t directives: directives,\n\t values: values,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds.Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds.Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds.Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds.Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds.Kind.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "processEnumBody(enumName) {\n let isPreviousValidIdentifier = false;\n let lastValueReference = null;\n while (true) {\n if (this.tokens.matches1(tt.braceR)) {\n break;\n }\n const nameToken = this.tokens.currentToken();\n let name;\n let nameStringCode;\n if (nameToken.type === tt.name) {\n name = this.tokens.identifierNameForToken(nameToken);\n nameStringCode = `\"${name}\"`;\n } else if (nameToken.type === tt.string) {\n name = this.tokens.stringValueForToken(nameToken);\n nameStringCode = this.tokens.code.slice(nameToken.start, nameToken.end);\n } else {\n throw new Error(\"Expected name or string at beginning of enum element.\");\n }\n const isValidIdentifier = isIdentifier(name);\n this.tokens.removeInitialToken();\n\n let valueIsString;\n let valueCode;\n\n if (this.tokens.matches1(tt.eq)) {\n const rhsEndIndex = this.tokens.currentToken().rhsEndIndex;\n if (rhsEndIndex == null) {\n throw new Error(\"Expected rhsEndIndex on enum assign.\");\n }\n this.tokens.removeToken();\n if (\n this.tokens.matches2(tt.string, tt.comma) ||\n this.tokens.matches2(tt.string, tt.braceR)\n ) {\n valueIsString = true;\n }\n const startToken = this.tokens.currentToken();\n while (this.tokens.currentIndex() < rhsEndIndex) {\n this.tokens.removeToken();\n }\n valueCode = this.tokens.code.slice(\n startToken.start,\n this.tokens.tokenAtRelativeIndex(-1).end,\n );\n } else {\n valueIsString = false;\n if (lastValueReference != null) {\n if (isPreviousValidIdentifier) {\n valueCode = `${lastValueReference} + 1`;\n } else {\n valueCode = `(${lastValueReference}) + 1`;\n }\n } else {\n valueCode = \"0\";\n }\n }\n if (this.tokens.matches1(tt.comma)) {\n this.tokens.removeToken();\n }\n\n let valueReference;\n if (isValidIdentifier) {\n this.tokens.appendCode(`const ${name} = ${valueCode}; `);\n valueReference = name;\n } else {\n valueReference = valueCode;\n }\n\n if (valueIsString) {\n this.tokens.appendCode(`${enumName}[${nameStringCode}] = ${valueReference};`);\n } else {\n this.tokens.appendCode(\n `${enumName}[${enumName}[${nameStringCode}] = ${valueReference}] = ${nameStringCode};`,\n );\n }\n lastValueReference = valueReference;\n isPreviousValidIdentifier = isValidIdentifier;\n }\n }", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function UniqueEnumValueNamesRule(context) {\n var schema = context.getSchema();\n var existingTypeMap = schema ? schema.getTypeMap() : Object.create(null);\n var knownValueNames = Object.create(null);\n return {\n EnumTypeDefinition: checkValueUniqueness,\n EnumTypeExtension: checkValueUniqueness\n };\n\n function checkValueUniqueness(node) {\n var _node$values;\n\n var typeName = node.name.value;\n\n if (!knownValueNames[typeName]) {\n knownValueNames[typeName] = Object.create(null);\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var valueNodes = (_node$values = node.values) !== null && _node$values !== void 0 ? _node$values : [];\n var valueNames = knownValueNames[typeName];\n\n for (var _i2 = 0; _i2 < valueNodes.length; _i2++) {\n var valueDef = valueNodes[_i2];\n var valueName = valueDef.name.value;\n var existingType = existingTypeMap[typeName];\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(existingType) && existingType.getValue(valueName)) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" already exists in the schema. It cannot also be defined in this type extension.\"), valueDef.name));\n } else if (valueNames[valueName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" can only be defined once.\"), [valueNames[valueName], valueDef.name]));\n } else {\n valueNames[valueName] = valueDef.name;\n }\n }\n\n return false;\n }\n}", "function UniqueEnumValueNamesRule(context) {\n var schema = context.getSchema();\n var existingTypeMap = schema ? schema.getTypeMap() : Object.create(null);\n var knownValueNames = Object.create(null);\n return {\n EnumTypeDefinition: checkValueUniqueness,\n EnumTypeExtension: checkValueUniqueness\n };\n\n function checkValueUniqueness(node) {\n var _node$values;\n\n var typeName = node.name.value;\n\n if (!knownValueNames[typeName]) {\n knownValueNames[typeName] = Object.create(null);\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var valueNodes = (_node$values = node.values) !== null && _node$values !== void 0 ? _node$values : [];\n var valueNames = knownValueNames[typeName];\n\n for (var _i2 = 0; _i2 < valueNodes.length; _i2++) {\n var valueDef = valueNodes[_i2];\n var valueName = valueDef.name.value;\n var existingType = existingTypeMap[typeName];\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(existingType) && existingType.getValue(valueName)) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" already exists in the schema. It cannot also be defined in this type extension.\"), valueDef.name));\n } else if (valueNames[valueName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" can only be defined once.\"), [valueNames[valueName], valueDef.name]));\n } else {\n valueNames[valueName] = valueDef.name;\n }\n }\n\n return false;\n }\n}", "function UniqueEnumValueNamesRule(context) {\n var schema = context.getSchema();\n var existingTypeMap = schema ? schema.getTypeMap() : Object.create(null);\n var knownValueNames = Object.create(null);\n return {\n EnumTypeDefinition: checkValueUniqueness,\n EnumTypeExtension: checkValueUniqueness\n };\n\n function checkValueUniqueness(node) {\n var _node$values;\n\n var typeName = node.name.value;\n\n if (!knownValueNames[typeName]) {\n knownValueNames[typeName] = Object.create(null);\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var valueNodes = (_node$values = node.values) !== null && _node$values !== void 0 ? _node$values : [];\n var valueNames = knownValueNames[typeName];\n\n for (var _i2 = 0; _i2 < valueNodes.length; _i2++) {\n var valueDef = valueNodes[_i2];\n var valueName = valueDef.name.value;\n var existingType = existingTypeMap[typeName];\n\n if ((0, _definition.isEnumType)(existingType) && existingType.getValue(valueName)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" already exists in the schema. It cannot also be defined in this type extension.\"), valueDef.name));\n } else if (valueNames[valueName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" can only be defined once.\"), [valueNames[valueName], valueDef.name]));\n } else {\n valueNames[valueName] = valueDef.name;\n }\n }\n\n return false;\n }\n}", "function UniqueEnumValueNamesRule(context) {\n var schema = context.getSchema();\n var existingTypeMap = schema ? schema.getTypeMap() : Object.create(null);\n var knownValueNames = Object.create(null);\n return {\n EnumTypeDefinition: checkValueUniqueness,\n EnumTypeExtension: checkValueUniqueness\n };\n\n function checkValueUniqueness(node) {\n var _node$values;\n\n var typeName = node.name.value;\n\n if (!knownValueNames[typeName]) {\n knownValueNames[typeName] = Object.create(null);\n } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n\n var valueNodes = (_node$values = node.values) !== null && _node$values !== void 0 ? _node$values : [];\n var valueNames = knownValueNames[typeName];\n\n for (var _i2 = 0; _i2 < valueNodes.length; _i2++) {\n var valueDef = valueNodes[_i2];\n var valueName = valueDef.name.value;\n var existingType = existingTypeMap[typeName];\n\n if ((0, _definition.isEnumType)(existingType) && existingType.getValue(valueName)) {\n context.reportError(new _GraphQLError.GraphQLError(\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" already exists in the schema. It cannot also be defined in this type extension.\"), valueDef.name));\n } else if (valueNames[valueName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" can only be defined once.\"), [valueNames[valueName], valueDef.name]));\n } else {\n valueNames[valueName] = valueDef.name;\n }\n }\n\n return false;\n }\n}", "function SettableEnumValue() {}", "function parseEnumTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'enum');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var values = parseEnumValuesDefinition(lexer$$1);\n return {\n kind: kinds.ENUM_TYPE_DEFINITION,\n description: description,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer$$1, start)\n };\n}", "processEnumBody(enumName) {\n let isPreviousValidIdentifier = false;\n let lastValueReference = null;\n while (true) {\n if (this.tokens.matches1(_types.TokenType.braceR)) {\n break;\n }\n const nameToken = this.tokens.currentToken();\n let name;\n let nameStringCode;\n if (nameToken.type === _types.TokenType.name) {\n name = this.tokens.identifierNameForToken(nameToken);\n nameStringCode = `\"${name}\"`;\n } else if (nameToken.type === _types.TokenType.string) {\n name = this.tokens.stringValueForToken(nameToken);\n nameStringCode = this.tokens.code.slice(nameToken.start, nameToken.end);\n } else {\n throw new Error(\"Expected name or string at beginning of enum element.\");\n }\n const isValidIdentifier = _isIdentifier2.default.call(void 0, name);\n this.tokens.removeInitialToken();\n\n let valueIsString;\n let valueCode;\n\n if (this.tokens.matches1(_types.TokenType.eq)) {\n const rhsEndIndex = this.tokens.currentToken().rhsEndIndex;\n if (rhsEndIndex == null) {\n throw new Error(\"Expected rhsEndIndex on enum assign.\");\n }\n this.tokens.removeToken();\n if (\n this.tokens.matches2(_types.TokenType.string, _types.TokenType.comma) ||\n this.tokens.matches2(_types.TokenType.string, _types.TokenType.braceR)\n ) {\n valueIsString = true;\n }\n const startToken = this.tokens.currentToken();\n while (this.tokens.currentIndex() < rhsEndIndex) {\n this.tokens.removeToken();\n }\n valueCode = this.tokens.code.slice(\n startToken.start,\n this.tokens.tokenAtRelativeIndex(-1).end,\n );\n } else {\n valueIsString = false;\n if (lastValueReference != null) {\n if (isPreviousValidIdentifier) {\n valueCode = `${lastValueReference} + 1`;\n } else {\n valueCode = `(${lastValueReference}) + 1`;\n }\n } else {\n valueCode = \"0\";\n }\n }\n if (this.tokens.matches1(_types.TokenType.comma)) {\n this.tokens.removeToken();\n }\n\n let valueReference;\n if (isValidIdentifier) {\n this.tokens.appendCode(`const ${name} = ${valueCode}; `);\n valueReference = name;\n } else {\n valueReference = valueCode;\n }\n\n if (valueIsString) {\n this.tokens.appendCode(`${enumName}[${nameStringCode}] = ${valueReference};`);\n } else {\n this.tokens.appendCode(\n `${enumName}[${enumName}[${nameStringCode}] = ${valueReference}] = ${nameStringCode};`,\n );\n }\n lastValueReference = valueReference;\n isPreviousValidIdentifier = isValidIdentifier;\n }\n }", "get enumValueIndex() {}", "function getEnum(enumName, enumValue, enumAttribute) {\r\n\r\n if (typeof (enumName[enumValue]) !== 'undefined') {\r\n var enumObjectValue = enumName[enumValue];\r\n if (typeof (enumObjectValue[enumAttribute]) !== 'undefined') {\r\n return enumObjectValue[enumAttribute];\r\n } else {\r\n return enumObjectValue.Value;\r\n }\r\n }\r\n}", "set enumValueIndex(value) {}", "enum_tag(val) {\n return this.varint(val);\n }", "function UniqueEnumValueNames(context) {\n var schema = context.getSchema();\n var existingTypeMap = schema ? schema.getTypeMap() : Object.create(null);\n var knownValueNames = Object.create(null);\n return {\n EnumTypeDefinition: checkValueUniqueness,\n EnumTypeExtension: checkValueUniqueness\n };\n\n function checkValueUniqueness(node) {\n var typeName = node.name.value;\n\n if (!knownValueNames[typeName]) {\n knownValueNames[typeName] = Object.create(null);\n }\n\n if (node.values) {\n var valueNames = knownValueNames[typeName];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = node.values[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var valueDef = _step.value;\n var valueName = valueDef.name.value;\n var existingType = existingTypeMap[typeName];\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(existingType) && existingType.getValue(valueName)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](existedEnumValueNameMessage(typeName, valueName), valueDef.name));\n } else if (valueNames[valueName]) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](duplicateEnumValueNameMessage(typeName, valueName), [valueNames[valueName], valueDef.name]));\n } else {\n valueNames[valueName] = valueDef.name;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }\n\n return false;\n }\n}", "static mapEnum(value) {\n return value;\n }", "function parseEnumMember() {\n var node = createNode(255 /* EnumMember */, scanner.getStartPos());\n node.name = parsePropertyName();\n node.initializer = allowInAnd(parseNonParameterInitializer);\n return finishNode(node);\n }", "function enumration(namesToValues) {\n var Enumration = function () {\n throw \"Can't Instantiate Enumartions\";\n };\n\n Enumration.prototype = {\n constructor: Enumration,\n toString: function () { return this.name; },\n valueOf: function () { return this.value; },\n toJSON: function () { return this.name },\n }\n\n Enumration.values = [];\n\n for (var name in namesToValues) {\n var enumInstance = inherit(Enumration.prototype);\n enumInstance.name = name;\n enumInstance.value = namesToValues[name];\n Enumration[name] = enumInstance;\n Enumration.values.push(enumInstance);\n }\n Enumration.forEach = function (operation, context) {\n var count = this.values.length;\n for (var index = 0; index < count; index++) {\n operation.call(context, this.values[index]);\n }\n };\n return Enumration;\n}", "set enumNames(value) {}", "function formatEnumValue(value) {\n value = value.split('_');\n\n if (value[1]) {\n value = value[1].toLowerCase();\n return value.charAt(0).toUpperCase() + value.slice(1);\n }\n\n return value[0].toLowerCase();\n} //* ** Enum Dropdown ***/", "function checkEnum(value, validValues) {\n if (validValues.indexOf(value) === -1) {\n throw Error(\n `Precondition failed: ${value} is not a member of ${validValues}`\n );\n }\n return value;\n}", "function Column_ENUM() {}", "parseEnumTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('enum');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const values = this.parseEnumValuesDefinition();\n\n if (directives.length === 0 && values.length === 0) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.ENUM_TYPE_EXTENSION,\n name,\n directives,\n values,\n });\n }", "function Enum(name,\n\t{\n\t\tsize = 1,\n\t\tchoices,\n\t\tbigEndian = true,\n\t}\n) {\n\tif ((size < 1) || (size > 4)) {\n\t\tthrow new Error('Javascript bit operations are only safe to 32 bits, so we can\\'t do sizes over that');\n\t}\n\n\treturn function (buffer) {\n\t\tlet value = 0;\n\n\t\t// parse value\n\t\tfor (let i = 0; i < size; i += 1) {\n\t\t\tif (bigEndian) {\n\t\t\t\tvalue = (value << 8) + buffer[i];\n\t\t\t} else {\n\t\t\t\tvalue += buffer[i] << (8 * i);\n\t\t\t}\n\t\t}\n\n\t\t// check which enum case matches\n\t\tfor (const key of Object.keys(choices)) {\n\t\t\tconst val = choices[key];\n\n\t\t\tif (value === val) {\n\t\t\t\treturn {\n\t\t\t\t\tname,\n\t\t\t\t\tvalue: key,\n\t\t\t\t\tsize,\n\t\t\t\t};\n\t\t\t}\n\t\t}\n\n\t\t// no case matches, return `null`\n\t\treturn {\n\t\t\tname,\n\t\t\tvalue: null,\n\t\t\tsize,\n\t\t};\n\t};\n}", "function duplicateEnumValueNameMessage(typeName, valueName) {\n return \"Enum value \\\"\".concat(typeName, \".\").concat(valueName, \"\\\" can only be defined once.\");\n}", "processImplicitValueEnumMember(\n enumName,\n nameStringCode,\n variableName,\n previousValueCode,\n ) {\n let valueCode = previousValueCode != null ? `${previousValueCode} + 1` : \"0\";\n if (variableName != null) {\n this.tokens.appendCode(`const ${variableName} = ${valueCode}; `);\n valueCode = variableName;\n }\n this.tokens.appendCode(\n `${enumName}[${enumName}[${nameStringCode}] = ${valueCode}] = ${nameStringCode};`,\n );\n }", "function fromEnum (gtype, enumValue) {\n var value = libvips.vips_enum_nick(gtype, enumValue);\n if (value === ref.NULL) {\n throw new vips.VipsError('value not in enum');\n }\n\n return value;\n }", "function EnumType(schema, opts) {\n Type.call(this, schema, opts);\n if (!Array.isArray(schema.symbols) || !schema.symbols.length) {\n throw new Error(f('invalid enum symbols: %j', schema.symbols));\n }\n this.symbols = Object.freeze(schema.symbols.slice());\n this._indices = {};\n this.symbols.forEach(function (symbol, i) {\n if (!utils.isValidName(symbol)) {\n throw new Error(f('invalid %s symbol: %j', this, symbol));\n }\n if (this._indices[symbol] !== undefined) {\n throw new Error(f('duplicate %s symbol: %j', this, symbol));\n }\n this._indices[symbol] = i;\n }, this);\n this.default = schema.default;\n if (this.default !== undefined && this._indices[this.default] === undefined) {\n throw new Error(f('invalid %s default: %j', this, this.default));\n }\n this._branchConstructor = this._createBranchConstructor();\n Object.freeze(this);\n}", "function EnumItem(key, value) {\n\t var options = arguments[2] === undefined ? {} : arguments[2];\n\t\n\t _classCallCheck(this, EnumItem);\n\t\n\t this.key = key;\n\t this.value = value;\n\t\n\t this._options = options;\n\t this._options.ignoreCase = this._options.ignoreCase || false;\n\t }", "function EnumItem(key, value) {\n var options = arguments[2] === undefined ? {} : arguments[2];\n\n _classCallCheck(this, EnumItem);\n\n this.key = key;\n this.value = value;\n\n this._options = options;\n this._options.ignoreCase = this._options.ignoreCase || false;\n }", "function EnumItem(key, value) {\n var options = arguments[2] === undefined ? {} : arguments[2];\n\n _classCallCheck(this, EnumItem);\n\n this.key = key;\n this.value = value;\n\n this._options = options;\n this._options.ignoreCase = this._options.ignoreCase || false;\n }", "constructor() {\n super('ENUM');\n }", "Enum(item, options = {}) {\r\n const values = Object.keys(item).filter(key => isNaN(key)).map(key => item[key]);\r\n const anyOf = values.map(value => typeof value === 'string' ? { type: 'string', const: value } : { type: 'number', const: value });\r\n return { ...options, kind: exports.EnumKind, anyOf };\r\n }", "function EnumType(name) {\n return function(url) {\n return B (NullaryType (name) (url) ([])) (memberOf);\n };\n }", "function getEnumBoxDefFun() {\n\t\treturn {\n\t\t\tdivId: '#selectSex',\n\t\t\tenumKey: 'pub-sex', //枚举关键字'表名-字段名'\n\t\t\thiddenId: '', //隐藏对象的id,用于表单赋值,\n\t\t\tenumMap: {}, //已经查出来的枚举map对象\n\t\t\t/* **************必填分割线,上面必填,下面可选 *************************************/\n\t\t\tdefVal: null, //枚举的默认显示值\n\t\t\tvalueField: 'enumCode', //combobox的id\n\t\t\ttextField: 'enumValue', //combobox的显示值字段\n\t\t\t//textField:'enumMapValue',\n\t\t\taddAll: false //是否添加全部选项\n\t\t};\n\t}", "function EnumType(schema, opts) {\n Type$2.call(this, schema, opts);\n if (!Array.isArray(schema.symbols) || !schema.symbols.length) {\n throw new Error(f('invalid enum symbols: %j', schema.symbols));\n }\n this.symbols = Object.freeze(schema.symbols.slice());\n this._indices = {};\n this.symbols.forEach(function (symbol, i) {\n if (!isValidName(symbol)) {\n throw new Error(f('invalid %s symbol: %j', this, symbol));\n }\n if (this._indices[symbol] !== undefined) {\n throw new Error(f('duplicate %s symbol: %j', this, symbol));\n }\n this._indices[symbol] = i;\n }, this);\n this._branchConstructor = this._createBranchConstructor();\n Object.freeze(this);\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function serializeEnum(val) {\n return val;\n}", "function $Enum() {\n\t\treturn Field.apply(this, arguments);\n\t\tvar options = this.options;\n\t\tif (options) {\n\t\t\tif (typeof options === \"string\") {\n\t\t\t\tthis.options = options = options.trim().split(/\\s*,\\s*/);\n\t\t\t}\n\t\t\tvar Super = Object.isArrayLike(options) ? $Number : $String;\n\t\t\tif (!this.get) this.get = Super.get;\n\t\t\tif (!this.set) this.set = Super.get;\n\t\t\tif (!this.makeParser) this.makeParser = Super.makeParser\n\t\t}\n\t\treturn Field.apply(this, arguments);\n\t}", "getEnum() {\n return this.e;\n }", "function serializeEnum(val) {\n\t return val;\n\t}", "function serializeEnum(val) {\n\t return val;\n\t}", "function serializeEnum(val) {\n\t return val;\n\t}", "function serializeEnum(val) {\n\t return val;\n\t}", "processEnumBody(enumName) {\n // Code that can be used to reference the previous enum member, or null if this is the first\n // enum member.\n let previousValueCode = null;\n while (true) {\n if (this.tokens.matches1(TokenType.braceR)) {\n break;\n }\n const {nameStringCode, variableName} = this.extractEnumKeyInfo(this.tokens.currentToken());\n this.tokens.removeInitialToken();\n\n if (\n this.tokens.matches3(TokenType.eq, TokenType.string, TokenType.comma) ||\n this.tokens.matches3(TokenType.eq, TokenType.string, TokenType.braceR)\n ) {\n this.processStringLiteralEnumMember(enumName, nameStringCode, variableName);\n } else if (this.tokens.matches1(TokenType.eq)) {\n this.processExplicitValueEnumMember(enumName, nameStringCode, variableName);\n } else {\n this.processImplicitValueEnumMember(\n enumName,\n nameStringCode,\n variableName,\n previousValueCode,\n );\n }\n if (this.tokens.matches1(TokenType.comma)) {\n this.tokens.removeToken();\n }\n\n if (variableName != null) {\n previousValueCode = variableName;\n } else {\n previousValueCode = `${enumName}[${nameStringCode}]`;\n }\n }\n }", "function isEnum(value, entity) {\n const enumValues = Object.keys(entity).map(k => entity[k]);\n return enumValues.indexOf(value) >= 0;\n}", "function isEnum(value, entity) {\n const enumValues = Object.keys(entity).map(k => entity[k]);\n return enumValues.indexOf(value) >= 0;\n}", "function useEnumName(target, key, descriptor) {\n validateProperty(\"useEnumName\", key, descriptor);\n mapping.getOrCreateOwn(target, key, () => ({})).useEnumName = true;\n }", "function enumeration(name,\n\t{\n\t\tsize = 1,\n\t\tchoices,\n\t\tbigEndian,\n\t}\n) {\n\tif ((size < 1) || (size > 4)) {\n\t\tthrow new Error('Javascript bit operations are only safe to 32 bits, so we can\\'t do sizes over that');\n\t}\n\n\tfunction parse(buffer, parseTree, { bigEndian: inheritBigEndian }) {\n\t\tlet value = 0;\n\n\t\tif (bigEndian === undefined) {\n\t\t\tbigEndian = inheritBigEndian;\n\t\t}\n\n\t\t// parse value\n\t\tfor (let i = 0; i < size; i += 1) {\n\t\t\tif (bigEndian) {\n\t\t\t\tvalue = (value << 8) + buffer[i];\n\t\t\t} else {\n\t\t\t\tvalue += buffer[i] << (8 * i);\n\t\t\t}\n\t\t}\n\n\t\t// check which enum case matches\n\t\tfor (const key of Object.keys(choices)) {\n\t\t\tconst val = choices[key];\n\n\t\t\tif (value === val) {\n\t\t\t\treturn {\n\t\t\t\t\tname,\n\t\t\t\t\tvalue: key,\n\t\t\t\t\tsize,\n\t\t\t\t};\n\t\t\t}\n\t\t}\n\n\t\t// no case matches, return `null`\n\t\treturn {\n\t\t\tvalue: null,\n\t\t\tsize,\n\t\t};\n\t}\n\n\tfunction prepareEncode(object, parseTree, { bigEndian: inheritBigEndian }) {\n\t}\n\n\tfunction encode(object, { bigEndian: inheritBigEndian }) {\n\t\tconst value = choices[object];\n\t\tconst data = Buffer.alloc(size);\n\n\t\tif (bigEndian === undefined) {\n\t\t\tbigEndian = inheritBigEndian;\n\t\t}\n\n\t\tfor (let i = 0; i < size; i += 1) {\n\t\t\tif (bigEndian) {\n\t\t\t\tdata[i] = (value >> ((size - i - 1) * 8)) & 0xff;\n\t\t\t} else {\n\t\t\t\tdata[i] = (value >> (i * 8)) & 0xff;\n\t\t\t}\n\t\t}\n\n\t\treturn data;\n\t}\n\n\tfunction makeStruct() {\n\t\treturn null;\n\t}\n\n\treturn { parse, prepareEncode, encode, makeStruct, name };\n}", "function toEnum (gtype, value) {\n var enumValue;\n\n if (typeof value === 'string' || value instanceof String) {\n enumValue = libvips.vips_enum_from_nick('node-vips', gtype, value);\n\n if (enumValue < 0) {\n throw new vips.VipsError('no such enum ' + value);\n }\n } else {\n enumValue = value;\n }\n\n return enumValue;\n }", "set enumDisplayNames(value) {}", "function getEnumValues(connection,schema,typename,dialect) {\n switch (dialect) {\n case 'pg':\n return connection.raw('select e.enumlabel as enum_value from pg_type t join pg_enum e on t.oid = e.enumtypid join pg_catalog.pg_namespace n ON n.oid = t.typnamespace AND n.nspname = ? WHERE t.typname = ?',[schema,typename]);\n }\n return ;\n }", "function _getEnum (name) {\n return _.findWhere(this.props._enums, { name: name });\n}", "get enumNames() {}", "function parseEnumTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n\n if (directives.length === 0 && values.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM_TYPE_EXTENSION,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n\n if (directives.length === 0 && values.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM_TYPE_EXTENSION,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n\n if (directives.length === 0 && values.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_TYPE_EXTENSION,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function parseEnumTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'enum');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var values = parseEnumValuesDefinition(lexer);\n\n if (directives.length === 0 && values.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM_TYPE_EXTENSION,\n name: name,\n directives: directives,\n values: values,\n loc: loc(lexer, start)\n };\n}", "function convertEnum(enumType, fileBuffer) {\n var enumDef = \"enum \" + enumType.name + \" {\\n\" + enumType.symbols.map(function (s) { return \"\\t\" + s + \"\\n\"; }).join(\"\") + \"}\\n\";\n fileBuffer.push(enumDef);\n return enumType.name;\n}", "function IsEnum(entity, validationOptions) {\n return Object(_common_ValidateBy__WEBPACK_IMPORTED_MODULE_0__[\"ValidateBy\"])({\n name: IS_ENUM,\n constraints: [entity],\n validator: {\n validate: (value, args) => isEnum(value, args.constraints[0]),\n defaultMessage: Object(_common_ValidateBy__WEBPACK_IMPORTED_MODULE_0__[\"buildMessage\"])(eachPrefix => eachPrefix + '$property must be a valid enum value', validationOptions),\n },\n }, validationOptions);\n}", "function ccenum(enumType) {\n if (!('__enums__' in enumType)) {\n value(enumType, '__enums__', null, true);\n }\n }", "function IsEnum(entity, validationOptions) {\n return ValidateBy_1.ValidateBy({\n name: exports.IS_ENUM,\n constraints: [entity],\n validator: {\n validate: (value, args) => isEnum(value, args.constraints[0]),\n defaultMessage: ValidateBy_1.buildMessage(eachPrefix => eachPrefix + '$property must be a valid enum value', validationOptions),\n },\n }, validationOptions);\n}" ]
[ "0.86656684", "0.8045927", "0.80225587", "0.79836", "0.7978656", "0.7978656", "0.7978656", "0.7978656", "0.7978656", "0.7911829", "0.7791489", "0.7773378", "0.776112", "0.7755505", "0.7755505", "0.7608511", "0.7397767", "0.73932606", "0.6672689", "0.66048175", "0.65508544", "0.65508544", "0.65508544", "0.65508544", "0.65508544", "0.65238124", "0.65208745", "0.65182835", "0.65133774", "0.65133774", "0.6505349", "0.6505349", "0.6486973", "0.6486973", "0.64788413", "0.64514405", "0.6412468", "0.6404876", "0.6402777", "0.63896245", "0.6346141", "0.6297541", "0.6224647", "0.61973846", "0.61176705", "0.6085898", "0.6083224", "0.6044444", "0.60147196", "0.6013672", "0.6010045", "0.5945124", "0.59398514", "0.59247315", "0.591691", "0.5903336", "0.58816874", "0.58816874", "0.5871111", "0.5870062", "0.58672076", "0.5846823", "0.57719046", "0.5708678", "0.5708678", "0.5708678", "0.5708678", "0.5708678", "0.5708678", "0.5708678", "0.5708678", "0.56918806", "0.5687604", "0.5686647", "0.5686647", "0.5686647", "0.5686647", "0.5667435", "0.56504816", "0.56504816", "0.564944", "0.5643021", "0.5625701", "0.561482", "0.5610143", "0.5584116", "0.5575984", "0.5545225", "0.55419314", "0.5536816", "0.5536816", "0.5490187", "0.5482535", "0.5477895", "0.54713094" ]
0.7902182
14
TypeExtensionDefinition : extend ObjectTypeDefinition
function parseTypeExtensionDefinition(lexer) { var start = lexer.token; expectKeyword(lexer, 'extend'); var definition = parseObjectTypeDefinition(lexer); return { kind: _kinds.TYPE_EXTENSION_DEFINITION, definition: definition, loc: loc(lexer, start) }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "parseObjectTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n\n if (\n interfaces.length === 0 &&\n directives.length === 0 &&\n fields.length === 0\n ) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_EXTENSION,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'type');\n\t var name = parseName(lexer);\n\t var interfaces = parseImplementsInterfaces(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.OBJECT_TYPE_EXTENSION,\n\t name: name,\n\t interfaces: interfaces,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseObjectTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'type');\n var name = parseName(lexer$$1);\n var interfaces = parseImplementsInterfaces(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (interfaces.length === 0 && directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_EXTENSION,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseTypeExtensionDefinition(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t var definition = parseObjectTypeDefinition(lexer);\n\t return {\n\t kind: _kinds.TYPE_EXTENSION_DEFINITION,\n\t definition: definition,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseTypeExtensionDefinition(parser) {\n var start = parser.token.start;\n expectKeyword(parser, 'extend');\n var definition = parseObjectTypeDefinition(parser);\n return {\n kind: _kinds.TYPE_EXTENSION_DEFINITION,\n definition: definition,\n loc: loc(parser, start)\n };\n}", "function parseTypeExtensionDefinition(parser) {\n\t var start = parser.token.start;\n\t expectKeyword(parser, 'extend');\n\t var definition = parseObjectTypeDefinition(parser);\n\t return {\n\t kind: _kinds.TYPE_EXTENSION_DEFINITION,\n\t definition: definition,\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'input');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseInputFieldsDefinition(lexer);\n\t if (directives.length === 0 && fields.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.INPUT_OBJECT_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, allTypeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + (0, _didYouMean.default)(suggestedTypes), node.name));\n }\n }\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, allTypeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + (0, _didYouMean.default)(suggestedTypes), node.name));\n }\n }\n}", "parseInputObjectTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('input');\n const name = this.parseName();\n const directives = this.parseConstDirectives();\n const fields = this.parseInputFieldsDefinition();\n\n if (directives.length === 0 && fields.length === 0) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name,\n directives,\n fields,\n });\n }", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'input');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseInputFieldsDefinition(lexer$$1);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInputObjectTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'input');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseInputFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INPUT_OBJECT_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedTypes), node.name));\n }\n }\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedTypes), node.name));\n }\n }\n}", "registerExtension (object) {\n // TODO dedupe to be really nice\n let ep = this._ep\n // The latest version of the list, which clients can make views of\n ep._backingArray.push(object)\n // Emit to any listeners that clients may want informed.\n delete ep._objCache\n delete this._objGroupsCache\n ep._emitter.emit('add', object)\n return this\n }", "function PossibleTypeExtensions(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = context.getDocument().definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_4__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema && schema.getType(typeName);\n\n if (defNode) {\n var expectedKind = defKindToExtKind[defNode.kind];\n\n if (expectedKind !== node.kind) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingDifferentTypeKindMessage(typeName, extensionKindToTypeName(expectedKind)), [defNode, node]));\n }\n } else if (existingType) {\n var _expectedKind = typeToExtKind(existingType);\n\n if (_expectedKind !== node.kind) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingDifferentTypeKindMessage(typeName, extensionKindToTypeName(_expectedKind)), node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingUnknownTypeMessage(typeName, suggestedTypes), node.name));\n }\n }\n}", "function extend(obj, extension) {\n if (typeof extension !== 'object') { extension = extension(); }\n Object.keys(extension).forEach(function(key) {\n obj[key] = extension[key];\n });\n return obj;\n }", "function extendSchema(schema, documentAST) {\n (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = {};\n var typeExtensionsMap = {};\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case _kinds.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n }\n }\n\n // If this document contains no new types, then return the same unmodified\n // GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n // Copy directives.\n directives: schema.getDirectives()\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }\n\n function getTypeFromAST(astNode) {\n var type = _getNamedType(astNode.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n return type;\n }\n\n function getInterfaceTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n return type;\n }\n\n function getInputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n return type;\n }\n\n function getOutputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n return type;\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n return new _definition.GraphQLObjectType({\n name: type.name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n }\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = {};\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n resolve: cannotExecuteClientSchema\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeAST) {\n switch (typeAST.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeAST);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeAST);\n case _kinds.UNION_TYPE_DEFINITION:\n return buildUnionType(typeAST);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeAST);\n case _kinds.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeAST);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeAST);\n }\n throw new TypeError('Unknown type kind ' + typeAST.kind);\n }\n\n function buildObjectType(typeAST) {\n return new _definition.GraphQLObjectType({\n name: typeAST.name.value,\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeAST);\n },\n fields: function fields() {\n return buildFieldMap(typeAST);\n }\n });\n }\n\n function buildInterfaceType(typeAST) {\n return new _definition.GraphQLInterfaceType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildFieldMap(typeAST);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionType(typeAST) {\n return new _definition.GraphQLUnionType({\n name: typeAST.name.value,\n types: typeAST.types.map(getObjectTypeFromAST),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildScalarType(typeAST) {\n return new _definition.GraphQLScalarType({\n name: typeAST.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeAST) {\n return new _definition.GraphQLEnumType({\n name: typeAST.name.value,\n values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n }\n\n function buildInputObjectType(typeAST) {\n return new _definition.GraphQLInputObjectType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildInputValues(typeAST.fields);\n }\n });\n }\n\n function buildImplementedInterfaces(typeAST) {\n return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeAST) {\n return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function buildInputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeAST);\n }\n\n function buildOutputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeAST);\n }\n}", "function parseInterfaceTypeExtension(lexer$$1) {\n var start = lexer$$1.token;\n expectKeyword(lexer$$1, 'extend');\n expectKeyword(lexer$$1, 'interface');\n var name = parseName(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer$$1);\n }\n return {\n kind: kinds.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function extend(obj, extension) {\n for (var key in extension) {\n obj[key] = extension[key];\n }\n return obj;\n}", "function appendExtensions (obj, extensions) {\n if (extensions.length === 0) {\n return\n }\n\n for (var i = 0; i < extensions.length; i++) {\n var extension = extensions[i]\n\n // add extension to the type entry\n appendExtension(obj, extension)\n }\n}", "function extend(extension, obj) {\n\t\tfor(var key in extension) {\n\t\t\tobj[key] = extension[key];\n\t\t}\n\t}", "function extend(obj, extension) {\n for (var key in extension) {\n obj[key] = extension[key];\n }\n}", "function extend( obj, extension ){\n for ( var key in extension ){\n obj[key] = extension[key];\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function register() {\n if (Object.prototype.typeOf !== boundTypeOf) {\n otypeof = Object.prototype.typeOf;\n Object.prototype.typeOf = boundTypeOf;\n }\n }", "function register() {\n if (Object.prototype.typeOf !== boundTypeOf) {\n otypeof = Object.prototype.typeOf;\n Object.prototype.typeOf = boundTypeOf;\n }\n }", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n\t var start = lexer.token;\n\t expectKeyword(lexer, 'extend');\n\t expectKeyword(lexer, 'interface');\n\t var name = parseName(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t if (directives.length === 0 && fields.length === 0) {\n\t throw unexpected(lexer);\n\t }\n\t return {\n\t kind: _kinds.INTERFACE_TYPE_EXTENSION,\n\t name: name,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds.Kind.INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function extend( obj, extension ){\n for ( var key in obj ){\n extension[key] = obj[key];\n }\n}", "function extendType(type) {\n\t if (type instanceof _typeDefinition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function base(target){\n target.addType('items',Items);\n target.addType('additionalItems',AdditionalItems);\n target.addType('definitions',Definitions);\n target.addType('properties',Properties);\n target.addType('patternProperties',PatternProperties);\n target.addType('additionalProperties',AdditionalProperties);\n target.addType('dependencies',Dependencies);\n // target.addType('type',Type);\n target.addType('allOf',AllOf);\n target.addType('anyOf',AnyOf);\n target.addType('oneOf',OneOf);\n target.addType('not',Not);\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseInterfaceTypeExtension(lexer) {\n var start = lexer.token;\n expectKeyword(lexer, 'extend');\n expectKeyword(lexer, 'interface');\n var name = parseName(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n\n if (directives.length === 0 && fields.length === 0) {\n throw unexpected(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INTERFACE_TYPE_EXTENSION,\n name: name,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function register() {\n if (Object.prototype.extend !== boundExtend) {\n oextend = Object.prototype.extend;\n Object.prototype.extend = boundExtend;\n }\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function NXObject() {}", "function defineExtended(extender) {\n\n\n var merge = (function merger() {\n function _merge(target, source) {\n var name, s;\n for (name in source) {\n if (source.hasOwnProperty(name)) {\n s = source[name];\n if (!(name in target) || (target[name] !== s)) {\n target[name] = s;\n }\n }\n }\n return target;\n }\n\n return function merge(obj) {\n if (!obj) {\n obj = {};\n }\n for (var i = 1, l = arguments.length; i < l; i++) {\n _merge(obj, arguments[i]);\n }\n return obj; // Object\n };\n }());\n\n function getExtended() {\n\n var loaded = {};\n\n\n //getInitial instance;\n var extended = extender.define();\n extended.expose({\n register: function register(alias, extendWith) {\n if (!extendWith) {\n extendWith = alias;\n alias = null;\n }\n var type = typeof extendWith;\n if (alias) {\n extended[alias] = extendWith;\n } else if (extendWith && type === \"function\") {\n extended.extend(extendWith);\n } else if (type === \"object\") {\n extended.expose(extendWith);\n } else {\n throw new TypeError(\"extended.register must be called with an extender function\");\n }\n return extended;\n },\n\n define: function () {\n return extender.define.apply(extender, arguments);\n }\n });\n\n return extended;\n }\n\n function extended() {\n return getExtended();\n }\n\n extended.define = function define() {\n return extender.define.apply(extender, arguments);\n };\n\n return extended;\n }", "parseInterfaceTypeExtension() {\n const start = this._lexer.token;\n this.expectKeyword('extend');\n this.expectKeyword('interface');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n\n if (\n interfaces.length === 0 &&\n directives.length === 0 &&\n fields.length === 0\n ) {\n throw this.unexpected();\n }\n\n return this.node(start, {\n kind: Kind.INTERFACE_TYPE_EXTENSION,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function parseObjectTypeDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n expectKeyword(lexer$$1, 'type');\n var name = parseName(lexer$$1);\n var interfaces = parseImplementsInterfaces(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n var fields = parseFieldsDefinition(lexer$$1);\n return {\n kind: kinds.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer$$1, start)\n };\n}", "function Object(){}", "function Object(){}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds.Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function extend (base, extension) {\n if (isUndefined(base)) {\n return copy(extension);\n }\n if (isUndefined(extension)) {\n return copy(base);\n }\n if (isPureObject(base) && isPureObject(extension)) {\n return utils.extendDeep(base, extension);\n }\n return copy(extension);\n }", "function parseObjectTypeDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t expectKeyword(lexer, 'type');\n\t var name = parseName(lexer);\n\t var interfaces = parseImplementsInterfaces(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t var fields = parseFieldsDefinition(lexer);\n\t return {\n\t kind: _kinds.OBJECT_TYPE_DEFINITION,\n\t description: description,\n\t name: name,\n\t interfaces: interfaces,\n\t directives: directives,\n\t fields: fields,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function Extension(metadata) {\n this._init(metadata);\n}", "function extend (base, extension) {\n\t if (isUndefined(base)) {\n\t return copy(extension);\n\t }\n\t if (isUndefined(extension)) {\n\t return copy(base);\n\t }\n\t if (isPureObject(base) && isPureObject(extension)) {\n\t return utils.extendDeep(base, extension);\n\t }\n\t return copy(extension);\n\t }", "function JsonExtension() {}", "function extendType(type) {\n if (type instanceof _typeDefinition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _typeDefinition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function Object() {}", "function Object() {}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function ObjectExpression() {\n return t.genericTypeAnnotation(t.identifier(\"Object\"));\n}", "function extend(obj, ext, overwrite) {\n var i;\n\n for (i in ext) {\n if (ext.hasOwnProperty(i) && !(i in obj) || overwrite) {\n obj[i] = ext[i];\n }\n }\n\n return obj;\n }" ]
[ "0.7657604", "0.7620609", "0.7618631", "0.7618631", "0.7618631", "0.7618631", "0.7616659", "0.7597039", "0.7567515", "0.75627995", "0.75618565", "0.75618565", "0.7561738", "0.7407404", "0.7285805", "0.7244796", "0.6554908", "0.6552588", "0.65412486", "0.65412486", "0.65412486", "0.65412486", "0.6540292", "0.6540292", "0.65358067", "0.6529401", "0.65269476", "0.6414643", "0.6414643", "0.6414005", "0.6406639", "0.63108104", "0.63108104", "0.62365866", "0.60401237", "0.6026607", "0.5939665", "0.58765703", "0.5871643", "0.5833127", "0.58223134", "0.578464", "0.5776016", "0.5730099", "0.5730099", "0.57267755", "0.57267755", "0.5722385", "0.56926286", "0.5685889", "0.568267", "0.568267", "0.568267", "0.568267", "0.5679216", "0.5678899", "0.56761795", "0.5656371", "0.5639735", "0.5626198", "0.5621859", "0.5621859", "0.56188697", "0.559925", "0.55631", "0.5559367", "0.5559367", "0.555686", "0.5552918", "0.5539862", "0.5525466", "0.55201477", "0.54884875", "0.5487408", "0.5487408", "0.5477601", "0.5477601", "0.5477601", "0.5477601", "0.5477601", "0.5452324", "0.5449217", "0.54489213", "0.54278153", "0.54278153", "0.54278153", "0.54240406", "0.5418843", "0.5372882", "0.5357683", "0.53275913", "0.53275913", "0.5309482", "0.5273736", "0.5260172" ]
0.74211496
18
DirectiveLocations : `|`? Name DirectiveLocations | Name
function parseDirectiveLocations(lexer) { // Optional leading pipe skip(lexer, _lexer.TokenKind.PIPE); var locations = []; do { locations.push(parseName(lexer)); } while (skip(lexer, _lexer.TokenKind.PIPE)); return locations; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function parseDirectiveLocations(lexer) {\n var locations = [];\n do {\n locations.push(parseName(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n var locations = [];\n do {\n locations.push(parseName(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n\t var locations = [];\n\t do {\n\t locations.push(parseName(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t return locations;\n\t}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n expectOptionalToken(lexer, TokenKind.PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (expectOptionalToken(lexer, TokenKind.PIPE));\n\n return locations;\n}", "function parseDirectiveLocations(lexer$$1) {\n // Optional leading pipe\n skip(lexer$$1, lexer.TokenKind.PIPE);\n var locations = [];\n do {\n locations.push(parseDirectiveLocation(lexer$$1));\n } while (skip(lexer$$1, lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n\n return locations;\n}", "parseDirectiveLocations() {\n return this.delimitedMany(TokenKind.PIPE, this.parseDirectiveLocation);\n }", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var locations = [];\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var locations = [];\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var locations = [];\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var locations = [];\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer.TokenKind.PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer.TokenKind.PIPE));\n\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (expectOptionalToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].PIPE));\n\n return locations;\n}", "function parseDirectiveLocations(lexer) {\n\t // Optional leading pipe\n\t skip(lexer, _lexer.TokenKind.PIPE);\n\t var locations = [];\n\t do {\n\t locations.push(parseDirectiveLocation(lexer));\n\t } while (skip(lexer, _lexer.TokenKind.PIPE));\n\t return locations;\n\t}", "function parseDirectiveLocations(lexer) {\n // Optional leading pipe\n skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE);\n var locations = [];\n\n do {\n locations.push(parseDirectiveLocation(lexer));\n } while (skip(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE));\n\n return locations;\n}", "parseDirectiveLocation() {\n const start = this._lexer.token;\n const name = this.parseName();\n\n if (Object.prototype.hasOwnProperty.call(DirectiveLocation, name.value)) {\n return name;\n }\n\n throw this.unexpected(start);\n }", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (_directiveLocation__WEBPACK_IMPORTED_MODULE_6__[\"DirectiveLocation\"].hasOwnProperty(name.value)) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (_directiveLocation__WEBPACK_IMPORTED_MODULE_5__[\"DirectiveLocation\"].hasOwnProperty(name.value)) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (_directiveLocation__WEBPACK_IMPORTED_MODULE_6__[\"DirectiveLocation\"][name.value] !== undefined) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (_directiveLocation__WEBPACK_IMPORTED_MODULE_7__[\"DirectiveLocation\"][name.value] !== undefined) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n\n if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n\n throw unexpected(lexer, start);\n}", "function parseDirectiveLocation(lexer$$1) {\n var start = lexer$$1.token;\n var name = parseName(lexer$$1);\n if (directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n return name;\n }\n throw unexpected(lexer$$1, start);\n}", "function parseDirectiveLocation(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t if (_directiveLocation.DirectiveLocation.hasOwnProperty(name.value)) {\n\t return name;\n\t }\n\t throw unexpected(lexer, start);\n\t}", "function directives() {\n var i, p, pn;\n \n while (state.tokens.next.id === \"(string)\") {\n p = peek(0);\n if (p.id === \"(endline)\") {\n i = 1;\n do {\n pn = peek(i++);\n } while (pn.id === \"(endline)\");\n if (pn.id === \";\") {\n p = pn;\n } else if (pn.value === \"[\" || pn.value === \".\") {\n // string -> [ | . is a valid production\n return;\n } else if (!state.option.asi || pn.value === \"(\") {\n // string -> ( is not a valid production\n warning(\"W033\", state.tokens.next);\n }\n } else if (p.id === \".\" || p.id === \"[\") {\n return;\n } else if (p.id !== \";\") {\n warning(\"W033\", p);\n }\n \n advance();\n if (state.directive[state.tokens.curr.value]) {\n warning(\"W034\", state.tokens.curr, state.tokens.curr.value);\n }\n \n if (state.tokens.curr.value === \"use strict\") {\n if (!state.option[\"(explicitNewcap)\"]) {\n state.option.newcap = true;\n }\n state.option.undef = true;\n }\n \n // there's no directive negation, so always set to true\n state.directive[state.tokens.curr.value] = true;\n \n if (p.id === \";\") {\n advance(\";\");\n }\n }\n }", "function UniqueDirectivesPerLocationRule(context) {\n var uniqueDirectiveMap = Object.create(null);\n var schema = context.getSchema();\n var definedDirectives = schema ? schema.getDirectives() : _type_directives_mjs__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n\n for (var _i2 = 0; _i2 < definedDirectives.length; _i2++) {\n var directive = definedDirectives[_i2];\n uniqueDirectiveMap[directive.name] = !directive.isRepeatable;\n }\n\n var astDefinitions = context.getDocument().definitions;\n\n for (var _i4 = 0; _i4 < astDefinitions.length; _i4++) {\n var def = astDefinitions[_i4];\n\n if (def.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DIRECTIVE_DEFINITION) {\n uniqueDirectiveMap[def.name.value] = !def.repeatable;\n }\n }\n\n var schemaDirectives = Object.create(null);\n var typeDirectivesMap = Object.create(null);\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n if (node.directives == null) {\n return;\n }\n\n var seenDirectives;\n\n if (node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].SCHEMA_DEFINITION || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].SCHEMA_EXTENSION) {\n seenDirectives = schemaDirectives;\n } else if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isTypeDefinitionNode\"])(node) || Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isTypeExtensionNode\"])(node)) {\n var typeName = node.name.value;\n seenDirectives = typeDirectivesMap[typeName];\n\n if (seenDirectives === undefined) {\n typeDirectivesMap[typeName] = seenDirectives = Object.create(null);\n }\n } else {\n seenDirectives = Object.create(null);\n }\n\n for (var _i6 = 0, _node$directives2 = node.directives; _i6 < _node$directives2.length; _i6++) {\n var _directive = _node$directives2[_i6];\n var directiveName = _directive.name.value;\n\n if (uniqueDirectiveMap[directiveName]) {\n if (seenDirectives[directiveName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"The directive \\\"@\".concat(directiveName, \"\\\" can only be used once at this location.\"), [seenDirectives[directiveName], _directive]));\n } else {\n seenDirectives[directiveName] = _directive;\n }\n }\n }\n }\n };\n}", "function UniqueDirectivesPerLocationRule(context) {\n var uniqueDirectiveMap = Object.create(null);\n var schema = context.getSchema();\n var definedDirectives = schema ? schema.getDirectives() : _type_directives_mjs__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n\n for (var _i2 = 0; _i2 < definedDirectives.length; _i2++) {\n var directive = definedDirectives[_i2];\n uniqueDirectiveMap[directive.name] = !directive.isRepeatable;\n }\n\n var astDefinitions = context.getDocument().definitions;\n\n for (var _i4 = 0; _i4 < astDefinitions.length; _i4++) {\n var def = astDefinitions[_i4];\n\n if (def.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DIRECTIVE_DEFINITION) {\n uniqueDirectiveMap[def.name.value] = !def.repeatable;\n }\n }\n\n var schemaDirectives = Object.create(null);\n var typeDirectivesMap = Object.create(null);\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n if (node.directives == null) {\n return;\n }\n\n var seenDirectives;\n\n if (node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].SCHEMA_DEFINITION || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].SCHEMA_EXTENSION) {\n seenDirectives = schemaDirectives;\n } else if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isTypeDefinitionNode\"])(node) || Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isTypeExtensionNode\"])(node)) {\n var typeName = node.name.value;\n seenDirectives = typeDirectivesMap[typeName];\n\n if (seenDirectives === undefined) {\n typeDirectivesMap[typeName] = seenDirectives = Object.create(null);\n }\n } else {\n seenDirectives = Object.create(null);\n }\n\n for (var _i6 = 0, _node$directives2 = node.directives; _i6 < _node$directives2.length; _i6++) {\n var _directive = _node$directives2[_i6];\n var directiveName = _directive.name.value;\n\n if (uniqueDirectiveMap[directiveName]) {\n if (seenDirectives[directiveName]) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](\"The directive \\\"@\".concat(directiveName, \"\\\" can only be used once at this location.\"), [seenDirectives[directiveName], _directive]));\n } else {\n seenDirectives[directiveName] = _directive;\n }\n }\n }\n }\n };\n}", "function UniqueDirectivesPerLocationRule(context) {\n var uniqueDirectiveMap = Object.create(null);\n var schema = context.getSchema();\n var definedDirectives = schema ? schema.getDirectives() : _directives.specifiedDirectives;\n\n for (var _i2 = 0; _i2 < definedDirectives.length; _i2++) {\n var directive = definedDirectives[_i2];\n uniqueDirectiveMap[directive.name] = !directive.isRepeatable;\n }\n\n var astDefinitions = context.getDocument().definitions;\n\n for (var _i4 = 0; _i4 < astDefinitions.length; _i4++) {\n var def = astDefinitions[_i4];\n\n if (def.kind === _kinds.Kind.DIRECTIVE_DEFINITION) {\n uniqueDirectiveMap[def.name.value] = !def.repeatable;\n }\n }\n\n var schemaDirectives = Object.create(null);\n var typeDirectivesMap = Object.create(null);\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n if (node.directives == null) {\n return;\n }\n\n var seenDirectives;\n\n if (node.kind === _kinds.Kind.SCHEMA_DEFINITION || node.kind === _kinds.Kind.SCHEMA_EXTENSION) {\n seenDirectives = schemaDirectives;\n } else if ((0, _predicates.isTypeDefinitionNode)(node) || (0, _predicates.isTypeExtensionNode)(node)) {\n var typeName = node.name.value;\n seenDirectives = typeDirectivesMap[typeName];\n\n if (seenDirectives === undefined) {\n typeDirectivesMap[typeName] = seenDirectives = Object.create(null);\n }\n } else {\n seenDirectives = Object.create(null);\n }\n\n for (var _i6 = 0, _node$directives2 = node.directives; _i6 < _node$directives2.length; _i6++) {\n var _directive = _node$directives2[_i6];\n var directiveName = _directive.name.value;\n\n if (uniqueDirectiveMap[directiveName]) {\n if (seenDirectives[directiveName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"The directive \\\"@\".concat(directiveName, \"\\\" can only be used once at this location.\"), [seenDirectives[directiveName], _directive]));\n } else {\n seenDirectives[directiveName] = _directive;\n }\n }\n }\n }\n };\n}", "function UniqueDirectivesPerLocationRule(context) {\n var uniqueDirectiveMap = Object.create(null);\n var schema = context.getSchema();\n var definedDirectives = schema ? schema.getDirectives() : _directives.specifiedDirectives;\n\n for (var _i2 = 0; _i2 < definedDirectives.length; _i2++) {\n var directive = definedDirectives[_i2];\n uniqueDirectiveMap[directive.name] = !directive.isRepeatable;\n }\n\n var astDefinitions = context.getDocument().definitions;\n\n for (var _i4 = 0; _i4 < astDefinitions.length; _i4++) {\n var def = astDefinitions[_i4];\n\n if (def.kind === _kinds.Kind.DIRECTIVE_DEFINITION) {\n uniqueDirectiveMap[def.name.value] = !def.repeatable;\n }\n }\n\n var schemaDirectives = Object.create(null);\n var typeDirectivesMap = Object.create(null);\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n if (node.directives == null) {\n return;\n }\n\n var seenDirectives;\n\n if (node.kind === _kinds.Kind.SCHEMA_DEFINITION || node.kind === _kinds.Kind.SCHEMA_EXTENSION) {\n seenDirectives = schemaDirectives;\n } else if ((0, _predicates.isTypeDefinitionNode)(node) || (0, _predicates.isTypeExtensionNode)(node)) {\n var typeName = node.name.value;\n seenDirectives = typeDirectivesMap[typeName];\n\n if (seenDirectives === undefined) {\n typeDirectivesMap[typeName] = seenDirectives = Object.create(null);\n }\n } else {\n seenDirectives = Object.create(null);\n }\n\n for (var _i6 = 0, _node$directives2 = node.directives; _i6 < _node$directives2.length; _i6++) {\n var _directive = _node$directives2[_i6];\n var directiveName = _directive.name.value;\n\n if (uniqueDirectiveMap[directiveName]) {\n if (seenDirectives[directiveName]) {\n context.reportError(new _GraphQLError.GraphQLError(\"The directive \\\"@\".concat(directiveName, \"\\\" can only be used once at this location.\"), [seenDirectives[directiveName], _directive]));\n } else {\n seenDirectives[directiveName] = _directive;\n }\n }\n }\n }\n };\n}", "function UniqueDirectivesPerLocation(context) {\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n // Flow can't refine that node.directives will only contain directives,\n var directives = node.directives;\n\n if (directives) {\n var knownDirectives = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = directives[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var directive = _step.value;\n var directiveName = directive.name.value;\n\n if (knownDirectives[directiveName]) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](duplicateDirectiveMessage(directiveName), [knownDirectives[directiveName], directive]));\n } else {\n knownDirectives[directiveName] = directive;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }\n }\n };\n}", "function UniqueDirectivesPerLocation(context) {\n return {\n // Many different AST nodes may contain directives. Rather than listing\n // them all, just listen for entering any node, and check to see if it\n // defines any directives.\n enter: function enter(node) {\n if (node.directives) {\n var knownDirectives = Object.create(null);\n node.directives.forEach(function (directive) {\n var directiveName = directive.name.value;\n if (knownDirectives[directiveName]) {\n context.reportError(new _error.GraphQLError(duplicateDirectiveMessage(directiveName), [knownDirectives[directiveName], directive]));\n } else {\n knownDirectives[directiveName] = directive;\n }\n });\n }\n }\n };\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer));\n }\n return directives;\n}", "function parseDirectives(lexer) {\n\t var directives = [];\n\t while (peek(lexer, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(lexer));\n\t }\n\t return directives;\n\t}", "function getDirectives(target){var context=loadLContext(target);if(context.directives===undefined){context.directives=getDirectivesAtNodeIndex(context.nodeIndex,context.lView,false);}return context.directives||[];}", "function parseDirectives(lexer$$1, isConst) {\n var directives = [];\n while (peek(lexer$$1, lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer$$1, isConst));\n }\n return directives;\n}", "function parseDirectives(parser) {\n\t var directives = [];\n\t while (peek(parser, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(parser));\n\t }\n\t return directives;\n\t}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function DirectiveType() {}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(parser) {\n var directives = [];\n while (peek(parser, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(parser));\n }\n return directives;\n}", "function findDirectiveMatches(tView,viewData,tNode){ngDevMode&&assertEqual(getFirstTemplatePass(),true,'should run on first template pass only');var registry=tView.directiveRegistry;var matches=null;if(registry){for(var i=0;i<registry.length;i++){var def=registry[i];if(isNodeMatchingSelectorList(tNode,def.selectors,/* isProjectionMode */false)){matches||(matches=[]);diPublicInInjector(getOrCreateNodeInjectorForNode(getPreviousOrParentTNode(),viewData),viewData,def.type);if(isComponentDef(def)){if(tNode.flags&1/* isComponent */)throwMultipleComponentError(tNode);tNode.flags=1/* isComponent */;// The component is always stored first with directives after.\nmatches.unshift(def);}else{matches.push(def);}}}}return matches;}", "function parseDirectives(lexer, isConst) {\n\t var directives = [];\n\t while (peek(lexer, _lexer.TokenKind.AT)) {\n\t directives.push(parseDirective(lexer, isConst));\n\t }\n\t return directives;\n\t}", "function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }", "function misplacedDirectiveMessage(directiveName, location) {\n return 'Directive \"' + directiveName + '\" may not be used on ' + location + '.';\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, _lexer.TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "function parseDirectives(lexer, isConst) {\n var directives = [];\n\n while (peek(lexer, TokenKind.AT)) {\n directives.push(parseDirective(lexer, isConst));\n }\n\n return directives;\n}", "parseDirectives(isConst) {\n const directives = [];\n\n while (this.peek(TokenKind.AT)) {\n directives.push(this.parseDirective(isConst));\n }\n\n return directives;\n }", "function getDirectives(element) {\n const context = loadLContext(element);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n return context.directives === null ? [] : [...context.directives];\n}", "function getDirectives(element) {\n const context = loadLContext(element);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n return context.directives === null ? [] : [...context.directives];\n}", "function getDirectives(element) {\n const context = loadLContext(element);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n return context.directives === null ? [] : [...context.directives];\n}", "function getDirectives(element) {\n const context = loadLContext(element);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n return context.directives === null ? [] : [...context.directives];\n}", "function getDirectives(element) {\n const context = loadLContext(element);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n return context.directives === null ? [] : [...context.directives];\n}", "function getDirectives(element) {\n var context = loadLContext(element);\n\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n } // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n\n\n return context.directives === null ? [] : _toConsumableArray(context.directives);\n }", "function DirectiveType() { }", "function DirectiveType(){}", "function findDirectiveMatches(tNode) {\n var registry = tView.directiveRegistry;\n var matches = null;\n if (registry) {\n for (var i = 0; i < registry.length; i++) {\n var def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors)) {\n matches || (matches = []);\n if (def.diPublic)\n def.diPublic(def);\n if (def.template) {\n if (tNode.flags & 4096 /* isComponent */)\n throwMultipleComponentError(tNode);\n addComponentLogic(def);\n // The component is always stored first with directives after.\n matches.unshift(def, null);\n }\n else {\n matches.push(def, null);\n }\n }\n }\n }\n return matches;\n}", "function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }", "function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }", "function getDirectives(element) {\n var context = loadLContext(element);\n\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n } // The `directives` in this case are a named array called `LComponentView`. Clone the\n // result so we don't expose an internal data structure in the user's console.\n\n\n return context.directives === null ? [] : Object(C_Users_Abid_Loqmen_Desktop_NGforce_thesis_node_modules_babel_runtime_helpers_esm_toConsumableArray__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(context.directives);\n}", "function normalizeDirectives (options) {\n\t\tvar dirs = options.directives;\n\t\tif (dirs) {\n\t\t\tfor (var key in dirs) {\n\t\t\t\tvar def$$1 = dirs[key];\n\t\t\t\tif (typrof def$$1 === 'function') {\n\t\t\t\t\tdirs[key] = { bind: def$$1, undate: def$$1 };\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}", "function getDirectives(target) {\n var context = loadLContext(target);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n return context.directives || [];\n}", "function getDirectives(target) {\n var context = loadLContext(target);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n return context.directives || [];\n}", "function getDirectives(target) {\n var context = loadLContext(target);\n if (context.directives === undefined) {\n context.directives = getDirectivesAtNodeIndex(context.nodeIndex, context.lView, false);\n }\n return context.directives || [];\n}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function normalizeDirectives(options){var dirs=options.directives;if(dirs){for(var key in dirs){var def=dirs[key];if(typeof def==='function'){dirs[key]={bind:def,update:def};}}}}", "function resolveDirectives(tView,viewData,directives,tNode,localRefs){// Please make sure to have explicit type for `exportsMap`. Inferred type triggers bug in tsickle.\nngDevMode&&assertEqual(getFirstTemplatePass(),true,'should run on first template pass only');var exportsMap=localRefs?{'':-1}:null;if(directives){initNodeFlags(tNode,tView.data.length,directives.length);// When the same token is provided by several directives on the same node, some rules apply in\n// the viewEngine:\n// - viewProviders have priority over providers\n// - the last directive in NgModule.declarations has priority over the previous one\n// So to match these rules, the order in which providers are added in the arrays is very\n// important.\nfor(var i=0;i<directives.length;i++){var def=directives[i];if(def.providersResolver)def.providersResolver(def);}generateExpandoInstructionBlock(tView,tNode,directives.length);for(var i=0;i<directives.length;i++){var def=directives[i];var directiveDefIdx=tView.data.length;baseResolveDirective(tView,viewData,def,def.factory);saveNameToExportMap(tView.data.length-1,def,exportsMap);// Init hooks are queued now so ngOnInit is called in host components before\n// any projected components.\nqueueInitHooks(directiveDefIdx,def.onInit,def.doCheck,tView);}}if(exportsMap)cacheMatchingLocalNames(tNode,localRefs,exportsMap);}", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function normalizeDirectives (options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === 'function') {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3\n /* AnyRNode */\n | 12\n /* AnyContainer */\n );\n var registry = tView.directiveRegistry;\n var matches = null;\n\n if (registry) {\n for (var i = 0; i < registry.length; i++) {\n var def = registry[i];\n\n if (isNodeMatchingSelectorList(tNode, def.selectors,\n /* isProjectionMode */\n false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2\n /* Element */\n , \"\\\"\".concat(tNode.value, \"\\\" tags cannot be used as component hosts. \") + \"Please use a different tag to activate the \".concat(stringify(def.type), \" component.\"));\n if (tNode.flags & 2\n /* isComponentHost */\n ) throwMultipleComponentError(tNode);\n }\n\n markAsComponentHost(tView, tNode); // The component is always stored first with directives after.\n\n matches.unshift(def);\n } else {\n matches.push(def);\n }\n }\n }\n }\n\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3 /* AnyRNode */ | 12 /* AnyContainer */);\n const registry = tView.directiveRegistry;\n let matches = null;\n if (registry) {\n for (let i = 0; i < registry.length; i++) {\n const def = registry[i];\n if (isNodeMatchingSelectorList(tNode, def.selectors, /* isProjectionMode */ false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2 /* Element */, `\"${tNode.value}\" tags cannot be used as component hosts. ` +\n `Please use a different tag to activate the ${stringify(def.type)} component.`);\n if (tNode.flags & 2 /* isComponentHost */)\n throwMultipleComponentError(tNode);\n }\n markAsComponentHost(tView, tNode);\n // The component is always stored first with directives after.\n matches.unshift(def);\n }\n else {\n matches.push(def);\n }\n }\n }\n }\n return matches;\n}", "function findDirectiveDefMatches(tView, viewData, tNode) {\n ngDevMode && assertFirstCreatePass(tView);\n ngDevMode && assertTNodeType(tNode, 3\n /* AnyRNode */\n | 12\n /* AnyContainer */\n );\n var registry = tView.directiveRegistry;\n var matches = null;\n\n if (registry) {\n for (var i = 0; i < registry.length; i++) {\n var def = registry[i];\n\n if (isNodeMatchingSelectorList(tNode, def.selectors,\n /* isProjectionMode */\n false)) {\n matches || (matches = ngDevMode ? new MatchesArray() : []);\n diPublicInInjector(getOrCreateNodeInjectorForNode(tNode, viewData), tView, def.type);\n\n if (isComponentDef(def)) {\n if (ngDevMode) {\n assertTNodeType(tNode, 2\n /* Element */\n , \"\\\"\".concat(tNode.value, \"\\\" tags cannot be used as component hosts. \") + \"Please use a different tag to activate the \".concat(stringify(def.type), \" component.\"));\n if (tNode.flags & 2\n /* isComponentHost */\n ) throwMultipleComponentError(tNode);\n }\n\n markAsComponentHost(tView, tNode); // The component is always stored first with directives after.\n\n matches.unshift(def);\n } else {\n matches.push(def);\n }\n }\n }\n }\n\n return matches;\n }", "function normalizeDirectives(options) {\n var dirs = options.directives;\n if (dirs) {\n for (var key in dirs) {\n var def$$1 = dirs[key];\n if (typeof def$$1 === \"function\") {\n dirs[key] = { bind: def$$1, update: def$$1 };\n }\n }\n }\n }", "function directiveLocationToVisitorMethodName(loc) {\n return 'visit' + loc.replace(/([^_]*)_?/g, function (wholeMatch, part) {\n return part.charAt(0).toUpperCase() + part.slice(1).toLowerCase();\n });\n}" ]
[ "0.7822161", "0.7822161", "0.7693688", "0.75380504", "0.7521412", "0.7399539", "0.7386918", "0.73523265", "0.73523265", "0.73523265", "0.73523265", "0.73391724", "0.733446", "0.733446", "0.7185509", "0.7163549", "0.6474554", "0.6267542", "0.62523264", "0.62413067", "0.6236664", "0.6212431", "0.61848897", "0.61848897", "0.61848897", "0.61848897", "0.6149118", "0.6097271", "0.60300356", "0.58359593", "0.57837313", "0.57837313", "0.57375455", "0.57375455", "0.56480557", "0.55849636", "0.5571354", "0.5571354", "0.5571354", "0.5571354", "0.5571354", "0.5571354", "0.55593663", "0.5523796", "0.54402685", "0.5420982", "0.53978616", "0.53978616", "0.5395391", "0.5391706", "0.53903466", "0.5389591", "0.53868264", "0.5375098", "0.53696406", "0.5357069", "0.5336624", "0.5336624", "0.5336624", "0.5336624", "0.5331022", "0.5329453", "0.53098464", "0.5299768", "0.5299768", "0.5299768", "0.5299768", "0.5299768", "0.52929395", "0.52893233", "0.5266307", "0.5208689", "0.5196355", "0.5196355", "0.5186631", "0.51815563", "0.5162642", "0.5162642", "0.5162642", "0.51562244", "0.51562244", "0.51562244", "0.51285326", "0.5121068", "0.5121068", "0.5121068", "0.5115978", "0.50947654", "0.5084022", "0.5084022", "0.5084022", "0.5084022", "0.5084022", "0.5084022", "0.50816786", "0.5053367", "0.50483775" ]
0.7764236
5
Core parsing utility functions Returns a location object, used to identify the place in the source that created a given parsed object.
function loc(lexer, startToken) { if (!lexer.options.noLocation) { return new Loc(startToken, lexer.lastToken, lexer.source); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function loc(parser, start) {\n\t if (parser.options.noLocation) {\n\t return null;\n\t }\n\t if (parser.options.noSource) {\n\t return { start: start, end: parser.prevEnd };\n\t }\n\t return { start: start, end: parser.prevEnd, source: parser.source };\n\t}", "function loc(parser, start) {\n if (parser.options.noLocation) {\n return null;\n }\n if (parser.options.noSource) {\n return { start: start, end: parser.prevEnd };\n }\n return { start: start, end: parser.prevEnd, source: parser.source };\n}", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function Location(startToken, endToken, source) {\n this.start = startToken.start;\n this.end = endToken.end;\n this.startToken = startToken;\n this.endToken = endToken;\n this.source = source;\n }", "function loc(lexer, startToken) {\n\t if (!lexer.options.noLocation) {\n\t return new Loc(startToken, lexer.lastToken, lexer.source);\n\t }\n\t}", "function loc(lexer, startToken) {\n\t if (!lexer.options.noLocation) {\n\t return new Loc(startToken, lexer.lastToken, lexer.source);\n\t }\n\t}", "function getLocation(text, position) {\n var segments = []; // strings or numbers\n var earlyReturnException = new Object();\n var previousNode = void 0;\n var previousNodeInst = {\n value: {},\n offset: 0,\n length: 0,\n type: 'object',\n parent: void 0\n };\n var isAtPropertyKey = false;\n function setPreviousNode(value, offset, length, type) {\n previousNodeInst.value = value;\n previousNodeInst.offset = offset;\n previousNodeInst.length = length;\n previousNodeInst.type = type;\n previousNodeInst.colonOffset = void 0;\n previousNode = previousNodeInst;\n }\n try {\n visit(text, {\n onObjectBegin: function (offset, length) {\n if (position <= offset) {\n throw earlyReturnException;\n }\n previousNode = void 0;\n isAtPropertyKey = position > offset;\n segments.push(''); // push a placeholder (will be replaced)\n },\n onObjectProperty: function (name, offset, length) {\n if (position < offset) {\n throw earlyReturnException;\n }\n setPreviousNode(name, offset, length, 'property');\n segments[segments.length - 1] = name;\n if (position <= offset + length) {\n throw earlyReturnException;\n }\n },\n onObjectEnd: function (offset, length) {\n if (position <= offset) {\n throw earlyReturnException;\n }\n previousNode = void 0;\n segments.pop();\n },\n onArrayBegin: function (offset, length) {\n if (position <= offset) {\n throw earlyReturnException;\n }\n previousNode = void 0;\n segments.push(0);\n },\n onArrayEnd: function (offset, length) {\n if (position <= offset) {\n throw earlyReturnException;\n }\n previousNode = void 0;\n segments.pop();\n },\n onLiteralValue: function (value, offset, length) {\n if (position < offset) {\n throw earlyReturnException;\n }\n setPreviousNode(value, offset, length, getLiteralNodeType(value));\n if (position <= offset + length) {\n throw earlyReturnException;\n }\n },\n onSeparator: function (sep, offset, length) {\n if (position <= offset) {\n throw earlyReturnException;\n }\n if (sep === ':' && previousNode && previousNode.type === 'property') {\n previousNode.colonOffset = offset;\n isAtPropertyKey = false;\n previousNode = void 0;\n }\n else if (sep === ',') {\n var last = segments[segments.length - 1];\n if (typeof last === 'number') {\n segments[segments.length - 1] = last + 1;\n }\n else {\n isAtPropertyKey = true;\n segments[segments.length - 1] = '';\n }\n previousNode = void 0;\n }\n }\n });\n }\n catch (e) {\n if (e !== earlyReturnException) {\n throw e;\n }\n }\n return {\n path: segments,\n previousNode: previousNode,\n isAtPropertyKey: isAtPropertyKey,\n matches: function (pattern) {\n var k = 0;\n for (var i = 0; k < pattern.length && i < segments.length; i++) {\n if (pattern[k] === segments[i] || pattern[k] === '*') {\n k++;\n }\n else if (pattern[k] !== '**') {\n return false;\n }\n }\n return k === pattern.length;\n }\n };\n}", "function loc(lexer$$1, startToken) {\n if (!lexer$$1.options.noLocation) {\n return new Loc(startToken, lexer$$1.lastToken, lexer$$1.source);\n }\n}", "function parseLocation(locObj){\n //Use the first result from Google\n if(locObj.status == \"OK\"){\n callback(locObj.results[0]);\n } else {\n console.warn(\"Problem contacting the geolocation API: \" + locObj.status);\n }\n }", "function analyseDlintLocationString(locationStr, benchmark, website) {\n\t\tvar fileLocation, iidFileLocation;\n\t\tlocationStrRegexp.lastIndex = 0;\n\t\tvar regExpRes = locationStrRegexp.exec(locationStr);\n\t\tlocationStrRegexp.lastIndex = 0;\n\t\tif (!regExpRes) {\n\t\t\t//console.log('unrecognizable location string: ' + locationStr);\n\t\t\treturn;\n\t\t}\n\t\tfileLocation = dataBaseDIR + benchmark + '/' + website + '/src/' + regExpRes[1];\n\t\tiidFileLocation = fileLocation + '_jalangi_sourcemap.js';\n\t\treturn {\n\t\t\tfilename: regExpRes[1],\n\t\t\tline: regExpRes[2] | 0,\n\t\t\tcol: regExpRes[3] | 0,\n\t\t\tendLine: regExpRes[4] | 0,\n\t\t\tendCol: regExpRes[5] | 0,\n\t\t\tfile: fileLocation,\n\t\t\tiidFileLocation: iidFileLocation\n\t\t};\n\t}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = undefined;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n }", "function parseLocation( locationStr ) {\r\n\tvar parts = locationStr.split( \",\" );\r\n\tvar lat = parseFloat( parts[0] );\r\n\tvar lon = parseFloat( parts[1] );\r\n\treturn { lat: lat, lng: lon };\r\n}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function location(node, location, config) {\n var result = position(location)\n var tail\n var key\n var props\n\n if (node.type === 'element') {\n tail = node.children[node.children.length - 1]\n\n // Bug for unclosed with children.\n // See: <https://github.com/inikulin/parse5/issues/109>.\n if (!location.endTag && tail && tail.position && tail.position.end) {\n result.end = Object.assign({}, tail.position.end)\n }\n\n if (config.verbose) {\n props = {}\n\n for (key in location.attrs) {\n props[find(config.schema, key).property] = position(location.attrs[key])\n }\n\n node.data = {\n position: {\n opening: position(location.startTag),\n closing: location.endTag ? position(location.endTag) : null,\n properties: props\n }\n }\n }\n }\n\n return result\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = undefined;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function Location(obj) { this.obj = obj; }", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation() {\n return findLocation(getStatus());\n}", "getCurrentLocation(offset) {\n if (!this.options.sourceCodeLocationInfo) {\n return null;\n }\n return {\n startLine: this.preprocessor.line,\n startCol: this.preprocessor.col - offset,\n startOffset: this.preprocessor.offset - offset,\n endLine: -1,\n endCol: -1,\n endOffset: -1,\n };\n }", "get _location() {\n if (this._file)\n return this._file.path;\n\n if (this._uri)\n return this._uri.spec;\n\n return \"\";\n }", "function parseWithLocation(content, filename, locationKeyName) {\r\n return _parse(content, filename, locationKeyName);\r\n}", "function SourceLocation(lexer, start, end) {\n this.lexer = void 0;\n this.start = void 0;\n this.end = void 0;\n this.lexer = lexer;\n this.start = start;\n this.end = end;\n }", "function SourceLocation(lexer, start, end) {\n this.lexer = void 0;\n this.start = void 0;\n this.end = void 0;\n this.lexer = lexer;\n this.start = start;\n this.end = end;\n }", "function SourceLocation(lexer, start, end) {\n this.lexer = void 0;\n this.start = void 0;\n this.end = void 0;\n this.lexer = lexer;\n this.start = start;\n this.end = end;\n }", "function createLocationObject( location ) {\n if ( location.length === 1 ) {\n\n return location[0].Location_Name;\n\n } else {\n\n return '';\n\n }\n}", "function Location(jsonObject){\n this.formatted_query = jsonObject[0].display_name;\n this.latitude = jsonObject[0].lat;\n this.longitude = jsonObject[0].lon;\n\n}", "astLocationData() {\r\n\t\t\t\t\treturn jisonLocationDataToAstLocationData(this.locationData);\r\n\t\t\t\t}", "function parseURL(parseQuery, location, currentLocation = '/') {\n let path, query = {}, searchString = '', hash = '';\n // Could use URL and URLSearchParams but IE 11 doesn't support it\n const searchPos = location.indexOf('?');\n const hashPos = location.indexOf('#', searchPos > -1 ? searchPos : 0);\n if (searchPos > -1) {\n path = location.slice(0, searchPos);\n searchString = location.slice(searchPos + 1, hashPos > -1 ? hashPos : location.length);\n query = parseQuery(searchString);\n }\n if (hashPos > -1) {\n path = path || location.slice(0, hashPos);\n // keep the # character\n hash = location.slice(hashPos, location.length);\n }\n // no search and no query\n path = resolveRelativePath(path != null ? path : location, currentLocation);\n // empty path means a relative query or hash `?foo=f`, `#thing`\n return {\n fullPath: path + (searchString && '?') + searchString + hash,\n path,\n query,\n hash,\n };\n}", "function parseLocation(locationString) {\n let startIndex = locationString.indexOf(\"(\") + 1;\n let splitIndex = locationString.lastIndexOf(\" \");\n let endIndex = locationString.lastIndexOf(\")\");\n let lngValue = parseFloat(locationString.substring(startIndex, splitIndex));\n let latValue = parseFloat(locationString.substring(splitIndex + 1, endIndex));\n return new google.maps.LatLng(latValue, lngValue);\n}", "function locationFinder() {\n\n // initializes an empty array\n var locations = [];\n\n // adds the single location property from bio to the locations array\n locations.push(bio.contacts.location);\n\n // iterates through school locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n education.schools.forEach(function(school){\n locations.push(school.location);\n });\n\n // iterates through work locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n work.jobs.forEach(function(job){\n locations.push(job.location);\n });\n\n return locations;\n }", "function parseURL(parseQuery, location, currentLocation = '/') {\r\n let path, query = {}, searchString = '', hash = '';\r\n // Could use URL and URLSearchParams but IE 11 doesn't support it\r\n const searchPos = location.indexOf('?');\r\n const hashPos = location.indexOf('#', searchPos > -1 ? searchPos : 0);\r\n if (searchPos > -1) {\r\n path = location.slice(0, searchPos);\r\n searchString = location.slice(searchPos + 1, hashPos > -1 ? hashPos : location.length);\r\n query = parseQuery(searchString);\r\n }\r\n if (hashPos > -1) {\r\n path = path || location.slice(0, hashPos);\r\n // keep the # character\r\n hash = location.slice(hashPos, location.length);\r\n }\r\n // no search and no query\r\n path = resolveRelativePath(path != null ? path : location, currentLocation);\r\n // empty path means a relative query or hash `?foo=f`, `#thing`\r\n return {\r\n fullPath: path + (searchString && '?') + searchString + hash,\r\n path,\r\n query,\r\n hash,\r\n };\r\n}", "function parseURL(parseQuery, location, currentLocation = '/') {\r\n let path, query = {}, searchString = '', hash = '';\r\n // Could use URL and URLSearchParams but IE 11 doesn't support it\r\n const searchPos = location.indexOf('?');\r\n const hashPos = location.indexOf('#', searchPos > -1 ? searchPos : 0);\r\n if (searchPos > -1) {\r\n path = location.slice(0, searchPos);\r\n searchString = location.slice(searchPos + 1, hashPos > -1 ? hashPos : location.length);\r\n query = parseQuery(searchString);\r\n }\r\n if (hashPos > -1) {\r\n path = path || location.slice(0, hashPos);\r\n // keep the # character\r\n hash = location.slice(hashPos, location.length);\r\n }\r\n // no search and no query\r\n path = resolveRelativePath(path != null ? path : location, currentLocation);\r\n // empty path means a relative query or hash `?foo=f`, `#thing`\r\n return {\r\n fullPath: path + (searchString && '?') + searchString + hash,\r\n path,\r\n query,\r\n hash,\r\n };\r\n}", "parse(text) {\n return {\n text,\n type: 'Program',\n start: 0,\n end: 0,\n loc: {\n start: { line: 1, column: 0 },\n end: { line: 1, column: 0 }\n },\n range: [0, 0],\n body: [],\n sourceType: 'module',\n comments: [],\n tokens: []\n }\n }", "function locationLookup(locationString) {\r\n var location = {};\r\n if (locationString.substring(0, 4)==\"Tech\") {\r\n location = {\r\n name: 'Techfabrik Grabs',\r\n street: 'Mühlbachstrasse 11a',\r\n zip: '9472',\r\n city: 'Grabs',\r\n country: 'CH'\r\n }\r\n } else if (locationString.substring(0, 3)==\"ibW\") {\r\n location = {\r\n name: 'ibW Höhere Fachschule Südostschweiz',\r\n street: 'Bahnhofpark 2a',\r\n zip: '7320',\r\n city: 'Sargans',\r\n country: 'CH'\r\n }\r\n } else {\r\n location = {\r\n name: '',\r\n street: '',\r\n zip: '',\r\n city: '',\r\n country: ''\r\n }\r\n }\r\n return location;\r\n}", "function getLocation() {\n return (0, _property.get)(\"guzzlrQuestLocation\");\n}", "function normalizeLocation(location) {\n let line = 0;\n let column = 0;\n let start = 0;\n let length = 0;\n if (location) {\n const { startOffset, endOffset } = location;\n line = location.line || location.startLine;\n column = location.col || location.startCol;\n start = startOffset;\n length = endOffset - startOffset;\n }\n return { line, column, start, length };\n }", "function locationFinder() {\n\n // initializes an empty array\n var locations = [];\n\n // adds the single location property from bio to the locations array\n locations.push(bio.contacts.location);\n\n // iterates through school locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n education.schools.forEach(function (school) {\n locations.push(school.location);\n });\n\n // iterates through work locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n work.jobs.forEach(function (job) {\n locations.push(job.location);\n });\n\n return locations;\n }", "function getLocation(source, position) {\n let lastLineStart = 0;\n let line = 1;\n\n for (const match of source.body.matchAll(LineRegExp)) {\n typeof match.index === 'number' || invariant(false);\n\n if (match.index >= position) {\n break;\n }\n\n lastLineStart = match.index + match[0].length;\n line += 1;\n }\n\n return {\n line,\n column: position + 1 - lastLineStart,\n };\n}", "function Location(jsonObject){\n console.log(jsonObject);\n\n this.formatted_query = jsonObject[0].display_name;\n this.latitude = jsonObject[0].lat;\n this.longitude = jsonObject[0].lon;\n\n}", "function Location(x, y) {\n this.x = x;\n this.y = y;\n}", "function locationFinder() {\n\n // initializes an empty array\n var locations = [];\n\n // adds the single location property from bio to the locations array\n locations.push(bio.contacts.location);\n\n // iterates through school locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n education.schools.forEach(function(school) {\n locations.push(school.location);\n });\n\n // iterates through work locations and appends each location to\n // the locations array. Note that forEach is used for array iteration\n // as described in the Udacity FEND Style Guide:\n // https://udacity.github.io/frontend-nanodegree-styleguide/javascript.html#for-in-loop\n work.jobs.forEach(function(job) {\n locations.push(job.location);\n });\n return locations;\n }", "function getLocation() {\n return location;\n }", "get location() {\n\t\treturn this.__location;\n\t}", "get location() {\n\t\treturn this.__location;\n\t}", "get location() {\n\t\treturn this.__location;\n\t}", "function Location(query, obj) {\n this.latitude = obj.lat;\n this.longitude = obj.lon;\n this.search_query = query;\n this.formatted_query = obj.display_name;\n}", "getConvertLocation(start, end) {\n return {\n range: [start, end],\n loc: {\n start: this.getLocFromIndex(start),\n end: this.getLocFromIndex(end),\n },\n };\n }", "static locationInfoFromJSON (inFilename) {\n let data = fs.readFileSync(inFilename, 'utf8')\n let tmpLocationInfo = JSON.parse(data)\n return tmpLocationInfo\n }" ]
[ "0.7424325", "0.7374668", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64806646", "0.64643985", "0.64643985", "0.64615715", "0.64243346", "0.61489433", "0.6103289", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.6103077", "0.60862863", "0.6076818", "0.6069322", "0.606893", "0.606893", "0.60538167", "0.601568", "0.6003487", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.5998809", "0.57890403", "0.57812864", "0.5742966", "0.5630513", "0.5619519", "0.5619519", "0.5619519", "0.56143516", "0.5541734", "0.55243653", "0.54903287", "0.5483607", "0.5481477", "0.5451302", "0.5451302", "0.5444804", "0.54399234", "0.54278314", "0.5404279", "0.53722554", "0.5364252", "0.53589547", "0.5337994", "0.53352684", "0.5332457", "0.5301972", "0.5301972", "0.5301972", "0.53017616", "0.5288289", "0.5285645" ]
0.6452525
28
Determines if the next token is of a given kind
function peek(lexer, kind) { return lexer.token.kind === kind; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "match(tokenKind) {\n if (this.check(tokenKind)) {\n this.current++; //advance\n return true;\n }\n return false;\n }", "isToken(type) { return this.tokenizer.isTokenType(type) }", "peek(kind) {\n return this._lexer.token.kind === kind;\n }", "isTokenType(type) { return this.lexeme[type] !== undefined }", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "matchAny(...tokenKinds) {\n for (let tokenKind of tokenKinds) {\n if (this.check(tokenKind)) {\n this.current++; //advance\n return true;\n }\n }\n return false;\n }", "function peek(parser, kind) {\n\t return parser.token.kind === kind;\n\t}", "function peek(parser, kind) {\n return parser.token.kind === kind;\n}", "function readToken(wantedType){\r\n\t\tnext();\r\n\t\tif(type===wantedType){\r\n\t\t\treadNext=1;\r\n\t\t\treturn true;\r\n\t\t}\r\n\t\treadNext=0;\r\n\t\treturn false;\r\n\t}", "expectOptionalToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return true;\n }\n\n return false;\n }", "function peek(lexer$$1, kind) {\n return lexer$$1.token.kind === kind;\n}", "isTokenType(type){ return false }", "function peekToken(wantedType){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===wantedType;\r\n\t}", "matchToken(type) {\n\t\t\treturn this.getToken().type === type;\n\t\t}", "matchSequence(...tokenKinds) {\n var _a;\n const endIndex = this.current + tokenKinds.length;\n for (let i = 0; i < tokenKinds.length; i++) {\n if (tokenKinds[i] !== ((_a = this.tokens[this.current + i]) === null || _a === void 0 ? void 0 : _a.kind)) {\n return false;\n }\n }\n this.current = endIndex;\n return true;\n }", "function match(kinds, noConsume, lookahead) {\n for (var j = 0; j < kinds.length; j++) {\n if (lookahead && tokens[currentToken + 1].tokenKind === kinds[j]) {\n return true;\n }\n else {\n if (tokens[currentToken].tokenKind === kinds[j]) {\n if (!noConsume) {\n CST.addLeafNode(tokens[currentToken].tokenKind, tokens[currentToken].tokenName);\n currentToken++;\n }\n return true;\n }\n }\n }\n return false;\n}", "function classifyTokenType(tokenKind, token) {\n if (ts.isKeyword(tokenKind)) {\n return 3 /* keyword */;\n }\n // Special case < and > If they appear in a generic context they are punctuation,\n // not operators.\n if (tokenKind === 25 /* LessThanToken */ || tokenKind === 27 /* GreaterThanToken */) {\n // If the node owning the token has a type argument list or type parameter list, then\n // we can effectively assume that a '<' and '>' belong to those lists.\n if (token && ts.getTypeArgumentOrTypeParameterList(token.parent)) {\n return 10 /* punctuation */;\n }\n }\n if (ts.isPunctuation(tokenKind)) {\n if (token) {\n if (tokenKind === 56 /* EqualsToken */) {\n // the '=' in a variable declaration is special cased here.\n if (token.parent.kind === 218 /* VariableDeclaration */ ||\n token.parent.kind === 145 /* PropertyDeclaration */ ||\n token.parent.kind === 142 /* Parameter */ ||\n token.parent.kind === 246 /* JsxAttribute */) {\n return 5 /* operator */;\n }\n }\n if (token.parent.kind === 187 /* BinaryExpression */ ||\n token.parent.kind === 185 /* PrefixUnaryExpression */ ||\n token.parent.kind === 186 /* PostfixUnaryExpression */ ||\n token.parent.kind === 188 /* ConditionalExpression */) {\n return 5 /* operator */;\n }\n }\n return 10 /* punctuation */;\n }\n else if (tokenKind === 8 /* NumericLiteral */) {\n return 4 /* numericLiteral */;\n }\n else if (tokenKind === 9 /* StringLiteral */) {\n return token.parent.kind === 246 /* JsxAttribute */ ? 24 /* jsxAttributeStringLiteralValue */ : 6 /* stringLiteral */;\n }\n else if (tokenKind === 10 /* RegularExpressionLiteral */) {\n // TODO: we should get another classification type for these literals.\n return 6 /* stringLiteral */;\n }\n else if (ts.isTemplateLiteralKind(tokenKind)) {\n // TODO (drosen): we should *also* get another classification type for these literals.\n return 6 /* stringLiteral */;\n }\n else if (tokenKind === 244 /* JsxText */) {\n return 23 /* jsxText */;\n }\n else if (tokenKind === 69 /* Identifier */) {\n if (token) {\n switch (token.parent.kind) {\n case 221 /* ClassDeclaration */:\n if (token.parent.name === token) {\n return 11 /* className */;\n }\n return;\n case 141 /* TypeParameter */:\n if (token.parent.name === token) {\n return 15 /* typeParameterName */;\n }\n return;\n case 222 /* InterfaceDeclaration */:\n if (token.parent.name === token) {\n return 13 /* interfaceName */;\n }\n return;\n case 224 /* EnumDeclaration */:\n if (token.parent.name === token) {\n return 12 /* enumName */;\n }\n return;\n case 225 /* ModuleDeclaration */:\n if (token.parent.name === token) {\n return 14 /* moduleName */;\n }\n return;\n case 142 /* Parameter */:\n if (token.parent.name === token) {\n var isThis_1 = token.kind === 69 /* Identifier */ && token.originalKeywordKind === 97 /* ThisKeyword */;\n return isThis_1 ? 3 /* keyword */ : 17 /* parameterName */;\n }\n return;\n }\n }\n return 2 /* identifier */;\n }\n }", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n}", "expectToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return token;\n }\n\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Expected ${getTokenKindDesc(kind)}, found ${getTokenDesc(token)}.`,\n );\n }", "function isKind(val, kind){\n return kindOf_1(val) === kind;\n }", "function isKind(val, kind){\n\t return kindOf(val) === kind;\n\t }", "function isKind(val, kind){\n\t return kindOf(val) === kind;\n\t }", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw syntaxError(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(getTokenDesc(token)));\n}", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function skip(parser, kind) {\n\t var match = parser.token.kind === kind;\n\t if (match) {\n\t advance(parser);\n\t }\n\t return match;\n\t}", "function skip(parser, kind) {\n var match = parser.token.kind === kind;\n if (match) {\n advance(parser);\n }\n return match;\n}", "eatToken(type) {\n\t\t\tconst token = this.getToken();\n\t\t\tif (token.type === type) {\n\t\t\t\tthis.nextToken();\n\t\t\t\t// @ts-ignore\n\t\t\t\treturn token;\n\t\t\t} else {\n\t\t\t\treturn undefined;\n\t\t\t}\n\t\t}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "function eat(type) {\n if (tokType === type) {\n next();\n return true;\n }\n }", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function getTokenKindDesc(kind) {\n return Object(_lexer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isPunctuatorTokenKind\"])(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "function belongsOnStack(token) {\n var ttl = token.type.label;\n var ttk = token.type.keyword;\n return ttl == \"{\"\n || ttl == \"(\"\n || ttl == \"[\"\n || ttl == \"?\"\n || ttl == \"${\"\n || ttk == \"do\"\n || ttk == \"switch\"\n || ttk == \"case\"\n || ttk == \"default\";\n }", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function getTokenKindDesc(kind) {\n return Object(_lexer_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isPunctuatorTokenKind\"])(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw (0, _error.syntaxError)(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat((0, _lexer.getTokenDesc)(token)));\n}", "function expect(lexer$$1, kind) {\n var token = lexer$$1.token;\n if (token.kind === kind) {\n lexer$$1.advance();\n return token;\n }\n throw (0, error.syntaxError)(lexer$$1.source, token.start, 'Expected ' + kind + ', found ' + (0, lexer.getTokenDesc)(token));\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "function isKind(val, kind) {\n return '[object ' + kind + ']' === Object.prototype.toString.call(val);\n }", "function getTokenKindDesc(kind) {\n\t return tokenDescription[kind];\n\t}", "function hasKind(node, kind) {\n return node !== undefined && node.kind === kind;\n }", "eat(expectedTokenType) {\n try {\n if (this.currentToken && this.currentToken.type.toUpperCase() == expectedTokenType) {\n this.currentToken = this.lexer.getNextToken();\n return true;\n } else {\n let errMessage = `Expected ${expectedTokenType}: `;\n errMessage += this.currentToken ? `got ${this.currentToken.type}` : `No current token`;\n throw new ParserException(errMessage, this.currentToken);\n }\n } catch (e) {\n throw e\n }\n }", "function expect(parser, kind) {\n\t var token = parser.token;\n\t if (token.kind === kind) {\n\t advance(parser);\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function getTokenKindDesc(kind) {\n return (0,_lexer_mjs__WEBPACK_IMPORTED_MODULE_2__.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0,_lexer_mjs__WEBPACK_IMPORTED_MODULE_2__.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function matchType() {\n\t\tvar pattern = /^(int|string|boolean)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}", "expectToken(type, _metadata) {\n\t\t\tconst token = this.getToken();\n\t\t\tif (token.type === type) {\n\t\t\t\tthis.nextToken();\n\t\t\t\t// @ts-ignore\n\t\t\t\treturn token;\n\t\t\t} else {\n\t\t\t\tthrow this.unexpected({\n\t\t\t\t\tdescription: _metadata === undefined\n\t\t\t\t\t\t? ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.PARSER_CORE.EXPECTED_TOKEN(\n\t\t\t\t\t\t\t\ttoken.type,\n\t\t\t\t\t\t\t\ttype,\n\t\t\t\t\t\t\t)\n\t\t\t\t\t\t: _metadata,\n\t\t\t\t});\n\t\t\t}\n\t\t}", "function skip(lexer$$1, kind) {\n var match = lexer$$1.token.kind === kind;\n if (match) {\n lexer$$1.advance();\n }\n return match;\n}", "function expect(parser, kind) {\n var token = parser.token;\n if (token.kind === kind) {\n advance(parser);\n return token;\n }\n throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function getTokenKindDesc(kind) {\n return tokenDescription[kind];\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "type_spec() {\n const startToken = this.currentToken;\n\n let typeTok = this.currentToken;\n if (typeTok.type === Lexer.TokenTypes.TYPE_INTEGER || typeTok.type === Lexer.TokenTypes.TYPE_REAL || typeTok.type === Lexer.TokenTypes.TYPE_BOOLEAN) {\n this.eat(typeTok.type);\n return new AST.TypeNode(typeTok);\n } else {\n throw new ParserException(`Error processing TYPESPEC: Expecting TYPE_INTEGER, TYPE_REAL, or TYPE_BOOLEAN got ${typeTok.type}`, startToken);\n }\n }", "function needsSpaceAfter(token, lastToken) {\n if (lastToken) {\n if (lastToken.type.isLoop) {\n return true;\n }\n if (lastToken.type.isAssign) {\n return true;\n }\n if (lastToken.type.binop != null) {\n return true;\n }\n\n var ltt = lastToken.type.label;\n if (ltt == \"?\") {\n return true;\n }\n if (ltt == \":\") {\n return true;\n }\n if (ltt == \",\") {\n return true;\n }\n if (ltt == \";\") {\n return true;\n }\n if (ltt == \"${\") {\n return true;\n }\n if (ltt == \"num\" && token.type.label == \".\") {\n return true;\n }\n\n var ltk = lastToken.type.keyword;\n var ttl = token.type.label;\n if (ltk != null && ttl != \".\") {\n if (ltk == \"break\" || ltk == \"continue\" || ltk == \"return\") {\n return token.type.label != \";\";\n }\n if (ltk != \"debugger\"\n && ltk != \"null\"\n && ltk != \"true\"\n && ltk != \"false\"\n && ltk != \"this\"\n && ltk != \"default\") {\n return true;\n }\n }\n\n if (ltt == \")\" && (token.type.label != \")\"\n && token.type.label != \"]\"\n && token.type.label != \";\"\n && token.type.label != \",\"\n && token.type.label != \".\")) {\n return true;\n }\n\n if (isIdentifierLike(token) && isIdentifierLike(lastToken)) {\n // We must emit a space to avoid merging the tokens.\n return true;\n }\n\n if (token.type.label == \"{\" && lastToken.type.label == \"name\") {\n return true;\n }\n }\n\n if (token.type.isAssign) {\n return true;\n }\n if (token.type.binop != null && lastToken) {\n return true;\n }\n if (token.type.label == \"?\") {\n return true;\n }\n\n return false;\n }", "function nextToken() {\n skipSpace();\n state.start = state.pos;\n if (state.pos >= input.length) {\n const tokens = state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= input.length &&\n tokens[tokens.length - 2].start >= input.length\n ) {\n unexpected(\"Unexpectedly reached the end of input.\");\n }\n finishToken(TokenType.eof);\n return;\n }\n readToken(input.charCodeAt(state.pos));\n}", "static isQuestionTokenable(structure) {\r\n switch (structure.kind) {\r\n case StructureKind_1.StructureKind.Method:\r\n case StructureKind_1.StructureKind.MethodOverload:\r\n case StructureKind_1.StructureKind.Property:\r\n case StructureKind_1.StructureKind.Parameter:\r\n case StructureKind_1.StructureKind.MethodSignature:\r\n case StructureKind_1.StructureKind.PropertySignature:\r\n return true;\r\n default:\r\n return false;\r\n }\r\n }", "typeToken() {\n let typeToken;\n if (this.checkAny(...TokenKind_1.DeclarableTypes)) {\n // Token is a built in type\n typeToken = this.advance();\n }\n else if (this.options.mode === ParseMode.BrighterScript) {\n try {\n // see if we can get a namespaced identifer\n const qualifiedType = this.getNamespacedVariableNameExpression();\n typeToken = (0, creators_1.createToken)(TokenKind_1.TokenKind.Identifier, qualifiedType.getName(this.options.mode), qualifiedType.range);\n }\n catch (_a) {\n //could not get an identifier - just get whatever's next\n typeToken = this.advance();\n }\n }\n else {\n // just get whatever's next\n typeToken = this.advance();\n }\n return typeToken;\n }" ]
[ "0.7669077", "0.7138985", "0.71243644", "0.6991784", "0.6981886", "0.6981886", "0.69696575", "0.6958934", "0.6938066", "0.6907717", "0.6870581", "0.68650633", "0.6751013", "0.67288613", "0.6719839", "0.6683571", "0.6593374", "0.64219314", "0.636494", "0.636494", "0.63374966", "0.6311186", "0.6274921", "0.62668777", "0.62668777", "0.6227832", "0.6208898", "0.6208898", "0.6208898", "0.61773145", "0.6123236", "0.6106886", "0.61041117", "0.6096719", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6040362", "0.6037499", "0.60232997", "0.60232997", "0.6018704", "0.60176986", "0.60176986", "0.60073215", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.60013574", "0.5999024", "0.5972344", "0.59662324", "0.59662324", "0.5910897", "0.5892152", "0.58773655", "0.5857651", "0.58491063", "0.5832579", "0.5832579", "0.58115554", "0.5797627", "0.57845116", "0.57840574", "0.5768589", "0.5768212", "0.5768212", "0.5768212", "0.57680905", "0.57448524", "0.5743631", "0.5733628", "0.5722907" ]
0.70372933
16
If the next token is of the given kind, return true after advancing the lexer. Otherwise, do not change the parser state and return false.
function skip(lexer, kind) { var match = lexer.token.kind === kind; if (match) { lexer.advance(); } return match; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "match(tokenKind) {\n if (this.check(tokenKind)) {\n this.current++; //advance\n return true;\n }\n return false;\n }", "peek(kind) {\n return this._lexer.token.kind === kind;\n }", "expectOptionalToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return true;\n }\n\n return false;\n }", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "function abortParsingListOrMoveToNextToken(kind) {\n parseErrorAtCurrentToken(parsingContextErrors(kind));\n if (isInSomeParsingContext()) {\n return true;\n }\n nextToken();\n return false;\n }", "function match(kinds, noConsume, lookahead) {\n for (var j = 0; j < kinds.length; j++) {\n if (lookahead && tokens[currentToken + 1].tokenKind === kinds[j]) {\n return true;\n }\n else {\n if (tokens[currentToken].tokenKind === kinds[j]) {\n if (!noConsume) {\n CST.addLeafNode(tokens[currentToken].tokenKind, tokens[currentToken].tokenName);\n currentToken++;\n }\n return true;\n }\n }\n }\n return false;\n}", "function peek(lexer$$1, kind) {\n return lexer$$1.token.kind === kind;\n}", "matchAny(...tokenKinds) {\n for (let tokenKind of tokenKinds) {\n if (this.check(tokenKind)) {\n this.current++; //advance\n return true;\n }\n }\n return false;\n }", "function peek(parser, kind) {\n return parser.token.kind === kind;\n}", "function peek(parser, kind) {\n\t return parser.token.kind === kind;\n\t}", "matchSequence(...tokenKinds) {\n var _a;\n const endIndex = this.current + tokenKinds.length;\n for (let i = 0; i < tokenKinds.length; i++) {\n if (tokenKinds[i] !== ((_a = this.tokens[this.current + i]) === null || _a === void 0 ? void 0 : _a.kind)) {\n return false;\n }\n }\n this.current = endIndex;\n return true;\n }", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function eat(type) {\n if (tokType === type) {\n next();\n return true;\n }\n }", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw syntaxError(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(getTokenDesc(token)));\n}", "function skip(parser, kind) {\n\t var match = parser.token.kind === kind;\n\t if (match) {\n\t advance(parser);\n\t }\n\t return match;\n\t}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "eat(expectedTokenType) {\n try {\n if (this.currentToken && this.currentToken.type.toUpperCase() == expectedTokenType) {\n this.currentToken = this.lexer.getNextToken();\n return true;\n } else {\n let errMessage = `Expected ${expectedTokenType}: `;\n errMessage += this.currentToken ? `got ${this.currentToken.type}` : `No current token`;\n throw new ParserException(errMessage, this.currentToken);\n }\n } catch (e) {\n throw e\n }\n }", "function readToken(wantedType){\r\n\t\tnext();\r\n\t\tif(type===wantedType){\r\n\t\t\treadNext=1;\r\n\t\t\treturn true;\r\n\t\t}\r\n\t\treadNext=0;\r\n\t\treturn false;\r\n\t}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "firstToken({token, counter}) {\n\t\tif (token.name === 'short-hand' && token.value === '?') {\n\t\t\tthis.openShortHand = this.openShortHand + 1;\n\t\t\tthis.createConditionNode({token, counter});\n\t\t\treturn true;\n\t\t} else {\n\t\t\treturn false;\n\t\t}\n\t}", "function skip(parser, kind) {\n var match = parser.token.kind === kind;\n if (match) {\n advance(parser);\n }\n return match;\n}", "isToken(type) { return this.tokenizer.isTokenType(type) }", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function needsSpaceAfter(token, lastToken) {\n if (lastToken) {\n if (lastToken.type.isLoop) {\n return true;\n }\n if (lastToken.type.isAssign) {\n return true;\n }\n if (lastToken.type.binop != null) {\n return true;\n }\n\n var ltt = lastToken.type.label;\n if (ltt == \"?\") {\n return true;\n }\n if (ltt == \":\") {\n return true;\n }\n if (ltt == \",\") {\n return true;\n }\n if (ltt == \";\") {\n return true;\n }\n if (ltt == \"${\") {\n return true;\n }\n if (ltt == \"num\" && token.type.label == \".\") {\n return true;\n }\n\n var ltk = lastToken.type.keyword;\n var ttl = token.type.label;\n if (ltk != null && ttl != \".\") {\n if (ltk == \"break\" || ltk == \"continue\" || ltk == \"return\") {\n return token.type.label != \";\";\n }\n if (ltk != \"debugger\"\n && ltk != \"null\"\n && ltk != \"true\"\n && ltk != \"false\"\n && ltk != \"this\"\n && ltk != \"default\") {\n return true;\n }\n }\n\n if (ltt == \")\" && (token.type.label != \")\"\n && token.type.label != \"]\"\n && token.type.label != \";\"\n && token.type.label != \",\"\n && token.type.label != \".\")) {\n return true;\n }\n\n if (isIdentifierLike(token) && isIdentifierLike(lastToken)) {\n // We must emit a space to avoid merging the tokens.\n return true;\n }\n\n if (token.type.label == \"{\" && lastToken.type.label == \"name\") {\n return true;\n }\n }\n\n if (token.type.isAssign) {\n return true;\n }\n if (token.type.binop != null && lastToken) {\n return true;\n }\n if (token.type.label == \"?\") {\n return true;\n }\n\n return false;\n }", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "expectToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return token;\n }\n\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Expected ${getTokenKindDesc(kind)}, found ${getTokenDesc(token)}.`,\n );\n }", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw (0, _error.syntaxError)(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat((0, _lexer.getTokenDesc)(token)));\n}", "next() {\n if (!hasCurrentCharacter(this)) {\n this._currentToken = undefined;\n }\n else {\n switch (this._currentState) {\n case \"SCHEME\":\n nextScheme(this);\n break;\n case \"SCHEME_OR_HOST\":\n nextSchemeOrHost(this);\n break;\n case \"HOST\":\n nextHost(this);\n break;\n case \"PORT\":\n nextPort(this);\n break;\n case \"PATH\":\n nextPath(this);\n break;\n case \"QUERY\":\n nextQuery(this);\n break;\n default:\n throw new Error(`Unrecognized URLTokenizerState: ${this._currentState}`);\n }\n }\n return !!this._currentToken;\n }", "next() {\n if (!hasCurrentCharacter(this)) {\n this._currentToken = undefined;\n }\n else {\n switch (this._currentState) {\n case \"SCHEME\":\n nextScheme(this);\n break;\n case \"SCHEME_OR_HOST\":\n nextSchemeOrHost(this);\n break;\n case \"HOST\":\n nextHost(this);\n break;\n case \"PORT\":\n nextPort(this);\n break;\n case \"PATH\":\n nextPath(this);\n break;\n case \"QUERY\":\n nextQuery(this);\n break;\n default:\n throw new Error(`Unrecognized URLTokenizerState: ${this._currentState}`);\n }\n }\n return !!this._currentToken;\n }", "function expect(parser, kind) {\n\t var token = parser.token;\n\t if (token.kind === kind) {\n\t advance(parser);\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "isTokenType(type) { return this.lexeme[type] !== undefined }", "function expect(parser, kind) {\n var token = parser.token;\n if (token.kind === kind) {\n advance(parser);\n return token;\n }\n throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function hasKind(node, kind) {\n return node !== undefined && node.kind === kind;\n }", "function expect(lexer$$1, kind) {\n var token = lexer$$1.token;\n if (token.kind === kind) {\n lexer$$1.advance();\n return token;\n }\n throw (0, error.syntaxError)(lexer$$1.source, token.start, 'Expected ' + kind + ', found ' + (0, lexer.getTokenDesc)(token));\n}", "function isListTerminator(kind) {\n if (token() === 1 /* EndOfFileToken */) {\n // Being at the end of the file ends all lists.\n return true;\n }\n switch (kind) {\n case 1 /* BlockStatements */:\n case 2 /* SwitchClauses */:\n case 4 /* TypeMembers */:\n case 5 /* ClassMembers */:\n case 6 /* EnumMembers */:\n case 12 /* ObjectLiteralMembers */:\n case 9 /* ObjectBindingElements */:\n case 21 /* ImportOrExportSpecifiers */:\n return token() === 16 /* CloseBraceToken */;\n case 3 /* SwitchClauseStatements */:\n return token() === 16 /* CloseBraceToken */ || token() === 71 /* CaseKeyword */ || token() === 77 /* DefaultKeyword */;\n case 7 /* HeritageClauseElement */:\n return token() === 15 /* OpenBraceToken */ || token() === 83 /* ExtendsKeyword */ || token() === 106 /* ImplementsKeyword */;\n case 8 /* VariableDeclarations */:\n return isVariableDeclaratorListTerminator();\n case 17 /* TypeParameters */:\n // Tokens other than '>' are here for better error recovery\n return token() === 27 /* GreaterThanToken */ || token() === 17 /* OpenParenToken */ || token() === 15 /* OpenBraceToken */ || token() === 83 /* ExtendsKeyword */ || token() === 106 /* ImplementsKeyword */;\n case 11 /* ArgumentExpressions */:\n // Tokens other than ')' are here for better error recovery\n return token() === 18 /* CloseParenToken */ || token() === 23 /* SemicolonToken */;\n case 15 /* ArrayLiteralMembers */:\n case 19 /* TupleElementTypes */:\n case 10 /* ArrayBindingElements */:\n return token() === 20 /* CloseBracketToken */;\n case 16 /* Parameters */:\n // Tokens other than ')' and ']' (the latter for index signatures) are here for better error recovery\n return token() === 18 /* CloseParenToken */ || token() === 20 /* CloseBracketToken */ /*|| token === SyntaxKind.OpenBraceToken*/;\n case 18 /* TypeArguments */:\n // Tokens other than '>' are here for better error recovery\n return token() === 27 /* GreaterThanToken */ || token() === 17 /* OpenParenToken */;\n case 20 /* HeritageClauses */:\n return token() === 15 /* OpenBraceToken */ || token() === 16 /* CloseBraceToken */;\n case 13 /* JsxAttributes */:\n return token() === 27 /* GreaterThanToken */ || token() === 39 /* SlashToken */;\n case 14 /* JsxChildren */:\n return token() === 25 /* LessThanToken */ && lookAhead(nextTokenIsSlash);\n case 22 /* JSDocFunctionParameters */:\n return token() === 18 /* CloseParenToken */ || token() === 54 /* ColonToken */ || token() === 16 /* CloseBraceToken */;\n case 23 /* JSDocTypeArguments */:\n return token() === 27 /* GreaterThanToken */ || token() === 16 /* CloseBraceToken */;\n case 25 /* JSDocTupleTypes */:\n return token() === 20 /* CloseBracketToken */ || token() === 16 /* CloseBraceToken */;\n case 24 /* JSDocRecordMembers */:\n return token() === 16 /* CloseBraceToken */;\n }\n }", "function skip(lexer$$1, kind) {\n var match = lexer$$1.token.kind === kind;\n if (match) {\n lexer$$1.advance();\n }\n return match;\n}", "function isKind(val, kind){\n return kindOf_1(val) === kind;\n }", "firstToken({token, counter}) {\n\t\tif (token.name === 'operator') {\n\t\t\tthis.listener.candidates = this.listener.candidates.filter(c=> c.name === 'operator');\n\t\t\tthis.openOperator = token.value;\n\t\t\tthis.listener.checking = 'middleTokens';\n\t\t\treturn true;\n\t\t} else {\n\t\t\treturn false;\n\t\t}\n\t}", "firstToken({token, counter}) {\n\t\t// can't start with dot\n\t\tif (token.name === 'dot' && this.listener.syntaxTree.nodes.length === 0) {\n\t\t\t// INVALID!\n\t\t\tthis.listener.checking = 'endToken';\n\t\t\tthis.listener.firstNodeLabel = this.listener.currentLabel;\n\t\t\tconst instance = new ObjectPattern(this.listener);\n\t\t\tinstance.invalid = true;\n\t\t\tthis.listener.candidates = [{name: 'object', instance: instance}];\n\t\t\treturn true;\n\t\t} else if (token.name === 'dot' || token.value === '[') {\n\t\t\tthis.listener.checking = 'firstToken';\n\t\t\tthis.listener.firstNodeLabel = this.listener.currentLabel;\n\t\t\tconst instance = new ObjectPattern(this.listener);\n\t\t\tinstance.anonymous = true;\n\t\t\tthis.listener.candidates = [{name: 'object', instance: instance}];\n\n\t\t\treturn true;\n\t\t} else {\n\t\t\treturn false;\n\t\t}\n\t}", "function shouldExploreFurther (current, next, currentType, nextType) {\n return currentType === nextType &&\n (currentType === VNODE || currentType === VCHILD) &&\n current[0] === next[0]\n}", "isTokenType(type){ return false }", "function peekToken(wantedType){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===wantedType;\r\n\t}", "hasMoreTokens () {\n return this.currentTokenIndex + 1 < this.tokens.length\n }", "function isKind(val, kind){\n\t return kindOf(val) === kind;\n\t }", "function isKind(val, kind){\n\t return kindOf(val) === kind;\n\t }", "function match(currentToken, expectedToken) {\n if (currentToken.value.match(expectedToken.pattern)) {\n\n return true;\n\n } else {\n\n false;\n\n }\n }", "function isASI(token, lastToken) {\n if (!lastToken) {\n return false;\n }\n if (token.loc.start.line === lastToken.loc.start.line) {\n return false;\n }\n if (lastToken.type.keyword == \"return\"\n || lastToken.type.keyword == \"yield\"\n || (lastToken.type.label == \"name\" && lastToken.value == \"yield\")) {\n return true;\n }\n if (PREVENT_ASI_AFTER_TOKENS[\n lastToken.type.label || lastToken.type.keyword\n ]) {\n return false;\n }\n if (PREVENT_ASI_BEFORE_TOKENS[token.type.label || token.type.keyword]) {\n return false;\n }\n return true;\n }", "matchToken(type) {\n\t\t\treturn this.getToken().type === type;\n\t\t}", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function isKind(val, kind){\n return kindOf(val) === kind;\n }", "function nextToken() {\n skipSpace();\n state.start = state.pos;\n if (state.pos >= input.length) {\n const tokens = state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= input.length &&\n tokens[tokens.length - 2].start >= input.length\n ) {\n unexpected(\"Unexpectedly reached the end of input.\");\n }\n finishToken(TokenType.eof);\n return;\n }\n readToken(input.charCodeAt(state.pos));\n}", "isToken(symbol) {\n return this.isTerminal(symbol) ||\n this.getLexVars().indexOf(symbol) !== -1;\n }", "checkToken(toMatch) {\n let s = this.checkNext();\n return (s === toMatch);\n }", "firstToken({token, counter}) {\n\t\t// Invalidade any dict ending in: [ ( .\n\t\tif (token.value === null) {\n\t\t\tconst lastToken = this.listener.currentTokens[this.listener.currentTokens.length -1];\n\t\t\tconst second = token;\n\t\t\tif (lastToken.value === '(' || lastToken.value === '[' || lastToken.value === '.') {\n\t\t\t\tthis.listener.nextPattern({syntax: 'invalid', token: token, counter: counter});\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\t\t// The open char of the current node\n\t\tthis.currentOpenChar = this.listener.currentTokens[this.listener.currentTokens.length - 1].value;\n\t\tif (this.currentOpenChar === '(') {\n\t\t\t// Is a simple function without parameters\n\t\t\tif (token.value === ')') {\n\t\t\t\tthis.listener.checking = 'endToken';\n\t\t\t\treturn true;\n\t\t\t// Collect the function parameters and go to middleTokens\n\t\t\t} else if (['blank', 'end', 'letter', 'number', 'especial', 'NOT', 'NOT-NOT', 'quote', 'undefined'].includes(token.name) || (token.value === '-' || token.value === '+')) {\n\t\t\t\tthis.listener.checking = 'middleTokens';\n\t\t\t\tthis.currentParams = this.currentParams + token.value;\n\t\t\t\tif (this.currentParamsCounter === null) {\n\t\t\t\t\tthis.currentParamsCounter = counter || null;\n\t\t\t\t}\n\t\t\t\treturn true;\n\t\t\t} else if (['(', '[', '{'].includes(token.value)) {\n\t\t\t\tthis.innerOpenedObjects = this.innerOpenedObjects + 1;\n\t\t\t\tthis.currentParams = this.currentParams + token.value;\n\t\t\t\tthis.listener.checking = 'middleTokens';\n\t\t\t\tif (this.currentParamsCounter === null) {\n\t\t\t\t\tthis.currentParamsCounter = counter || null;\n\t\t\t\t}\n\t\t\t\treturn true;\n\t\t\t} else {\n\t\t\t\t// Invalid!\n\t\t\t\tthis.invalid = true;\n\t\t\t\t// wait for some blank or end token and register the current stream as invalid\n\t\t\t\tthis.listener.checking = 'endToken';\n\t\t\t\treturn true;\n\t\t\t}\n\t\t// If is a bracket or dot dictionary\n\t\t} else if ((this.currentOpenChar === '[' || this.currentOpenChar === '.') && (token.name !== 'separator' || token.value === '(')) {\n\t\t\t// When a bracket dict is detect we already have the first node and the open bracket\n\t\t\t// Get the node label without the bracket and convert it to STRING to create the first node\n\t\t\t// If bracket or dot are detected from DictPattern it may come with a single bracket or dot as\n\t\t\t// currentLabel, in that case with don't want manually create a dict node now\n\t\t\tif (this.listener.currentLabel !== '.' && this.listener.currentLabel !== '[') {\n\t\t\t\tthis.listener.firstNodeLabel = this.listener.currentLabel;\n\t\t\t\tthis.currentParams = `\"${this.listener.currentLabel.slice(0, this.listener.currentLabel.length - 1)}\"`;\n\t\t\t\t// MANUALLY CREATE THE DICTIONAY NODE\n\t\t\t\tthis.createDictionaryNode({token: token, counter: counter});\n\t\t\t\t// Variable name can't start with a number\n\t\t\t\tif (this.currentOpenChar === '.' && token.name === 'number') {\n\t\t\t\t\t// this.listener.nextPattern({syntax: 'invalid', token: token, counter: counter});\n\t\t\t\t\t// return false;\n\t\t\t\t\tthis.invalid = true;\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\tthis.listener.checking = 'middleTokens';\n\t\t\t}\n\n\t\t\t// After create the first node set to collect the params inside the brackets to create the second node with it\n\t\t\tthis.currentParams = this.currentParams + token.value;\n\t\t\tif (this.currentParamsCounter === null) {\n\t\t\t\tthis.currentParamsCounter = counter || null;\n\t\t\t}\n\t\t\treturn true;\n\t\t} else if (token.name === 'dot' || token.name === 'separator') {\n\t\t\t// Invalid!\n\t\t\tthis.invalid = true;\n\t\t\t// wait for some blank or end token and register the current stream as invalid\n\t\t\tthis.listener.checking = 'endToken';\n\t\t\treturn true;\n\t\t} else {\n\t\t\treturn false;\n\t\t}\n\t}", "isNextValidAfterCurrent({currentNode, nextNode, isParameter}) {\n\t\t// console.log('currentNode, nextNode, isParameter', currentNode, nextNode, isParameter);\n\t\t// return true;\n\t\treturn this.validAfter[currentNode.syntax] ? this.validAfter[currentNode.syntax]({\n\t\t\tcurrentNode: currentNode,\n\t\t\tnextNode: nextNode,\n\t\t\tisParameter: isParameter\n\t\t}) : false;\n\t}", "endToken({token, counter}) {\n\t\tif (['blank', 'end'].includes(token.name)) {\n\t\t\tthis.listener.nextPattern({syntax: 'invalid', token: token, counter: counter});\n\t\t\treturn false;\n\t\t} else {\n\t\t\treturn true;\n\t\t}\n\t}", "endToken({token, counter}) {\n\t\tif (['blank', 'end'].includes(token.name)) {\n\t\t\tthis.listener.nextPattern({syntax: 'invalid', token: token, counter: counter});\n\t\t\treturn false;\n\t\t} else {\n\t\t\treturn true;\n\t\t}\n\t}", "endToken({token, counter}) {\n\t\tif (['blank', 'end'].includes(token.name)) {\n\t\t\tthis.listener.nextPattern({syntax: 'invalid', token: token, counter: counter});\n\t\t\treturn false;\n\t\t} else {\n\t\t\treturn true;\n\t\t}\n\t}" ]
[ "0.78852", "0.689108", "0.6701221", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.66495097", "0.6525037", "0.6525037", "0.6459568", "0.6444068", "0.6330879", "0.62810934", "0.6278147", "0.6247138", "0.5987823", "0.5829582", "0.5809218", "0.5809218", "0.5782138", "0.57308626", "0.569835", "0.5679338", "0.5679338", "0.56564313", "0.56529295", "0.56401175", "0.563951", "0.56367755", "0.5629772", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.56250054", "0.5621935", "0.5616378", "0.5616378", "0.5615659", "0.5615659", "0.55702925", "0.5566425", "0.5541042", "0.5541042", "0.5537997", "0.5526761", "0.5455376", "0.5431665", "0.53959775", "0.5365539", "0.5348836", "0.53404063", "0.5307089", "0.52703595", "0.52439415", "0.52411866", "0.5233927", "0.5213786", "0.52090055", "0.52090055", "0.518562", "0.51805043", "0.5180013", "0.5149746", "0.5149746", "0.5149746", "0.5129074", "0.50972813", "0.5075377", "0.5067848", "0.50448585", "0.5041697", "0.5041697", "0.5041697" ]
0.5621488
62
If the next token is of the given kind, return that token after advancing the lexer. Otherwise, do not change the parser state and throw an error.
function expect(lexer, kind) { var token = lexer.token; if (token.kind === kind) { lexer.advance(); return token; } throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw syntaxError(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(getTokenDesc(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "expectToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return token;\n }\n\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Expected ${getTokenKindDesc(kind)}, found ${getTokenDesc(token)}.`,\n );\n }", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expect(lexer, kind) {\n\t var token = lexer.token;\n\t if (token.kind === kind) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected ' + kind + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw (0, _error.syntaxError)(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat((0, _lexer.getTokenDesc)(token)));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "function expect(parser, kind) {\n\t var token = parser.token;\n\t if (token.kind === kind) {\n\t advance(parser);\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expect(parser, kind) {\n var token = parser.token;\n if (token.kind === kind) {\n advance(parser);\n return token;\n }\n throw (0, _error.syntaxError)(parser.source, token.start, 'Expected ' + (0, _lexer.getTokenKindDesc)(kind) + ', found ' + (0, _lexer.getTokenDesc)(token));\n}", "function expect(lexer$$1, kind) {\n var token = lexer$$1.token;\n if (token.kind === kind) {\n lexer$$1.advance();\n return token;\n }\n throw (0, error.syntaxError)(lexer$$1.source, token.start, 'Expected ' + kind + ', found ' + (0, lexer.getTokenDesc)(token));\n}", "function expectOptionalToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function expectOptionalToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function expectOptionalToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function expectOptionalToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function abortParsingListOrMoveToNextToken(kind) {\n parseErrorAtCurrentToken(parsingContextErrors(kind));\n if (isInSomeParsingContext()) {\n return true;\n }\n nextToken();\n return false;\n }", "match(tokenKind) {\n if (this.check(tokenKind)) {\n this.current++; //advance\n return true;\n }\n return false;\n }", "function nextToken() {\n skipSpace();\n state.start = state.pos;\n if (state.pos >= input.length) {\n const tokens = state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= input.length &&\n tokens[tokens.length - 2].start >= input.length\n ) {\n unexpected(\"Unexpectedly reached the end of input.\");\n }\n finishToken(TokenType.eof);\n return;\n }\n readToken(input.charCodeAt(state.pos));\n}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "function skip(lexer, kind) {\n\t var match = lexer.token.kind === kind;\n\t if (match) {\n\t lexer.advance();\n\t }\n\t return match;\n\t}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n if (match) {\n lexer.advance();\n }\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "function skip(lexer, kind) {\n var match = lexer.token.kind === kind;\n\n if (match) {\n lexer.advance();\n }\n\n return match;\n}", "function skip(parser, kind) {\n\t var match = parser.token.kind === kind;\n\t if (match) {\n\t advance(parser);\n\t }\n\t return match;\n\t}", "function skip(parser, kind) {\n var match = parser.token.kind === kind;\n if (match) {\n advance(parser);\n }\n return match;\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "eat(expectedTokenType) {\n try {\n if (this.currentToken && this.currentToken.type.toUpperCase() == expectedTokenType) {\n this.currentToken = this.lexer.getNextToken();\n return true;\n } else {\n let errMessage = `Expected ${expectedTokenType}: `;\n errMessage += this.currentToken ? `got ${this.currentToken.type}` : `No current token`;\n throw new ParserException(errMessage, this.currentToken);\n }\n } catch (e) {\n throw e\n }\n }", "_eat(tokenType) {\n const token = this._lookahead;\n\n if (token === null) {\n throw new SyntaxError(\n `Unexpected end of input, expected: \"${tokenType}\"`,\n );\n }\n\n if (token.type !== tokenType) {\n throw new SyntaxError(\n `Unexpected token: \"${token.value}\", expected: \"${tokenType}\"`,\n );\n }\n\n // Advance to next token.\n this._lookahead = this._tokenizer.getNextToken();\n\n return token;\n }", "function nextToken() {\n skipSpace();\n _base.state.start = _base.state.pos;\n if (_base.state.pos >= _base.input.length) {\n const tokens = _base.state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= _base.input.length &&\n tokens[tokens.length - 2].start >= _base.input.length\n ) {\n _util.unexpected.call(void 0, \"Unexpectedly reached the end of input.\");\n }\n finishToken(_types.TokenType.eof);\n return;\n }\n readToken(_base.input.charCodeAt(_base.state.pos));\n}", "expectOptionalToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return true;\n }\n\n return false;\n }", "function advanceLexer() {\n\t var token = this.lastToken = this.token;\n\t if (token.kind !== EOF) {\n\t do {\n\t token = token.next = readToken(this, token);\n\t } while (token.kind === COMMENT);\n\t this.token = token;\n\t }\n\t return token;\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function skip(lexer$$1, kind) {\n var match = lexer$$1.token.kind === kind;\n if (match) {\n lexer$$1.advance();\n }\n return match;\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n return readBlockString(source, position, line, col, prev);\n }\n return readString(source, position, line, col, prev);\n }\n\n throw (0, error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "eatToken(type) {\n\t\t\tconst token = this.getToken();\n\t\t\tif (token.type === type) {\n\t\t\t\tthis.nextToken();\n\t\t\t\t// @ts-ignore\n\t\t\t\treturn token;\n\t\t\t} else {\n\t\t\t\treturn undefined;\n\t\t\t}\n\t\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new ast[\"b\" /* Token */](TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new ast[\"b\" /* Token */](TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new ast[\"b\" /* Token */](TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new ast[\"b\" /* Token */](TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new ast[\"b\" /* Token */](TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new ast[\"b\" /* Token */](TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new ast[\"b\" /* Token */](TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new ast[\"b\" /* Token */](TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new ast[\"b\" /* Token */](TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "function peek(lexer, kind) {\n\t return lexer.token.kind === kind;\n\t}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n\t throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:\n\t case 66:\n\t case 67:\n\t case 68:\n\t case 69:\n\t case 70:\n\t case 71:\n\t case 72:\n\t case 73:\n\t case 74:\n\t case 75:\n\t case 76:\n\t case 77:\n\t case 78:\n\t case 79:\n\t case 80:\n\t case 81:\n\t case 82:\n\t case 83:\n\t case 84:\n\t case 85:\n\t case 86:\n\t case 87:\n\t case 88:\n\t case 89:\n\t case 90:\n\t case 95:\n\t case 97:\n\t case 98:\n\t case 99:\n\t case 100:\n\t case 101:\n\t case 102:\n\t case 103:\n\t case 104:\n\t case 105:\n\t case 106:\n\t case 107:\n\t case 108:\n\t case 109:\n\t case 110:\n\t case 111:\n\t case 112:\n\t case 113:\n\t case 114:\n\t case 115:\n\t case 116:\n\t case 117:\n\t case 118:\n\t case 119:\n\t case 120:\n\t case 121:\n\t case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:\n\t case 49:\n\t case 50:\n\t case 51:\n\t case 52:\n\t case 53:\n\t case 54:\n\t case 55:\n\t case 56:\n\t case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n\t return readBlockString(source, position, line, col, prev);\n\t }\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n }", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t case 95:\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "next() {\n if (!hasCurrentCharacter(this)) {\n this._currentToken = undefined;\n }\n else {\n switch (this._currentState) {\n case \"SCHEME\":\n nextScheme(this);\n break;\n case \"SCHEME_OR_HOST\":\n nextSchemeOrHost(this);\n break;\n case \"HOST\":\n nextHost(this);\n break;\n case \"PORT\":\n nextPort(this);\n break;\n case \"PATH\":\n nextPath(this);\n break;\n case \"QUERY\":\n nextQuery(this);\n break;\n default:\n throw new Error(`Unrecognized URLTokenizerState: ${this._currentState}`);\n }\n }\n return !!this._currentToken;\n }", "next() {\n if (!hasCurrentCharacter(this)) {\n this._currentToken = undefined;\n }\n else {\n switch (this._currentState) {\n case \"SCHEME\":\n nextScheme(this);\n break;\n case \"SCHEME_OR_HOST\":\n nextSchemeOrHost(this);\n break;\n case \"HOST\":\n nextHost(this);\n break;\n case \"PORT\":\n nextPort(this);\n break;\n case \"PATH\":\n nextPath(this);\n break;\n case \"QUERY\":\n nextQuery(this);\n break;\n default:\n throw new Error(`Unrecognized URLTokenizerState: ${this._currentState}`);\n }\n }\n return !!this._currentToken;\n }", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}", "function peek(lexer, kind) {\n return lexer.token.kind === kind;\n}" ]
[ "0.75723034", "0.7555931", "0.7541712", "0.7541712", "0.7500238", "0.7457105", "0.7457105", "0.7447638", "0.73832905", "0.7254446", "0.72139543", "0.7144362", "0.65815", "0.65815", "0.65815", "0.65815", "0.65045434", "0.64782095", "0.6416267", "0.64111257", "0.64111257", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6399491", "0.6370781", "0.6370781", "0.63548404", "0.63020706", "0.62574184", "0.6191105", "0.613273", "0.61273235", "0.6080184", "0.60747313", "0.60613173", "0.6056693", "0.6056693", "0.6056693", "0.6056693", "0.6056693", "0.6056693", "0.6055149", "0.6045183", "0.6025699", "0.6025699", "0.6025699", "0.6025699", "0.59654546", "0.59654546", "0.59654546", "0.59654546", "0.59654546", "0.59654546", "0.5956493", "0.59504193", "0.59474736", "0.59428006", "0.59299237", "0.59299237", "0.5927911", "0.5927911", "0.5927911", "0.58911693", "0.5883926", "0.5883926", "0.58779967", "0.58496517", "0.5848286", "0.5836913", "0.5836913", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189", "0.5836189" ]
0.74866277
14
If the next token is a keyword with the given value, return that token after advancing the lexer. Otherwise, do not change the parser state and return false.
function expectKeyword(lexer, value) { var token = lexer.token; if (token.kind === _lexer.TokenKind.NAME && token.value === value) { lexer.advance(); return token; } throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected "' + value + '", found ' + (0, _lexer.getTokenDesc)(token)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n } else {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n }\n}", "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer.TokenKind.NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n throw (0, _error.syntaxError)(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat((0, _lexer.getTokenDesc)(token)));\n}", "function matchKeyword(keyword) {\n return lookahead.type === TokenKeyword && lookahead.value === keyword;\n }", "function expectKeyword(lexer, value) {\n\t var token = lexer.token;\n\t if (token.kind === _lexer.TokenKind.NAME && token.value === value) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected \"' + value + '\", found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function expectKeyword(lexer, value) {\n\t var token = lexer.token;\n\t if (token.kind === _lexer.TokenKind.NAME && token.value === value) {\n\t lexer.advance();\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(lexer.source, token.start, 'Expected \"' + value + '\", found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function matchKeyword(keyword) {\n return lookahead.type === TokenKeyword && lookahead.value === keyword;\n}", "function matchKeyword(keyword) {\n return lookahead.type === TokenKeyword && lookahead.value === keyword;\n}", "function matchKeyword(keyword) {\n var token = lookahead();\n return token.type === Token.Keyword && token.value === keyword;\n }", "function matchKeyword(keyword) {\n var token = lookahead();\n return token.type === Token.Keyword && token.value === keyword;\n }", "function matchKeyword(keyword) {\n var token = lookahead();\n return token.type === Token.Keyword && token.value === keyword;\n }", "function matchKeyword(keyword) {\n var token = lookahead();\n return token.type === Token.Keyword && token.value === keyword;\n }", "function matchKeyword(keyword) {\n var token = lookahead();\n return token.type === Token.Keyword && token.value === keyword;\n }", "function expectKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === TokenKind.NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n throw syntaxError(lexer.source, token.start, \"Expected \\\"\".concat(value, \"\\\", found \").concat(getTokenDesc(token)));\n}", "function matchKeyword(keyword) {\n\t return lookahead.type === Token.Keyword && lookahead.value === keyword;\n\t }", "function expectKeyword(parser, value) {\n var token = parser.token;\n if (token.kind === _lexer.TokenKind.NAME && token.value === value) {\n advance(parser);\n return token;\n }\n throw (0, _error.syntaxError)(parser.source, token.start, 'Expected \"' + value + '\", found ' + (0, _lexer.getTokenDesc)(token));\n}", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function expectKeyword(parser, value) {\n\t var token = parser.token;\n\t if (token.kind === _lexer.TokenKind.NAME && token.value === value) {\n\t advance(parser);\n\t return token;\n\t }\n\t throw (0, _error.syntaxError)(parser.source, token.start, 'Expected \"' + value + '\", found ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n\t return lookahead.type === Token.Keyword && lookahead.value === keyword;\n\t }", "function expectKeyword(lexer$$1, value) {\n var token = lexer$$1.token;\n if (token.kind === lexer.TokenKind.NAME && token.value === value) {\n lexer$$1.advance();\n return token;\n }\n throw (0, error.syntaxError)(lexer$$1.source, token.start, 'Expected \"' + value + '\", found ' + (0, lexer.getTokenDesc)(token));\n}", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(keyword) {\n return lookahead.type === Token.Keyword && lookahead.value === keyword;\n }", "function matchKeyword(kw) {\n const tok = peek()\n return tok.type === Token.Keyword && tok.value === kw\n }", "function matchKeyword(keyword)\n\t\t{\n\t\t\treturn lookahead.type === Token.Keyword && lookahead.value === keyword;\n\t\t}", "isKeyword() {\n let text = this._value;\n return IdentifierState.keywords.find(elem => {\n return elem === text;\n });\n }", "function expectOptionalKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return true;\n }\n\n return false;\n}", "expectOptionalKeyword(value) {\n const token = this._lexer.token;\n\n if (token.kind === TokenKind.NAME && token.value === value) {\n this._lexer.advance();\n\n return true;\n }\n\n return false;\n }", "expectKeyword(value) {\n const token = this._lexer.token;\n\n if (token.kind === TokenKind.NAME && token.value === value) {\n this._lexer.advance();\n } else {\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Expected \"${value}\", found ${getTokenDesc(token)}.`,\n );\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n } // Return true if the next token matches the specified punctuator.", "parseKeyword() {\n if (this.char === CHAR_QUOT) {\n return this.next(this.parseBasicString);\n } else if (this.char === CHAR_APOS) {\n return this.next(this.parseLiteralString);\n } else {\n return this.goto(this.parseBareKey);\n }\n }", "parseKeyword () {\n if (this.char === CHAR_QUOT) {\n return this.next(this.parseBasicString)\n } else if (this.char === CHAR_APOS) {\n return this.next(this.parseLiteralString)\n } else {\n return this.goto(this.parseBareKey)\n }\n }", "parseKeyword() {\n\t\t\tif ( this.char === CHAR_QUOT ) {\n\t\t\t\treturn this.next( this.parseBasicString );\n\t\t\t} else if ( this.char === CHAR_APOS ) {\n\t\t\t\treturn this.next( this.parseLiteralString );\n\t\t\t} else {\n\t\t\t\treturn this.goto( this.parseBareKey );\n\t\t\t}\n\t\t}", "function expect(value){var token=lex();if(token.type !== Token.Punctuator || token.value !== value){throwUnexpected(token);}} // Expect the next token to match the specified keyword.", "isKeyword(word) { return this.keywords.test(word) }", "function expectContextualKeyword(keyword){return expectKeyword(keyword,true);} // Return true if the next token matches the specified punctuator.", "function _isKeyword(v) {\n if(!_isString(v)) {\n return false;\n }\n switch(v) {\n case '@base':\n case '@context':\n case '@container':\n case '@default':\n case '@embed':\n case '@explicit':\n case '@graph':\n case '@id':\n case '@index':\n case '@language':\n case '@list':\n case '@omitDefault':\n case '@preserve':\n case '@reverse':\n case '@set':\n case '@type':\n case '@value':\n case '@vocab':\n return true;\n }\n return false;\n}", "function _isKeyword(v) {\n if(!_isString(v)) {\n return false;\n }\n switch(v) {\n case '@base':\n case '@context':\n case '@container':\n case '@default':\n case '@embed':\n case '@explicit':\n case '@graph':\n case '@id':\n case '@index':\n case '@language':\n case '@list':\n case '@omitDefault':\n case '@preserve':\n case '@requireAll':\n case '@reverse':\n case '@set':\n case '@type':\n case '@value':\n case '@vocab':\n return true;\n }\n return false;\n}", "function _isKeyword(v) {\n if(!_isString(v)) {\n return false;\n }\n switch(v) {\n case '@base':\n case '@context':\n case '@container':\n case '@default':\n case '@embed':\n case '@explicit':\n case '@graph':\n case '@id':\n case '@index':\n case '@language':\n case '@list':\n case '@omitDefault':\n case '@preserve':\n case '@requireAll':\n case '@reverse':\n case '@set':\n case '@type':\n case '@value':\n case '@vocab':\n return true;\n }\n return false;\n}", "function _isKeyword(v) {\n if(!_isString(v)) {\n return false;\n }\n switch(v) {\n case '@base':\n case '@context':\n case '@container':\n case '@default':\n case '@embed':\n case '@explicit':\n case '@graph':\n case '@id':\n case '@index':\n case '@language':\n case '@list':\n case '@omitDefault':\n case '@preserve':\n case '@requireAll':\n case '@reverse':\n case '@set':\n case '@type':\n case '@value':\n case '@vocab':\n return true;\n }\n return false;\n}", "function _isKeyword(v) {\n if(!_isString(v)) {\n return false;\n }\n switch(v) {\n case '@base':\n case '@context':\n case '@container':\n case '@default':\n case '@embed':\n case '@explicit':\n case '@graph':\n case '@id':\n case '@index':\n case '@language':\n case '@list':\n case '@omitDefault':\n case '@preserve':\n case '@requireAll':\n case '@reverse':\n case '@set':\n case '@type':\n case '@value':\n case '@vocab':\n return true;\n }\n return false;\n}", "function expectOptionalKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function expectOptionalKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function is_kw(kw) {\n var tok = input.peek();\n return tok && tok.type === \"kw\" && (!kw || tok.value === kw) && tok; \n }", "function expectOptionalKeyword(lexer, value) {\n var token = lexer.token;\n\n if (token.kind === TokenKind.NAME && token.value === value) {\n lexer.advance();\n return token;\n }\n\n return undefined;\n}", "function matchKeyword(keyword, contextual) {\n var expectedType = contextual ? Token.Identifier : Token.Keyword;\n return lookahead.type === expectedType && lookahead.value === keyword;\n }", "function Y(e){var t=M();(t.type!==Xt.Punctuator||t.value!==e)&&W(t)}// Expect the next token to match the specified keyword.", "function matchKeyword(keyword, contextual) {\n var expectedType = contextual ? Token.Identifier : Token.Keyword;\n return lookahead.type === expectedType && lookahead.value === keyword;\n }", "function matchKeyword(keyword, contextual) {\n var expectedType = contextual ? Token.Identifier : Token.Keyword;\n return lookahead.type === expectedType && lookahead.value === keyword;\n }", "function matchKeyword(keyword, contextual) {\n var expectedType = contextual ? Token.Identifier : Token.Keyword;\n return lookahead.type === expectedType && lookahead.value === keyword;\n }", "function matchKeyword(keyword, contextual) {\n var expectedType = contextual ? Token.Identifier : Token.Keyword;\n return lookahead.type === expectedType && lookahead.value === keyword;\n }", "function expect(value) {\n var token = lex();\n\n if (token.type !== Token.Punctuator || token.value !== value) {\n throwUnexpected(token);\n }\n } // Expect the next token to match the specified keyword.", "function expectKeyword(keyword,contextual){var token=lex();if(token.type !== (contextual?Token.Identifier:Token.Keyword) || token.value !== keyword){throwUnexpected(token);}} // Expect the next token to match the specified contextual keyword.", "function sc_isKeyword(s) {\n return (typeof s === \"string\") &&\n\t(s.charAt(0) === sc_KEYWORD_PREFIX);\n}", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function tsParseDeclaration(contextualKeyword, isBeforeToken) {\n switch (contextualKeyword) {\n case ContextualKeyword._abstract:\n if (tsCheckLineTerminator(isBeforeToken) && match(TokenType._class)) {\n state.tokens[state.tokens.length - 1].type = TokenType._abstract;\n parseClass(/* isStatement */ true, /* optionalId */ false);\n return true;\n }\n break;\n\n case ContextualKeyword._enum:\n if (tsCheckLineTerminator(isBeforeToken) && match(TokenType.name)) {\n state.tokens[state.tokens.length - 1].type = TokenType._enum;\n tsParseEnumDeclaration();\n return true;\n }\n break;\n\n case ContextualKeyword._interface:\n if (tsCheckLineTerminator(isBeforeToken) && match(TokenType.name)) {\n // `next` is true in \"export\" and \"declare\" contexts, so we want to remove that token\n // as well.\n const oldIsType = pushTypeContext(isBeforeToken ? 2 : 1);\n tsParseInterfaceDeclaration();\n popTypeContext(oldIsType);\n return true;\n }\n break;\n\n case ContextualKeyword._module:\n if (tsCheckLineTerminator(isBeforeToken)) {\n if (match(TokenType.string)) {\n const oldIsType = pushTypeContext(isBeforeToken ? 2 : 1);\n tsParseAmbientExternalModuleDeclaration();\n popTypeContext(oldIsType);\n return true;\n } else if (match(TokenType.name)) {\n const oldIsType = pushTypeContext(isBeforeToken ? 2 : 1);\n tsParseModuleOrNamespaceDeclaration();\n popTypeContext(oldIsType);\n return true;\n }\n }\n break;\n\n case ContextualKeyword._namespace:\n if (tsCheckLineTerminator(isBeforeToken) && match(TokenType.name)) {\n const oldIsType = pushTypeContext(isBeforeToken ? 2 : 1);\n tsParseModuleOrNamespaceDeclaration();\n popTypeContext(oldIsType);\n return true;\n }\n break;\n\n case ContextualKeyword._type:\n if (tsCheckLineTerminator(isBeforeToken) && match(TokenType.name)) {\n const oldIsType = pushTypeContext(isBeforeToken ? 2 : 1);\n tsParseTypeAliasDeclaration();\n popTypeContext(oldIsType);\n return true;\n }\n break;\n\n default:\n break;\n }\n return false;\n}", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpectedToken(token);\n }\n }", "function expectKeyword(keyword) {\n\t var token = lex();\n\t if (token.type !== Token.Keyword || token.value !== keyword) {\n\t throwUnexpectedToken(token);\n\t }\n\t }", "function expectKeyword(keyword)\n\t\t{\n\t\t\tvar token = lex();\n\t\t\tif (token.type !== Token.Keyword || token.value !== keyword)\n\t\t\t{\n\t\t\t\tthrowUnexpectedToken(token);\n\t\t\t}\n\t\t}", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }", "function expectKeyword(keyword) {\n var token = lex();\n if (token.type !== Token.Keyword || token.value !== keyword) {\n throwUnexpected(token);\n }\n }" ]
[ "0.71878976", "0.71878976", "0.71839094", "0.7100573", "0.6948013", "0.69353074", "0.69277066", "0.69277066", "0.6917906", "0.6917906", "0.69026834", "0.69026834", "0.69026834", "0.69026834", "0.69026834", "0.6886096", "0.687529", "0.6861043", "0.68496", "0.6824084", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.6803251", "0.67936456", "0.67875296", "0.67818224", "0.67818224", "0.67552143", "0.6724675", "0.67171586", "0.667621", "0.6616275", "0.6605348", "0.65849787", "0.65790015", "0.65724796", "0.6568626", "0.65670127", "0.65664995", "0.64839166", "0.64439046", "0.6432271", "0.6432271", "0.6432271", "0.6432271", "0.636804", "0.636804", "0.62838984", "0.6278459", "0.6274078", "0.6256292", "0.6238892", "0.6238892", "0.6238892", "0.6238892", "0.619203", "0.60573876", "0.60500515", "0.5984275", "0.59664637", "0.5943111", "0.5943111", "0.5943111", "0.5943111", "0.5943111", "0.5943111", "0.59405106", "0.58975744", "0.5865771", "0.5865771", "0.5865771", "0.5865771", "0.5865771", "0.5865771" ]
0.6977423
13
Helper function for creating an error when an unexpected lexed token is encountered.
function unexpected(lexer, atToken) { var token = atToken || lexer.token; return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function unexpectedTokenError(token, message)\n\t\t{\n\t\t\tvar msg = Messages.UnexpectedToken;\n\t\t\tif (token)\n\t\t\t{\n\t\t\t\tmsg = message ? message : (token.type === Token.EOF) ? Messages.UnexpectedEOS : (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier : (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber : (token.type === Token.StringLiteral) ? Messages.UnexpectedString : Messages.UnexpectedToken;\n\t\t\t\tif (token.type === Token.Keyword)\n\t\t\t\t{\n\t\t\t\t\tif (isFutureReservedWord(token.value))\n\t\t\t\t\t{\n\t\t\t\t\t\tmsg = Messages.UnexpectedReserved;\n\t\t\t\t\t}\n\t\t\t\t\telse if (strict && isStrictModeReservedWord(token.value))\n\t\t\t\t\t{\n\t\t\t\t\t\tmsg = Messages.StrictReservedWord;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t\tmsg = msg.replace('%0', token ? token.value : 'ILLEGAL');\n\t\t\treturn (token && typeof token.lineNumber === 'number') ? createError(token.lineNumber, token.start, msg) : createError(lineNumber, index, msg);\n\t\t}", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Unexpected \".concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Unexpected \".concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Unexpected \".concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Unexpected \".concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n}", "function unexpectedTokenError(token, message) {\n var msg = Messages.UnexpectedToken;\n\n if (token) {\n msg = message ? message :\n (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n msg = msg.replace('%0', token ? token.value : 'ILLEGAL');\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(lineNumber, index, msg);\n }", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, \"Unexpected \".concat((0, _lexer.getTokenDesc)(token)));\n}", "function unexpectedTokenError(token, message) {\n\t var value, msg = message || Messages.UnexpectedToken;\n\n\t if (token) {\n\t if (!message) {\n\t msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n\t (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n\t (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n\t (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n\t (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n\t Messages.UnexpectedToken;\n\n\t if (token.type === Token.Keyword) {\n\t if (isFutureReservedWord(token.value)) {\n\t msg = Messages.UnexpectedReserved;\n\t } else if (strict && isStrictModeReservedWord(token.value)) {\n\t msg = Messages.StrictReservedWord;\n\t }\n\t }\n\t }\n\n\t value = (token.type === Token.Template) ? token.value.raw : token.value;\n\t } else {\n\t value = 'ILLEGAL';\n\t }\n\n\t msg = msg.replace('%0', value);\n\n\t return (token && typeof token.lineNumber === 'number') ?\n\t createError(token.lineNumber, token.start, msg) :\n\t createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n\t }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return syntaxError(lexer.source, token.start, \"Unexpected \".concat(getTokenDesc(token)));\n}", "function unexpected(lexer, atToken) {\n\t var token = atToken || lexer.token;\n\t return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function unexpected(lexer, atToken) {\n\t var token = atToken || lexer.token;\n\t return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function parseError(text, token)\n{\n error('parse error: ' + text + ' ' + token.pos);\n}", "unhandled(context) {\n const truncated = JSON.stringify(context.string.length > 13 ? `${context.string.slice(0, 15)}...` : context.string);\n const state = State[context.state];\n const message = `failed to tokenize ${truncated}, unhandled state ${state}.`;\n throw new InvalidTokenError(context.getLocation(1), message);\n }", "function unexpected(lexer$$1, atToken) {\n var token = atToken || lexer$$1.token;\n return (0, error.syntaxError)(lexer$$1.source, token.start, 'Unexpected ' + (0, lexer.getTokenDesc)(token));\n}", "function error(message) {\n throw new errors.CompileError('LexError', message, token(Token.INVALID));\n }", "function unexpected() {\n raise(tokStart, \"Unexpected token\");\n }", "_error(message, token) {\n const err = new Error(`${message} on line ${token.line}.`);\n err.context = {\n token: token,\n line: token.line,\n previousToken: this._lexer.previousToken\n };\n this._callback(err);\n this._callback = noop;\n }", "lexicalError(currentChar) {\n log.error(\"[Scanner] character \" + currentChar + \" could not be parsed.\");\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n \n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n \n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n \n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n \n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n \n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n \n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function unexpected(message = \"Unexpected token\", pos = state.start) {\n if (state.error) {\n return;\n }\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const err = new SyntaxError(message);\n err.pos = pos;\n state.error = err;\n state.pos = input.length;\n finishToken(TokenType.eof);\n}", "unexpected(atToken) {\n const token =\n atToken !== null && atToken !== void 0 ? atToken : this._lexer.token;\n return syntaxError(\n this._lexer.source,\n token.start,\n `Unexpected ${getTokenDesc(token)}.`,\n );\n }", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n}", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n}", "function throwUnexpected(token) {\n\t if (token.type === Token.EOF) {\n\t throwError(token, Messages.UnexpectedEOS);\n\t }\n\n\t if (token.type === Token.NumericLiteral) {\n\t throwError(token, Messages.UnexpectedNumber);\n\t }\n\n\t if (token.type === Token.StringLiteral) {\n\t throwError(token, Messages.UnexpectedString);\n\t }\n\n\t if (token.type === Token.Identifier) {\n\t throwError(token, Messages.UnexpectedIdentifier);\n\t }\n\n\t if (token.type === Token.Keyword) {\n\t if (isFutureReservedWord(token.value)) {\n\t throwError(token, Messages.UnexpectedReserved);\n\t } else if (strict && isStrictModeReservedWord(token.value)) {\n\t throwErrorTolerant(token, Messages.StrictReservedWord);\n\t return;\n\t }\n\t throwError(token, Messages.UnexpectedToken, token.value);\n\t }\n\n\t // BooleanLiteral, NullLiteral, or Punctuator.\n\t throwError(token, Messages.UnexpectedToken, token.value);\n\t }", "function unexpected(parser, atToken) {\n var token = atToken || parser.token;\n return (0, _error.syntaxError)(parser.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function throwUnexpected(token) {\n var s;\n\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwError(token, Messages.StrictReservedWord);\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._string.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._string.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "function unexpected(parser, atToken) {\n\t var token = atToken || parser.token;\n\t return (0, _error.syntaxError)(parser.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "errorStuck(context) {\n const state = State[context.state];\n const message = `failed to tokenize ${context.getTruncatedLine()}, state ${state} failed to consume data or change state.`;\n throw new InvalidTokenError(context.getLocation(1), message);\n }", "_error(message, token) {\n var err = new Error(message + ' on line ' + token.line + '.');\n err.context = {\n token: token,\n line: token.line,\n previousToken: this._lexer.previousToken\n };\n\n this._callback(err);\n\n this._callback = noop;\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._originalString.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "function throwUnexpected(token) {\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.XJSText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.XJSText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.XJSText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.XJSText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.XJSText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function unexpected() {\n input.croak(`Unexpected token: ${JSON.stringify(input.peek())}`);\n }", "function error(expected){\n console.log(\"Expected: \"+expected+\n \" but found \"+(toks[i][0])+\": \"+\n (toks[i][1]));\n var e = new Error();\n console.log(e.stack);\n throw \"Parse error\";\n }", "function parseError(str,o){\n\t\t// find nearest token\n\t\tvar err;\n\t\t\n\t\tif (o.lexer) {\n\t\t\tvar token = o.lexer.yytext;\n\t\t\t// console.log o:lexer:pos,token.@loc\n\t\t\terr = new ImbaParseError({message: str},{\n\t\t\t\tpos: o.lexer.pos,\n\t\t\t\ttokens: o.lexer.tokens,\n\t\t\t\ttoken: o.lexer.yytext,\n\t\t\t\tmeta: o\n\t\t\t});\n\t\t\t\n\t\t\tthrow err;\n\t\t\t\n\t\t\t// should find the closest token with actual position\n\t\t\t// str = \"[{token.@loc}:{token.@len || String(token):length}] {str}\"\n\t\t};\n\t\tvar e = new Error(str);\n\t\te.lexer = o.lexer;\n\t\te.options = o;\n\t\tthrow e;\n\t}", "unexpected(pos, messageOrType) {\n if (messageOrType == null) messageOrType = 'Unexpected token';\n if (typeof messageOrType !== 'string') messageOrType = `Unexpected token, expected \"${messageOrType.label}\"`;\n throw this.raise(pos != null ? pos : this.state.start, messageOrType);\n }", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_5__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw syntaxError(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(getTokenDesc(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function expectToken(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_3__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_4__[\"getTokenDesc\"])(token)));\n}", "function ErrorNodeImpl(token) {\n\tTerminalNodeImpl.call(this, token);\n\treturn this;\n}", "function ErrorNodeImpl(token) {\n\tTerminalNodeImpl.call(this, token);\n\treturn this;\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat(Object(_lexer__WEBPACK_IMPORTED_MODULE_3__[\"getTokenDesc\"])(token)));\n}", "function expect(lexer, kind) {\n var token = lexer.token;\n\n if (token.kind === kind) {\n lexer.advance();\n return token;\n }\n\n throw (0, _error.syntaxError)(lexer.source, token.start, \"Expected \".concat(kind, \", found \").concat((0, _lexer.getTokenDesc)(token)));\n}", "next() {\n this.m_token = this.yylex();\n if (this.m_token === Token.Error) {\n throw new Error(`unexpected character ${this.m_char}`);\n }\n return this.m_token;\n }", "function te(ec, context) {\n throw new Error(errorCodes[ec] + (context && \" in '\" + context + \"'\"));\n } // THE LEXER", "expectToken(kind) {\n const token = this._lexer.token;\n\n if (token.kind === kind) {\n this._lexer.advance();\n\n return token;\n }\n\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Expected ${getTokenKindDesc(kind)}, found ${getTokenDesc(token)}.`,\n );\n }", "function JisonLexerError(msg, hash) {\n Object.defineProperty(this, 'name', {\n enumerable: false,\n writable: false,\n value: 'JisonLexerError'\n });\n\n if (msg == null) msg = '???';\n\n Object.defineProperty(this, 'message', {\n enumerable: false,\n writable: true,\n value: msg\n });\n\n this.hash = hash;\n\n var stacktrace;\n if (hash && hash.exception instanceof Error) {\n var ex2 = hash.exception;\n this.message = ex2.message || msg;\n stacktrace = ex2.stack;\n }\n if (!stacktrace) {\n if (Error.hasOwnProperty('captureStackTrace')) { // V8\n Error.captureStackTrace(this, this.constructor);\n } else {\n stacktrace = (new Error(msg)).stack;\n }\n }\n if (stacktrace) {\n Object.defineProperty(this, 'stack', {\n enumerable: false,\n writable: false,\n value: stacktrace\n });\n }\n}", "function unexpectedCharacterMessage(code) {\n\t if (code === 39) {\n\t // '\n\t return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n\t }\n\n\t return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n\t}", "function JisonLexerError(msg, hash) {\n Object.defineProperty(this, 'name', {\n enumerable: false,\n writable: false,\n value: 'JisonLexerError'\n });\n\n if (msg == null)\n msg = '???';\n\n Object.defineProperty(this, 'message', {\n enumerable: false,\n writable: true,\n value: msg\n });\n\n this.hash = hash;\n var stacktrace;\n\n if (hash && hash.exception instanceof Error) {\n var ex2 = hash.exception;\n this.message = ex2.message || msg;\n stacktrace = ex2.stack;\n }\n\n if (!stacktrace) {\n if (Error.hasOwnProperty('captureStackTrace')) {\n // V8\n Error.captureStackTrace(this, this.constructor);\n } else {\n stacktrace = new Error(msg).stack;\n }\n }\n\n if (stacktrace) {\n Object.defineProperty(this, 'stack', {\n enumerable: false,\n writable: false,\n value: stacktrace\n });\n }\n }", "function JisonLexerError(msg, hash) {\n Object.defineProperty(this, 'name', {\n enumerable: false,\n writable: false,\n value: 'JisonLexerError'\n });\n\n if (msg == null)\n msg = '???';\n\n Object.defineProperty(this, 'message', {\n enumerable: false,\n writable: true,\n value: msg\n });\n\n this.hash = hash;\n var stacktrace;\n\n if (hash && hash.exception instanceof Error) {\n var ex2 = hash.exception;\n this.message = ex2.message || msg;\n stacktrace = ex2.stack;\n }\n\n if (!stacktrace) {\n if (Error.hasOwnProperty('captureStackTrace')) {\n // V8\n Error.captureStackTrace(this, this.constructor);\n } else {\n stacktrace = new Error(msg).stack;\n }\n }\n\n if (stacktrace) {\n Object.defineProperty(this, 'stack', {\n enumerable: false,\n writable: false,\n value: stacktrace\n });\n }\n }", "function JisonLexerError(msg, hash) {\n Object.defineProperty(this, 'name', {\n enumerable: false,\n writable: false,\n value: 'JisonLexerError'\n });\n\n if (msg == null)\n msg = '???';\n\n Object.defineProperty(this, 'message', {\n enumerable: false,\n writable: true,\n value: msg\n });\n\n this.hash = hash;\n var stacktrace;\n\n if (hash && hash.exception instanceof Error) {\n var ex2 = hash.exception;\n this.message = ex2.message || msg;\n stacktrace = ex2.stack;\n }\n\n if (!stacktrace) {\n if (Error.hasOwnProperty('captureStackTrace')) {\n // V8\n Error.captureStackTrace(this, this.constructor);\n } else {\n stacktrace = new Error(msg).stack;\n }\n }\n\n if (stacktrace) {\n Object.defineProperty(this, 'stack', {\n enumerable: false,\n writable: false,\n value: stacktrace\n });\n }\n }", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use ' + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function makeError(err) {\n var einput;\n\n var defautls = {\n index: furthest,\n filename: env.filename,\n message: 'Parse error.',\n line: 0,\n column: -1\n };\n for (var prop in defautls) {\n if (err[prop] === 0) {\n err[prop] = defautls[prop];\n }\n }\n\n if (err.filename && that.env.inputs && that.env.inputs[err.filename]) {\n einput = that.env.inputs[err.filename];\n } else {\n einput = input;\n }\n\n err.line = (einput.slice(0, err.index).match(/\\n/g) || '').length + 1;\n for (var n = err.index; n >= 0 && einput.charAt(n) !== '\\n'; n--) {\n err.column++;\n }\n return new Error([err.filename, err.line, err.column, err.message].join(\";\"));\n }", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}" ]
[ "0.7421297", "0.73534113", "0.7337508", "0.7335112", "0.7335112", "0.7331919", "0.7302289", "0.72845167", "0.7281797", "0.72380084", "0.72380084", "0.72380084", "0.72380084", "0.72380084", "0.7206929", "0.71722806", "0.71722806", "0.71534777", "0.71342266", "0.71126103", "0.699768", "0.6948927", "0.6948085", "0.6943883", "0.6925933", "0.69140595", "0.69077456", "0.68826866", "0.6874624", "0.6874624", "0.68469715", "0.682639", "0.68038857", "0.6798728", "0.6798728", "0.6796551", "0.6790788", "0.6790788", "0.6786552", "0.67792064", "0.6776748", "0.6776748", "0.6766962", "0.67651534", "0.67651534", "0.67651534", "0.67370516", "0.67191267", "0.67191267", "0.67191267", "0.67191267", "0.67191267", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66690046", "0.66169363", "0.65330154", "0.64542097", "0.64216286", "0.6351995", "0.6347933", "0.631719", "0.631719", "0.6311234", "0.6311234", "0.61888725", "0.611718", "0.61010075", "0.6089337", "0.6082192", "0.6022278", "0.60197484", "0.60181576", "0.60181576", "0.60181576", "0.6009143", "0.6009143", "0.6009143", "0.6009143", "0.6009143", "0.6009143", "0.60021174", "0.5998278" ]
0.72068286
23
Returns a possibly empty list of parse nodes, determined by the parseFn. This list begins with a lex token of openKind and ends with a lex token of closeKind. Advances the parser to the next lex token after the closing token.
function any(lexer, openKind, parseFn, closeKind) { expect(lexer, openKind); var nodes = []; while (!skip(lexer, closeKind)) { nodes.push(parseFn(lexer)); } return nodes; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "many(openKind, parseFn, closeKind) {\n this.expectToken(openKind);\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (!this.expectOptionalToken(closeKind));\n\n return nodes;\n }", "function many(parser, openKind, parseFn, closeKind) {\n\t expect(parser, openKind);\n\t var nodes = [parseFn(parser)];\n\t while (!skip(parser, closeKind)) {\n\t nodes.push(parseFn(parser));\n\t }\n\t return nodes;\n\t}", "function many(parser, openKind, parseFn, closeKind) {\n expect(parser, openKind);\n var nodes = [parseFn(parser)];\n while (!skip(parser, closeKind)) {\n nodes.push(parseFn(parser));\n }\n return nodes;\n}", "function any(parser, openKind, parseFn, closeKind) {\n\t expect(parser, openKind);\n\t var nodes = [];\n\t while (!skip(parser, closeKind)) {\n\t nodes.push(parseFn(parser));\n\t }\n\t return nodes;\n\t}", "function many(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [parseFn(lexer)];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function many(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [parseFn(lexer)];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "any(openKind, parseFn, closeKind) {\n this.expectToken(openKind);\n const nodes = [];\n\n while (!this.expectOptionalToken(closeKind)) {\n nodes.push(parseFn.call(this));\n }\n\n return nodes;\n }", "function any(parser, openKind, parseFn, closeKind) {\n expect(parser, openKind);\n var nodes = [];\n while (!skip(parser, closeKind)) {\n nodes.push(parseFn(parser));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function any(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer$$1, openKind, parseFn, closeKind) {\n expect(lexer$$1, openKind);\n var nodes = [parseFn(lexer$$1)];\n while (!skip(lexer$$1, closeKind)) {\n nodes.push(parseFn(lexer$$1));\n }\n return nodes;\n}", "function any(lexer$$1, openKind, parseFn, closeKind) {\n expect(lexer$$1, openKind);\n var nodes = [];\n while (!skip(lexer$$1, closeKind)) {\n nodes.push(parseFn(lexer$$1));\n }\n return nodes;\n}", "optionalMany(openKind, parseFn, closeKind) {\n if (this.expectOptionalToken(openKind)) {\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (!this.expectOptionalToken(closeKind));\n\n return nodes;\n }\n\n return [];\n }", "function listExpr(termSym, cb) {\n \treturn (function() {\n\t var length,\n\t \tnext = parser(),\n\t \tlist = parser();\n\t \n\t next.on(\",\", function() {\n\t\t \ttopLevelExpr();\n\t\t \tlength += 1;\n\t\t \tnext();\n\t\t })\n\t\t .on(termSym, function() {\n\t\t \tcb(length);\n\t\t })\n\t\t .or(die(\"Unterminated list; expecting \" + termSym));\n\t\t \n\t\t list.on(termSym, function() { cb(0) })\n\t\t \t.or(function() {\n\t\t \t\ttopLevelExpr();\n\t\t \t\tlength = 1;\n\t\t \t\tnext();\n\t\t \t});\n\t\t \n\t\t list();\n\t });\n }", "delimitedMany(delimiterKind, parseFn) {\n this.expectOptionalToken(delimiterKind);\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (this.expectOptionalToken(delimiterKind));\n\n return nodes;\n }", "parse() {\n // We expect at least one tree selector\n var ts = this.parseTreeSelector(); // Now see what's next\n\n var token = this.nextToken(); // If there is no next token then we're done parsing and can return\n // the tree selector object we got above\n\n if (!token) {\n return ts;\n } // Otherwise, there is more go come and we're going to need a\n // list of tree selectors\n\n\n var treeSelectors = [ts];\n\n while (token) {\n // The only character we allow after a tree selector is a comma\n if (token === \",\") {\n this.consume();\n } else {\n throw new ParseError$2(\"Expected comma\");\n } // And if we saw a comma, then it must be followed by another\n // tree selector\n\n\n treeSelectors.push(this.parseTreeSelector());\n token = this.nextToken();\n } // If we parsed more than one tree selector, return them in a\n // SelectorList object.\n\n\n return new SelectorList(treeSelectors);\n }", "parse() {\n // We expect at least one tree selector\n const ts = this.parseTreeSelector();\n\n // Now see what's next\n let token = this.nextToken();\n\n // If there is no next token then we're done parsing and can return\n // the tree selector object we got above\n if (!token) {\n return ts;\n }\n\n // Otherwise, there is more go come and we're going to need a\n // list of tree selectors\n const treeSelectors = [ts];\n while (token) {\n // The only character we allow after a tree selector is a comma\n if (token === \",\") {\n this.consume();\n } else {\n throw new ParseError(\"Expected comma\");\n }\n\n // And if we saw a comma, then it must be followed by another\n // tree selector\n treeSelectors.push(this.parseTreeSelector());\n token = this.nextToken();\n }\n\n // If we parsed more than one tree selector, return them in a\n // SelectorList object.\n return new SelectorList(treeSelectors);\n }", "function parse() {\n var self = this\n var value = String(self.file)\n var start = {line: 1, column: 1, offset: 0}\n var content = xtend(start)\n var node\n\n // Clean non-unix newlines: `\\r\\n` and `\\r` are all changed to `\\n`.\n // This should not affect positional information.\n value = value.replace(lineBreaksExpression, lineFeed)\n\n // BOM.\n if (value.charCodeAt(0) === 0xfeff) {\n value = value.slice(1)\n\n content.column++\n content.offset++\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {start: start, end: self.eof || xtend(start)}\n }\n\n if (!self.options.position) {\n removePosition(node, true)\n }\n\n return node\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function tokens(parsers){\r\n return function(scope, state, k){\r\n var i = 0,\r\n ast = [],\r\n length = parsers.length;\r\n \r\n function next(parser){\r\n return function(scope, state, k){\r\n return function(){ return parser(scope, state, function(result){\r\n i++;\r\n if(!result.success)\r\n return k(result);\r\n if(result.ast !== undef)\r\n ast.push(result.ast);\r\n return i < length ? next(parsers[i])(scope, state, k) : k(result);\r\n })};\r\n };\r\n }\r\n\r\n return function(){ return next(parsers[i])(scope, state, function(result){\r\n var success = result.success;\r\n return k({ast: ast, success: success, expecting: success ? undef : result.expecting });\r\n })};\r\n };\r\n}", "function createNestingParser(openRegex, closeRegex){\n return function(tokens, index){\n if(this.original.match(openRegex)){\n var position = index,\n opens = 1;\n\n while(position++, position <= tokens.length && opens){\n if(!tokens[position]){\n throw \"Invalid nesting. No closing token was found matching \" + closeRegex.toString();\n }\n if(tokens[position].original.match(openRegex)){\n opens++;\n }\n if(tokens[position].original.match(closeRegex)){\n opens--;\n }\n }\n\n // remove all wrapped tokens from the token array, including nest end token.\n var childTokens = tokens.splice(index + 1, position - 1 - index);\n\n // Remove the nest end token.\n childTokens.pop();\n\n // parse them, then add them as child tokens.\n this.childTokens = parse(childTokens);\n\n //Remove nesting end token\n }else{\n // If a nesting end token is found during parsing,\n // there is invalid nesting,\n // because the opening token should remove its closing token.\n throw \"Invalid nesting. No opening token was found matching \" + openRegex.toString();\n }\n };\n}", "function parse(nextToken){\r\n\t//current token\r\n\tvar type,word; //NOTE: word is only update right after next()ing. don't rely on it laaaaater\r\n\t//stored tokens\r\n\tvar newType,newWord;\r\n\t//keep track of stored tokens\r\n\tvar readNext=1;\r\n\t//false=not, 1=no paren, 2=()\r\n\tvar defType=false,nextDefCommon=false,defs={};\r\n\t\r\n\tvar blocks=[];\r\n\tvar current={};\r\n\tvar currentBlocks=[];\r\n\t\r\n\tfunction startBlock(){\r\n\t\tcurrent.code=[];\r\n\t\tcurrent.line=lineNumber;\r\n\t\tcurrentBlocks.push(current);\r\n\t\tcurrent={};\r\n\t}\r\n\tfunction endBlock(){\r\n\t\tvar block=currentBlocks.pop();\r\n\t\tcurrentBlocks[currentBlocks.length-1].code.push(block);\r\n\t}\r\n\tfunction endDef(){\r\n\t\tvar block=currentBlocks.pop();\r\n\t\tdefs[block.name]=block;\r\n\t}\r\n\t\r\n\tvar ifThisLine=false,codeAfterThen;\r\n\t//var nextFunctionGetsOneMore=0;\r\n\tvar expr=[];\r\n\t\r\n\tcurrent.type=\"main\";\r\n\tstartBlock();\r\n\t\r\n\tdo{\r\n\t\ttry{\r\n\t\t\treadStatement();\r\n\t\t}catch(error){\r\n\t\t\tif(error.name===\"ParseError\"){\r\n\t\t\t\treturn error.message+\" on line \"+lineNumber;\r\n\t\t\t//bad error!!!\r\n\t\t\t}else{\r\n\t\t\t\tthrow error;\r\n\t\t\t\treturn;\r\n\t\t\t}\r\n\t\t}\r\n\t}while(type!==\"eof\");;;\r\n\t\r\n\t//read a \"line\" of code\r\n\tfunction readStatement(){\r\n\t\tnext();\r\n\t\tif(type!=\"comment\" && ifThisLine && type!=\"linebreak\")\r\n\t\t\tcodeAfterThen=true;\r\n\t\tswitch(type){\r\n\t\t\t//keywords with no arguments\r\n\t\t\tcase \"BREAK\":\r\n\t\t\t\tcurrent.type=\"BREAK\";\r\n\t\t\t\tcurrent.levels=readExpression();\r\n\t\t\tbreak;case \"CONTINUE\":\r\n\t\t\t\tcurrent.type=\"CONTINUE\";\r\n\t\t\t\tcurrent.levels=readExpression();\r\n\t\t\tbreak;case \"ELSE\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\"){\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\t\tcurrent.type=\"CASE\";\r\n\t\t\t\t\tstartBlock();\r\n\t\t\t\t}else{\r\n\t\t\t\t\tassert(currentBlock().type===\"IF\"||currentBlock().type===\"ELSEIF\",\"ELSE without IF\");\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\t\tcurrent.type=\"ELSE\";\r\n\t\t\t\t\tstartBlock();\r\n\t\t\t\t}\r\n\t\t\tbreak;case \"ENDSWITCH\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\")\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\telse\r\n\t\t\t\t\tassert(currentType===\"SWITCH\",\"ENDSW without SWITCH\");\r\n\t\t\t\tendBlock();\r\n\t\t\tbreak;case \"ENDIF\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tassert(currentType===\"IF\" || currentType===\"ELSE\" || currentType===\"ELSEIF\",\"ENDIF without IF\");\r\n\t\t\t\tendBlock();\r\n\t\t\t\tifThisLine=false;\r\n\t\t\tbreak;case \"SWITCH\":\r\n\t\t\t\tcurrent.type=\"SWITCH\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"CASE\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\")\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\telse\r\n\t\t\t\t\tassert(currentType===\"SWITCH\",\"invalid CASE\");\r\n\t\t\t\tcurrent.type=\"CASE\"\r\n\t\t\t\tassert(current.conditions=readList(readExpression),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"STOP\":\r\n\t\t\t\tcurrent.type=\"STOP\";\r\n\t\t\tbreak;case \"REPEAT\":\r\n\t\t\t\tcurrent.type=\"REPEAT\";\r\n\t\t\t\tstartBlock();\r\n\t\t\t//SWAP\r\n\t\t\tbreak;case \"SWAP\":\r\n\t\t\t\tcurrent.type=\"SWAP\";\r\n\t\t\t\tassert(current.variable=readVariable(),\"Missing variable in SWAP\");\r\n\t\t\t\tassert(readToken(\",\"),\"Missing comma in SWAP\");\r\n\t\t\t\tassert(current.variable2=readVariable(),\"Missing variable in SWAP\");\r\n\t\t\t//IF, ELSEIF\r\n\t\t\tbreak;case \"ELSEIF\":\r\n\t\t\t\tassert(currentBlock().type==\"IF\"||currentBlock().type==\"ELSEIF\",\"ELSEIF without IF\");\r\n\t\t\t\tendBlock();\r\n\t\t\t\tcurrent.type=\"ELSEIF\"\r\n\t\t\t\tcurrent.condition=readExpression();\r\n\t\t\t\tassert(readToken(\"THEN\"),\"ELSEIF without THEN\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"IF\":\r\n\t\t\t\tcurrent.type=\"IF\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing IF condition\");\r\n\t\t\t\tassert(readToken(\"THEN\"),\"IF without THEN\");\r\n\t\t\t\tstartBlock();\r\n\t\t\t\tifThisLine=true;\r\n\t\t\t\tcodeAfterThen=false;\r\n\t\t\t//FOR\r\n\t\t\tbreak;case \"FOR\":\r\n\t\t\t\tcurrent.type=\"FOR\";\r\n\t\t\t\tassert(current.variable=readVariable(),\"Missing FOR variable\");\r\n\t\t\t\tassert(readToken(\"=\"),\"Missing = in FOR\");\r\n\t\t\t\tcurrent.start=readExpression();\r\n\t\t\t\tassert(readToken(\"word\") && word===\"TO\",\"Missing TO in FOR\");\r\n\t\t\t\tcurrent.end=readExpression();\r\n\t\t\t\tif(readToken(\"word\") && word===\"STEP\")\r\n\t\t\t\t\tcurrent.step=readExpression();\r\n\t\t\t\telse\r\n\t\t\t\t\treadNext=0; //heck\r\n\t\t\t\tstartBlock();\r\n\t\t\t//WHILE <condition>\r\n\t\t\tbreak;case \"WHILE\":\r\n\t\t\t\tcurrent.type=\"WHILE\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"WEND\":\r\n\t\t\t\tassert(currentBlock().type==\"WHILE\",\"WEND without WHILE\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//do/LOOP\r\n\t\t\tbreak;case \"DO\":\r\n\t\t\t\tcurrent.type=\"DO\"\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"LOOP\":\r\n\t\t\t\tassert(currentBlock().type==\"DO\",\"LOOP without DO\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//UNTIL <condition>\r\n\t\t\tbreak;case \"UNTIL\":\r\n\t\t\t\tassert(currentBlock().type==\"REPEAT\",\"UNTIL without REPEAT\");\r\n\t\t\t\tassert(currentBlock().condition=readExpression(),\"Missing UNTIL condition\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//NEXT\r\n\t\t\tbreak;case \"NEXT\":\r\n\t\t\t\tassert(currentBlock().type==\"FOR\",\"NEXT without FOR\");\r\n\t\t\t\treadExpression();\r\n\t\t\t\tendBlock();\r\n\t\t\t//OUT/THEN\r\n\t\t\tbreak;case \"OUT\":case \"THEN\":\r\n\t\t\t\tassert(false,\"Illegal OUT/THEN\");\r\n\t\t\t//other words\r\n\t\t\tbreak;case \"word\":\r\n\t\t\t\t//var name=text;\r\n\t\t\t\treadNext=readNext-1;\r\n\t\t\t\tvar x=readVariable(true);\r\n\t\t\t\tif(readToken(\"=\")){\r\n\t\t\t\t\tcurrent.type=\"assignment\";\r\n\t\t\t\t\tcurrent.variable=x;\r\n\t\t\t\t\tassert(current.value=readExpression(),\"Missing value in assignment\");\r\n\t\t\t\t}else{\r\n\t\t\t\t\tcurrent.type=\"function\";\r\n\t\t\t\t\tcurrent.name=x.name;\r\n\t\t\t\t\tcurrent.inputs=readList(readExpression);\r\n\t\t\t\t\tif(readToken(\"OUT\"))\r\n\t\t\t\t\t\tcurrent.outputs=readList(readVariable);\r\n\t\t\t\t\telse\r\n\t\t\t\t\t\tcurrent.outputs=[];\r\n\t\t\t\t}\r\n\t\t\t//comment\r\n\t\t\tbreak;case \"comment\":\r\n\t\t\t//colon NOP\r\n\t\t\tbreak;case \":\":\r\n\t\t\t//line break, end\r\n\t\t\tbreak;case \"eof\":\r\n\t\t\tcase \"linebreak\":\r\n\t\t\t\tif(ifThisLine){\r\n\t\t\t\t\tifThisLine=false;\r\n\t\t\t\t\tif(codeAfterThen){\r\n\t\t\t\t\t\tendBlock();\r\n\t\t\t\t\t\tconsole.log(\"ended single line IF\");\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\tbreak;default:\r\n\t\t\t\tassert(false,\"Expected statement, got \"+type+\" '\"+word+\"'\");\r\n\t\t}\r\n\t\tif(current.type){\r\n\t\t\tcurrent.line=lineNumber;\r\n\t\t\tcurrentBlocks[currentBlocks.length-1].code.push(current)//push to current block!\r\n\t\t\tcurrent={}\r\n\t\t}\r\n\t}\r\n\t\r\n\tfunction currentBlock(){\r\n\t\treturn currentBlocks[currentBlocks.length-1]\r\n\t}\r\n\t\r\n\t//check if next token is of a specific type\r\n\tfunction peekToken(wantedType){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===wantedType;\r\n\t}\r\n\t//check if next token is of a specific type\r\n\tfunction peekWord(wantedWord){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===\"word\" && newWord.trimLeft().toUpperCase()===wantedWord;\r\n\t}\r\n\t\r\n\t//Try to read a specific token\r\n\tfunction readToken(wantedType){\r\n\t\tnext();\r\n\t\tif(type===wantedType){\r\n\t\t\treadNext=1;\r\n\t\t\treturn true;\r\n\t\t}\r\n\t\treadNext=0;\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\t//Read list\r\n\t//reader: function to read item (readExpression etc.)\r\n\t//noNull: throw an error if a null value is found\r\n\tfunction readList(reader){\r\n\t\tvar ret=[];\r\n\t\tvar x=reader();\r\n\t\tif(x)\r\n\t\t\tret.push(x);\r\n\t\tif(readToken(\",\",\"\")){\r\n\t\t\tassert(x,\"Null value not allowed\");\r\n\t\t\tdo\r\n\t\t\t\tassert(ret.push(reader()),\"Null value not allowed\");\r\n\t\t\twhile(readToken(\",\"));;;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\tfunction readList2(reader){\r\n\t\tvar ret=[];\r\n\t\tvar x=reader();\r\n\t\tif(x)\r\n\t\t\tret.push(x);\r\n\t\tif(readToken(\",\",\"\")&&expr.push({type:\"comma\"})){\r\n\t\t\tassert(x,\"Null value not allowed\");\r\n\t\t\tdo\r\n\t\t\t\tassert(ret.push(reader()),\"Null value not allowed\");\r\n\t\t\twhile(readToken(\",\")&&expr.push({type:\"comma\"}));;;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\t//read normal expression\r\n\t//SHould return RPN list\r\n\tfunction readExpression(){\r\n\t\texpr=[];\r\n\t\t//var rpn=[],stack=[];\r\n\t\t//rpn parse tokens as they are read?\r\n\t\tif(readExpression2())\r\n\t\t\treturn rpnFromExpr(expr);\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\tfunction prec(token){\r\n\t\tif(token.type===\"unary\" || token.type===\"comma\")\r\n\t\t\treturn Infinity;\r\n\t\telse\r\n\t\t\tswitch(token.name){\r\n\t\t\t\tcase \"^\":\r\n\t\t\t\t\treturn 11;\r\n\t\t\t\tcase \"*\":case \"/\": case \"\\\\\": case \"%\":\r\n\t\t\t\t\treturn 10;\r\n\t\t\t\tcase \"+\":case \"-\":\r\n\t\t\t\t\treturn 9;\r\n\t\t\t\tcase \"<<\":case \">>\":\r\n\t\t\t\t\treturn 8;\r\n\t\t\t\tcase \"<\":case \"<=\":case \">\":case \">=\":\r\n\t\t\t\t\treturn 7;\r\n\t\t\t\tcase \"==\":case \"!=\":\r\n\t\t\t\t\treturn 6;\r\n\t\t\t\tcase \"&\":\r\n\t\t\t\t\treturn 5;\r\n\t\t\t\tcase \"~\":\r\n\t\t\t\t\treturn 4;\r\n\t\t\t\tcase \"|\":\r\n\t\t\t\t\treturn 3;\r\n\t\t\t\tcase \"AND\":\r\n\t\t\t\t\treturn 2;\r\n\t\t\t\tcase \"OR\":\r\n\t\t\t\t\treturn 1;\r\n\t\t\t}\r\n\t\tconsole.log(token);\r\n\t\tassert(false,\"error prec \"+token.name);\r\n\t}\r\n\tfunction left(token){\r\n\t\treturn 0\r\n\t}\r\n\t\r\n\tfunction rpnFromExpr(expr){\r\n\t\tconsole.log({...expr},\"expr\");\r\n\t\tvar rpn=[],stack=[];\r\n\t\tfor(var i=0;i<expr.length;i++){\r\n\t\t\tvar token=expr[i];\r\n\t\t\tswitch(token.type){\r\n\t\t\t\tcase \"number\":case \"string\":case \"variable\":case \"function\":case \"array\": //see, functions are actually pushed AFTER their arguments, so we can just send them directly to the output! :D\r\n\t\t\t\t\trpn.push(token);\r\n\t\t\t\tbreak;case \"operator\":case \"unary\":\r\n\t\t\t\t\twhile(stack.length){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\t//console.log(top)\r\n\t\t\t\t\t\tif(top.type!=\"(\"&&(prec(top)>=prec(token) || (prec(top)==prec(token) && left(token)))){\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\t}else{\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t\tstack.push(token);\r\n\t\t\t\tbreak;case \"comma\":\r\n\t\t\t\t\twhile(stack.length){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\t//console.log(top)\r\n\t\t\t\t\t\tif(top.type!=\"(\"){\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\t}else{\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\tbreak;case \"(\":\r\n\t\t\t\t\tstack.push(token);\r\n\t\t\t\tbreak;case \")\":\r\n\t\t\t\t\twhile(1){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\tif(top.type!=\"(\")\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\telse\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tstack.pop();\r\n\t\t\t\tbreak;default:\r\n\t\t\t\tassert(false,\"error typ \"+token.type)\r\n\t\t\t}\r\n\t\t}\r\n\t\twhile(stack.length)\r\n\t\t\trpn.push(stack.pop());\r\n\t\treturn rpn;\r\n\t}\r\n\t\r\n\tfunction readExpression2(){\r\n\t\tvar ret=false;\r\n\t\tnext();\r\n\t\tswitch(type){\r\n\t\t\t//function or variable\r\n\t\t\tcase \"word\":\r\n\t\t\t\tvar name=word;\r\n\t\t\t\tif(readToken(\"(\")){\r\n\t\t\t\t\texpr.push({type:\"(\"}); //all we needed!\r\n\t\t\t\t\tvar x=readList2(readExpression2);\r\n\t\t\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\" in function call\");\r\n\t\t\t\t\texpr.push({type:\")\"});\r\n\t\t\t\t\texpr.push({type:\"function\",name:name,args:x.length});\r\n\t\t\t\t}else\r\n\t\t\t\t\texpr.push({type:\"variable\",name:name});\r\n\t\t\t//number literals\r\n\t\t\tbreak;case \"number\":\r\n\t\t\t\texpr.push({type:\"number\",value:word});\r\n\t\t\t//string/label\r\n\t\t\tbreak;case \"string\":\r\n\t\t\t\texpr.push({type:\"string\",value:word});\r\n\t\t\t//operator (unary)\r\n\t\t\tbreak;case \"unary\":case \"minus\":case \"xor\":\r\n\t\t\t\t//unary op\r\n\t\t\t\texpr.push({type:\"unary\",name:word,args:1});\r\n\t\t\t\t//expr.push({type:\"(\"}); //actual fear\r\n\t\t\t\tassert(readExpression2(),\"Missing operator argument\");\r\n\t\t\t\t//expr.push({type:\")\"});\r\n\t\t\t\t\r\n\t\t\t//open parenthesis\r\n\t\t\tbreak;case \"(\":\r\n\t\t\t\texpr.push({type:\"(\"});\r\n\t\t\t\treadExpression2();\r\n\t\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\"\");\r\n\t\t\t\texpr.push({type:\")\"});\r\n\t\t\tbreak;case \"[\":\r\n\t\t\t\texpr.push({type:\"(\"});\r\n\t\t\t\tvar x=readList2(readExpression2);\r\n\t\t\t\texpr.push({type:\"array\",args:x.length});\r\n\t\t\t\tassert(readToken(\"]\"),\"Missing \\\"]\\\"\");\r\n\t\t\t\texpr.push({type:\")\"});\r\n\t\t\t\t\r\n\t\t\t//other crap\r\n\t\t\tbreak;default:\r\n\t\t\t\treadNext=0;\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\twhile(readToken(\"dot\")){\r\n\t\t\tassert(readToken(\"word\"),\"Dot missing function\");\r\n\t\t\tvar name=word;\r\n\t\t\tassert(readToken(\"(\"),\"Dot missing function\");\r\n\t\t\texpr.push({type:\"(\"}); //all we needed!\r\n\t\t\tvar x=readList2(readExpression2);\r\n\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\" in function call\");\r\n\t\t\texpr.push({type:\")\"});\r\n\t\t\texpr.push({type:\"function\",name:name,args:x.length+1});\r\n\t\t}\r\n\t\t//read infix operators\r\n\t\t//this might have to be WHILE not IF\r\n\t\tif(readToken(\"operator\")||readToken(\"minus\")||readToken(\"xor\")){\r\n\t\t\texpr.push({type:\"operator\",name:word,args:2});\r\n\t\t\tassert(readExpression2(),\"Operator missing second argument\");\r\n\t\t}\r\n\t\treturn true;\r\n\t}\r\n\t\r\n\t//read function definition argument\r\n\tfunction readArgument(){\r\n\t\tif(readToken(\"word\"))\r\n\t\t\treturn word;\r\n\t\telse\r\n\t\t\treturn false;\r\n\t}\r\n\t\r\n\t//read variable declaration\r\n\tfunction readDeclaration(){\r\n\t\tvar ret={};\r\n\t\tif(readToken(\"word\")){\r\n\t\t\tret.name=word;\r\n\t\t\tif(readToken(\"=\"))\r\n\t\t\t\tret.value=readExpression();\r\n\t\t\treturn ret;\r\n\t\t}\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\t//keys:\r\n\t//name: [variable name expr token list]\r\n\t//indexes: [index list]\r\n\tfunction readVariable(){\r\n\t\tvar ret={name:\"\"};\r\n\t\tnext();\r\n\t\treturn {name:word}\r\n\t\tswitch(type){\r\n\t\t\tcase \"word\":\r\n\t\t\t\tret.name=word;\r\n\t\t\tbreak;default:\r\n\t\t\t\treadNext=0;\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\t//throw error with message if condition is false\r\n\tfunction assert(condition,message){\r\n\t\tif(!condition){\r\n\t\t\t//message//+=\" on line \"+lineNumber;\r\n\t\t\tconsole.log(message);\r\n\t\t\tvar error=new Error(message);\r\n\t\t\terror.name=\"ParseError\";\r\n\t\t\tthrow error;\r\n\t\t}\r\n\t}\r\n\t\r\n\t//I forgot how this works...\r\n\tfunction next(){\r\n\t\tif(readNext===1){\r\n\t\t\tvar items=nextToken();\r\n\t\t\ttype=items.type;\r\n\t\t\tword=items.word;\r\n\t\t}else if(readNext===-1){\r\n\t\t\ttype=newType;\r\n\t\t\tword=newWord;\r\n\t\t\treadNext=1;\r\n\t\t//I don't think this ever happens?\r\n\t\t}else if(readNext===-2)\r\n\t\t\treadNext=-1;\r\n\t\telse\r\n\t\t\treadNext=1;\r\n\t}\r\n\t\r\n\t//handle single line IF blocks at the end of the program (temporary fix)\r\n\tif(ifThisLine){\r\n\t\tifThisLine=false;\r\n\t\tif(codeAfterThen){\r\n\t\t\tendBlock();\r\n\t\t\tconsole.log(\"ended single line IF\");\r\n\t\t}\r\n\t}\r\n\t\r\n\tif(currentBlocks.length>=2)\r\n\t\treturn \"Unclosed \"+currentBlocks[1].type;\r\n\t//currentBlocks[1]=defs;\r\n\treturn currentBlocks;\r\n}", "function parseExprList(close, allowTrailingComma, allowEmpty) {\n var elts = [], first = true;\n while (!eat(close)) {\n if (!first) {\n expect(_comma);\n if (allowTrailingComma && options.allowTrailingCommas && eat(close)) break;\n } else first = false;\n\n if (allowEmpty && tokType === _comma) elts.push(null);\n else elts.push(parseExpression(true));\n }\n return elts;\n }", "parse() {\n\t\tlet mainFunctionBlock = [];\n\n\t\twhile (this.peek() !== undefined) {\n\t\t\tlet expr = this.parseExpression();\n\t\t\tif(expr) mainFunctionBlock.push(expr);\n\n\t\t\tif (this.peek() !== undefined) {\n\t\t\t\tthis.optionalSkip('punctuation', ';');\n\t\t\t}\n\t\t}\n\n\t\tthis.main.setBlock({\n\t\t\texpressions: mainFunctionBlock\n\t\t});\n\n\t\tlet fObj = this.main;\n\t\tfObj.isEntry = true;\n\n\t\tthis.functions.unshift(fObj);\n\n\t\treturn {\n\t\t\ttype: 'script',\n\t\t\tfunctions: this.functions\n\t\t};\n\t}", "function parseExprList(close, allowEmpty = false) {\n let first = true;\n while (!eat(close) && !state.error) {\n if (first) {\n first = false;\n } else {\n expect(TokenType.comma);\n if (eat(close)) break;\n }\n parseExprListItem(allowEmpty);\n }\n}", "parseTopLevel() {\n const prog = [];\n while (!this.input.eof()) {\n const expr = this.parseExpression();\n this.currentNode = expr;\n if (expr) {\n prog.push(expr);\n }\n }\n\n return { type: \"prog\", prog: prog };\n }", "function many(parser) {\r\n return function(source) {\r\n var result= [];\r\n while (true) {\r\n var each= parser(source);\r\n if (!each[0]) return [true, result, source];\r\n result.push(each[1]);\r\n source= each[2];\r\n }\r\n };\r\n}", "function many(parser) {\n return function(input) {\n var value = {rest: input, parsed: '', ast: []};\n for(var i = 0; true; i++) {\n var result = parser(value.rest);\n if(result != false) {\n if(result.ast != null) {\n value.ast.push(result.ast);\n }\n value = {rest: result.rest,\n parsed: value.parsed + result.parsed,\n ast: value.ast};\n }\n else {\n if(value.parsed == '') {\n value = {rest: value.rest,\n parsed: '',\n ast: null};\n }\n break;\n }\n }\n return value;\n };\n}", "function sequence (parserSyntax) {\n const originalPos = pos\n\n const result = []\n\n for (let i = 0; i < parserSyntax.length; i++) {\n const res = parserSyntax[i]()\n\n if (res === null) {\n pos = originalPos\n\n return null\n }\n\n result.push(res)\n }\n\n return result\n }", "function sequence ( parserSyntax ) {\n\t\t\t\tvar i, res,\n\t\t\t\t\toriginalPos = pos,\n\t\t\t\t\tresult = [];\n\n\t\t\t\tfor ( i = 0; i < parserSyntax.length; i++ ) {\n\t\t\t\t\tres = parserSyntax[i]();\n\n\t\t\t\t\tif ( res === null ) {\n\t\t\t\t\t\tpos = originalPos;\n\n\t\t\t\t\t\treturn null;\n\t\t\t\t\t}\n\n\t\t\t\t\tresult.push( res );\n\t\t\t\t}\n\n\t\t\t\treturn result;\n\t\t\t}", "static parseStatementList(parseTokens) {\n //Check if the token is empty or not.\n _Functions.log(\"PARSER - parseStatementList()\");\n CSTTree.addNode(\"StatementList\", \"branch\");\n while (parseTokens[tokenPointer] != \"}\") {\n _Functions.log(\"PARSER - parseStatement()\");\n CSTTree.addNode(\"Statement\", \"branch\");\n //this.parseStatement(parseTokens);\n //Use regular expressions from lex to check what type of statement is to be parsed.\n if (printRegEx.test(parseTokens[tokenPointer])) {\n this.parsePrintStatement(parseTokens);\n }\n //Check for assignment op.\n else if (assignment.test(parseTokens[tokenPointer + 1])) {\n this.parseAssignmentStatement(parseTokens);\n }\n //Check for var declaration types - boolean, int, string.\n else if (boolRegEx.test(parseTokens[tokenPointer]) || stringRegEx.test(parseTokens[tokenPointer])\n || intRegEx.test(parseTokens[tokenPointer])) {\n this.parseVarDecl(parseTokens);\n }\n //Check for while statement.\n else if (whileRegEx.test(parseTokens[tokenPointer])) {\n this.parseWhileStatement(parseTokens);\n }\n //Check for if statement.\n else if (ifRegEx.test(parseTokens[tokenPointer])) {\n this.parseIfStatement(parseTokens);\n }\n //Check for opening or closing block.\n else if (leftBlock.test(parseTokens[tokenPointer])) {\n this.parseBlock(parseTokens);\n }\n else {\n _Functions.log(\"PARSER ERROR - Expected beginning of statement tokens\"\n + \"(if, print, while, {}, assignment statement, boolean, int, string)\");\n parseErrCount++;\n break;\n }\n CSTTree.climbTree();\n }\n CSTTree.climbTree();\n }", "parseBody() {\n const bodys = []\n while (this.currentToken !== SyntaxKind.EndOfFileToken) {\n bodys.push(this.parseLexicalDeclaration())\n }\n return bodys\n }", "function parse(inp) {\n var tokens;\n var ind = 0;\n var out = [];\n\n function tokenize(inp) {\n var tokens = [];\n for (var i = 0; i < inp.length; i++) {\n if (inp[i] === ';') {\n i++;\n while (inp[i] !== '\\n' && i < inp.length) {\n i++;\n }\n continue;\n } else if (inp[i] === ' ' ||\n inp[i] === '\\n' ||\n inp[i] === '\\r' ||\n inp[i] === '\\t') {\n continue;\n } else if (inp[i] === '(' ||\n inp[i] === ')') {\n tokens.push(inp[i]);\n } else {\n var token = \"\";\n while (inp[i] !== ';' &&\n inp[i] !== ' ' &&\n inp[i] !== '\\n' &&\n inp[i] !== '\\r' &&\n inp[i] !== '\\t' &&\n inp[i] !== '(' &&\n inp[i] !== ')' &&\n i < inp.length) {\n token += inp[i];\n i++;\n }\n i--; // FIXME: why the hack?\n if (!isNaN(token)) {\n tokens.push(+token);\n } else {\n tokens.push(token);\n }\n }\n }\n return tokens;\n }\n\n tokens = tokenize(inp);\n\n function parseList() {\n ind++;\n var lst = [];\n while (ind < tokens.length) {\n if (tokens[ind] === '(') {\n lst.push(parseList());\n } else if (tokens[ind] === ')') {\n return lst;\n } else {\n lst.push(tokens[ind]);\n }\n ind++;\n }\n }\n\n while (ind < tokens.length) {\n if (tokens[ind] === '(') {\n out.push(parseList());\n } else if (tokens[ind] === ')') {\n error(\"unexpected ')'\");\n } else {\n out.push(tokens[ind]);\n }\n ind++;\n }\n\n return out;\n}", "function postProcess(state) {\n var i, j,\n startDelim,\n endDelim,\n token,\n loneMarkers = [],\n delimiters = state.delimiters,\n max = state.delimiters.length;\n\n for (i = 0; i < max; i++) {\n startDelim = delimiters[i];\n\n if (startDelim.marker !== delimiter.charCodeAt(0)) {\n continue;\n }\n\n if (startDelim.end === -1) {\n continue;\n }\n\n endDelim = delimiters[startDelim.end];\n\n token = state.tokens[startDelim.token];\n token.type = `${ruleName}_open` \n token.tag = 'span';\n token.attrs = [['class', ruleName]];\n token.nesting = 1;\n token.markup = delimiter;\n token.content = '';\n\n token = state.tokens[endDelim.token];\n token.type = `${ruleName}_close` \n token.tag = 'span';\n token.nesting = -1;\n token.markup = delimiter;\n token.content = '';\n\n if (state.tokens[endDelim.token - 1].type === 'text' &&\n state.tokens[endDelim.token - 1].content === delimiter.charAt(0)) {\n\n loneMarkers.push(endDelim.token - 1);\n }\n }\n\n // If a marker sequence has an odd number of characters, it's splitted\n // like this: `~~~~~` -> `~` + `~~` + `~~`, leaving one marker at the\n // start of the sequence.\n //\n // So, we have to move all those markers after subsequent s_close tags.\n while (loneMarkers.length) {\n i = loneMarkers.pop();\n j = i + 1;\n\n while (j < state.tokens.length && state.tokens[j].type === `${ruleName}_close`) {\n j++;\n }\n\n j--;\n\n if (i !== j) {\n token = state.tokens[j];\n state.tokens[j] = state.tokens[i];\n state.tokens[i] = token;\n }\n }\n }", "function parseTokens(pf, ar) {\r\n\t// What the next argument is expected to be.\r\n\tvar v, i, mode=-1, par = (pf != 'ol_');\t\r\n\tvar fnMark = (par && !ar.length ? 1 : 0);\r\n\r\n\tfor (i = 0; i < ar.length; i++) {\r\n\t\tif (mode < 0) {\r\n\t\t\t// Arg is maintext,unless its a number between pmStart and pmUpper\r\n\t\t\t// then its a command.\r\n\t\t\tif (typeof ar[i] == 'number' && ar[i] > pmStart && ar[i] < pmUpper) {\r\n\t\t\t\tfnMark = (par ? 1 : 0);\r\n\t\t\t\ti--; // backup one so that the next block can parse it\r\n\t\t\t} else {\r\n\t\t\t\tswitch(pf) {\r\n\t\t\t\t\tcase 'ol_':\r\n\t\t\t\t\t\tol_text = ar[i].toString();\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t\tdefault:\r\n\t\t\t\t\t\to3_text=ar[i].toString(); \r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t\tmode = 0;\r\n\t\t} else {\r\n\t\t\t// Note: NS4 doesn't like switch cases with vars.\r\n\t\t\tif (ar[i] >= pmCount || ar[i]==DONOTHING) { continue; }\r\n\t\t\tif (ar[i]==INARRAY) { fnMark = 0; eval(pf+'text=ol_texts['+ar[++i]+'].toString()'); continue; }\r\n\t\t\tif (ar[i]==CAPARRAY) { eval(pf+'cap=ol_caps['+ar[++i]+'].toString()'); continue; }\r\n\t\t\tif (ar[i]==STICKY) { if (pf!='ol_') eval(pf+'sticky=1'); continue; }\r\n\t\t\tif (ar[i]==BACKGROUND) { eval(pf+'background=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==NOCLOSE) { if (pf!='ol_') opt_NOCLOSE(); continue; }\r\n\t\t\tif (ar[i]==CAPTION) { eval(pf+\"cap='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CENTER || ar[i]==LEFT || ar[i]==RIGHT) { eval(pf+'hpos='+ar[i]); if(pf!='ol_') olHautoFlag=1; continue; }\r\n\t\t\tif (ar[i]==OFFSETX) { eval(pf+'offsetx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==OFFSETY) { eval(pf+'offsety='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FGCOLOR) { eval(pf+'fgcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGCOLOR) { eval(pf+'bgcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTCOLOR) { eval(pf+'textcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPCOLOR) { eval(pf+'capcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSECOLOR) { eval(pf+'closecolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==WIDTH) { eval(pf+'width='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==BORDER) { eval(pf+'border='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==CELLPAD) { i=opt_MULTIPLEARGS(++i,ar,(pf+'cellpad')); continue; }\r\n\t\t\tif (ar[i]==STATUS) { eval(pf+\"status='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==AUTOSTATUS) { eval(pf +'autostatus=('+pf+'autostatus == 1) ? 0 : 1'); continue; }\r\n\t\t\tif (ar[i]==AUTOSTATUSCAP) { eval(pf +'autostatus=('+pf+'autostatus == 2) ? 0 : 2'); continue; }\r\n\t\t\tif (ar[i]==HEIGHT) { eval(pf+'height='+pf+'aboveheight='+ar[++i]); continue; } // Same param again.\r\n\t\t\tif (ar[i]==CLOSETEXT) { eval(pf+\"close='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==SNAPX) { eval(pf+'snapx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==SNAPY) { eval(pf+'snapy='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FIXX) { eval(pf+'fixx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FIXY) { eval(pf+'fixy='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==RELX) { eval(pf+'relx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==RELY) { eval(pf+'rely='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FGBACKGROUND) { eval(pf+'fgbackground=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGBACKGROUND) { eval(pf+'bgbackground=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==PADX) { eval(pf+'padxl='+ar[++i]); eval(pf+'padxr='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==PADY) { eval(pf+'padyt='+ar[++i]); eval(pf+'padyb='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FULLHTML) { if (pf!='ol_') eval(pf+'fullhtml=1'); continue; }\r\n\t\t\tif (ar[i]==BELOW || ar[i]==ABOVE) { eval(pf+'vpos='+ar[i]); if (pf!='ol_') olVautoFlag=1; continue; }\r\n\t\t\tif (ar[i]==CAPICON) { eval(pf+'capicon=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTFONT) { eval(pf+\"textfont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CAPTIONFONT) { eval(pf+\"captionfont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CLOSEFONT) { eval(pf+\"closefont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==TEXTSIZE) { eval(pf+'textsize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPTIONSIZE) { eval(pf+'captionsize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSESIZE) { eval(pf+'closesize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TIMEOUT) { eval(pf+'timeout='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FUNCTION) { if (pf=='ol_') { if (typeof ar[i+1]!='number') { v=ar[++i]; ol_function=(typeof v=='function' ? v : null); }} else {fnMark = 0; v = null; if (typeof ar[i+1]!='number') v = ar[++i]; opt_FUNCTION(v); } continue; }\r\n\t\t\tif (ar[i]==DELAY) { eval(pf+'delay='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==HAUTO) { eval(pf+'hauto=('+pf+'hauto == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==VAUTO) { eval(pf+'vauto=('+pf+'vauto == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==CLOSECLICK) { eval(pf +'closeclick=('+pf+'closeclick == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==WRAP) { eval(pf +'wrap=('+pf+'wrap == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==FOLLOWMOUSE) { eval(pf +'followmouse=('+pf+'followmouse == 1) ? 0 : 1'); continue; }\r\n\t\t\tif (ar[i]==MOUSEOFF) { eval(pf +'mouseoff=('+pf+'mouseoff==0) ? 1 : 0'); v=ar[i+1]; if (pf != 'ol_' && eval(pf+'mouseoff') && typeof v == 'number' && (v < pmStart || v > pmUpper)) olHideDelay=ar[++i]; continue; }\r\n\t\t\tif (ar[i]==CLOSETITLE) { eval(pf+\"closetitle='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CSSOFF||ar[i]==CSSCLASS) { eval(pf+'css='+ar[i]); continue; }\r\n\t\t\tif (ar[i]==COMPATMODE) { eval(pf+'compatmode=('+pf+'compatmode==0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==FGCLASS) { eval(pf+'fgclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGCLASS) { eval(pf+'bgclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTFONTCLASS) { eval(pf+'textfontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPTIONFONTCLASS) { eval(pf+'captionfontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSEFONTCLASS) { eval(pf+'closefontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\ti = parseCmdLine(pf, i, ar);\r\n\t\t}\r\n\t}\r\n\r\n\tif (fnMark && o3_function) o3_text = o3_function();\r\n\t\r\n\tif ((pf == 'o3_') && o3_wrap) {\r\n\t\to3_width = 0;\r\n\t\t\r\n\t\tvar tReg=/<.*\\n*>/ig;\r\n\t\tif (!tReg.test(o3_text)) o3_text = o3_text.replace(/[ ]+/g, '&nbsp;');\r\n\t\tif (!tReg.test(o3_cap))o3_cap = o3_cap.replace(/[ ]+/g, '&nbsp;');\r\n\t}\r\n\tif ((pf == 'o3_') && o3_sticky) {\r\n\t\tif (!o3_close && (o3_frame != ol_frame)) o3_close = ol_close;\r\n\t\tif (o3_mouseoff && (o3_frame == ol_frame)) opt_NOCLOSE(' ');\r\n\t}\r\n}", "function parseTopLevel() {\n parseBlockBody(TokenType.eof);\n state.scopes.push(new Scope(0, state.tokens.length, true));\n if (state.scopeDepth !== 0) {\n throw new Error(`Invalid scope depth at end of file: ${state.scopeDepth}`);\n }\n return new File(state.tokens, state.scopes);\n}", "@memoize\n get parser() {\n return new TaskList({\n name: `Parsing ${this.type}: ${this.projectName}`,\n tasks: [\n new Task({\n name: `Loading ${this.type}`,\n run: (parentScope) => {\n this.resetCompiled()\n const scope = this.getScope(parentScope)\n this.setState(\"scope\", scope)\n return this.load()\n }\n }),\n TaskList.forEach({\n name: `Parsing imports`,\n list: () => this.activeImports,\n getTask: (file) =>\n new Task({\n name: `Parsing import: ${file.file}`,\n run: () => file.parse(this.scope)\n })\n })\n ]\n })\n }", "allTokens() {\r\n console.log('in alltokens()');\r\n let token = this.nextToken();\r\n let tokens = [];\r\n while (token.type !== TokenType.EndOfInput) {\r\n tokens.push(token);\r\n console.log(tokens);\r\n token = this.nextToken();\r\n console.log(token +' '+this.input.charAt(this.position));\r\n\r\n if(typeof(token) === 'undefined'){\r\n console.log('token is undefined :' + token);\r\n }\r\n }\r\n console.log('going out of allTokens()');\r\n return tokens;\r\n }", "function parseList(kind, parseElement) {\n var saveParsingContext = parsingContext;\n parsingContext |= 1 << kind;\n var result = [];\n result.pos = getNodePos();\n while (!isListTerminator(kind)) {\n if (isListElement(kind, /*inErrorRecovery*/ false)) {\n var element = parseListElement(kind, parseElement);\n result.push(element);\n continue;\n }\n if (abortParsingListOrMoveToNextToken(kind)) {\n break;\n }\n }\n result.end = getNodeEnd();\n parsingContext = saveParsingContext;\n return result;\n }", "function parser(tokens) {\n let ast = {\n type: 'Program',\n body: []\n };\n\n function walk(tokensToUse) {\n let node = {\n type: 'CallExpression',\n name: '',\n params: [],\n }\n\n for (let i = 0; i < tokensToUse.length; i++) {\n let currentToken = tokensToUse[i];\n if (currentToken.type === 'paren' && currentToken.value === '(') {\n if (node.name !== '') {\n let updatedTokens = tokensToUse.slice(i + 1);\n let result = { ...walk(updatedTokens) }\n node.params.push(result.x);\n i = tokensToUse[result.i + i]\n continue\n } else {\n continue\n }\n }\n\n if (currentToken.type === 'name') {\n node.name = currentToken.value;\n continue\n }\n\n if (currentToken.type === 'number') {\n node.params.push({\n type: 'NumberLiteral',\n value: currentToken.value\n });\n continue;\n }\n\n if (currentToken.type === 'string') {\n node.params.push({\n type: 'StringLiteral',\n value: currentToken.value\n });\n continue;\n }\n\n if (currentToken.type === 'paren' && currentToken.value === ')') {\n let x = { ...node }\n return { x, i };\n }\n }\n\n }\n\n let mainResult = walk(tokens)\n ast.body.push(mainResult.x);\n return ast\n}", "readNextToken() {\n let ss = this.ss;\n if (ss.eof())\n throw new assert_1.AssertError(\"Already EOF\");\n // comments\n if (streamAtComment(ss)) {\n this.readComment();\n return;\n }\n // whitespace\n if (streamAtLineWhiteSpace(ss)) {\n this.readLineWhiteSpace();\n return;\n }\n if (streamAtNewLine(ss)) {\n this.readNewLine();\n return;\n }\n // interpolated strings or string literals\n if (streamAtDoubleQuoteOrBacktick(ss)) {\n this.readString();\n return;\n }\n // parenthesis handling within string interpolation\n if (this.currParenthesisLevel > 0) {\n let pointStart = ss.currPoint();\n let c = ss.peek();\n if (c === \"(\") {\n ss.read();\n this.currParenthesisLevel++;\n let rng = new Token_2.Range(pointStart, ss.currPoint());\n this.tokens.push(new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Bracket, rng));\n return;\n }\n if (c === \")\") {\n ss.read();\n this.currParenthesisLevel--;\n let rng = new Token_2.Range(pointStart, ss.currPoint());\n this.tokens.push(new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Bracket, rng));\n return;\n }\n }\n // must handle transpose op before char literal\n if (this.streamAtTransposeOperator(ss)) {\n this.readTransposeOperator();\n return;\n }\n if (streamAtSingleQuote(ss)) {\n this.readCharLiteral();\n return;\n }\n // symbols\n // eg :foo\n // must be handled before operators, as ':' is also an operator\n // doesn't handle quoting, ie :(a+b)\n if (this.streamAtSymbol()) {\n this.readSymbol();\n return;\n }\n // operators\n // must process before identifiers because ÷ is considered a valid UTF8 char to start an identifier\n if (streamAtOperator(ss)) {\n this.readOperator();\n return;\n }\n // keywords and identifiers\n if (streamAtIdentifier(ss)) {\n this.readIdentifier();\n return;\n }\n // macro invocations\n if (streamAtMacroInvocation(ss)) {\n this.readMacroInvocation();\n return;\n }\n // numbers\n if (streamAtNumber(ss)) {\n this.readNumber();\n return;\n }\n if (streamAtBracket(ss)) {\n this.readBracket();\n return;\n }\n if (streamAtSemicolon(ss)) {\n this.readSemicolon();\n return;\n }\n let c = ss.read();\n throw new errors_1.InvalidParseError(\"Unexpected character: '\" + c + \"'. Context: '\" + ss.getContext() + \"'.\", new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Identifier, new Token_2.Range(ss.prevPoint(), ss.currPoint())));\n }", "*compose(tokens, forceDoc = false, endOffset = -1) {\n for (const token of tokens)\n yield* this.next(token);\n yield* this.end(forceDoc, endOffset);\n }", "*compose(tokens, forceDoc = false, endOffset = -1) {\n for (const token of tokens)\n yield* this.next(token);\n yield* this.end(forceDoc, endOffset);\n }", "function parse(inp){\n\tvar outQueue=[];\n\tvar opStack=[];\n\n\t//peek the top most element\n\tArray.prototype.peek = function() {\n\t\treturn this.slice(-1)[0];\n\t};\n\n\t//associativity rule for evaluation\n\tvar assoc = {\n\t\t\"^\" : \"right\",\n\t\t\"*\" : \"left\",\n\t\t\"/\" : \"left\",\n\t\t\"+\" : \"left\",\n\t\t\"-\" : \"left\"\n\t};\n\n\t//precendence rule for evaluation\n\tvar prec = {\n\t\t\"^\" : 4,\n\t\t\"*\" : 3,\n\t\t\"/\" : 3,\n\t\t\"+\" : 2,\n\t\t\"-\" : 2\n\t};\n\n\tToken.prototype.precedence = function() {\n\t\treturn prec[this.value];\n\t};\n\t\n\tToken.prototype.associativity = function() {\n\t\treturn assoc[this.value];\n\t};\n\n\t//tokenize\n\tvar tokens=tokenize(inp);\n\n\ttokens.forEach(function(v) {\n\t\t//If the token is a number, then push it to the output queue\n\t\tif(v.type === \"Literal\" || v.type === \"Variable\" ) {\n\t\t\toutQueue.push(v);\n\t\t} \n\t\t//If the token is a function token, then push it onto the stack.\n\t\telse if(v.type === \"Function\") {\n\t\t\topStack.push(v);\n\t\t} //If the token is a function argument separator \n\t\telse if(v.type === \"Function Argument Separator\") {\n\t\t\t//Until the token at the top of the stack is a left parenthesis\n\t\t\t//pop operators off the stack onto the output queue.\n\t\t\twhile(opStack.peek()\n\t\t\t\t&& opStack.peek().type !== \"Left Parenthesis\") {\n\t\t\t\toutQueue.push(opStack.pop());\n\t\t\t}\n\t\t} \n\t\t//If the token is an operator, o1, then:\n\t\telse if(v.type == \"Operator\") {\n\t\t\t //while there is an operator token o2, at the top of the operator stack and either\n\t\t\t while (opStack.peek() && (opStack.peek().type === \"Operator\") \n\t\t\t\t//o1 is left-associative and its precedence is less than or equal to that of o2, or\n\t\t\t\t&& ((v.associativity() === \"left\" && v.precedence() <= opStack.peek().precedence())\n\t\t\t\t\t//o1 is right associative, and has precedence less than that of o2,\n\t\t\t\t\t|| (v.associativity() === \"right\" && v.precedence() < opStack.peek().precedence()))) {\n\t\t\t \toutQueue.push(opStack.pop()+\" \");\n\t\t\t}\n\t\t\t//at the end of iteration push o1 onto the operator stack\n\t\t\topStack.push(v);\n\t\t} \n\t\t\n\t\t//If the token is a left parenthesis (i.e. \"(\"), then push it onto the stack.\n\t\telse if(v.type === \"Left Parenthesis\") {\n\t\t\topStack.push(v+\" \");\n\t\t}\n\t\t//If the token is a right parenthesis (i.e. \")\"):\n\t\telse if(v.type === \"Right Parenthesis\") {\n\t\t\t//Until the token at the top of the stack is a left parenthesis, pop operators off the stack onto the output queue.\n\t\t\twhile(opStack.peek() \n\t\t\t\t&& opStack.peek().type !== \"Left Parenthesis\") {\n\t\t\t\toutQueue.push(opStack.pop()+\" \");\n\t\t}\n\t\t\tif(opStack.length == 0){\n\t\t\t\tconsole.log(\"Unmatched parentheses\");\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t//Pop the left parenthesis from the stack, but not onto the output queue.\n\t\t\topStack.pop();\n\n\t\t\t//If the token at the top of the stack is a function token, pop it onto the output queue.\n\t\t\tif(opStack.peek() && opStack.peek().type === \"Function\") {\n\t\t\t\toutQueue.push(opStack.pop()+\" \");\n\t\t\t}\n\t\t}\n\t});\n\treturn outQueue.concat(opStack.reverse());\n}", "function parseTopLevel() {\n skipWhitespace();\n peek();\n\n var expr = parseExpression();\n if (expr) {\n if (lookahead.value === ',' || lookahead.value == 'in' &&\n expr.type === Syntax.Identifier) {\n parseInExpression(expr);\n } else {\n parseFilters();\n if (lookahead.value === 'as') {\n parseAsExpression(expr);\n } else {\n delegate.createTopLevel(expr);\n }\n }\n }\n\n if (lookahead.type !== Token.EOF) {\n throwUnexpected(lookahead);\n }\n }", "function parseTopLevel() {\n skipWhitespace();\n peek();\n\n var expr = parseExpression();\n if (expr) {\n if (lookahead.value === ',' || lookahead.value == 'in' &&\n expr.type === Syntax.Identifier) {\n parseInExpression(expr);\n } else {\n parseFilters();\n if (lookahead.value === 'as') {\n parseAsExpression(expr);\n } else {\n delegate.createTopLevel(expr);\n }\n }\n }\n\n if (lookahead.type !== Token.EOF) {\n throwUnexpected(lookahead);\n }\n }", "function parseTopLevel() {\n skipWhitespace();\n peek();\n\n var expr = parseExpression();\n if (expr) {\n if (lookahead.value === ',' || lookahead.value == 'in' &&\n expr.type === Syntax.Identifier) {\n parseInExpression(expr);\n } else {\n parseFilters();\n if (lookahead.value === 'as') {\n parseAsExpression(expr);\n } else {\n delegate.createTopLevel(expr);\n }\n }\n }\n\n if (lookahead.type !== Token.EOF) {\n throwUnexpected(lookahead);\n }\n }", "function parse()\n\t{\n\t\t// Run a simple cleanup pass on the expression before parsing\n\t\texpression = cleanExpression(expression);\n\n\t\t// Special case infinite and no solutions. They appear as a sequence of multiplied variables to the parser.\n\t\tif (expression === \"infinitesolutions\")\n\t\t{\n\t\t\tpostFixTokens.push(new tree.Token(tree.Token.functionType, \"infinitesolutions\"));\n\t\t\treturn true;\n\t\t}\n\t\telse if(expression === \"nosolutions\")\n\t\t{\n\t\t\tpostFixTokens.push(new tree.Token(tree.Token.functionType, \"nosolutions\"));\n\t\t\treturn true;\n\t\t}\n\n\t\t// This is an interesting special case. It could just tokenize here instead.\n\t\tif (expression === \"-\")\n\t\t\texpression = \"-1\";\n\n\t\t//----------------------------------------\n\t\t// Main parse loop\n\t\t//----------------------------------------\n\t\twhile (iPos < (expression.length-1))\n\t\t{\n\t\t\tnextChar = expression.charAt(++iPos);\t// iPos points at the current char (not the next available char)\n\n\t\t\t// Skip low-ASCII characters (0-31)\n\t\t\tif (nextChar <= ' ')\n\t\t\t\tcontinue;\n\n\t\t\t// Perform the correct action based on the next character\n\t\t\t// Special case numbers and letters since they cover a large range\n\t\t\tif (isNumber(nextChar))\n {\n\t\t\t\tif (!number())\n return false;\n }\n\t\t\telse if (isAlpha(nextChar))\n {\n\t\t\t\tif (!letter())\n return false;\n } \n\t\t\telse if (parseObject[nextChar])\n\t\t\t\tParser[parseObject[nextChar]]();\n\t\t\telse\n\t\t\t{\n\t\t\t\t//fw.debug(\"parse: unexpected character: \" + nextChar);\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\n if (readyForUnaryOp)\n return false; // incomplete operation - missing the tail operand\n \n\t\t// Have processed all input characters. Now flush stack.\n\t\twhile (tempToken = stack.pop())\n\t\t\tpostFixTokens.push(tempToken);\n\n\t\t// Walk the token list and ensure everything is balanced.\n\t\treturn isBalanced();\n\t}", "parseAtom() {\n\t\tif (this.is('keyword', 'fn')) {\n\t\t\tthis.functions.push(this.parseFunction());\n\t\t\treturn;\n\t\t}\n\n\t\tif (this.is('keyword', 'object')) return this.parseObject();\n\t\tif (this.is('keyword', 'if')) return this.parseIf();\n\t\tif (this.is('keyword', 'let')) return this.parseBinding();\n\n\t\t// parse binary within parenthesis first, because math\n\t\tif (this.is('punctuation', '(')) return this.parseParenthesisBinary();\n\t\tif (this.is('instruction', 'print')) return this.parsePrintInstruction();\n\t\tif (this.is('instruction', 'syscall')) return this.parseSyscallInstruction();\n\t\t\t\t\t\n\t\tif (this.is('keyword', 'ret')) return this.parseReturn();\n\t\tif (this.is('identifier')) return this.parseIdentifier();\n\n\t\tlet peek = this.peek();\n\t\tif (peek.type === 'numberLiteral') return this.next();\n\n\t\tthrow new ParserError(\n\t\t\t'E0002',\n\t\t\t'UnexpectedToken',\n\t\t\t`Unexpected token ${peek.value}, but I don't really know what I expected either`, \n\t\t\tpeek.position.line, \n\t\t\tpeek.position.column, \n\t\t\tpeek,\n\t\t\tthis.module\n\t\t);\n\t}", "static parseCharList(parseTokens) {\n _Functions.log(\"PARSER - parseCharList()\");\n CSTTree.addNode(\"CharList\", \"branch\");\n if (parseTokens[tokenPointer] === \" \") {\n this.parseSpace(parseTokens);\n }\n else if (characters.test(parseTokens[tokenPointer])) {\n let string = \"\";\n //Builds string until there is a quote.\n while (!quotes.test(parseTokens[tokenPointer])) {\n //this.parseChar(parseTokens);\n string += parseTokens[tokenPointer];\n tokenPointer++;\n }\n _Functions.log(\"PARSER - String: \" + string);\n this.parseString(parseTokens, string);\n }\n else {\n //Not an empty else, represents do nothing.\n }\n CSTTree.climbTree();\n }", "parse() {\n while (this.shouldContinue()) {\n const c = this.buffer.charCodeAt(this.index - this.offset);\n switch (this.state) {\n case Tokenizer_State.Text: {\n this.stateText(c);\n break;\n }\n case Tokenizer_State.SpecialStartSequence: {\n this.stateSpecialStartSequence(c);\n break;\n }\n case Tokenizer_State.InSpecialTag: {\n this.stateInSpecialTag(c);\n break;\n }\n case Tokenizer_State.CDATASequence: {\n this.stateCDATASequence(c);\n break;\n }\n case Tokenizer_State.InAttributeValueDq: {\n this.stateInAttributeValueDoubleQuotes(c);\n break;\n }\n case Tokenizer_State.InAttributeName: {\n this.stateInAttributeName(c);\n break;\n }\n case Tokenizer_State.InCommentLike: {\n this.stateInCommentLike(c);\n break;\n }\n case Tokenizer_State.InSpecialComment: {\n this.stateInSpecialComment(c);\n break;\n }\n case Tokenizer_State.BeforeAttributeName: {\n this.stateBeforeAttributeName(c);\n break;\n }\n case Tokenizer_State.InTagName: {\n this.stateInTagName(c);\n break;\n }\n case Tokenizer_State.InClosingTagName: {\n this.stateInClosingTagName(c);\n break;\n }\n case Tokenizer_State.BeforeTagName: {\n this.stateBeforeTagName(c);\n break;\n }\n case Tokenizer_State.AfterAttributeName: {\n this.stateAfterAttributeName(c);\n break;\n }\n case Tokenizer_State.InAttributeValueSq: {\n this.stateInAttributeValueSingleQuotes(c);\n break;\n }\n case Tokenizer_State.BeforeAttributeValue: {\n this.stateBeforeAttributeValue(c);\n break;\n }\n case Tokenizer_State.BeforeClosingTagName: {\n this.stateBeforeClosingTagName(c);\n break;\n }\n case Tokenizer_State.AfterClosingTagName: {\n this.stateAfterClosingTagName(c);\n break;\n }\n case Tokenizer_State.BeforeSpecialS: {\n this.stateBeforeSpecialS(c);\n break;\n }\n case Tokenizer_State.InAttributeValueNq: {\n this.stateInAttributeValueNoQuotes(c);\n break;\n }\n case Tokenizer_State.InSelfClosingTag: {\n this.stateInSelfClosingTag(c);\n break;\n }\n case Tokenizer_State.InDeclaration: {\n this.stateInDeclaration(c);\n break;\n }\n case Tokenizer_State.BeforeDeclaration: {\n this.stateBeforeDeclaration(c);\n break;\n }\n case Tokenizer_State.BeforeComment: {\n this.stateBeforeComment(c);\n break;\n }\n case Tokenizer_State.InProcessingInstruction: {\n this.stateInProcessingInstruction(c);\n break;\n }\n case Tokenizer_State.InNamedEntity: {\n this.stateInNamedEntity(c);\n break;\n }\n case Tokenizer_State.BeforeEntity: {\n this.stateBeforeEntity(c);\n break;\n }\n case Tokenizer_State.InHexEntity: {\n this.stateInHexEntity(c);\n break;\n }\n case Tokenizer_State.InNumericEntity: {\n this.stateInNumericEntity(c);\n break;\n }\n default: {\n // `this._state === State.BeforeNumericEntity`\n this.stateBeforeNumericEntity(c);\n }\n }\n this.index++;\n }\n this.cleanup();\n }", "static parse(parseTokens) {\n let isParsed = false;\n CSTTree = new mackintosh.CST();\n ASTTree = new mackintosh.CST();\n tokenPointer = 0;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Parsing Program \" + (programCount - 1));\n //Check if there are tokens in the token stream.\n if (parseTokens.length == 0) {\n _Functions.log(\"PARSER ERROR - There are no tokens to be parsed.\");\n parseErrCount++;\n }\n //Begin parse.\n else {\n //Use try catch to check for parse failures and output them.\n try {\n this.parseProgram(parseTokens);\n _Functions.log(\"PARSER - Parse completed with \" + parseErrCount + \" errors and \" +\n parseWarnCount + \" warnings\");\n //Prints the CST if there are no more errors.\n if (parseErrCount <= 0) {\n isParsed = true;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Program \" + (programCount - 1) + \" CST:\");\n _Functions.log(CSTTree.toString());\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Program \" + (programCount - 1) + \" AST:\");\n _Functions.log(ASTTree.toString());\n }\n else {\n isParsed = false;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - CST and AST not displayed due to parse errors.\");\n }\n }\n catch (error) {\n _Functions.log(error);\n _Functions.log(\"PARSER - Error caused parse to end.\");\n parseErrCount++;\n }\n }\n return isParsed;\n }", "readNextToken() {\n this.state.prevLexType = this.state.lex.type;\n\n if (this.state.nextIndentation !== this.state.indentation) {\n if (this.state.nextIndentation > this.state.indentation) {\n return this.finishToken(tt.indent);\n } else {\n if (this.state.prevLexType === tt.newline) {\n return this.finishToken(tt.dedent);\n } else {\n return this.finishToken(tt.newline);\n }\n }\n }\n\n let curContext = this.curContext();\n if (curContext == null || !curContext.preserveSpace) {\n if (this.state.eol && this.state.pos !== this.state.eolPos) {\n this.skipIndentation();\n }\n // newlines are significant, so this only skips comments and non-indentation whitespace\n this.skipNonTokens();\n }\n this.state.containsOctal = false;\n this.state.octalPosition = null;\n\n this.startTokenLex();\n\n if (this.state.pos >= this.input.length) {\n if (this.state.indentation > 0) {\n this.state.nextIndentation = 0;\n return this.finishToken(tt.newline);\n }\n if (this.state.lex.type !== tt.eof || this.state.tokens.length === 0) {\n return this.finishToken(tt.eof);\n } else {\n return;\n }\n }\n\n if (curContext.override) return curContext.override(this);\n else return this.readToken(this.fullCharCodeAtPos());\n }", "function tokenize(state, silent) {\n if (silent) {\n return false;\n }\n\n const start = state.pos;\n const max = state.posMax;\n let momChar = state.src.charAt(start);\n let nextChar = state.src.charAt(start + 1);\n\n // we're looking for two times the open symbol.\n if (momChar !== MARKER_OPEN || nextChar !== MARKER_OPEN) {\n return false;\n }\n\n // find the end sequence\n let end = -1;\n nextChar = state.src.charAt(start + 2);\n for (let i = start + 2; i < max && end === -1; i++) {\n momChar = nextChar;\n nextChar = state.src.charAt(i + 1);\n if (momChar === MARKER_CLOSE && nextChar === MARKER_CLOSE) {\n // found the end!\n end = i;\n }\n if (momChar === MARKER_OPEN && momChar === MARKER_OPEN) {\n // found another opening sequence before the end. Thus, ignore ours!\n return false;\n }\n if (momChar === \"\\n\") {\n // found end of line before the end sequence. Thus, ignore our start sequence!\n return false;\n }\n }\n\n // input ended before closing sequence\n if (end === -1) {\n return false;\n }\n\n // start tag\n state.push(\"span_open\", TAG, 1);\n // parse inner\n state.pos += 2;\n state.posMax = end;\n state.md.inline.tokenize(state);\n state.pos = end + 2;\n state.posMax = max;\n // end tag\n state.push(\"span_close\", TAG, -1);\n\n return true;\n}", "walkTokens(tokens, callback) {\n let values = [];\n for (const token of tokens) {\n values = values.concat(callback.call(this, token));\n switch (token.type) {\n case \"table\": {\n for (const cell of token.header) {\n values = values.concat(this.walkTokens(cell.tokens, callback));\n }\n for (const row of token.rows) {\n for (const cell of row) {\n values = values.concat(this.walkTokens(cell.tokens, callback));\n }\n }\n break;\n }\n case \"list\": {\n values = values.concat(this.walkTokens(token.items, callback));\n break;\n }\n default: {\n if (this.defaults.extensions && this.defaults.extensions.childTokens && this.defaults.extensions.childTokens[token.type]) {\n this.defaults.extensions.childTokens[token.type].forEach((childTokens) => {\n values = values.concat(this.walkTokens(token[childTokens], callback));\n });\n } else if (token.tokens) {\n values = values.concat(this.walkTokens(token.tokens, callback));\n }\n }\n }\n }\n return values;\n }", "function getOpenNodes()\n{\n\tvalue = new Array();\n\tvar myLists = document.getElementsByTagName(\"UL\");\n\tfor(i=0;i<myLists.length;i++)\n\t{\n\t\tif(myLists[i].className == \"Xtree\" && myLists[i].style.display == \"block\")\tvalue += myLists[i].id + \"-\";\n\t}\n\treturn value;\n}", "function processKeywords() {\n var nodes = [];\n var lastIndex;\n var keyword;\n var node;\n var submatch;\n\n if (!top.keywords) {\n return addText(modeBuffer, nodes);\n }\n\n lastIndex = 0;\n\n top.lexemesRe.lastIndex = 0;\n\n keyword = top.lexemesRe.exec(modeBuffer);\n\n while (keyword) {\n addText(modeBuffer.substr(lastIndex, keyword.index - lastIndex), nodes);\n\n submatch = keywordMatch(top, keyword);\n\n if (submatch) {\n relevance += submatch[1];\n\n node = build(submatch[0], []);\n\n nodes.push(node);\n\n addText(keyword[0], node.children);\n } else {\n addText(keyword[0], nodes);\n }\n\n lastIndex = top.lexemesRe.lastIndex;\n keyword = top.lexemesRe.exec(modeBuffer);\n }\n\n addText(modeBuffer.substr(lastIndex), nodes);\n\n return nodes;\n }", "function define_parser_APIs_1() {\n return {\n TERROR: 2,\n EOF: 1,\n\n // internals: defined here so the object *structure* doesn't get modified by parse() et al,\n // thus helping JIT compilers like Chrome V8.\n originalQuoteName: null,\n originalParseError: null,\n cleanupAfterParse: null,\n constructParseErrorInfo: null,\n yyMergeLocationInfo: null,\n\n __reentrant_call_depth: 0, // INTERNAL USE ONLY\n __error_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup\n __error_recovery_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup\n\n // APIs which will be set up depending on user action code analysis:\n //yyRecovering: 0,\n //yyErrOk: 0,\n //yyClearIn: 0,\n\n // Helper APIs\n // -----------\n\n // Helper function which can be overridden by user code later on: put suitable quotes around\n // literal IDs in a description string.\n quoteName: function parser_quoteName(id_str) {\n return '\"' + id_str + '\"';\n },\n\n // Return the name of the given symbol (terminal or non-terminal) as a string, when available.\n //\n // Return NULL when the symbol is unknown to the parser.\n getSymbolName: function parser_getSymbolName(symbol) {\n if (this.terminals_[symbol]) {\n return this.terminals_[symbol];\n }\n\n // Otherwise... this might refer to a RULE token i.e. a non-terminal: see if we can dig that one up.\n //\n // An example of this may be where a rule's action code contains a call like this:\n //\n // parser.getSymbolName(#$)\n //\n // to obtain a human-readable name of the current grammar rule.\n var s = this.symbols_;\n for (var key in s) {\n if (s[key] === symbol) {\n return key;\n }\n }\n return null;\n },\n\n // Return a more-or-less human-readable description of the given symbol, when available,\n // or the symbol itself, serving as its own 'description' for lack of something better to serve up.\n //\n // Return NULL when the symbol is unknown to the parser.\n describeSymbol: function parser_describeSymbol(symbol) {\n if (symbol !== this.EOF && this.terminal_descriptions_ && this.terminal_descriptions_[symbol]) {\n return this.terminal_descriptions_[symbol];\n } else if (symbol === this.EOF) {\n return 'end of input';\n }\n var id = this.getSymbolName(symbol);\n if (id) {\n return this.quoteName(id);\n }\n return null;\n },\n\n // Produce a (more or less) human-readable list of expected tokens at the point of failure.\n //\n // The produced list may contain token or token set descriptions instead of the tokens\n // themselves to help turning this output into something that easier to read by humans\n // unless `do_not_describe` parameter is set, in which case a list of the raw, *numeric*,\n // expected terminals and nonterminals is produced.\n //\n // The returned list (array) will not contain any duplicate entries.\n collect_expected_token_set: function parser_collect_expected_token_set(state, do_not_describe) {\n var TERROR = this.TERROR;\n var tokenset = [];\n var check = {};\n // Has this (error?) state been outfitted with a custom expectations description text for human consumption?\n // If so, use that one instead of the less palatable token set.\n if (!do_not_describe && this.state_descriptions_ && this.state_descriptions_[state]) {\n return [this.state_descriptions_[state]];\n }\n for (var p in this.table[state]) {\n p = +p;\n if (p !== TERROR) {\n var d = do_not_describe ? p : this.describeSymbol(p);\n if (d && !check[d]) {\n tokenset.push(d);\n check[d] = true; // Mark this token description as already mentioned to prevent outputting duplicate entries.\n }\n }\n }\n return tokenset;\n }\n };\n}", "function Parser() {\n\n\tvar VISIBILITY_TOKENS = [ 'Show', 'Hide' ];\n var CONTINUE_TOKEN = 'Continue';\n\tvar FILTER_TOKENS = [\n 'ItemLevel', 'DropLevel', 'Quality', 'Rarity', 'Class', 'BaseType', 'Sockets', 'LinkedSockets', 'SocketGroup',\n 'Width', 'Height', 'Identified', 'Corrupted', 'ElderItem', 'ShaperItem', 'ShapedMap', 'HasExplicitMod', 'MapTier',\n 'GemLevel', 'StackSize', 'ElderMap', 'Prophecy', 'FracturedItem', 'SynthesisedItem', 'AnyEnchantment', 'HasEnchantment',\n 'BlightedMap', 'HasInfluence',\n 'Mirrored', 'CorruptedMods', 'AreaLevel',\n 'EnchantmentPassiveNode',\n 'AlternateQuality', 'Replica', 'GemQualityType',\n 'EnchantmentPassiveNum',\n ];\n\tvar MODIFIER_TOKENS = [\n\t 'SetBackgroundColor', 'SetBorderColor', 'SetTextColor', 'PlayAlertSound', 'PlayAlertSoundPositional',\n\t 'SetFontSize', 'DisableDropSound', 'CustomAlertSound', 'MinimapIcon', 'PlayEffect' ];\n\tvar RARITY_TOKENS = [ 'Normal', 'Magic', 'Rare', 'Unique' ];\n var INFLUENCE_TOKENS = [ 'shaper', 'elder', 'crusader', 'redeemer', 'hunter', 'warlord' ];\n\tvar SOUND_TOKENS = [ 'ShAlchemy', 'ShBlessed', 'ShChaos', 'ShDivine', 'ShExalted', 'ShFusing', 'ShGeneral', 'ShMirror', 'ShRegal', 'ShVaal' ];\n var COLOR_TOKENS = [ 'Red', 'Green', 'Blue', 'Brown', 'White', 'Yellow', 'Grey', 'Pink', 'Cyan', 'Purple', 'Orange' ]\n var ICON_SHAPE_TOKENS = [ 'Circle', 'Diamond', 'Hexagon', 'Square', 'Star', 'Triangle', 'Kite', 'Cross', 'Pentagon', 'Moon', 'UpsideDownHouse' ]\n\n\tthis.currentLineNr = 0;\n\tthis.currentRule = null;\n\n\tthis.ruleSet = [];\n\tthis.errors = [];\n\tthis.warnings = [];\n\tthis.lineTypes = [];\n \n // clear last stored area level when getting new parser\n currentAreaLevel = null;\n this.setAreaLevel = function(level) {\n currentAreaLevel = level;\n } \n\n\tthis.parse = function (lines) {\n\t\tthis.currentRule = null;\n\t\tthis.ruleSet = [];\n\t\tthis.errors = [];\n\t\tthis.warnings = [];\n\t\tthis.lineTypes = [];\n\n\t\tfor (var i = 0; i < lines.length; i++) {\n \n if(this.errors.length > 100) {\n // too many errors, this probably isn't a valid filter - stop now\n break;\n }\n \n\t\t\tthis.currentLineNr = i;\n\t\t\tvar line = lines[i];\n\n\t\t\tif (line.trim() === '') {\n\t\t\t\tthis.lineTypes[i] = 'Empty';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tif (line.trim()[0] === '#') {\n\t\t\t\tthis.lineTypes[i] = 'Comment';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tline = removeComment( line );\n\n\t\t\tif (VISIBILITY_TOKENS.indexOf( line.trim() ) >= 0) {\n\t\t\t\tif (this.currentRule !== null) {\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t}\n\t\t\t\tparseVisibility( this, line );\n\t\t\t}\n\t\t\telse if (CONTINUE_TOKEN === line.trim()) {\n\t\t\t\tif (this.currentRule !== null) {\n this.currentRule.continue = true;\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t} else {\n reportParseError( this, line.trim(), 'Continue without current rule' );\n }\n\t\t\t}\n\t\t\telse {\n\t\t\t\tif (this.currentRule === null) {\n\t\t\t\t\treportTokenError( this, line.trim(), 'Show or Hide' );\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tparseFilterOrModifier( this, line );\n\t\t\t\t}\n\t\t\t}\n\n\t\t\tif (this.currentRule !== null) {\n\t\t\t\tthis.currentRule.codeLines.push( i );\n\t\t\t}\n\t\t}\n\t\tparseEndOfRule( this );\n\t};\n\n\tfunction removeComment (line) {\n\t\tvar commentStart = line.indexOf(\"#\");\n\t\tif (commentStart < 0) {\n\t\t\treturn line;\n\t\t}\n\t\treturn line.substring( 0, commentStart );\n\t}\n\n\tfunction parseVisibility (self, line) {\n\t\tvar token = line.trim();\n\t\tif (VISIBILITY_TOKENS.indexOf( token ) < 0) {\n\t\t\treportTokenError( self, token, 'Show or Hide' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.lineTypes[self.currentLineNr] = 'Visibility';\n\t\tself.currentRule = new Rule();\n\t}\n\n\tfunction parseEndOfRule (self) {\n\t\tif (self.currentRule !== null) {\n\t\t\tself.ruleSet.push( self.currentRule );\n\t\t\tself.currentRule = null;\n\t\t}\n\t}\n\n\tfunction parseFilterOrModifier (self, line) {\n\t\tvar tokens = line.trim().split(' ', 1);\n\n\t\tif (tokens.length == 0) {\n\t\t\treportTokenError( self, '', 'filter or modifier' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar token = tokens[0].trim();\n\t\tvar arguments = line.trim().substring( token.length, line.length );\n\n\t\tif (FILTER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseFilter( self, token, arguments );\n\t\t}\n\t\telse if (MODIFIER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseModifier( self, token, arguments );\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, token, 'filter or modifier' );\n\t\t}\n\t}\n\n\t// ----------- FILTERS ---------------------------------------------------\n\n\tfunction parseFilter (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Filter';\n\n\t\tvar filters = {\n\t\t\t'ItemLevel': ItemLevelFilter,\n\t\t\t'DropLevel': DropLevelFilter,\n\t\t\t'Quality': QualityFilter,\n\t\t\t'Rarity': RarityFilter,\n\t\t\t'Class': ClassFilter,\n\t\t\t'BaseType': BaseTypeFilter,\n\t\t\t'LinkedSockets': LinkedSocketsFilter,\n \n // this is intentional - with 3.9 filter type update,\n // much of the logic for between two filters is shared\n\t\t\t'Sockets': SocketGroupFilter,\n\t\t\t'SocketGroup': SocketGroupFilter,\n \n\t\t\t'Width': WidthFilter,\n\t\t\t'Height': HeightFilter,\n\t\t\t'Identified': IdentifiedFilter,\n\t\t\t'Corrupted': CorruptedFilter,\n\t\t\t'ElderItem': ElderItemFilter,\n\t\t\t'ShaperItem': ShaperItemFilter,\n\t\t\t'ShapedMap': ShapedMapFilter,\n\t\t\t'ElderMap': ElderMapFilter,\n\t\t\t'HasExplicitMod': HasExplicitModFilter,\n\t\t\t'MapTier': MapTierFilter,\n\t\t\t'GemLevel': GemLevelFilter,\n\t\t\t'StackSize': StackSizeFilter,\n 'Prophecy': ProphecyFilter,\n 'FracturedItem': FracturedItemFilter,\n 'SynthesisedItem': SynthesisedItemFilter,\n 'AnyEnchantment': AnyEnchantmentFilter,\n 'HasEnchantment': HasEnchantmentFilter,\n 'BlightedMap': BlightedMapFilter,\n 'HasInfluence' : HasInfluenceFilter,\n 'Mirrored' : MirroredFilter,\n 'CorruptedMods' : CorruptedModsFilter,\n 'AreaLevel' : AreaLevelFilter,\n 'EnchantmentPassiveNode' : HasEnchantmentFilter,\n 'AlternateQuality' : AlternateQualityFilter,\n 'Replica' : ReplicaFilter,\n 'GemQualityType' : GemQualityTypeFilter,\n 'EnchantmentPassiveNum' : EnchantmentPassiveNumFilter\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'ItemLevel':\n\t\t\tcase 'DropLevel':\n\t\t\tcase 'Quality':\n\t\t\tcase 'LinkedSockets':\n\t\t\tcase 'Width':\n\t\t\tcase 'Height':\n\t\t\tcase 'MapTier':\n\t\t\tcase 'GemLevel':\n\t\t\tcase 'StackSize':\n case 'CorruptedMods':\n case 'AreaLevel':\n\t\t\tcase 'EnchantmentPassiveNum':\n\t\t\t\tparseNumericFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Rarity':\n\t\t\t\tparseRarityFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Class':\n\t\t\tcase 'BaseType':\n\t\t\tcase 'HasExplicitMod':\n case 'Prophecy':\n\t\t\tcase 'HasEnchantment':\n case 'EnchantmentPassiveNode':\n case 'GemQualityType':\n\t\t\t\tparseMultiStringFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Sockets':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"unlinked\" );\n\t\t\t\treturn;\n\t\t\tcase 'SocketGroup':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"linked\" );\n\t\t\t\treturn;\n\n\t\t\tcase 'Identified':\n\t\t\tcase 'Corrupted':\n\t\t\tcase 'ElderItem':\n\t\t\tcase 'ShaperItem':\n\t\t\tcase 'ShapedMap':\n case 'ElderMap':\n\t\t\tcase 'FracturedItem':\n\t\t\tcase 'SynthesisedItem':\n case 'AnyEnchantment':\n case 'BlightedMap':\n case 'Mirrored':\n case 'AlternateQuality':\n case 'Replica':\n\t\t\t\tparseBoolFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n \n\t\t\tcase 'HasInfluence':\n\t\t\t\tparseInfluenceFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseNumericFilter (self, filter, arguments) {\n\t\tvar args = parseOperatorAndValue( self, arguments );\n\t\tif (args !== null) {\n\t\t\tif (isNaN( args.value )) {\n\t\t\t\treportTokenError( self, args.value, 'number' );\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tself.currentRule.filters.push( new filter( args.comparer, parseInt( args.value ) ) );\n\t\t}\n\t}\n\n\tfunction parseMultiStringFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'one or more strings' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args ) );\n\t}\n\n\tfunction parseRarityFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'rarity')\n\t return;\n\t }\n\n\t // If the first argument is an operator, we can use the parseOperatorAndValue function\n\t if (OPERATOR_TOKENS.includes( tokens[0] )) {\n\t args = parseOperatorAndValue( self, arguments );\n if (args != null) {\n if (RARITY_TOKENS.indexOf( args.value ) < 0) {\n reportTokenError( self, args.value, 'operator or rarity' );\n return;\n }\n self.currentRule.filters.push( new filter( args.comparer, Rarity[args.value] ) );\n return;\n }\n }\n\n // Otherwise, the arguments must be a list of rarities.\n var rarities = [];\n for (var i=0; i < tokens.length; i++) {\n if (!RARITY_TOKENS.includes(tokens[i])) {\n reportTokenError( self, tokens[i], 'rarity')\n return;\n }\n rarities.push( Rarity[tokens[i]] );\n }\n\n // In that case, we create a custom comparer that checks if a rarity is in that list\n var comparer = function(a,b) { return b.includes(a); }\n self.currentRule.filters.push( new filter( comparer, rarities ) );\n\t}\n \n\tfunction parseInfluenceFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var comparer; \n \n if(tokens[0] === \"==\") {\n tokens.shift(); // remove operator\n comparer = function(a,b) {\n // strict equality - must contain all influences specified to match\n for(var i = 0; i < b.length; i++) {\n if(!a.includes(b[i])) return false;\n }\n return true;\n }\n } else {\n comparer = function(a,b) { \n // match if any of the specified influences are found\n for(var i = 0; i < a.length; i++) {\n if(b.includes(a[i])) return true;\n }\n return false;\n }\n }\n\n // the arguments must be a list of influences\n var influences = [];\n for (var i = 0; i < tokens.length; i++) {\n var inf = tokens[i].toLowerCase().replace(/\"/g, '');\n if(inf === \"none\") {\n influences = \"none\";\n break;\n }\n if (!INFLUENCE_TOKENS.includes(inf)) {\n reportTokenError( self, tokens[i], 'influence')\n return;\n }\n influences.push(inf);\n }\n\n self.currentRule.filters.push( new filter( comparer, influences ) );\n\t}\n \n\tfunction parseSocketGroupFilter (self, filter, arguments, mode) {\n \n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var operator = null;\n \n\t\t\tif (OPERATOR_TOKENS.includes(tokens[0])) {\n operator = tokens.shift();\n // single equals: no operator needed, match any of the arguments\n if(operator === \"=\") {\n operator = null;\n }\n }\n \n var groups = tokens.map( tok => { return StrUtils.replaceAll(tok.toUpperCase(), '\"', \"\"); } );\n \n var isInvalid = groups.some( function(socketGroup) {\n if (!StrUtils.consistsOf( socketGroup, '0123456RGBWDA' )) {\n reportInvalidSocketGroup( self, socketGroup );\n return true;\n }\n return false;\n } );\n \n if (!isInvalid) { \n groups = groups.map( group => {\n var sorted = StrUtils.sortChars(group);\n return {\n count: sorted.replace(/[RGBWDA]/g, \"\"),\n sockets: sorted.replace(/[0123456]/g, \"\")\n };\n });\n self.currentRule.filters.push( new filter( operator, groups, mode ) );\n }\n \n\t} \n\n\tfunction parseBoolFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'expected True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\targs = args.map( function(a) { return a.toUpperCase(); } );\n\n\t\tif (args[0] !== 'TRUE' && args[0] !== 'FALSE') {\n\t\t\treportTokenError( self, arguments, 'True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args[0] === 'TRUE' ) );\n\t}\n\n\t// ----------- MODIFIERS ---------------------------------------------------\n\n\tfunction parseModifier (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Modifier';\n\n\t\tvar modifiers = {\n\t\t\t'SetBackgroundColor': SetBackgroundColorModifier,\n\t\t\t'SetBorderColor': SetBorderColorModifier,\n\t\t\t'SetTextColor': SetTextColorModifier,\n\t\t\t'SetFontSize': SetFontSizeModifier\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'SetBackgroundColor':\n\t\t\tcase 'SetBorderColor':\n\t\t\tcase 'SetTextColor':\n\t\t\t\tparseColorModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n\t\t\tcase 'SetFontSize':\n\t\t\t\tparseNumericModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n case 'MinimapIcon':\n case 'PlayEffect':\n\t\t\tcase 'PlayAlertSound':\n\t\t\tcase 'PlayAlertSoundPositional':\n\t\t\tcase 'DisableDropSound':\n case 'CustomAlertSound':\n case 'CustomAlertSoundOptional':\n case 'DisableDropSoundIfAlertSound':\n case 'EnableDropSoundIfAlertSound':\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseColorModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length < 3 || numbers.length > 4) {\n\t\t\treportTokenError( self, arguments, 'three or four numbers' );\n\t\t\treturn;\n\t\t}\n\n\t\tif (numbers.some( function(c) { return c < 0 || c > 255; } )) {\n\t\t\treportParseError( self, arguments, 'color values must be between 0 and 255' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar color = { r:numbers[0], g:numbers[1], b:numbers[2], a:255 };\n\t\tif (numbers.length === 4) {\n\t\t\tcolor['a'] = numbers[3];\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( color ) );\n\t}\n\n function parsePlayEffectModifier (self, modifier, arguments) {\n var tokens = arguments.trim().split(' ');\n if (tokens.length > 2) {\n reportTokenError( self, arguments, 'COLOR Temp' );\n return;\n }\n\n var color = tokens[0].trim();\n if (!COLOR_TOKENS.includes(color)) {\n reportTokenError( self, color, 'Color name');\n return;\n }\n\n var temp = false;\n if (tokens.length > 1) {\n if (tokens[1] !== 'Temp') {\n reportTokenError( self, tokens[1], 'Temp');\n return;\n }\n temp = true;\n }\n\n self.currentRule.modifiers.push( new modifier( color, temp ));\n }\n\n\tfunction parseMinimapIconModifier (self, modifier, arguments) {\n\t var tokens = arguments.trim().split(' ');\n\t if (tokens.length !== 3) {\n\t reportTokenError( self, arguments, 'SIZE COLOR SHAPE' );\n\t return;\n\t }\n\n\t var size = tokens[0];\n\t if (size !== '0' && size !== '1' && size !== '2') {\n\t reportParseError( self, size, 'SIZE must be 0, 1 or 2' );\n\t return;\n\t }\n\n\t var color = tokens[1];\n\t if (!COLOR_TOKENS.includes(color)) {\n\t reportParseError( self, color, 'COLOR must be one of: ' + COLOR_TOKENS.join(', '));\n\t return;\n\t }\n\n\t var shape = tokens[2];\n\t if (!ICON_SHAPE_TOKENS.includes(shape)) {\n\t reportParseError( self, shape, 'SHAPE must be one of: ' + ICON_SHAPE_TOKENS.join(', '));\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier( parseInt(size), color, shape ) );\n\t}\n\n\tfunction parseAlertSoundModifier (self, modifier, arguments) {\n\t var tokens = getArgumentTokens( arguments );\n\t if (tokens.length < 1 || tokens.length > 2) {\n\t reportTokenError( self, arguments, 'sound id + optional volume' );\n\t return;\n\t }\n\n\t var soundId = parseSoundId( self, tokens[0] );\n\t if (soundId === null) return;\n\n\t var volume = 100;\n\t if (tokens.length === 2) {\n\t if (isNaN(tokens[1])) {\n\t reportParseError( self, arguments, 'volume must be a number' );\n\t return;\n\t }\n\n\t volume = parseInt(tokens[1]);\n\t if (volume < 0 || volume > 300) {\n\t reportParseError( self, arguments, 'volume must be between 0 and 300' );\n\t return;\n\t }\n\t }\n\n\t\tself.currentRule.modifiers.push( new modifier( soundId, volume ) );\n\t}\n\n function parseSoundId (self, token) {\n if (SOUND_TOKENS.indexOf( token ) >= 0) {\n return token;\n }\n\n if (isNaN(token)) {\n reportParseError( self, token, 'Sound ID must be a number between 1 and 16, or a valid Sound ID name' );\n return;\n }\n return parseInt( token );\n }\n\n\tfunction parseNumericModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length != 1) {\n\t\t\treportTokenError( self, arguments, 'one number' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( numbers[0] ) );\n\t}\n\n\tfunction parseKeywordModifier (self, modifier, arguments) {\n\t\tif (arguments.trim().length > 0) {\n\t\t\treportTokenError( self, arguments, 'Unexpected argument' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier() );\n\t}\n\n\tfunction parseFilenameModifier (self, modifier, arguments) {\n\t var argumentTokens = parseStringArguments( self, arguments );\n\t if (argumentTokens.length == 0) {\n\t reportUnexpectedEndOfLine( self, arguments, 'Path or Filename' );\n\t return;\n\t }\n\t if (argumentTokens.length > 1) {\n\t reportParseError( self, arguments, 'Unexpected argument: \"' + argumentTokens[1] + '\"' );\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier(argumentTokens[0]) );\n\t}\n\n\t// ------------------------ GENERIC PARSING ---------------------------------\n\n function getArgumentTokens (arguments) {\n return arguments\n\t\t\t.trim()\n\t\t\t.split(' ')\n\t\t\t.filter( function (element, index, array) { return element.trim().length > 0; } );\n }\n\n\tfunction parseOperatorAndValue (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\t\tvar operator, value;\n\n\t\tif (tokens.length == 1) {\n\t\t\t// Special case: For equality checks, you specify only the value\n\t\t\toperator = '=';\n\t\t\tvalue = tokens[0];\n\t\t}\n\t\telse if (tokens.length == 2) {\n\t\t\toperator = tokens[0];\n\t\t\tvalue = tokens[1];\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, arguments, 'operator and value' );\n\t\t\treturn null;\n\t\t}\n\n\t\tif (OPERATOR_TOKENS.indexOf( operator ) < 0) {\n\t\t\treportTokenError( self, operator, 'operator' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn { comparer : COMPARERS[operator], value : value };\n \n\t}\n\n\tfunction parseNumbers (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\n\t\tif (tokens.some( isNaN )) {\n\t\t\treportTokenError( self, arguments, 'numbers' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn tokens.map( function(n) { return parseInt( n ); } );\n\t}\n\n\tfunction parseStringArguments (self, arguments) {\n\t\tvar tokens = arguments\n\t\t\t.trim()\n\t\t\t.split(' ');\n\t\t\t// Don't remove empty tokens because they might represent multiple spaces inside quoted strings\n\n\t\tvar actualTokens = [];\n\t\tvar numQuotes = 0;\n\t\tvar currentToken = '';\n\t\tfor (var i=0; i < tokens.length; i++) {\n\t\t\tnumQuotes += StrUtils.countChar( '\"', tokens[i] );\n\t\t\tvar withoutQuotes = StrUtils.replaceAll( tokens[i], '\"', '' );\n\n\t\t\tif (currentToken.length > 0) {\n\t\t\t\tcurrentToken += ' ' + withoutQuotes;\n\t\t\t}\n\t\t\telse {\n\t\t\t\tcurrentToken = withoutQuotes;\n\t\t\t}\n\n\t\t\tif (numQuotes % 2 == 0) {\n\t\t\t\tactualTokens.push( currentToken );\n\t\t\t\tcurrentToken = '';\n\t\t\t}\n\t\t}\n\n\t\tif (numQuotes % 2 != 0) {\n\t\t\treportParseError( self, arguments, 'no matching quote' );\n\t\t\tactualTokens.push( currentToken );\n\t\t}\n\n\t\t// Remove any empty or pure whitespace tokens.\n\t\t// These may happen with certain unicode characters.\n\t\tactualTokens = actualTokens.filter( function(token) { return token.trim().length > 0; } );\n\n\t\treturn actualTokens;\n\t}\n\n\t// ------------------- ERROR MESSAGES --------------------------------------\n\n\tfunction reportTokenError (self, token, expected) {\n\t\tself.errors.push( 'Invalid token \"' + token + '\" at line ' + self.currentLineNr.toString() + ' (expected ' + expected + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportUnexpectedEndOfLine (self, expected) {\n\t\tself.errors.push( 'Unexpected end of line (expected ' + expected + ' in line ' + self.currentLineNr.toString() + ')');\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportInvalidSocketGroup (self, socketGroup) {\n\t\tself.errors.push( 'Invalid socket group \"' + socketGroup + '\" + at line ' + self.currentLineNr.toString() + ' (allowed characters are R,G,B)' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportParseError (self, text, reason) {\n\t\tself.errors.push( 'Cannot parse \"' + text + '\" (' + reason + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportWarning (self, text) {\n\t\tself.warnings.push( text );\n\t}\n}", "parse(toParse, options) {\n var _a;\n let tokens;\n if (typeof toParse === 'string') {\n tokens = Lexer_1.Lexer.scan(toParse).tokens;\n }\n else {\n tokens = toParse;\n }\n this.logger = (_a = options === null || options === void 0 ? void 0 : options.logger) !== null && _a !== void 0 ? _a : new Logger_1.Logger();\n this.tokens = tokens;\n this.options = this.sanitizeParseOptions(options);\n this.allowedLocalIdentifiers = [\n ...TokenKind_1.AllowedLocalIdentifiers,\n //when in plain brightscript mode, the BrighterScript source literals can be used as regular variables\n ...(this.options.mode === ParseMode.BrightScript ? TokenKind_1.BrighterScriptSourceLiterals : [])\n ];\n this.current = 0;\n this.diagnostics = [];\n this.namespaceAndFunctionDepth = 0;\n this.pendingAnnotations = [];\n this.ast = this.body();\n //now that we've built the AST, link every node to its parent\n this.ast.link();\n return this;\n }", "function processKeywords() {\n var nodes = []\n var lastIndex\n var keyword\n var node\n var submatch\n\n if (!top.keywords) {\n return addText(modeBuffer, nodes)\n }\n\n lastIndex = 0\n\n top.lexemesRe.lastIndex = 0\n\n keyword = top.lexemesRe.exec(modeBuffer)\n\n while (keyword) {\n addText(modeBuffer.slice(lastIndex, keyword.index), nodes)\n\n submatch = keywordMatch(top, keyword)\n\n if (submatch) {\n relevance += submatch[1]\n\n node = build(submatch[0], [])\n\n nodes.push(node)\n\n addText(keyword[0], node.children)\n } else {\n addText(keyword[0], nodes)\n }\n\n lastIndex = top.lexemesRe.lastIndex\n keyword = top.lexemesRe.exec(modeBuffer)\n }\n\n addText(modeBuffer.slice(lastIndex), nodes)\n\n return nodes\n }", "function parseStatementList() {\n CST.addBranchNode(\"StatementList\");\n if (match([\"T_keywordPrint\", \"T_char\", \"T_typeInt\", \"T_typeString\", \"T_typeBoolean\", \"T_keywordWhile\", \"T_keywordIf\", \"T_openBlock\"], true, false)) {\n parseStatement();\n parseStatementList();\n }\n else {\n //nothing, no statement. epsilon. add epsilon node for completeness\n return;\n }\n log(\"Statement List\");\n CST.backtrack();\n}", "parseTableOrList() {\n\t\t\tif ( this.char === CHAR_LSQB ) {\n\t\t\t\tthis.next( this.parseList );\n\t\t\t} else {\n\t\t\t\treturn this.goto( this.parseTable );\n\t\t\t}\n\t\t}", "analyze(lexer, current=lexer.next()) {\n if(!this.startsWith(current)) return current.toError()\n var input = current.input\n var start = current.start\n var end = current.end\n var list = []\n current = lexer.next()\n while(current!=null && !this.check_symbol(current, this.RIGHT)){\n var t = this.parser.rule(this.item_rule).analyze(lexer, current)\n if(t.isError()) return t\n list.push(t)\n end = current.end\n current = lexer.next()\n if(current==null) return this.eof(input,end)\n if(this.check_symbol(current, this.SEPARATOR)) {\n end = current.end\n current = lexer.next()\n if(current==null) return this.eof(input,end)\n if(this.check_symbol(current, this.RIGHT)) return current.toError() \n }else if(!this.check_symbol(current, this.RIGHT)) return current.toError()\n }\n if(current==null) return this.eof(input,end)\n return this.token(input,start,current.end,list)\n }" ]
[ "0.75592375", "0.7246764", "0.7106308", "0.7074189", "0.70493615", "0.70493615", "0.7019147", "0.69976336", "0.69464284", "0.69464284", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6898007", "0.6893209", "0.6893209", "0.68671966", "0.68671966", "0.6821078", "0.6821078", "0.6821078", "0.6821078", "0.67964184", "0.67964184", "0.67964184", "0.67964184", "0.66405815", "0.6491733", "0.63474494", "0.5276478", "0.5188757", "0.5133867", "0.49526197", "0.4856188", "0.48016357", "0.48016357", "0.48016357", "0.48016357", "0.48016357", "0.48016357", "0.4785496", "0.47650442", "0.47290975", "0.46649197", "0.45938894", "0.45680118", "0.45613486", "0.4487148", "0.4409843", "0.43963453", "0.4385898", "0.43799552", "0.43564108", "0.43533108", "0.4348648", "0.43188763", "0.43003258", "0.42937443", "0.42907506", "0.42799535", "0.42608592", "0.42600074", "0.42483595", "0.42483208", "0.4227088", "0.42265502", "0.42265502", "0.42265502", "0.42185795", "0.42134777", "0.42072278", "0.4205739", "0.41974655", "0.41896844", "0.41868097", "0.41821054", "0.41734418", "0.41682774", "0.41657358", "0.41563553", "0.41520664", "0.4151752", "0.41463318", "0.41453442", "0.41437343" ]
0.68095875
36
Returns a nonempty list of parse nodes, determined by the parseFn. This list begins with a lex token of openKind and ends with a lex token of closeKind. Advances the parser to the next lex token after the closing token.
function many(lexer, openKind, parseFn, closeKind) { expect(lexer, openKind); var nodes = [parseFn(lexer)]; while (!skip(lexer, closeKind)) { nodes.push(parseFn(lexer)); } return nodes; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "many(openKind, parseFn, closeKind) {\n this.expectToken(openKind);\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (!this.expectOptionalToken(closeKind));\n\n return nodes;\n }", "function many(parser, openKind, parseFn, closeKind) {\n\t expect(parser, openKind);\n\t var nodes = [parseFn(parser)];\n\t while (!skip(parser, closeKind)) {\n\t nodes.push(parseFn(parser));\n\t }\n\t return nodes;\n\t}", "function many(parser, openKind, parseFn, closeKind) {\n expect(parser, openKind);\n var nodes = [parseFn(parser)];\n while (!skip(parser, closeKind)) {\n nodes.push(parseFn(parser));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [parseFn(lexer)];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function many(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [parseFn(lexer)];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function any(parser, openKind, parseFn, closeKind) {\n\t expect(parser, openKind);\n\t var nodes = [];\n\t while (!skip(parser, closeKind)) {\n\t nodes.push(parseFn(parser));\n\t }\n\t return nodes;\n\t}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(parser, openKind, parseFn, closeKind) {\n expect(parser, openKind);\n var nodes = [];\n while (!skip(parser, closeKind)) {\n nodes.push(parseFn(parser));\n }\n return nodes;\n}", "any(openKind, parseFn, closeKind) {\n this.expectToken(openKind);\n const nodes = [];\n\n while (!this.expectOptionalToken(closeKind)) {\n nodes.push(parseFn.call(this));\n }\n\n return nodes;\n }", "function any(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function any(lexer, openKind, parseFn, closeKind) {\n\t expect(lexer, openKind);\n\t var nodes = [];\n\t while (!skip(lexer, closeKind)) {\n\t nodes.push(parseFn(lexer));\n\t }\n\t return nodes;\n\t}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expect(lexer, openKind);\n var nodes = [];\n while (!skip(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [parseFn(lexer)];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function any(lexer, openKind, parseFn, closeKind) {\n expectToken(lexer, openKind);\n var nodes = [];\n\n while (!expectOptionalToken(lexer, closeKind)) {\n nodes.push(parseFn(lexer));\n }\n\n return nodes;\n}", "function many(lexer$$1, openKind, parseFn, closeKind) {\n expect(lexer$$1, openKind);\n var nodes = [parseFn(lexer$$1)];\n while (!skip(lexer$$1, closeKind)) {\n nodes.push(parseFn(lexer$$1));\n }\n return nodes;\n}", "function any(lexer$$1, openKind, parseFn, closeKind) {\n expect(lexer$$1, openKind);\n var nodes = [];\n while (!skip(lexer$$1, closeKind)) {\n nodes.push(parseFn(lexer$$1));\n }\n return nodes;\n}", "optionalMany(openKind, parseFn, closeKind) {\n if (this.expectOptionalToken(openKind)) {\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (!this.expectOptionalToken(closeKind));\n\n return nodes;\n }\n\n return [];\n }", "function listExpr(termSym, cb) {\n \treturn (function() {\n\t var length,\n\t \tnext = parser(),\n\t \tlist = parser();\n\t \n\t next.on(\",\", function() {\n\t\t \ttopLevelExpr();\n\t\t \tlength += 1;\n\t\t \tnext();\n\t\t })\n\t\t .on(termSym, function() {\n\t\t \tcb(length);\n\t\t })\n\t\t .or(die(\"Unterminated list; expecting \" + termSym));\n\t\t \n\t\t list.on(termSym, function() { cb(0) })\n\t\t \t.or(function() {\n\t\t \t\ttopLevelExpr();\n\t\t \t\tlength = 1;\n\t\t \t\tnext();\n\t\t \t});\n\t\t \n\t\t list();\n\t });\n }", "delimitedMany(delimiterKind, parseFn) {\n this.expectOptionalToken(delimiterKind);\n const nodes = [];\n\n do {\n nodes.push(parseFn.call(this));\n } while (this.expectOptionalToken(delimiterKind));\n\n return nodes;\n }", "parse() {\n // We expect at least one tree selector\n var ts = this.parseTreeSelector(); // Now see what's next\n\n var token = this.nextToken(); // If there is no next token then we're done parsing and can return\n // the tree selector object we got above\n\n if (!token) {\n return ts;\n } // Otherwise, there is more go come and we're going to need a\n // list of tree selectors\n\n\n var treeSelectors = [ts];\n\n while (token) {\n // The only character we allow after a tree selector is a comma\n if (token === \",\") {\n this.consume();\n } else {\n throw new ParseError$2(\"Expected comma\");\n } // And if we saw a comma, then it must be followed by another\n // tree selector\n\n\n treeSelectors.push(this.parseTreeSelector());\n token = this.nextToken();\n } // If we parsed more than one tree selector, return them in a\n // SelectorList object.\n\n\n return new SelectorList(treeSelectors);\n }", "function parse() {\n var self = this\n var value = String(self.file)\n var start = {line: 1, column: 1, offset: 0}\n var content = xtend(start)\n var node\n\n // Clean non-unix newlines: `\\r\\n` and `\\r` are all changed to `\\n`.\n // This should not affect positional information.\n value = value.replace(lineBreaksExpression, lineFeed)\n\n // BOM.\n if (value.charCodeAt(0) === 0xfeff) {\n value = value.slice(1)\n\n content.column++\n content.offset++\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {start: start, end: self.eof || xtend(start)}\n }\n\n if (!self.options.position) {\n removePosition(node, true)\n }\n\n return node\n}", "parse() {\n // We expect at least one tree selector\n const ts = this.parseTreeSelector();\n\n // Now see what's next\n let token = this.nextToken();\n\n // If there is no next token then we're done parsing and can return\n // the tree selector object we got above\n if (!token) {\n return ts;\n }\n\n // Otherwise, there is more go come and we're going to need a\n // list of tree selectors\n const treeSelectors = [ts];\n while (token) {\n // The only character we allow after a tree selector is a comma\n if (token === \",\") {\n this.consume();\n } else {\n throw new ParseError(\"Expected comma\");\n }\n\n // And if we saw a comma, then it must be followed by another\n // tree selector\n treeSelectors.push(this.parseTreeSelector());\n token = this.nextToken();\n }\n\n // If we parsed more than one tree selector, return them in a\n // SelectorList object.\n return new SelectorList(treeSelectors);\n }", "function tokens(parsers){\r\n return function(scope, state, k){\r\n var i = 0,\r\n ast = [],\r\n length = parsers.length;\r\n \r\n function next(parser){\r\n return function(scope, state, k){\r\n return function(){ return parser(scope, state, function(result){\r\n i++;\r\n if(!result.success)\r\n return k(result);\r\n if(result.ast !== undef)\r\n ast.push(result.ast);\r\n return i < length ? next(parsers[i])(scope, state, k) : k(result);\r\n })};\r\n };\r\n }\r\n\r\n return function(){ return next(parsers[i])(scope, state, function(result){\r\n var success = result.success;\r\n return k({ast: ast, success: success, expecting: success ? undef : result.expecting });\r\n })};\r\n };\r\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "function parse() {\n var self = this;\n var value = String(self.file);\n var start = {line: 1, column: 1, offset: 0};\n var content = xtend(start);\n var node;\n\n /* Clean non-unix newlines: `\\r\\n` and `\\r` are all\n * changed to `\\n`. This should not affect positional\n * information. */\n value = value.replace(EXPRESSION_LINE_BREAKS, C_NEWLINE);\n\n if (value.charCodeAt(0) === 0xFEFF) {\n value = value.slice(1);\n\n content.column++;\n content.offset++;\n }\n\n node = {\n type: 'root',\n children: self.tokenizeBlock(value, content),\n position: {\n start: start,\n end: self.eof || xtend(start)\n }\n };\n\n if (!self.options.position) {\n removePosition(node, true);\n }\n\n return node;\n}", "parse() {\n\t\tlet mainFunctionBlock = [];\n\n\t\twhile (this.peek() !== undefined) {\n\t\t\tlet expr = this.parseExpression();\n\t\t\tif(expr) mainFunctionBlock.push(expr);\n\n\t\t\tif (this.peek() !== undefined) {\n\t\t\t\tthis.optionalSkip('punctuation', ';');\n\t\t\t}\n\t\t}\n\n\t\tthis.main.setBlock({\n\t\t\texpressions: mainFunctionBlock\n\t\t});\n\n\t\tlet fObj = this.main;\n\t\tfObj.isEntry = true;\n\n\t\tthis.functions.unshift(fObj);\n\n\t\treturn {\n\t\t\ttype: 'script',\n\t\t\tfunctions: this.functions\n\t\t};\n\t}", "function many(parser) {\r\n return function(source) {\r\n var result= [];\r\n while (true) {\r\n var each= parser(source);\r\n if (!each[0]) return [true, result, source];\r\n result.push(each[1]);\r\n source= each[2];\r\n }\r\n };\r\n}", "function createNestingParser(openRegex, closeRegex){\n return function(tokens, index){\n if(this.original.match(openRegex)){\n var position = index,\n opens = 1;\n\n while(position++, position <= tokens.length && opens){\n if(!tokens[position]){\n throw \"Invalid nesting. No closing token was found matching \" + closeRegex.toString();\n }\n if(tokens[position].original.match(openRegex)){\n opens++;\n }\n if(tokens[position].original.match(closeRegex)){\n opens--;\n }\n }\n\n // remove all wrapped tokens from the token array, including nest end token.\n var childTokens = tokens.splice(index + 1, position - 1 - index);\n\n // Remove the nest end token.\n childTokens.pop();\n\n // parse them, then add them as child tokens.\n this.childTokens = parse(childTokens);\n\n //Remove nesting end token\n }else{\n // If a nesting end token is found during parsing,\n // there is invalid nesting,\n // because the opening token should remove its closing token.\n throw \"Invalid nesting. No opening token was found matching \" + openRegex.toString();\n }\n };\n}", "function parse(nextToken){\r\n\t//current token\r\n\tvar type,word; //NOTE: word is only update right after next()ing. don't rely on it laaaaater\r\n\t//stored tokens\r\n\tvar newType,newWord;\r\n\t//keep track of stored tokens\r\n\tvar readNext=1;\r\n\t//false=not, 1=no paren, 2=()\r\n\tvar defType=false,nextDefCommon=false,defs={};\r\n\t\r\n\tvar blocks=[];\r\n\tvar current={};\r\n\tvar currentBlocks=[];\r\n\t\r\n\tfunction startBlock(){\r\n\t\tcurrent.code=[];\r\n\t\tcurrent.line=lineNumber;\r\n\t\tcurrentBlocks.push(current);\r\n\t\tcurrent={};\r\n\t}\r\n\tfunction endBlock(){\r\n\t\tvar block=currentBlocks.pop();\r\n\t\tcurrentBlocks[currentBlocks.length-1].code.push(block);\r\n\t}\r\n\tfunction endDef(){\r\n\t\tvar block=currentBlocks.pop();\r\n\t\tdefs[block.name]=block;\r\n\t}\r\n\t\r\n\tvar ifThisLine=false,codeAfterThen;\r\n\t//var nextFunctionGetsOneMore=0;\r\n\tvar expr=[];\r\n\t\r\n\tcurrent.type=\"main\";\r\n\tstartBlock();\r\n\t\r\n\tdo{\r\n\t\ttry{\r\n\t\t\treadStatement();\r\n\t\t}catch(error){\r\n\t\t\tif(error.name===\"ParseError\"){\r\n\t\t\t\treturn error.message+\" on line \"+lineNumber;\r\n\t\t\t//bad error!!!\r\n\t\t\t}else{\r\n\t\t\t\tthrow error;\r\n\t\t\t\treturn;\r\n\t\t\t}\r\n\t\t}\r\n\t}while(type!==\"eof\");;;\r\n\t\r\n\t//read a \"line\" of code\r\n\tfunction readStatement(){\r\n\t\tnext();\r\n\t\tif(type!=\"comment\" && ifThisLine && type!=\"linebreak\")\r\n\t\t\tcodeAfterThen=true;\r\n\t\tswitch(type){\r\n\t\t\t//keywords with no arguments\r\n\t\t\tcase \"BREAK\":\r\n\t\t\t\tcurrent.type=\"BREAK\";\r\n\t\t\t\tcurrent.levels=readExpression();\r\n\t\t\tbreak;case \"CONTINUE\":\r\n\t\t\t\tcurrent.type=\"CONTINUE\";\r\n\t\t\t\tcurrent.levels=readExpression();\r\n\t\t\tbreak;case \"ELSE\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\"){\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\t\tcurrent.type=\"CASE\";\r\n\t\t\t\t\tstartBlock();\r\n\t\t\t\t}else{\r\n\t\t\t\t\tassert(currentBlock().type===\"IF\"||currentBlock().type===\"ELSEIF\",\"ELSE without IF\");\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\t\tcurrent.type=\"ELSE\";\r\n\t\t\t\t\tstartBlock();\r\n\t\t\t\t}\r\n\t\t\tbreak;case \"ENDSWITCH\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\")\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\telse\r\n\t\t\t\t\tassert(currentType===\"SWITCH\",\"ENDSW without SWITCH\");\r\n\t\t\t\tendBlock();\r\n\t\t\tbreak;case \"ENDIF\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tassert(currentType===\"IF\" || currentType===\"ELSE\" || currentType===\"ELSEIF\",\"ENDIF without IF\");\r\n\t\t\t\tendBlock();\r\n\t\t\t\tifThisLine=false;\r\n\t\t\tbreak;case \"SWITCH\":\r\n\t\t\t\tcurrent.type=\"SWITCH\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"CASE\":\r\n\t\t\t\tvar currentType=currentBlock().type\r\n\t\t\t\tif(currentType===\"CASE\")\r\n\t\t\t\t\tendBlock();\r\n\t\t\t\telse\r\n\t\t\t\t\tassert(currentType===\"SWITCH\",\"invalid CASE\");\r\n\t\t\t\tcurrent.type=\"CASE\"\r\n\t\t\t\tassert(current.conditions=readList(readExpression),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"STOP\":\r\n\t\t\t\tcurrent.type=\"STOP\";\r\n\t\t\tbreak;case \"REPEAT\":\r\n\t\t\t\tcurrent.type=\"REPEAT\";\r\n\t\t\t\tstartBlock();\r\n\t\t\t//SWAP\r\n\t\t\tbreak;case \"SWAP\":\r\n\t\t\t\tcurrent.type=\"SWAP\";\r\n\t\t\t\tassert(current.variable=readVariable(),\"Missing variable in SWAP\");\r\n\t\t\t\tassert(readToken(\",\"),\"Missing comma in SWAP\");\r\n\t\t\t\tassert(current.variable2=readVariable(),\"Missing variable in SWAP\");\r\n\t\t\t//IF, ELSEIF\r\n\t\t\tbreak;case \"ELSEIF\":\r\n\t\t\t\tassert(currentBlock().type==\"IF\"||currentBlock().type==\"ELSEIF\",\"ELSEIF without IF\");\r\n\t\t\t\tendBlock();\r\n\t\t\t\tcurrent.type=\"ELSEIF\"\r\n\t\t\t\tcurrent.condition=readExpression();\r\n\t\t\t\tassert(readToken(\"THEN\"),\"ELSEIF without THEN\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"IF\":\r\n\t\t\t\tcurrent.type=\"IF\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing IF condition\");\r\n\t\t\t\tassert(readToken(\"THEN\"),\"IF without THEN\");\r\n\t\t\t\tstartBlock();\r\n\t\t\t\tifThisLine=true;\r\n\t\t\t\tcodeAfterThen=false;\r\n\t\t\t//FOR\r\n\t\t\tbreak;case \"FOR\":\r\n\t\t\t\tcurrent.type=\"FOR\";\r\n\t\t\t\tassert(current.variable=readVariable(),\"Missing FOR variable\");\r\n\t\t\t\tassert(readToken(\"=\"),\"Missing = in FOR\");\r\n\t\t\t\tcurrent.start=readExpression();\r\n\t\t\t\tassert(readToken(\"word\") && word===\"TO\",\"Missing TO in FOR\");\r\n\t\t\t\tcurrent.end=readExpression();\r\n\t\t\t\tif(readToken(\"word\") && word===\"STEP\")\r\n\t\t\t\t\tcurrent.step=readExpression();\r\n\t\t\t\telse\r\n\t\t\t\t\treadNext=0; //heck\r\n\t\t\t\tstartBlock();\r\n\t\t\t//WHILE <condition>\r\n\t\t\tbreak;case \"WHILE\":\r\n\t\t\t\tcurrent.type=\"WHILE\"\r\n\t\t\t\tassert(current.condition=readExpression(),\"Missing argument to keyword\");\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"WEND\":\r\n\t\t\t\tassert(currentBlock().type==\"WHILE\",\"WEND without WHILE\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//do/LOOP\r\n\t\t\tbreak;case \"DO\":\r\n\t\t\t\tcurrent.type=\"DO\"\r\n\t\t\t\tstartBlock();\r\n\t\t\tbreak;case \"LOOP\":\r\n\t\t\t\tassert(currentBlock().type==\"DO\",\"LOOP without DO\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//UNTIL <condition>\r\n\t\t\tbreak;case \"UNTIL\":\r\n\t\t\t\tassert(currentBlock().type==\"REPEAT\",\"UNTIL without REPEAT\");\r\n\t\t\t\tassert(currentBlock().condition=readExpression(),\"Missing UNTIL condition\");\r\n\t\t\t\tendBlock();\r\n\t\t\t//NEXT\r\n\t\t\tbreak;case \"NEXT\":\r\n\t\t\t\tassert(currentBlock().type==\"FOR\",\"NEXT without FOR\");\r\n\t\t\t\treadExpression();\r\n\t\t\t\tendBlock();\r\n\t\t\t//OUT/THEN\r\n\t\t\tbreak;case \"OUT\":case \"THEN\":\r\n\t\t\t\tassert(false,\"Illegal OUT/THEN\");\r\n\t\t\t//other words\r\n\t\t\tbreak;case \"word\":\r\n\t\t\t\t//var name=text;\r\n\t\t\t\treadNext=readNext-1;\r\n\t\t\t\tvar x=readVariable(true);\r\n\t\t\t\tif(readToken(\"=\")){\r\n\t\t\t\t\tcurrent.type=\"assignment\";\r\n\t\t\t\t\tcurrent.variable=x;\r\n\t\t\t\t\tassert(current.value=readExpression(),\"Missing value in assignment\");\r\n\t\t\t\t}else{\r\n\t\t\t\t\tcurrent.type=\"function\";\r\n\t\t\t\t\tcurrent.name=x.name;\r\n\t\t\t\t\tcurrent.inputs=readList(readExpression);\r\n\t\t\t\t\tif(readToken(\"OUT\"))\r\n\t\t\t\t\t\tcurrent.outputs=readList(readVariable);\r\n\t\t\t\t\telse\r\n\t\t\t\t\t\tcurrent.outputs=[];\r\n\t\t\t\t}\r\n\t\t\t//comment\r\n\t\t\tbreak;case \"comment\":\r\n\t\t\t//colon NOP\r\n\t\t\tbreak;case \":\":\r\n\t\t\t//line break, end\r\n\t\t\tbreak;case \"eof\":\r\n\t\t\tcase \"linebreak\":\r\n\t\t\t\tif(ifThisLine){\r\n\t\t\t\t\tifThisLine=false;\r\n\t\t\t\t\tif(codeAfterThen){\r\n\t\t\t\t\t\tendBlock();\r\n\t\t\t\t\t\tconsole.log(\"ended single line IF\");\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\tbreak;default:\r\n\t\t\t\tassert(false,\"Expected statement, got \"+type+\" '\"+word+\"'\");\r\n\t\t}\r\n\t\tif(current.type){\r\n\t\t\tcurrent.line=lineNumber;\r\n\t\t\tcurrentBlocks[currentBlocks.length-1].code.push(current)//push to current block!\r\n\t\t\tcurrent={}\r\n\t\t}\r\n\t}\r\n\t\r\n\tfunction currentBlock(){\r\n\t\treturn currentBlocks[currentBlocks.length-1]\r\n\t}\r\n\t\r\n\t//check if next token is of a specific type\r\n\tfunction peekToken(wantedType){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===wantedType;\r\n\t}\r\n\t//check if next token is of a specific type\r\n\tfunction peekWord(wantedWord){\r\n\t\tvar prevType=type,prevWord=word;\r\n\t\tnext();\r\n\t\treadNext=-1;\r\n\t\tnewType=type;\r\n\t\tnewWord=word;\r\n\t\ttype=prevType;\r\n\t\tword=prevWord;\r\n\t\treturn newType===\"word\" && newWord.trimLeft().toUpperCase()===wantedWord;\r\n\t}\r\n\t\r\n\t//Try to read a specific token\r\n\tfunction readToken(wantedType){\r\n\t\tnext();\r\n\t\tif(type===wantedType){\r\n\t\t\treadNext=1;\r\n\t\t\treturn true;\r\n\t\t}\r\n\t\treadNext=0;\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\t//Read list\r\n\t//reader: function to read item (readExpression etc.)\r\n\t//noNull: throw an error if a null value is found\r\n\tfunction readList(reader){\r\n\t\tvar ret=[];\r\n\t\tvar x=reader();\r\n\t\tif(x)\r\n\t\t\tret.push(x);\r\n\t\tif(readToken(\",\",\"\")){\r\n\t\t\tassert(x,\"Null value not allowed\");\r\n\t\t\tdo\r\n\t\t\t\tassert(ret.push(reader()),\"Null value not allowed\");\r\n\t\t\twhile(readToken(\",\"));;;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\tfunction readList2(reader){\r\n\t\tvar ret=[];\r\n\t\tvar x=reader();\r\n\t\tif(x)\r\n\t\t\tret.push(x);\r\n\t\tif(readToken(\",\",\"\")&&expr.push({type:\"comma\"})){\r\n\t\t\tassert(x,\"Null value not allowed\");\r\n\t\t\tdo\r\n\t\t\t\tassert(ret.push(reader()),\"Null value not allowed\");\r\n\t\t\twhile(readToken(\",\")&&expr.push({type:\"comma\"}));;;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\t//read normal expression\r\n\t//SHould return RPN list\r\n\tfunction readExpression(){\r\n\t\texpr=[];\r\n\t\t//var rpn=[],stack=[];\r\n\t\t//rpn parse tokens as they are read?\r\n\t\tif(readExpression2())\r\n\t\t\treturn rpnFromExpr(expr);\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\tfunction prec(token){\r\n\t\tif(token.type===\"unary\" || token.type===\"comma\")\r\n\t\t\treturn Infinity;\r\n\t\telse\r\n\t\t\tswitch(token.name){\r\n\t\t\t\tcase \"^\":\r\n\t\t\t\t\treturn 11;\r\n\t\t\t\tcase \"*\":case \"/\": case \"\\\\\": case \"%\":\r\n\t\t\t\t\treturn 10;\r\n\t\t\t\tcase \"+\":case \"-\":\r\n\t\t\t\t\treturn 9;\r\n\t\t\t\tcase \"<<\":case \">>\":\r\n\t\t\t\t\treturn 8;\r\n\t\t\t\tcase \"<\":case \"<=\":case \">\":case \">=\":\r\n\t\t\t\t\treturn 7;\r\n\t\t\t\tcase \"==\":case \"!=\":\r\n\t\t\t\t\treturn 6;\r\n\t\t\t\tcase \"&\":\r\n\t\t\t\t\treturn 5;\r\n\t\t\t\tcase \"~\":\r\n\t\t\t\t\treturn 4;\r\n\t\t\t\tcase \"|\":\r\n\t\t\t\t\treturn 3;\r\n\t\t\t\tcase \"AND\":\r\n\t\t\t\t\treturn 2;\r\n\t\t\t\tcase \"OR\":\r\n\t\t\t\t\treturn 1;\r\n\t\t\t}\r\n\t\tconsole.log(token);\r\n\t\tassert(false,\"error prec \"+token.name);\r\n\t}\r\n\tfunction left(token){\r\n\t\treturn 0\r\n\t}\r\n\t\r\n\tfunction rpnFromExpr(expr){\r\n\t\tconsole.log({...expr},\"expr\");\r\n\t\tvar rpn=[],stack=[];\r\n\t\tfor(var i=0;i<expr.length;i++){\r\n\t\t\tvar token=expr[i];\r\n\t\t\tswitch(token.type){\r\n\t\t\t\tcase \"number\":case \"string\":case \"variable\":case \"function\":case \"array\": //see, functions are actually pushed AFTER their arguments, so we can just send them directly to the output! :D\r\n\t\t\t\t\trpn.push(token);\r\n\t\t\t\tbreak;case \"operator\":case \"unary\":\r\n\t\t\t\t\twhile(stack.length){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\t//console.log(top)\r\n\t\t\t\t\t\tif(top.type!=\"(\"&&(prec(top)>=prec(token) || (prec(top)==prec(token) && left(token)))){\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\t}else{\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t\tstack.push(token);\r\n\t\t\t\tbreak;case \"comma\":\r\n\t\t\t\t\twhile(stack.length){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\t//console.log(top)\r\n\t\t\t\t\t\tif(top.type!=\"(\"){\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\t}else{\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\tbreak;case \"(\":\r\n\t\t\t\t\tstack.push(token);\r\n\t\t\t\tbreak;case \")\":\r\n\t\t\t\t\twhile(1){\r\n\t\t\t\t\t\tvar top=stack[stack.length-1]\r\n\t\t\t\t\t\tif(top.type!=\"(\")\r\n\t\t\t\t\t\t\trpn.push(stack.pop());\r\n\t\t\t\t\t\telse\r\n\t\t\t\t\t\t\tbreak;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tstack.pop();\r\n\t\t\t\tbreak;default:\r\n\t\t\t\tassert(false,\"error typ \"+token.type)\r\n\t\t\t}\r\n\t\t}\r\n\t\twhile(stack.length)\r\n\t\t\trpn.push(stack.pop());\r\n\t\treturn rpn;\r\n\t}\r\n\t\r\n\tfunction readExpression2(){\r\n\t\tvar ret=false;\r\n\t\tnext();\r\n\t\tswitch(type){\r\n\t\t\t//function or variable\r\n\t\t\tcase \"word\":\r\n\t\t\t\tvar name=word;\r\n\t\t\t\tif(readToken(\"(\")){\r\n\t\t\t\t\texpr.push({type:\"(\"}); //all we needed!\r\n\t\t\t\t\tvar x=readList2(readExpression2);\r\n\t\t\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\" in function call\");\r\n\t\t\t\t\texpr.push({type:\")\"});\r\n\t\t\t\t\texpr.push({type:\"function\",name:name,args:x.length});\r\n\t\t\t\t}else\r\n\t\t\t\t\texpr.push({type:\"variable\",name:name});\r\n\t\t\t//number literals\r\n\t\t\tbreak;case \"number\":\r\n\t\t\t\texpr.push({type:\"number\",value:word});\r\n\t\t\t//string/label\r\n\t\t\tbreak;case \"string\":\r\n\t\t\t\texpr.push({type:\"string\",value:word});\r\n\t\t\t//operator (unary)\r\n\t\t\tbreak;case \"unary\":case \"minus\":case \"xor\":\r\n\t\t\t\t//unary op\r\n\t\t\t\texpr.push({type:\"unary\",name:word,args:1});\r\n\t\t\t\t//expr.push({type:\"(\"}); //actual fear\r\n\t\t\t\tassert(readExpression2(),\"Missing operator argument\");\r\n\t\t\t\t//expr.push({type:\")\"});\r\n\t\t\t\t\r\n\t\t\t//open parenthesis\r\n\t\t\tbreak;case \"(\":\r\n\t\t\t\texpr.push({type:\"(\"});\r\n\t\t\t\treadExpression2();\r\n\t\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\"\");\r\n\t\t\t\texpr.push({type:\")\"});\r\n\t\t\tbreak;case \"[\":\r\n\t\t\t\texpr.push({type:\"(\"});\r\n\t\t\t\tvar x=readList2(readExpression2);\r\n\t\t\t\texpr.push({type:\"array\",args:x.length});\r\n\t\t\t\tassert(readToken(\"]\"),\"Missing \\\"]\\\"\");\r\n\t\t\t\texpr.push({type:\")\"});\r\n\t\t\t\t\r\n\t\t\t//other crap\r\n\t\t\tbreak;default:\r\n\t\t\t\treadNext=0;\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\twhile(readToken(\"dot\")){\r\n\t\t\tassert(readToken(\"word\"),\"Dot missing function\");\r\n\t\t\tvar name=word;\r\n\t\t\tassert(readToken(\"(\"),\"Dot missing function\");\r\n\t\t\texpr.push({type:\"(\"}); //all we needed!\r\n\t\t\tvar x=readList2(readExpression2);\r\n\t\t\tassert(readToken(\")\"),\"Missing \\\")\\\" in function call\");\r\n\t\t\texpr.push({type:\")\"});\r\n\t\t\texpr.push({type:\"function\",name:name,args:x.length+1});\r\n\t\t}\r\n\t\t//read infix operators\r\n\t\t//this might have to be WHILE not IF\r\n\t\tif(readToken(\"operator\")||readToken(\"minus\")||readToken(\"xor\")){\r\n\t\t\texpr.push({type:\"operator\",name:word,args:2});\r\n\t\t\tassert(readExpression2(),\"Operator missing second argument\");\r\n\t\t}\r\n\t\treturn true;\r\n\t}\r\n\t\r\n\t//read function definition argument\r\n\tfunction readArgument(){\r\n\t\tif(readToken(\"word\"))\r\n\t\t\treturn word;\r\n\t\telse\r\n\t\t\treturn false;\r\n\t}\r\n\t\r\n\t//read variable declaration\r\n\tfunction readDeclaration(){\r\n\t\tvar ret={};\r\n\t\tif(readToken(\"word\")){\r\n\t\t\tret.name=word;\r\n\t\t\tif(readToken(\"=\"))\r\n\t\t\t\tret.value=readExpression();\r\n\t\t\treturn ret;\r\n\t\t}\r\n\t\treturn false;\r\n\t}\r\n\t\r\n\t//keys:\r\n\t//name: [variable name expr token list]\r\n\t//indexes: [index list]\r\n\tfunction readVariable(){\r\n\t\tvar ret={name:\"\"};\r\n\t\tnext();\r\n\t\treturn {name:word}\r\n\t\tswitch(type){\r\n\t\t\tcase \"word\":\r\n\t\t\t\tret.name=word;\r\n\t\t\tbreak;default:\r\n\t\t\t\treadNext=0;\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\treturn ret;\r\n\t}\r\n\t\r\n\t//throw error with message if condition is false\r\n\tfunction assert(condition,message){\r\n\t\tif(!condition){\r\n\t\t\t//message//+=\" on line \"+lineNumber;\r\n\t\t\tconsole.log(message);\r\n\t\t\tvar error=new Error(message);\r\n\t\t\terror.name=\"ParseError\";\r\n\t\t\tthrow error;\r\n\t\t}\r\n\t}\r\n\t\r\n\t//I forgot how this works...\r\n\tfunction next(){\r\n\t\tif(readNext===1){\r\n\t\t\tvar items=nextToken();\r\n\t\t\ttype=items.type;\r\n\t\t\tword=items.word;\r\n\t\t}else if(readNext===-1){\r\n\t\t\ttype=newType;\r\n\t\t\tword=newWord;\r\n\t\t\treadNext=1;\r\n\t\t//I don't think this ever happens?\r\n\t\t}else if(readNext===-2)\r\n\t\t\treadNext=-1;\r\n\t\telse\r\n\t\t\treadNext=1;\r\n\t}\r\n\t\r\n\t//handle single line IF blocks at the end of the program (temporary fix)\r\n\tif(ifThisLine){\r\n\t\tifThisLine=false;\r\n\t\tif(codeAfterThen){\r\n\t\t\tendBlock();\r\n\t\t\tconsole.log(\"ended single line IF\");\r\n\t\t}\r\n\t}\r\n\t\r\n\tif(currentBlocks.length>=2)\r\n\t\treturn \"Unclosed \"+currentBlocks[1].type;\r\n\t//currentBlocks[1]=defs;\r\n\treturn currentBlocks;\r\n}", "function parseExprList(close, allowTrailingComma, allowEmpty) {\n var elts = [], first = true;\n while (!eat(close)) {\n if (!first) {\n expect(_comma);\n if (allowTrailingComma && options.allowTrailingCommas && eat(close)) break;\n } else first = false;\n\n if (allowEmpty && tokType === _comma) elts.push(null);\n else elts.push(parseExpression(true));\n }\n return elts;\n }", "function sequence ( parserSyntax ) {\n\t\t\t\tvar i, res,\n\t\t\t\t\toriginalPos = pos,\n\t\t\t\t\tresult = [];\n\n\t\t\t\tfor ( i = 0; i < parserSyntax.length; i++ ) {\n\t\t\t\t\tres = parserSyntax[i]();\n\n\t\t\t\t\tif ( res === null ) {\n\t\t\t\t\t\tpos = originalPos;\n\n\t\t\t\t\t\treturn null;\n\t\t\t\t\t}\n\n\t\t\t\t\tresult.push( res );\n\t\t\t\t}\n\n\t\t\t\treturn result;\n\t\t\t}", "parseTopLevel() {\n const prog = [];\n while (!this.input.eof()) {\n const expr = this.parseExpression();\n this.currentNode = expr;\n if (expr) {\n prog.push(expr);\n }\n }\n\n return { type: \"prog\", prog: prog };\n }", "function sequence (parserSyntax) {\n const originalPos = pos\n\n const result = []\n\n for (let i = 0; i < parserSyntax.length; i++) {\n const res = parserSyntax[i]()\n\n if (res === null) {\n pos = originalPos\n\n return null\n }\n\n result.push(res)\n }\n\n return result\n }", "function parseList(kind, parseElement) {\n var saveParsingContext = parsingContext;\n parsingContext |= 1 << kind;\n var result = [];\n result.pos = getNodePos();\n while (!isListTerminator(kind)) {\n if (isListElement(kind, /*inErrorRecovery*/ false)) {\n var element = parseListElement(kind, parseElement);\n result.push(element);\n continue;\n }\n if (abortParsingListOrMoveToNextToken(kind)) {\n break;\n }\n }\n result.end = getNodeEnd();\n parsingContext = saveParsingContext;\n return result;\n }", "function many(parser) {\n return function(input) {\n var value = {rest: input, parsed: '', ast: []};\n for(var i = 0; true; i++) {\n var result = parser(value.rest);\n if(result != false) {\n if(result.ast != null) {\n value.ast.push(result.ast);\n }\n value = {rest: result.rest,\n parsed: value.parsed + result.parsed,\n ast: value.ast};\n }\n else {\n if(value.parsed == '') {\n value = {rest: value.rest,\n parsed: '',\n ast: null};\n }\n break;\n }\n }\n return value;\n };\n}", "function parseExprList(close, allowEmpty = false) {\n let first = true;\n while (!eat(close) && !state.error) {\n if (first) {\n first = false;\n } else {\n expect(TokenType.comma);\n if (eat(close)) break;\n }\n parseExprListItem(allowEmpty);\n }\n}", "parseBody() {\n const bodys = []\n while (this.currentToken !== SyntaxKind.EndOfFileToken) {\n bodys.push(this.parseLexicalDeclaration())\n }\n return bodys\n }", "allTokens() {\r\n console.log('in alltokens()');\r\n let token = this.nextToken();\r\n let tokens = [];\r\n while (token.type !== TokenType.EndOfInput) {\r\n tokens.push(token);\r\n console.log(tokens);\r\n token = this.nextToken();\r\n console.log(token +' '+this.input.charAt(this.position));\r\n\r\n if(typeof(token) === 'undefined'){\r\n console.log('token is undefined :' + token);\r\n }\r\n }\r\n console.log('going out of allTokens()');\r\n return tokens;\r\n }", "@memoize\n get parser() {\n return new TaskList({\n name: `Parsing ${this.type}: ${this.projectName}`,\n tasks: [\n new Task({\n name: `Loading ${this.type}`,\n run: (parentScope) => {\n this.resetCompiled()\n const scope = this.getScope(parentScope)\n this.setState(\"scope\", scope)\n return this.load()\n }\n }),\n TaskList.forEach({\n name: `Parsing imports`,\n list: () => this.activeImports,\n getTask: (file) =>\n new Task({\n name: `Parsing import: ${file.file}`,\n run: () => file.parse(this.scope)\n })\n })\n ]\n })\n }", "function parse(inp) {\n var tokens;\n var ind = 0;\n var out = [];\n\n function tokenize(inp) {\n var tokens = [];\n for (var i = 0; i < inp.length; i++) {\n if (inp[i] === ';') {\n i++;\n while (inp[i] !== '\\n' && i < inp.length) {\n i++;\n }\n continue;\n } else if (inp[i] === ' ' ||\n inp[i] === '\\n' ||\n inp[i] === '\\r' ||\n inp[i] === '\\t') {\n continue;\n } else if (inp[i] === '(' ||\n inp[i] === ')') {\n tokens.push(inp[i]);\n } else {\n var token = \"\";\n while (inp[i] !== ';' &&\n inp[i] !== ' ' &&\n inp[i] !== '\\n' &&\n inp[i] !== '\\r' &&\n inp[i] !== '\\t' &&\n inp[i] !== '(' &&\n inp[i] !== ')' &&\n i < inp.length) {\n token += inp[i];\n i++;\n }\n i--; // FIXME: why the hack?\n if (!isNaN(token)) {\n tokens.push(+token);\n } else {\n tokens.push(token);\n }\n }\n }\n return tokens;\n }\n\n tokens = tokenize(inp);\n\n function parseList() {\n ind++;\n var lst = [];\n while (ind < tokens.length) {\n if (tokens[ind] === '(') {\n lst.push(parseList());\n } else if (tokens[ind] === ')') {\n return lst;\n } else {\n lst.push(tokens[ind]);\n }\n ind++;\n }\n }\n\n while (ind < tokens.length) {\n if (tokens[ind] === '(') {\n out.push(parseList());\n } else if (tokens[ind] === ')') {\n error(\"unexpected ')'\");\n } else {\n out.push(tokens[ind]);\n }\n ind++;\n }\n\n return out;\n}", "function parseTokens(pf, ar) {\r\n\t// What the next argument is expected to be.\r\n\tvar v, i, mode=-1, par = (pf != 'ol_');\t\r\n\tvar fnMark = (par && !ar.length ? 1 : 0);\r\n\r\n\tfor (i = 0; i < ar.length; i++) {\r\n\t\tif (mode < 0) {\r\n\t\t\t// Arg is maintext,unless its a number between pmStart and pmUpper\r\n\t\t\t// then its a command.\r\n\t\t\tif (typeof ar[i] == 'number' && ar[i] > pmStart && ar[i] < pmUpper) {\r\n\t\t\t\tfnMark = (par ? 1 : 0);\r\n\t\t\t\ti--; // backup one so that the next block can parse it\r\n\t\t\t} else {\r\n\t\t\t\tswitch(pf) {\r\n\t\t\t\t\tcase 'ol_':\r\n\t\t\t\t\t\tol_text = ar[i].toString();\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t\tdefault:\r\n\t\t\t\t\t\to3_text=ar[i].toString(); \r\n\t\t\t\t}\r\n\t\t\t}\r\n\t\t\tmode = 0;\r\n\t\t} else {\r\n\t\t\t// Note: NS4 doesn't like switch cases with vars.\r\n\t\t\tif (ar[i] >= pmCount || ar[i]==DONOTHING) { continue; }\r\n\t\t\tif (ar[i]==INARRAY) { fnMark = 0; eval(pf+'text=ol_texts['+ar[++i]+'].toString()'); continue; }\r\n\t\t\tif (ar[i]==CAPARRAY) { eval(pf+'cap=ol_caps['+ar[++i]+'].toString()'); continue; }\r\n\t\t\tif (ar[i]==STICKY) { if (pf!='ol_') eval(pf+'sticky=1'); continue; }\r\n\t\t\tif (ar[i]==BACKGROUND) { eval(pf+'background=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==NOCLOSE) { if (pf!='ol_') opt_NOCLOSE(); continue; }\r\n\t\t\tif (ar[i]==CAPTION) { eval(pf+\"cap='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CENTER || ar[i]==LEFT || ar[i]==RIGHT) { eval(pf+'hpos='+ar[i]); if(pf!='ol_') olHautoFlag=1; continue; }\r\n\t\t\tif (ar[i]==OFFSETX) { eval(pf+'offsetx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==OFFSETY) { eval(pf+'offsety='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FGCOLOR) { eval(pf+'fgcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGCOLOR) { eval(pf+'bgcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTCOLOR) { eval(pf+'textcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPCOLOR) { eval(pf+'capcolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSECOLOR) { eval(pf+'closecolor=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==WIDTH) { eval(pf+'width='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==BORDER) { eval(pf+'border='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==CELLPAD) { i=opt_MULTIPLEARGS(++i,ar,(pf+'cellpad')); continue; }\r\n\t\t\tif (ar[i]==STATUS) { eval(pf+\"status='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==AUTOSTATUS) { eval(pf +'autostatus=('+pf+'autostatus == 1) ? 0 : 1'); continue; }\r\n\t\t\tif (ar[i]==AUTOSTATUSCAP) { eval(pf +'autostatus=('+pf+'autostatus == 2) ? 0 : 2'); continue; }\r\n\t\t\tif (ar[i]==HEIGHT) { eval(pf+'height='+pf+'aboveheight='+ar[++i]); continue; } // Same param again.\r\n\t\t\tif (ar[i]==CLOSETEXT) { eval(pf+\"close='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==SNAPX) { eval(pf+'snapx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==SNAPY) { eval(pf+'snapy='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FIXX) { eval(pf+'fixx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FIXY) { eval(pf+'fixy='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==RELX) { eval(pf+'relx='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==RELY) { eval(pf+'rely='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FGBACKGROUND) { eval(pf+'fgbackground=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGBACKGROUND) { eval(pf+'bgbackground=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==PADX) { eval(pf+'padxl='+ar[++i]); eval(pf+'padxr='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==PADY) { eval(pf+'padyt='+ar[++i]); eval(pf+'padyb='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FULLHTML) { if (pf!='ol_') eval(pf+'fullhtml=1'); continue; }\r\n\t\t\tif (ar[i]==BELOW || ar[i]==ABOVE) { eval(pf+'vpos='+ar[i]); if (pf!='ol_') olVautoFlag=1; continue; }\r\n\t\t\tif (ar[i]==CAPICON) { eval(pf+'capicon=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTFONT) { eval(pf+\"textfont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CAPTIONFONT) { eval(pf+\"captionfont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CLOSEFONT) { eval(pf+\"closefont='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==TEXTSIZE) { eval(pf+'textsize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPTIONSIZE) { eval(pf+'captionsize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSESIZE) { eval(pf+'closesize=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TIMEOUT) { eval(pf+'timeout='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==FUNCTION) { if (pf=='ol_') { if (typeof ar[i+1]!='number') { v=ar[++i]; ol_function=(typeof v=='function' ? v : null); }} else {fnMark = 0; v = null; if (typeof ar[i+1]!='number') v = ar[++i]; opt_FUNCTION(v); } continue; }\r\n\t\t\tif (ar[i]==DELAY) { eval(pf+'delay='+ar[++i]); continue; }\r\n\t\t\tif (ar[i]==HAUTO) { eval(pf+'hauto=('+pf+'hauto == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==VAUTO) { eval(pf+'vauto=('+pf+'vauto == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==CLOSECLICK) { eval(pf +'closeclick=('+pf+'closeclick == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==WRAP) { eval(pf +'wrap=('+pf+'wrap == 0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==FOLLOWMOUSE) { eval(pf +'followmouse=('+pf+'followmouse == 1) ? 0 : 1'); continue; }\r\n\t\t\tif (ar[i]==MOUSEOFF) { eval(pf +'mouseoff=('+pf+'mouseoff==0) ? 1 : 0'); v=ar[i+1]; if (pf != 'ol_' && eval(pf+'mouseoff') && typeof v == 'number' && (v < pmStart || v > pmUpper)) olHideDelay=ar[++i]; continue; }\r\n\t\t\tif (ar[i]==CLOSETITLE) { eval(pf+\"closetitle='\"+escSglQuote(ar[++i])+\"'\"); continue; }\r\n\t\t\tif (ar[i]==CSSOFF||ar[i]==CSSCLASS) { eval(pf+'css='+ar[i]); continue; }\r\n\t\t\tif (ar[i]==COMPATMODE) { eval(pf+'compatmode=('+pf+'compatmode==0) ? 1 : 0'); continue; }\r\n\t\t\tif (ar[i]==FGCLASS) { eval(pf+'fgclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==BGCLASS) { eval(pf+'bgclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==TEXTFONTCLASS) { eval(pf+'textfontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CAPTIONFONTCLASS) { eval(pf+'captionfontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\tif (ar[i]==CLOSEFONTCLASS) { eval(pf+'closefontclass=\"'+ar[++i]+'\"'); continue; }\r\n\t\t\ti = parseCmdLine(pf, i, ar);\r\n\t\t}\r\n\t}\r\n\r\n\tif (fnMark && o3_function) o3_text = o3_function();\r\n\t\r\n\tif ((pf == 'o3_') && o3_wrap) {\r\n\t\to3_width = 0;\r\n\t\t\r\n\t\tvar tReg=/<.*\\n*>/ig;\r\n\t\tif (!tReg.test(o3_text)) o3_text = o3_text.replace(/[ ]+/g, '&nbsp;');\r\n\t\tif (!tReg.test(o3_cap))o3_cap = o3_cap.replace(/[ ]+/g, '&nbsp;');\r\n\t}\r\n\tif ((pf == 'o3_') && o3_sticky) {\r\n\t\tif (!o3_close && (o3_frame != ol_frame)) o3_close = ol_close;\r\n\t\tif (o3_mouseoff && (o3_frame == ol_frame)) opt_NOCLOSE(' ');\r\n\t}\r\n}", "*compose(tokens, forceDoc = false, endOffset = -1) {\n for (const token of tokens)\n yield* this.next(token);\n yield* this.end(forceDoc, endOffset);\n }", "*compose(tokens, forceDoc = false, endOffset = -1) {\n for (const token of tokens)\n yield* this.next(token);\n yield* this.end(forceDoc, endOffset);\n }", "parseAtom() {\n\t\tif (this.is('keyword', 'fn')) {\n\t\t\tthis.functions.push(this.parseFunction());\n\t\t\treturn;\n\t\t}\n\n\t\tif (this.is('keyword', 'object')) return this.parseObject();\n\t\tif (this.is('keyword', 'if')) return this.parseIf();\n\t\tif (this.is('keyword', 'let')) return this.parseBinding();\n\n\t\t// parse binary within parenthesis first, because math\n\t\tif (this.is('punctuation', '(')) return this.parseParenthesisBinary();\n\t\tif (this.is('instruction', 'print')) return this.parsePrintInstruction();\n\t\tif (this.is('instruction', 'syscall')) return this.parseSyscallInstruction();\n\t\t\t\t\t\n\t\tif (this.is('keyword', 'ret')) return this.parseReturn();\n\t\tif (this.is('identifier')) return this.parseIdentifier();\n\n\t\tlet peek = this.peek();\n\t\tif (peek.type === 'numberLiteral') return this.next();\n\n\t\tthrow new ParserError(\n\t\t\t'E0002',\n\t\t\t'UnexpectedToken',\n\t\t\t`Unexpected token ${peek.value}, but I don't really know what I expected either`, \n\t\t\tpeek.position.line, \n\t\t\tpeek.position.column, \n\t\t\tpeek,\n\t\t\tthis.module\n\t\t);\n\t}", "parse(toParse, options) {\n var _a;\n let tokens;\n if (typeof toParse === 'string') {\n tokens = Lexer_1.Lexer.scan(toParse).tokens;\n }\n else {\n tokens = toParse;\n }\n this.logger = (_a = options === null || options === void 0 ? void 0 : options.logger) !== null && _a !== void 0 ? _a : new Logger_1.Logger();\n this.tokens = tokens;\n this.options = this.sanitizeParseOptions(options);\n this.allowedLocalIdentifiers = [\n ...TokenKind_1.AllowedLocalIdentifiers,\n //when in plain brightscript mode, the BrighterScript source literals can be used as regular variables\n ...(this.options.mode === ParseMode.BrightScript ? TokenKind_1.BrighterScriptSourceLiterals : [])\n ];\n this.current = 0;\n this.diagnostics = [];\n this.namespaceAndFunctionDepth = 0;\n this.pendingAnnotations = [];\n this.ast = this.body();\n //now that we've built the AST, link every node to its parent\n this.ast.link();\n return this;\n }", "static parseStatementList(parseTokens) {\n //Check if the token is empty or not.\n _Functions.log(\"PARSER - parseStatementList()\");\n CSTTree.addNode(\"StatementList\", \"branch\");\n while (parseTokens[tokenPointer] != \"}\") {\n _Functions.log(\"PARSER - parseStatement()\");\n CSTTree.addNode(\"Statement\", \"branch\");\n //this.parseStatement(parseTokens);\n //Use regular expressions from lex to check what type of statement is to be parsed.\n if (printRegEx.test(parseTokens[tokenPointer])) {\n this.parsePrintStatement(parseTokens);\n }\n //Check for assignment op.\n else if (assignment.test(parseTokens[tokenPointer + 1])) {\n this.parseAssignmentStatement(parseTokens);\n }\n //Check for var declaration types - boolean, int, string.\n else if (boolRegEx.test(parseTokens[tokenPointer]) || stringRegEx.test(parseTokens[tokenPointer])\n || intRegEx.test(parseTokens[tokenPointer])) {\n this.parseVarDecl(parseTokens);\n }\n //Check for while statement.\n else if (whileRegEx.test(parseTokens[tokenPointer])) {\n this.parseWhileStatement(parseTokens);\n }\n //Check for if statement.\n else if (ifRegEx.test(parseTokens[tokenPointer])) {\n this.parseIfStatement(parseTokens);\n }\n //Check for opening or closing block.\n else if (leftBlock.test(parseTokens[tokenPointer])) {\n this.parseBlock(parseTokens);\n }\n else {\n _Functions.log(\"PARSER ERROR - Expected beginning of statement tokens\"\n + \"(if, print, while, {}, assignment statement, boolean, int, string)\");\n parseErrCount++;\n break;\n }\n CSTTree.climbTree();\n }\n CSTTree.climbTree();\n }", "function postProcess(state) {\n var i, j,\n startDelim,\n endDelim,\n token,\n loneMarkers = [],\n delimiters = state.delimiters,\n max = state.delimiters.length;\n\n for (i = 0; i < max; i++) {\n startDelim = delimiters[i];\n\n if (startDelim.marker !== delimiter.charCodeAt(0)) {\n continue;\n }\n\n if (startDelim.end === -1) {\n continue;\n }\n\n endDelim = delimiters[startDelim.end];\n\n token = state.tokens[startDelim.token];\n token.type = `${ruleName}_open` \n token.tag = 'span';\n token.attrs = [['class', ruleName]];\n token.nesting = 1;\n token.markup = delimiter;\n token.content = '';\n\n token = state.tokens[endDelim.token];\n token.type = `${ruleName}_close` \n token.tag = 'span';\n token.nesting = -1;\n token.markup = delimiter;\n token.content = '';\n\n if (state.tokens[endDelim.token - 1].type === 'text' &&\n state.tokens[endDelim.token - 1].content === delimiter.charAt(0)) {\n\n loneMarkers.push(endDelim.token - 1);\n }\n }\n\n // If a marker sequence has an odd number of characters, it's splitted\n // like this: `~~~~~` -> `~` + `~~` + `~~`, leaving one marker at the\n // start of the sequence.\n //\n // So, we have to move all those markers after subsequent s_close tags.\n while (loneMarkers.length) {\n i = loneMarkers.pop();\n j = i + 1;\n\n while (j < state.tokens.length && state.tokens[j].type === `${ruleName}_close`) {\n j++;\n }\n\n j--;\n\n if (i !== j) {\n token = state.tokens[j];\n state.tokens[j] = state.tokens[i];\n state.tokens[i] = token;\n }\n }\n }", "function parser(tokens) {\n let ast = {\n type: 'Program',\n body: []\n };\n\n function walk(tokensToUse) {\n let node = {\n type: 'CallExpression',\n name: '',\n params: [],\n }\n\n for (let i = 0; i < tokensToUse.length; i++) {\n let currentToken = tokensToUse[i];\n if (currentToken.type === 'paren' && currentToken.value === '(') {\n if (node.name !== '') {\n let updatedTokens = tokensToUse.slice(i + 1);\n let result = { ...walk(updatedTokens) }\n node.params.push(result.x);\n i = tokensToUse[result.i + i]\n continue\n } else {\n continue\n }\n }\n\n if (currentToken.type === 'name') {\n node.name = currentToken.value;\n continue\n }\n\n if (currentToken.type === 'number') {\n node.params.push({\n type: 'NumberLiteral',\n value: currentToken.value\n });\n continue;\n }\n\n if (currentToken.type === 'string') {\n node.params.push({\n type: 'StringLiteral',\n value: currentToken.value\n });\n continue;\n }\n\n if (currentToken.type === 'paren' && currentToken.value === ')') {\n let x = { ...node }\n return { x, i };\n }\n }\n\n }\n\n let mainResult = walk(tokens)\n ast.body.push(mainResult.x);\n return ast\n}", "walkTokens(tokens, callback) {\n let values = [];\n for (const token of tokens) {\n values = values.concat(callback.call(this, token));\n switch (token.type) {\n case \"table\": {\n for (const cell of token.header) {\n values = values.concat(this.walkTokens(cell.tokens, callback));\n }\n for (const row of token.rows) {\n for (const cell of row) {\n values = values.concat(this.walkTokens(cell.tokens, callback));\n }\n }\n break;\n }\n case \"list\": {\n values = values.concat(this.walkTokens(token.items, callback));\n break;\n }\n default: {\n if (this.defaults.extensions && this.defaults.extensions.childTokens && this.defaults.extensions.childTokens[token.type]) {\n this.defaults.extensions.childTokens[token.type].forEach((childTokens) => {\n values = values.concat(this.walkTokens(token[childTokens], callback));\n });\n } else if (token.tokens) {\n values = values.concat(this.walkTokens(token.tokens, callback));\n }\n }\n }\n }\n return values;\n }", "static parseCharList(parseTokens) {\n _Functions.log(\"PARSER - parseCharList()\");\n CSTTree.addNode(\"CharList\", \"branch\");\n if (parseTokens[tokenPointer] === \" \") {\n this.parseSpace(parseTokens);\n }\n else if (characters.test(parseTokens[tokenPointer])) {\n let string = \"\";\n //Builds string until there is a quote.\n while (!quotes.test(parseTokens[tokenPointer])) {\n //this.parseChar(parseTokens);\n string += parseTokens[tokenPointer];\n tokenPointer++;\n }\n _Functions.log(\"PARSER - String: \" + string);\n this.parseString(parseTokens, string);\n }\n else {\n //Not an empty else, represents do nothing.\n }\n CSTTree.climbTree();\n }", "static parse(parseTokens) {\n let isParsed = false;\n CSTTree = new mackintosh.CST();\n ASTTree = new mackintosh.CST();\n tokenPointer = 0;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Parsing Program \" + (programCount - 1));\n //Check if there are tokens in the token stream.\n if (parseTokens.length == 0) {\n _Functions.log(\"PARSER ERROR - There are no tokens to be parsed.\");\n parseErrCount++;\n }\n //Begin parse.\n else {\n //Use try catch to check for parse failures and output them.\n try {\n this.parseProgram(parseTokens);\n _Functions.log(\"PARSER - Parse completed with \" + parseErrCount + \" errors and \" +\n parseWarnCount + \" warnings\");\n //Prints the CST if there are no more errors.\n if (parseErrCount <= 0) {\n isParsed = true;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Program \" + (programCount - 1) + \" CST:\");\n _Functions.log(CSTTree.toString());\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - Program \" + (programCount - 1) + \" AST:\");\n _Functions.log(ASTTree.toString());\n }\n else {\n isParsed = false;\n _Functions.log(\"\\n\");\n _Functions.log(\"\\n\");\n _Functions.log(\"PARSER - CST and AST not displayed due to parse errors.\");\n }\n }\n catch (error) {\n _Functions.log(error);\n _Functions.log(\"PARSER - Error caused parse to end.\");\n parseErrCount++;\n }\n }\n return isParsed;\n }", "parse() {\n while (this.shouldContinue()) {\n const c = this.buffer.charCodeAt(this.index - this.offset);\n switch (this.state) {\n case Tokenizer_State.Text: {\n this.stateText(c);\n break;\n }\n case Tokenizer_State.SpecialStartSequence: {\n this.stateSpecialStartSequence(c);\n break;\n }\n case Tokenizer_State.InSpecialTag: {\n this.stateInSpecialTag(c);\n break;\n }\n case Tokenizer_State.CDATASequence: {\n this.stateCDATASequence(c);\n break;\n }\n case Tokenizer_State.InAttributeValueDq: {\n this.stateInAttributeValueDoubleQuotes(c);\n break;\n }\n case Tokenizer_State.InAttributeName: {\n this.stateInAttributeName(c);\n break;\n }\n case Tokenizer_State.InCommentLike: {\n this.stateInCommentLike(c);\n break;\n }\n case Tokenizer_State.InSpecialComment: {\n this.stateInSpecialComment(c);\n break;\n }\n case Tokenizer_State.BeforeAttributeName: {\n this.stateBeforeAttributeName(c);\n break;\n }\n case Tokenizer_State.InTagName: {\n this.stateInTagName(c);\n break;\n }\n case Tokenizer_State.InClosingTagName: {\n this.stateInClosingTagName(c);\n break;\n }\n case Tokenizer_State.BeforeTagName: {\n this.stateBeforeTagName(c);\n break;\n }\n case Tokenizer_State.AfterAttributeName: {\n this.stateAfterAttributeName(c);\n break;\n }\n case Tokenizer_State.InAttributeValueSq: {\n this.stateInAttributeValueSingleQuotes(c);\n break;\n }\n case Tokenizer_State.BeforeAttributeValue: {\n this.stateBeforeAttributeValue(c);\n break;\n }\n case Tokenizer_State.BeforeClosingTagName: {\n this.stateBeforeClosingTagName(c);\n break;\n }\n case Tokenizer_State.AfterClosingTagName: {\n this.stateAfterClosingTagName(c);\n break;\n }\n case Tokenizer_State.BeforeSpecialS: {\n this.stateBeforeSpecialS(c);\n break;\n }\n case Tokenizer_State.InAttributeValueNq: {\n this.stateInAttributeValueNoQuotes(c);\n break;\n }\n case Tokenizer_State.InSelfClosingTag: {\n this.stateInSelfClosingTag(c);\n break;\n }\n case Tokenizer_State.InDeclaration: {\n this.stateInDeclaration(c);\n break;\n }\n case Tokenizer_State.BeforeDeclaration: {\n this.stateBeforeDeclaration(c);\n break;\n }\n case Tokenizer_State.BeforeComment: {\n this.stateBeforeComment(c);\n break;\n }\n case Tokenizer_State.InProcessingInstruction: {\n this.stateInProcessingInstruction(c);\n break;\n }\n case Tokenizer_State.InNamedEntity: {\n this.stateInNamedEntity(c);\n break;\n }\n case Tokenizer_State.BeforeEntity: {\n this.stateBeforeEntity(c);\n break;\n }\n case Tokenizer_State.InHexEntity: {\n this.stateInHexEntity(c);\n break;\n }\n case Tokenizer_State.InNumericEntity: {\n this.stateInNumericEntity(c);\n break;\n }\n default: {\n // `this._state === State.BeforeNumericEntity`\n this.stateBeforeNumericEntity(c);\n }\n }\n this.index++;\n }\n this.cleanup();\n }", "function getOpenNodes()\n{\n\tvalue = new Array();\n\tvar myLists = document.getElementsByTagName(\"UL\");\n\tfor(i=0;i<myLists.length;i++)\n\t{\n\t\tif(myLists[i].className == \"Xtree\" && myLists[i].style.display == \"block\")\tvalue += myLists[i].id + \"-\";\n\t}\n\treturn value;\n}", "function parse(inp){\n\tvar outQueue=[];\n\tvar opStack=[];\n\n\t//peek the top most element\n\tArray.prototype.peek = function() {\n\t\treturn this.slice(-1)[0];\n\t};\n\n\t//associativity rule for evaluation\n\tvar assoc = {\n\t\t\"^\" : \"right\",\n\t\t\"*\" : \"left\",\n\t\t\"/\" : \"left\",\n\t\t\"+\" : \"left\",\n\t\t\"-\" : \"left\"\n\t};\n\n\t//precendence rule for evaluation\n\tvar prec = {\n\t\t\"^\" : 4,\n\t\t\"*\" : 3,\n\t\t\"/\" : 3,\n\t\t\"+\" : 2,\n\t\t\"-\" : 2\n\t};\n\n\tToken.prototype.precedence = function() {\n\t\treturn prec[this.value];\n\t};\n\t\n\tToken.prototype.associativity = function() {\n\t\treturn assoc[this.value];\n\t};\n\n\t//tokenize\n\tvar tokens=tokenize(inp);\n\n\ttokens.forEach(function(v) {\n\t\t//If the token is a number, then push it to the output queue\n\t\tif(v.type === \"Literal\" || v.type === \"Variable\" ) {\n\t\t\toutQueue.push(v);\n\t\t} \n\t\t//If the token is a function token, then push it onto the stack.\n\t\telse if(v.type === \"Function\") {\n\t\t\topStack.push(v);\n\t\t} //If the token is a function argument separator \n\t\telse if(v.type === \"Function Argument Separator\") {\n\t\t\t//Until the token at the top of the stack is a left parenthesis\n\t\t\t//pop operators off the stack onto the output queue.\n\t\t\twhile(opStack.peek()\n\t\t\t\t&& opStack.peek().type !== \"Left Parenthesis\") {\n\t\t\t\toutQueue.push(opStack.pop());\n\t\t\t}\n\t\t} \n\t\t//If the token is an operator, o1, then:\n\t\telse if(v.type == \"Operator\") {\n\t\t\t //while there is an operator token o2, at the top of the operator stack and either\n\t\t\t while (opStack.peek() && (opStack.peek().type === \"Operator\") \n\t\t\t\t//o1 is left-associative and its precedence is less than or equal to that of o2, or\n\t\t\t\t&& ((v.associativity() === \"left\" && v.precedence() <= opStack.peek().precedence())\n\t\t\t\t\t//o1 is right associative, and has precedence less than that of o2,\n\t\t\t\t\t|| (v.associativity() === \"right\" && v.precedence() < opStack.peek().precedence()))) {\n\t\t\t \toutQueue.push(opStack.pop()+\" \");\n\t\t\t}\n\t\t\t//at the end of iteration push o1 onto the operator stack\n\t\t\topStack.push(v);\n\t\t} \n\t\t\n\t\t//If the token is a left parenthesis (i.e. \"(\"), then push it onto the stack.\n\t\telse if(v.type === \"Left Parenthesis\") {\n\t\t\topStack.push(v+\" \");\n\t\t}\n\t\t//If the token is a right parenthesis (i.e. \")\"):\n\t\telse if(v.type === \"Right Parenthesis\") {\n\t\t\t//Until the token at the top of the stack is a left parenthesis, pop operators off the stack onto the output queue.\n\t\t\twhile(opStack.peek() \n\t\t\t\t&& opStack.peek().type !== \"Left Parenthesis\") {\n\t\t\t\toutQueue.push(opStack.pop()+\" \");\n\t\t}\n\t\t\tif(opStack.length == 0){\n\t\t\t\tconsole.log(\"Unmatched parentheses\");\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t//Pop the left parenthesis from the stack, but not onto the output queue.\n\t\t\topStack.pop();\n\n\t\t\t//If the token at the top of the stack is a function token, pop it onto the output queue.\n\t\t\tif(opStack.peek() && opStack.peek().type === \"Function\") {\n\t\t\t\toutQueue.push(opStack.pop()+\" \");\n\t\t\t}\n\t\t}\n\t});\n\treturn outQueue.concat(opStack.reverse());\n}", "function parse()\n\t{\n\t\t// Run a simple cleanup pass on the expression before parsing\n\t\texpression = cleanExpression(expression);\n\n\t\t// Special case infinite and no solutions. They appear as a sequence of multiplied variables to the parser.\n\t\tif (expression === \"infinitesolutions\")\n\t\t{\n\t\t\tpostFixTokens.push(new tree.Token(tree.Token.functionType, \"infinitesolutions\"));\n\t\t\treturn true;\n\t\t}\n\t\telse if(expression === \"nosolutions\")\n\t\t{\n\t\t\tpostFixTokens.push(new tree.Token(tree.Token.functionType, \"nosolutions\"));\n\t\t\treturn true;\n\t\t}\n\n\t\t// This is an interesting special case. It could just tokenize here instead.\n\t\tif (expression === \"-\")\n\t\t\texpression = \"-1\";\n\n\t\t//----------------------------------------\n\t\t// Main parse loop\n\t\t//----------------------------------------\n\t\twhile (iPos < (expression.length-1))\n\t\t{\n\t\t\tnextChar = expression.charAt(++iPos);\t// iPos points at the current char (not the next available char)\n\n\t\t\t// Skip low-ASCII characters (0-31)\n\t\t\tif (nextChar <= ' ')\n\t\t\t\tcontinue;\n\n\t\t\t// Perform the correct action based on the next character\n\t\t\t// Special case numbers and letters since they cover a large range\n\t\t\tif (isNumber(nextChar))\n {\n\t\t\t\tif (!number())\n return false;\n }\n\t\t\telse if (isAlpha(nextChar))\n {\n\t\t\t\tif (!letter())\n return false;\n } \n\t\t\telse if (parseObject[nextChar])\n\t\t\t\tParser[parseObject[nextChar]]();\n\t\t\telse\n\t\t\t{\n\t\t\t\t//fw.debug(\"parse: unexpected character: \" + nextChar);\n\t\t\t\treturn false;\n\t\t\t}\n\t\t}\n\n if (readyForUnaryOp)\n return false; // incomplete operation - missing the tail operand\n \n\t\t// Have processed all input characters. Now flush stack.\n\t\twhile (tempToken = stack.pop())\n\t\t\tpostFixTokens.push(tempToken);\n\n\t\t// Walk the token list and ensure everything is balanced.\n\t\treturn isBalanced();\n\t}", "readNextToken() {\n let ss = this.ss;\n if (ss.eof())\n throw new assert_1.AssertError(\"Already EOF\");\n // comments\n if (streamAtComment(ss)) {\n this.readComment();\n return;\n }\n // whitespace\n if (streamAtLineWhiteSpace(ss)) {\n this.readLineWhiteSpace();\n return;\n }\n if (streamAtNewLine(ss)) {\n this.readNewLine();\n return;\n }\n // interpolated strings or string literals\n if (streamAtDoubleQuoteOrBacktick(ss)) {\n this.readString();\n return;\n }\n // parenthesis handling within string interpolation\n if (this.currParenthesisLevel > 0) {\n let pointStart = ss.currPoint();\n let c = ss.peek();\n if (c === \"(\") {\n ss.read();\n this.currParenthesisLevel++;\n let rng = new Token_2.Range(pointStart, ss.currPoint());\n this.tokens.push(new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Bracket, rng));\n return;\n }\n if (c === \")\") {\n ss.read();\n this.currParenthesisLevel--;\n let rng = new Token_2.Range(pointStart, ss.currPoint());\n this.tokens.push(new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Bracket, rng));\n return;\n }\n }\n // must handle transpose op before char literal\n if (this.streamAtTransposeOperator(ss)) {\n this.readTransposeOperator();\n return;\n }\n if (streamAtSingleQuote(ss)) {\n this.readCharLiteral();\n return;\n }\n // symbols\n // eg :foo\n // must be handled before operators, as ':' is also an operator\n // doesn't handle quoting, ie :(a+b)\n if (this.streamAtSymbol()) {\n this.readSymbol();\n return;\n }\n // operators\n // must process before identifiers because ÷ is considered a valid UTF8 char to start an identifier\n if (streamAtOperator(ss)) {\n this.readOperator();\n return;\n }\n // keywords and identifiers\n if (streamAtIdentifier(ss)) {\n this.readIdentifier();\n return;\n }\n // macro invocations\n if (streamAtMacroInvocation(ss)) {\n this.readMacroInvocation();\n return;\n }\n // numbers\n if (streamAtNumber(ss)) {\n this.readNumber();\n return;\n }\n if (streamAtBracket(ss)) {\n this.readBracket();\n return;\n }\n if (streamAtSemicolon(ss)) {\n this.readSemicolon();\n return;\n }\n let c = ss.read();\n throw new errors_1.InvalidParseError(\"Unexpected character: '\" + c + \"'. Context: '\" + ss.getContext() + \"'.\", new Token_1.Token(c, operatorsAndKeywords_8.TokenType.Identifier, new Token_2.Range(ss.prevPoint(), ss.currPoint())));\n }", "function Parser() {\n\n\tvar VISIBILITY_TOKENS = [ 'Show', 'Hide' ];\n var CONTINUE_TOKEN = 'Continue';\n\tvar FILTER_TOKENS = [\n 'ItemLevel', 'DropLevel', 'Quality', 'Rarity', 'Class', 'BaseType', 'Sockets', 'LinkedSockets', 'SocketGroup',\n 'Width', 'Height', 'Identified', 'Corrupted', 'ElderItem', 'ShaperItem', 'ShapedMap', 'HasExplicitMod', 'MapTier',\n 'GemLevel', 'StackSize', 'ElderMap', 'Prophecy', 'FracturedItem', 'SynthesisedItem', 'AnyEnchantment', 'HasEnchantment',\n 'BlightedMap', 'HasInfluence',\n 'Mirrored', 'CorruptedMods', 'AreaLevel',\n 'EnchantmentPassiveNode',\n 'AlternateQuality', 'Replica', 'GemQualityType',\n 'EnchantmentPassiveNum',\n ];\n\tvar MODIFIER_TOKENS = [\n\t 'SetBackgroundColor', 'SetBorderColor', 'SetTextColor', 'PlayAlertSound', 'PlayAlertSoundPositional',\n\t 'SetFontSize', 'DisableDropSound', 'CustomAlertSound', 'MinimapIcon', 'PlayEffect' ];\n\tvar RARITY_TOKENS = [ 'Normal', 'Magic', 'Rare', 'Unique' ];\n var INFLUENCE_TOKENS = [ 'shaper', 'elder', 'crusader', 'redeemer', 'hunter', 'warlord' ];\n\tvar SOUND_TOKENS = [ 'ShAlchemy', 'ShBlessed', 'ShChaos', 'ShDivine', 'ShExalted', 'ShFusing', 'ShGeneral', 'ShMirror', 'ShRegal', 'ShVaal' ];\n var COLOR_TOKENS = [ 'Red', 'Green', 'Blue', 'Brown', 'White', 'Yellow', 'Grey', 'Pink', 'Cyan', 'Purple', 'Orange' ]\n var ICON_SHAPE_TOKENS = [ 'Circle', 'Diamond', 'Hexagon', 'Square', 'Star', 'Triangle', 'Kite', 'Cross', 'Pentagon', 'Moon', 'UpsideDownHouse' ]\n\n\tthis.currentLineNr = 0;\n\tthis.currentRule = null;\n\n\tthis.ruleSet = [];\n\tthis.errors = [];\n\tthis.warnings = [];\n\tthis.lineTypes = [];\n \n // clear last stored area level when getting new parser\n currentAreaLevel = null;\n this.setAreaLevel = function(level) {\n currentAreaLevel = level;\n } \n\n\tthis.parse = function (lines) {\n\t\tthis.currentRule = null;\n\t\tthis.ruleSet = [];\n\t\tthis.errors = [];\n\t\tthis.warnings = [];\n\t\tthis.lineTypes = [];\n\n\t\tfor (var i = 0; i < lines.length; i++) {\n \n if(this.errors.length > 100) {\n // too many errors, this probably isn't a valid filter - stop now\n break;\n }\n \n\t\t\tthis.currentLineNr = i;\n\t\t\tvar line = lines[i];\n\n\t\t\tif (line.trim() === '') {\n\t\t\t\tthis.lineTypes[i] = 'Empty';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tif (line.trim()[0] === '#') {\n\t\t\t\tthis.lineTypes[i] = 'Comment';\n\t\t\t\tcontinue;\n\t\t\t}\n\t\t\tline = removeComment( line );\n\n\t\t\tif (VISIBILITY_TOKENS.indexOf( line.trim() ) >= 0) {\n\t\t\t\tif (this.currentRule !== null) {\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t}\n\t\t\t\tparseVisibility( this, line );\n\t\t\t}\n\t\t\telse if (CONTINUE_TOKEN === line.trim()) {\n\t\t\t\tif (this.currentRule !== null) {\n this.currentRule.continue = true;\n\t\t\t\t\tparseEndOfRule( this );\n\t\t\t\t} else {\n reportParseError( this, line.trim(), 'Continue without current rule' );\n }\n\t\t\t}\n\t\t\telse {\n\t\t\t\tif (this.currentRule === null) {\n\t\t\t\t\treportTokenError( this, line.trim(), 'Show or Hide' );\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tparseFilterOrModifier( this, line );\n\t\t\t\t}\n\t\t\t}\n\n\t\t\tif (this.currentRule !== null) {\n\t\t\t\tthis.currentRule.codeLines.push( i );\n\t\t\t}\n\t\t}\n\t\tparseEndOfRule( this );\n\t};\n\n\tfunction removeComment (line) {\n\t\tvar commentStart = line.indexOf(\"#\");\n\t\tif (commentStart < 0) {\n\t\t\treturn line;\n\t\t}\n\t\treturn line.substring( 0, commentStart );\n\t}\n\n\tfunction parseVisibility (self, line) {\n\t\tvar token = line.trim();\n\t\tif (VISIBILITY_TOKENS.indexOf( token ) < 0) {\n\t\t\treportTokenError( self, token, 'Show or Hide' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.lineTypes[self.currentLineNr] = 'Visibility';\n\t\tself.currentRule = new Rule();\n\t}\n\n\tfunction parseEndOfRule (self) {\n\t\tif (self.currentRule !== null) {\n\t\t\tself.ruleSet.push( self.currentRule );\n\t\t\tself.currentRule = null;\n\t\t}\n\t}\n\n\tfunction parseFilterOrModifier (self, line) {\n\t\tvar tokens = line.trim().split(' ', 1);\n\n\t\tif (tokens.length == 0) {\n\t\t\treportTokenError( self, '', 'filter or modifier' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar token = tokens[0].trim();\n\t\tvar arguments = line.trim().substring( token.length, line.length );\n\n\t\tif (FILTER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseFilter( self, token, arguments );\n\t\t}\n\t\telse if (MODIFIER_TOKENS.indexOf( token ) >= 0) {\n\t\t\tparseModifier( self, token, arguments );\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, token, 'filter or modifier' );\n\t\t}\n\t}\n\n\t// ----------- FILTERS ---------------------------------------------------\n\n\tfunction parseFilter (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Filter';\n\n\t\tvar filters = {\n\t\t\t'ItemLevel': ItemLevelFilter,\n\t\t\t'DropLevel': DropLevelFilter,\n\t\t\t'Quality': QualityFilter,\n\t\t\t'Rarity': RarityFilter,\n\t\t\t'Class': ClassFilter,\n\t\t\t'BaseType': BaseTypeFilter,\n\t\t\t'LinkedSockets': LinkedSocketsFilter,\n \n // this is intentional - with 3.9 filter type update,\n // much of the logic for between two filters is shared\n\t\t\t'Sockets': SocketGroupFilter,\n\t\t\t'SocketGroup': SocketGroupFilter,\n \n\t\t\t'Width': WidthFilter,\n\t\t\t'Height': HeightFilter,\n\t\t\t'Identified': IdentifiedFilter,\n\t\t\t'Corrupted': CorruptedFilter,\n\t\t\t'ElderItem': ElderItemFilter,\n\t\t\t'ShaperItem': ShaperItemFilter,\n\t\t\t'ShapedMap': ShapedMapFilter,\n\t\t\t'ElderMap': ElderMapFilter,\n\t\t\t'HasExplicitMod': HasExplicitModFilter,\n\t\t\t'MapTier': MapTierFilter,\n\t\t\t'GemLevel': GemLevelFilter,\n\t\t\t'StackSize': StackSizeFilter,\n 'Prophecy': ProphecyFilter,\n 'FracturedItem': FracturedItemFilter,\n 'SynthesisedItem': SynthesisedItemFilter,\n 'AnyEnchantment': AnyEnchantmentFilter,\n 'HasEnchantment': HasEnchantmentFilter,\n 'BlightedMap': BlightedMapFilter,\n 'HasInfluence' : HasInfluenceFilter,\n 'Mirrored' : MirroredFilter,\n 'CorruptedMods' : CorruptedModsFilter,\n 'AreaLevel' : AreaLevelFilter,\n 'EnchantmentPassiveNode' : HasEnchantmentFilter,\n 'AlternateQuality' : AlternateQualityFilter,\n 'Replica' : ReplicaFilter,\n 'GemQualityType' : GemQualityTypeFilter,\n 'EnchantmentPassiveNum' : EnchantmentPassiveNumFilter\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'ItemLevel':\n\t\t\tcase 'DropLevel':\n\t\t\tcase 'Quality':\n\t\t\tcase 'LinkedSockets':\n\t\t\tcase 'Width':\n\t\t\tcase 'Height':\n\t\t\tcase 'MapTier':\n\t\t\tcase 'GemLevel':\n\t\t\tcase 'StackSize':\n case 'CorruptedMods':\n case 'AreaLevel':\n\t\t\tcase 'EnchantmentPassiveNum':\n\t\t\t\tparseNumericFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Rarity':\n\t\t\t\tparseRarityFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Class':\n\t\t\tcase 'BaseType':\n\t\t\tcase 'HasExplicitMod':\n case 'Prophecy':\n\t\t\tcase 'HasEnchantment':\n case 'EnchantmentPassiveNode':\n case 'GemQualityType':\n\t\t\t\tparseMultiStringFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tcase 'Sockets':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"unlinked\" );\n\t\t\t\treturn;\n\t\t\tcase 'SocketGroup':\n\t\t\t\tparseSocketGroupFilter( self, filters[token], arguments, \"linked\" );\n\t\t\t\treturn;\n\n\t\t\tcase 'Identified':\n\t\t\tcase 'Corrupted':\n\t\t\tcase 'ElderItem':\n\t\t\tcase 'ShaperItem':\n\t\t\tcase 'ShapedMap':\n case 'ElderMap':\n\t\t\tcase 'FracturedItem':\n\t\t\tcase 'SynthesisedItem':\n case 'AnyEnchantment':\n case 'BlightedMap':\n case 'Mirrored':\n case 'AlternateQuality':\n case 'Replica':\n\t\t\t\tparseBoolFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n \n\t\t\tcase 'HasInfluence':\n\t\t\t\tparseInfluenceFilter( self, filters[token], arguments );\n\t\t\t\treturn;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseNumericFilter (self, filter, arguments) {\n\t\tvar args = parseOperatorAndValue( self, arguments );\n\t\tif (args !== null) {\n\t\t\tif (isNaN( args.value )) {\n\t\t\t\treportTokenError( self, args.value, 'number' );\n\t\t\t\treturn;\n\t\t\t}\n\n\t\t\tself.currentRule.filters.push( new filter( args.comparer, parseInt( args.value ) ) );\n\t\t}\n\t}\n\n\tfunction parseMultiStringFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'one or more strings' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args ) );\n\t}\n\n\tfunction parseRarityFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'rarity')\n\t return;\n\t }\n\n\t // If the first argument is an operator, we can use the parseOperatorAndValue function\n\t if (OPERATOR_TOKENS.includes( tokens[0] )) {\n\t args = parseOperatorAndValue( self, arguments );\n if (args != null) {\n if (RARITY_TOKENS.indexOf( args.value ) < 0) {\n reportTokenError( self, args.value, 'operator or rarity' );\n return;\n }\n self.currentRule.filters.push( new filter( args.comparer, Rarity[args.value] ) );\n return;\n }\n }\n\n // Otherwise, the arguments must be a list of rarities.\n var rarities = [];\n for (var i=0; i < tokens.length; i++) {\n if (!RARITY_TOKENS.includes(tokens[i])) {\n reportTokenError( self, tokens[i], 'rarity')\n return;\n }\n rarities.push( Rarity[tokens[i]] );\n }\n\n // In that case, we create a custom comparer that checks if a rarity is in that list\n var comparer = function(a,b) { return b.includes(a); }\n self.currentRule.filters.push( new filter( comparer, rarities ) );\n\t}\n \n\tfunction parseInfluenceFilter (self, filter, arguments) {\n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var comparer; \n \n if(tokens[0] === \"==\") {\n tokens.shift(); // remove operator\n comparer = function(a,b) {\n // strict equality - must contain all influences specified to match\n for(var i = 0; i < b.length; i++) {\n if(!a.includes(b[i])) return false;\n }\n return true;\n }\n } else {\n comparer = function(a,b) { \n // match if any of the specified influences are found\n for(var i = 0; i < a.length; i++) {\n if(b.includes(a[i])) return true;\n }\n return false;\n }\n }\n\n // the arguments must be a list of influences\n var influences = [];\n for (var i = 0; i < tokens.length; i++) {\n var inf = tokens[i].toLowerCase().replace(/\"/g, '');\n if(inf === \"none\") {\n influences = \"none\";\n break;\n }\n if (!INFLUENCE_TOKENS.includes(inf)) {\n reportTokenError( self, tokens[i], 'influence')\n return;\n }\n influences.push(inf);\n }\n\n self.currentRule.filters.push( new filter( comparer, influences ) );\n\t}\n \n\tfunction parseSocketGroupFilter (self, filter, arguments, mode) {\n \n\t var tokens = getArgumentTokens(arguments);\n\t if (tokens.length == 0) {\n\t reportTokenError( self, arguments, 'influence')\n\t return;\n\t }\n \n var operator = null;\n \n\t\t\tif (OPERATOR_TOKENS.includes(tokens[0])) {\n operator = tokens.shift();\n // single equals: no operator needed, match any of the arguments\n if(operator === \"=\") {\n operator = null;\n }\n }\n \n var groups = tokens.map( tok => { return StrUtils.replaceAll(tok.toUpperCase(), '\"', \"\"); } );\n \n var isInvalid = groups.some( function(socketGroup) {\n if (!StrUtils.consistsOf( socketGroup, '0123456RGBWDA' )) {\n reportInvalidSocketGroup( self, socketGroup );\n return true;\n }\n return false;\n } );\n \n if (!isInvalid) { \n groups = groups.map( group => {\n var sorted = StrUtils.sortChars(group);\n return {\n count: sorted.replace(/[RGBWDA]/g, \"\"),\n sockets: sorted.replace(/[0123456]/g, \"\")\n };\n });\n self.currentRule.filters.push( new filter( operator, groups, mode ) );\n }\n \n\t} \n\n\tfunction parseBoolFilter (self, filter, arguments) {\n\t\tvar args = parseStringArguments( self, arguments );\n\t\tif (args === null) return;\n\t\tif (args.length === 0) {\n\t\t\treportUnexpectedEndOfLine( self, 'expected True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\targs = args.map( function(a) { return a.toUpperCase(); } );\n\n\t\tif (args[0] !== 'TRUE' && args[0] !== 'FALSE') {\n\t\t\treportTokenError( self, arguments, 'True or False' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.filters.push( new filter( args[0] === 'TRUE' ) );\n\t}\n\n\t// ----------- MODIFIERS ---------------------------------------------------\n\n\tfunction parseModifier (self, token, arguments) {\n\t\tself.lineTypes[self.currentLineNr] = 'Modifier';\n\n\t\tvar modifiers = {\n\t\t\t'SetBackgroundColor': SetBackgroundColorModifier,\n\t\t\t'SetBorderColor': SetBorderColorModifier,\n\t\t\t'SetTextColor': SetTextColorModifier,\n\t\t\t'SetFontSize': SetFontSizeModifier\n\t\t};\n\n\t\tswitch (token) {\n\t\t\tcase 'SetBackgroundColor':\n\t\t\tcase 'SetBorderColor':\n\t\t\tcase 'SetTextColor':\n\t\t\t\tparseColorModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n\t\t\tcase 'SetFontSize':\n\t\t\t\tparseNumericModifier( self, modifiers[token], arguments );\n\t\t\t\tbreak;\n\n case 'MinimapIcon':\n case 'PlayEffect':\n\t\t\tcase 'PlayAlertSound':\n\t\t\tcase 'PlayAlertSoundPositional':\n\t\t\tcase 'DisableDropSound':\n case 'CustomAlertSound':\n case 'CustomAlertSoundOptional':\n case 'DisableDropSoundIfAlertSound':\n case 'EnableDropSoundIfAlertSound':\n\t\t\t\tbreak;\n\n\t\t\tdefault:\n\t\t\t\t// We can only get to this function if token is valid\n\t\t\t\treportTokenError( self, token, 'this should never happen' );\n\t\t}\n\t}\n\n\tfunction parseColorModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length < 3 || numbers.length > 4) {\n\t\t\treportTokenError( self, arguments, 'three or four numbers' );\n\t\t\treturn;\n\t\t}\n\n\t\tif (numbers.some( function(c) { return c < 0 || c > 255; } )) {\n\t\t\treportParseError( self, arguments, 'color values must be between 0 and 255' );\n\t\t\treturn;\n\t\t}\n\n\t\tvar color = { r:numbers[0], g:numbers[1], b:numbers[2], a:255 };\n\t\tif (numbers.length === 4) {\n\t\t\tcolor['a'] = numbers[3];\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( color ) );\n\t}\n\n function parsePlayEffectModifier (self, modifier, arguments) {\n var tokens = arguments.trim().split(' ');\n if (tokens.length > 2) {\n reportTokenError( self, arguments, 'COLOR Temp' );\n return;\n }\n\n var color = tokens[0].trim();\n if (!COLOR_TOKENS.includes(color)) {\n reportTokenError( self, color, 'Color name');\n return;\n }\n\n var temp = false;\n if (tokens.length > 1) {\n if (tokens[1] !== 'Temp') {\n reportTokenError( self, tokens[1], 'Temp');\n return;\n }\n temp = true;\n }\n\n self.currentRule.modifiers.push( new modifier( color, temp ));\n }\n\n\tfunction parseMinimapIconModifier (self, modifier, arguments) {\n\t var tokens = arguments.trim().split(' ');\n\t if (tokens.length !== 3) {\n\t reportTokenError( self, arguments, 'SIZE COLOR SHAPE' );\n\t return;\n\t }\n\n\t var size = tokens[0];\n\t if (size !== '0' && size !== '1' && size !== '2') {\n\t reportParseError( self, size, 'SIZE must be 0, 1 or 2' );\n\t return;\n\t }\n\n\t var color = tokens[1];\n\t if (!COLOR_TOKENS.includes(color)) {\n\t reportParseError( self, color, 'COLOR must be one of: ' + COLOR_TOKENS.join(', '));\n\t return;\n\t }\n\n\t var shape = tokens[2];\n\t if (!ICON_SHAPE_TOKENS.includes(shape)) {\n\t reportParseError( self, shape, 'SHAPE must be one of: ' + ICON_SHAPE_TOKENS.join(', '));\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier( parseInt(size), color, shape ) );\n\t}\n\n\tfunction parseAlertSoundModifier (self, modifier, arguments) {\n\t var tokens = getArgumentTokens( arguments );\n\t if (tokens.length < 1 || tokens.length > 2) {\n\t reportTokenError( self, arguments, 'sound id + optional volume' );\n\t return;\n\t }\n\n\t var soundId = parseSoundId( self, tokens[0] );\n\t if (soundId === null) return;\n\n\t var volume = 100;\n\t if (tokens.length === 2) {\n\t if (isNaN(tokens[1])) {\n\t reportParseError( self, arguments, 'volume must be a number' );\n\t return;\n\t }\n\n\t volume = parseInt(tokens[1]);\n\t if (volume < 0 || volume > 300) {\n\t reportParseError( self, arguments, 'volume must be between 0 and 300' );\n\t return;\n\t }\n\t }\n\n\t\tself.currentRule.modifiers.push( new modifier( soundId, volume ) );\n\t}\n\n function parseSoundId (self, token) {\n if (SOUND_TOKENS.indexOf( token ) >= 0) {\n return token;\n }\n\n if (isNaN(token)) {\n reportParseError( self, token, 'Sound ID must be a number between 1 and 16, or a valid Sound ID name' );\n return;\n }\n return parseInt( token );\n }\n\n\tfunction parseNumericModifier (self, modifier, arguments) {\n\t\tvar numbers = parseNumbers( self, arguments );\n\t\tif (numbers === null) return;\n\t\tif (numbers.length != 1) {\n\t\t\treportTokenError( self, arguments, 'one number' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier( numbers[0] ) );\n\t}\n\n\tfunction parseKeywordModifier (self, modifier, arguments) {\n\t\tif (arguments.trim().length > 0) {\n\t\t\treportTokenError( self, arguments, 'Unexpected argument' );\n\t\t\treturn;\n\t\t}\n\n\t\tself.currentRule.modifiers.push( new modifier() );\n\t}\n\n\tfunction parseFilenameModifier (self, modifier, arguments) {\n\t var argumentTokens = parseStringArguments( self, arguments );\n\t if (argumentTokens.length == 0) {\n\t reportUnexpectedEndOfLine( self, arguments, 'Path or Filename' );\n\t return;\n\t }\n\t if (argumentTokens.length > 1) {\n\t reportParseError( self, arguments, 'Unexpected argument: \"' + argumentTokens[1] + '\"' );\n\t return;\n\t }\n\n\t self.currentRule.modifiers.push( new modifier(argumentTokens[0]) );\n\t}\n\n\t// ------------------------ GENERIC PARSING ---------------------------------\n\n function getArgumentTokens (arguments) {\n return arguments\n\t\t\t.trim()\n\t\t\t.split(' ')\n\t\t\t.filter( function (element, index, array) { return element.trim().length > 0; } );\n }\n\n\tfunction parseOperatorAndValue (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\t\tvar operator, value;\n\n\t\tif (tokens.length == 1) {\n\t\t\t// Special case: For equality checks, you specify only the value\n\t\t\toperator = '=';\n\t\t\tvalue = tokens[0];\n\t\t}\n\t\telse if (tokens.length == 2) {\n\t\t\toperator = tokens[0];\n\t\t\tvalue = tokens[1];\n\t\t}\n\t\telse {\n\t\t\treportTokenError( self, arguments, 'operator and value' );\n\t\t\treturn null;\n\t\t}\n\n\t\tif (OPERATOR_TOKENS.indexOf( operator ) < 0) {\n\t\t\treportTokenError( self, operator, 'operator' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn { comparer : COMPARERS[operator], value : value };\n \n\t}\n\n\tfunction parseNumbers (self, arguments) {\n\t\tvar tokens = getArgumentTokens( arguments );\n\n\t\tif (tokens.some( isNaN )) {\n\t\t\treportTokenError( self, arguments, 'numbers' );\n\t\t\treturn null;\n\t\t}\n\n\t\treturn tokens.map( function(n) { return parseInt( n ); } );\n\t}\n\n\tfunction parseStringArguments (self, arguments) {\n\t\tvar tokens = arguments\n\t\t\t.trim()\n\t\t\t.split(' ');\n\t\t\t// Don't remove empty tokens because they might represent multiple spaces inside quoted strings\n\n\t\tvar actualTokens = [];\n\t\tvar numQuotes = 0;\n\t\tvar currentToken = '';\n\t\tfor (var i=0; i < tokens.length; i++) {\n\t\t\tnumQuotes += StrUtils.countChar( '\"', tokens[i] );\n\t\t\tvar withoutQuotes = StrUtils.replaceAll( tokens[i], '\"', '' );\n\n\t\t\tif (currentToken.length > 0) {\n\t\t\t\tcurrentToken += ' ' + withoutQuotes;\n\t\t\t}\n\t\t\telse {\n\t\t\t\tcurrentToken = withoutQuotes;\n\t\t\t}\n\n\t\t\tif (numQuotes % 2 == 0) {\n\t\t\t\tactualTokens.push( currentToken );\n\t\t\t\tcurrentToken = '';\n\t\t\t}\n\t\t}\n\n\t\tif (numQuotes % 2 != 0) {\n\t\t\treportParseError( self, arguments, 'no matching quote' );\n\t\t\tactualTokens.push( currentToken );\n\t\t}\n\n\t\t// Remove any empty or pure whitespace tokens.\n\t\t// These may happen with certain unicode characters.\n\t\tactualTokens = actualTokens.filter( function(token) { return token.trim().length > 0; } );\n\n\t\treturn actualTokens;\n\t}\n\n\t// ------------------- ERROR MESSAGES --------------------------------------\n\n\tfunction reportTokenError (self, token, expected) {\n\t\tself.errors.push( 'Invalid token \"' + token + '\" at line ' + self.currentLineNr.toString() + ' (expected ' + expected + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportUnexpectedEndOfLine (self, expected) {\n\t\tself.errors.push( 'Unexpected end of line (expected ' + expected + ' in line ' + self.currentLineNr.toString() + ')');\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportInvalidSocketGroup (self, socketGroup) {\n\t\tself.errors.push( 'Invalid socket group \"' + socketGroup + '\" + at line ' + self.currentLineNr.toString() + ' (allowed characters are R,G,B)' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportParseError (self, text, reason) {\n\t\tself.errors.push( 'Cannot parse \"' + text + '\" (' + reason + ')' );\n\t\tself.lineTypes[self.currentLineNr] = 'Error';\n\t}\n\n\tfunction reportWarning (self, text) {\n\t\tself.warnings.push( text );\n\t}\n}", "function tokenPrim(fn){\r\n return function(c){\r\n var pid = parser_id++;\r\n var combinator = function(scope, state, k){\r\n var startIndex = state.index;\r\n var result = state.getCached(pid);\r\n if(result !== undef)\r\n return k(result);\r\n \r\n result = fn(c, state, startIndex);\r\n \r\n state.putCached(pid, startIndex, result);\r\n return k(result);\r\n };\r\n combinator.constructor = Parser;\r\n return combinator;\r\n };\r\n}", "function getAllTokens(expr) {\n let token;\n let tokens = [];\n lexerstep.reset(expr);\n while (true) {\n token = lexerstep.next();\n if (typeof token === 'undefined') {\n break;\n }\n tokens.push(token);\n }\n return tokens;\n }", "function consumeRaw() {\n return this.createSingleNodeList(\n this.Raw(this.tokenIndex, null, false)\n );\n}", "function define_parser_APIs_1() {\n return {\n TERROR: 2,\n EOF: 1,\n\n // internals: defined here so the object *structure* doesn't get modified by parse() et al,\n // thus helping JIT compilers like Chrome V8.\n originalQuoteName: null,\n originalParseError: null,\n cleanupAfterParse: null,\n constructParseErrorInfo: null,\n yyMergeLocationInfo: null,\n\n __reentrant_call_depth: 0, // INTERNAL USE ONLY\n __error_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup\n __error_recovery_infos: [], // INTERNAL USE ONLY: the set of parseErrorInfo objects created since the last cleanup\n\n // APIs which will be set up depending on user action code analysis:\n //yyRecovering: 0,\n //yyErrOk: 0,\n //yyClearIn: 0,\n\n // Helper APIs\n // -----------\n\n // Helper function which can be overridden by user code later on: put suitable quotes around\n // literal IDs in a description string.\n quoteName: function parser_quoteName(id_str) {\n return '\"' + id_str + '\"';\n },\n\n // Return the name of the given symbol (terminal or non-terminal) as a string, when available.\n //\n // Return NULL when the symbol is unknown to the parser.\n getSymbolName: function parser_getSymbolName(symbol) {\n if (this.terminals_[symbol]) {\n return this.terminals_[symbol];\n }\n\n // Otherwise... this might refer to a RULE token i.e. a non-terminal: see if we can dig that one up.\n //\n // An example of this may be where a rule's action code contains a call like this:\n //\n // parser.getSymbolName(#$)\n //\n // to obtain a human-readable name of the current grammar rule.\n var s = this.symbols_;\n for (var key in s) {\n if (s[key] === symbol) {\n return key;\n }\n }\n return null;\n },\n\n // Return a more-or-less human-readable description of the given symbol, when available,\n // or the symbol itself, serving as its own 'description' for lack of something better to serve up.\n //\n // Return NULL when the symbol is unknown to the parser.\n describeSymbol: function parser_describeSymbol(symbol) {\n if (symbol !== this.EOF && this.terminal_descriptions_ && this.terminal_descriptions_[symbol]) {\n return this.terminal_descriptions_[symbol];\n } else if (symbol === this.EOF) {\n return 'end of input';\n }\n var id = this.getSymbolName(symbol);\n if (id) {\n return this.quoteName(id);\n }\n return null;\n },\n\n // Produce a (more or less) human-readable list of expected tokens at the point of failure.\n //\n // The produced list may contain token or token set descriptions instead of the tokens\n // themselves to help turning this output into something that easier to read by humans\n // unless `do_not_describe` parameter is set, in which case a list of the raw, *numeric*,\n // expected terminals and nonterminals is produced.\n //\n // The returned list (array) will not contain any duplicate entries.\n collect_expected_token_set: function parser_collect_expected_token_set(state, do_not_describe) {\n var TERROR = this.TERROR;\n var tokenset = [];\n var check = {};\n // Has this (error?) state been outfitted with a custom expectations description text for human consumption?\n // If so, use that one instead of the less palatable token set.\n if (!do_not_describe && this.state_descriptions_ && this.state_descriptions_[state]) {\n return [this.state_descriptions_[state]];\n }\n for (var p in this.table[state]) {\n p = +p;\n if (p !== TERROR) {\n var d = do_not_describe ? p : this.describeSymbol(p);\n if (d && !check[d]) {\n tokenset.push(d);\n check[d] = true; // Mark this token description as already mentioned to prevent outputting duplicate entries.\n }\n }\n }\n return tokenset;\n }\n };\n}", "function processKeywords() {\n var nodes = [];\n var lastIndex;\n var keyword;\n var node;\n var submatch;\n\n if (!top.keywords) {\n return addText(modeBuffer, nodes);\n }\n\n lastIndex = 0;\n\n top.lexemesRe.lastIndex = 0;\n\n keyword = top.lexemesRe.exec(modeBuffer);\n\n while (keyword) {\n addText(modeBuffer.substr(lastIndex, keyword.index - lastIndex), nodes);\n\n submatch = keywordMatch(top, keyword);\n\n if (submatch) {\n relevance += submatch[1];\n\n node = build(submatch[0], []);\n\n nodes.push(node);\n\n addText(keyword[0], node.children);\n } else {\n addText(keyword[0], nodes);\n }\n\n lastIndex = top.lexemesRe.lastIndex;\n keyword = top.lexemesRe.exec(modeBuffer);\n }\n\n addText(modeBuffer.substr(lastIndex), nodes);\n\n return nodes;\n }", "function getParseTokens(){\n\treturn {\n\t\t'union' : \"+\",\n\t\t'intersection' : \"^^\"\n\t};\n}", "function tokenize(state, silent) {\n if (silent) {\n return false;\n }\n\n const start = state.pos;\n const max = state.posMax;\n let momChar = state.src.charAt(start);\n let nextChar = state.src.charAt(start + 1);\n\n // we're looking for two times the open symbol.\n if (momChar !== MARKER_OPEN || nextChar !== MARKER_OPEN) {\n return false;\n }\n\n // find the end sequence\n let end = -1;\n nextChar = state.src.charAt(start + 2);\n for (let i = start + 2; i < max && end === -1; i++) {\n momChar = nextChar;\n nextChar = state.src.charAt(i + 1);\n if (momChar === MARKER_CLOSE && nextChar === MARKER_CLOSE) {\n // found the end!\n end = i;\n }\n if (momChar === MARKER_OPEN && momChar === MARKER_OPEN) {\n // found another opening sequence before the end. Thus, ignore ours!\n return false;\n }\n if (momChar === \"\\n\") {\n // found end of line before the end sequence. Thus, ignore our start sequence!\n return false;\n }\n }\n\n // input ended before closing sequence\n if (end === -1) {\n return false;\n }\n\n // start tag\n state.push(\"span_open\", TAG, 1);\n // parse inner\n state.pos += 2;\n state.posMax = end;\n state.md.inline.tokenize(state);\n state.pos = end + 2;\n state.posMax = max;\n // end tag\n state.push(\"span_close\", TAG, -1);\n\n return true;\n}", "function parseTopLevel() {\n parseBlockBody(TokenType.eof);\n state.scopes.push(new Scope(0, state.tokens.length, true));\n if (state.scopeDepth !== 0) {\n throw new Error(`Invalid scope depth at end of file: ${state.scopeDepth}`);\n }\n return new File(state.tokens, state.scopes);\n}", "next() {\n // Keep reading until we either read a token or reach the end of the input.\n this.value = null;\n for (;;) {\n // Skip whitespace.\n while (this.ch == 32 || // space\n this.ch == 9 || // tab\n this.ch == 13 || // return\n this.ch == 10) { // newline\n this.read();\n }\n\n // Check for end of input.\n if (this.end()) {\n this.token = -1;\n return;\n }\n\n // Parse next token (or comment).\n switch (this.ch) {\n case 58: case 43: // ':' '+'\n case 44: case 61: // ',' '='\n case 91: case 93: // '[' ']'\n case 123: case 125: // '{' '}'\n case 64: // @\n this.token = this.ch;\n this.read();\n return;\n\n case 34: // '\"'\n // Parse string.\n this.parse_string();\n return;\n\n case 48: case 49: case 50: case 51: case 52: // '0' '1' '2' '3' '4'\n case 53: case 54: case 55: case 56: case 57: // '5' '6' '7' '8' '9'\n case 46: case 45: // '.' '-'\n // Parse number.\n this.parse_number();\n return;\n\n case 35: // '#'\n // Parse index reference.\n this.read();\n this.parse_index();\n return;\n\n case 59: // ';'\n // Skip comment.\n this.read();\n while (this.ch != -1 && this.ch != 10) this.read();\n break;\n\n case 36: // '$'\n // Quoted symbol.\n this.read();\n this.parse_string();\n this.token = -8;\n return;\n\n default:\n // Parse keyword or symbol.\n this.parse_name();\n return;\n }\n }\n }", "function processKeywords() {\n var nodes = []\n var lastIndex\n var keyword\n var node\n var submatch\n\n if (!top.keywords) {\n return addText(modeBuffer, nodes)\n }\n\n lastIndex = 0\n\n top.lexemesRe.lastIndex = 0\n\n keyword = top.lexemesRe.exec(modeBuffer)\n\n while (keyword) {\n addText(modeBuffer.slice(lastIndex, keyword.index), nodes)\n\n submatch = keywordMatch(top, keyword)\n\n if (submatch) {\n relevance += submatch[1]\n\n node = build(submatch[0], [])\n\n nodes.push(node)\n\n addText(keyword[0], node.children)\n } else {\n addText(keyword[0], nodes)\n }\n\n lastIndex = top.lexemesRe.lastIndex\n keyword = top.lexemesRe.exec(modeBuffer)\n }\n\n addText(modeBuffer.slice(lastIndex), nodes)\n\n return nodes\n }", "parseall() {\n let obj = this.parse();\n while (!this.done()) obj = this.parse();\n return obj;\n }", "readNextToken() {\n this.state.prevLexType = this.state.lex.type;\n\n if (this.state.nextIndentation !== this.state.indentation) {\n if (this.state.nextIndentation > this.state.indentation) {\n return this.finishToken(tt.indent);\n } else {\n if (this.state.prevLexType === tt.newline) {\n return this.finishToken(tt.dedent);\n } else {\n return this.finishToken(tt.newline);\n }\n }\n }\n\n let curContext = this.curContext();\n if (curContext == null || !curContext.preserveSpace) {\n if (this.state.eol && this.state.pos !== this.state.eolPos) {\n this.skipIndentation();\n }\n // newlines are significant, so this only skips comments and non-indentation whitespace\n this.skipNonTokens();\n }\n this.state.containsOctal = false;\n this.state.octalPosition = null;\n\n this.startTokenLex();\n\n if (this.state.pos >= this.input.length) {\n if (this.state.indentation > 0) {\n this.state.nextIndentation = 0;\n return this.finishToken(tt.newline);\n }\n if (this.state.lex.type !== tt.eof || this.state.tokens.length === 0) {\n return this.finishToken(tt.eof);\n } else {\n return;\n }\n }\n\n if (curContext.override) return curContext.override(this);\n else return this.readToken(this.fullCharCodeAtPos());\n }" ]
[ "0.7481586", "0.71831673", "0.7038837", "0.7000684", "0.7000684", "0.69779414", "0.68984693", "0.68984693", "0.68935955", "0.6872364", "0.68131495", "0.68131495", "0.6785034", "0.6785034", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6719043", "0.6688699", "0.6688699", "0.6688699", "0.6688699", "0.6651007", "0.6651007", "0.6651007", "0.6651007", "0.6580657", "0.638415", "0.61707455", "0.5204071", "0.5174116", "0.4992445", "0.48048612", "0.4786813", "0.47533354", "0.47462368", "0.47462368", "0.47462368", "0.47462368", "0.47462368", "0.47462368", "0.46338293", "0.45621446", "0.4482912", "0.44775882", "0.4470505", "0.44234508", "0.44017476", "0.4384432", "0.43366197", "0.43187243", "0.43128937", "0.4302972", "0.42969438", "0.42906415", "0.42617187", "0.42587", "0.4233805", "0.42337143", "0.42084113", "0.41836807", "0.4171991", "0.41717845", "0.41642046", "0.41558352", "0.41321695", "0.41309988", "0.41306815", "0.41285416", "0.4121781", "0.41206244", "0.40887675", "0.40801924", "0.407448", "0.40568122", "0.4047652", "0.40413648", "0.4038694", "0.40380517", "0.40305087", "0.40119404", "0.40016624", "0.4001123", "0.3999686", "0.39986566" ]
0.6848527
19
Takes a Source and a UTF8 character offset, and returns the corresponding line and column as a SourceLocation. Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function getLocation(source, position) { var lineRegexp = /\r\n|[\n\r]/g; var line = 1; var column = position + 1; var match = void 0; while ((match = lineRegexp.exec(source.body)) && match.index < position) { line += 1; column = position + 1 - (match.index + match[0].length); } return { line: line, column: column }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getLocation(source, position) {\n let lastLineStart = 0;\n let line = 1;\n\n for (const match of source.body.matchAll(LineRegExp)) {\n typeof match.index === 'number' || invariant(false);\n\n if (match.index >= position) {\n break;\n }\n\n lastLineStart = match.index + match[0].length;\n line += 1;\n }\n\n return {\n line,\n column: position + 1 - lastLineStart,\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = undefined;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = undefined;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "getLineAndColumnFromChunk(offset) {\r\n\t\t\t\tvar column, columnCompensation, compensation, lastLine, lineCount, previousLinesCompensation, ref, string;\r\n\t\t\t\tcompensation = this.getLocationDataCompensation(this.chunkOffset, this.chunkOffset + offset);\r\n\t\t\t\tif (offset === 0) {\r\n\t\t\t\t\treturn [this.chunkLine, this.chunkColumn + compensation, this.chunkOffset + compensation];\r\n\t\t\t\t}\r\n\t\t\t\tif (offset >= this.chunk.length) {\r\n\t\t\t\t\tstring = this.chunk;\r\n\t\t\t\t} else {\r\n\t\t\t\t\tstring = this.chunk.slice(0, +(offset - 1) + 1 || 9e9);\r\n\t\t\t\t}\r\n\t\t\t\tlineCount = count(string, '\\n');\r\n\t\t\t\tcolumn = this.chunkColumn;\r\n\t\t\t\tif (lineCount > 0) {\r\n\t\t\t\t\tref = string.split('\\n'), [lastLine] = slice.call(ref, -1);\r\n\t\t\t\t\tcolumn = lastLine.length;\r\n\t\t\t\t\tpreviousLinesCompensation = this.getLocationDataCompensation(this.chunkOffset, this.chunkOffset + offset - column);\r\n\t\t\t\t\tif (previousLinesCompensation < 0) {\r\n\t\t\t\t\t\t// Don't recompensate for initially inserted newline.\r\n\t\t\t\t\t\tpreviousLinesCompensation = 0;\r\n\t\t\t\t\t}\r\n\t\t\t\t\tcolumnCompensation = this.getLocationDataCompensation(this.chunkOffset + offset + previousLinesCompensation - column, this.chunkOffset + offset + previousLinesCompensation);\r\n\t\t\t\t} else {\r\n\t\t\t\t\tcolumn += string.length;\r\n\t\t\t\t\tcolumnCompensation = compensation;\r\n\t\t\t\t}\r\n\t\t\t\treturn [this.chunkLine + lineCount, column + columnCompensation, this.chunkOffset + offset + compensation];\r\n\t\t\t}", "generatedPositionFor(aArgs) {\n let source = util.getArg(aArgs, 'source')\n source = this._findSourceIndex(source)\n if (source < 0) {\n return {\n line: null,\n column: null,\n lastColumn: null,\n }\n }\n\n const needle = {\n source,\n originalLine: util.getArg(aArgs, 'line'),\n originalColumn: util.getArg(aArgs, 'column'),\n }\n\n if (needle.originalLine < 1) {\n throw new Error('Line numbers must be >= 1')\n }\n\n if (needle.originalColumn < 0) {\n throw new Error('Column numbers must be >= 0')\n }\n\n let bias = util.getArg(\n aArgs,\n 'bias',\n SourceMapConsumer.GREATEST_LOWER_BOUND\n )\n if (bias == null) {\n bias = SourceMapConsumer.GREATEST_LOWER_BOUND\n }\n\n let mapping\n this._wasm.withMappingCallback(\n (m) => (mapping = m),\n () => {\n this._wasm.exports.generated_location_for(\n this._getMappingsPtr(),\n needle.source,\n needle.originalLine - 1,\n needle.originalColumn,\n bias\n )\n }\n )\n\n if (mapping) {\n if (mapping.source === needle.source) {\n let lastColumn = mapping.lastGeneratedColumn\n if (this._computedColumnSpans && lastColumn === null) {\n lastColumn = Infinity\n }\n return {\n line: util.getArg(mapping, 'generatedLine', null),\n column: util.getArg(mapping, 'generatedColumn', null),\n lastColumn,\n }\n }\n }\n\n return {\n line: null,\n column: null,\n lastColumn: null,\n }\n }", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n }", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur\n var match = lineBreakG.exec(input)\n if (match && match.index < offset) {\n ++line\n cur = match.index + match[0].length\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur\n var match = lineBreakG.exec(input)\n if (match && match.index < offset) {\n ++line\n cur = match.index + match[0].length\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n }", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n }", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur);\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur);\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur)\n }\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n lineBreakG.lastIndex = cur;\n var match = lineBreakG.exec(input);\n\n if (match && match.index < offset) {\n ++line;\n cur = match.index + match[0].length;\n } else {\n return new Position(line, offset - cur);\n }\n }\n }", "function getLineInfo(input, offset) {\n\t for (var line = 1, cur = 0;;) {\n\t lineBreakG.lastIndex = cur;\n\t var match = lineBreakG.exec(input);\n\t if (match && match.index < offset) {\n\t ++line;\n\t cur = match.index + match[0].length;\n\t } else {\n\t return new Position(line, offset - cur);\n\t }\n\t }\n\t}", "function getLineInfo(input, offset) {\n\t for (var line = 1, cur = 0;;) {\n\t lineBreakG.lastIndex = cur;\n\t var match = lineBreakG.exec(input);\n\t if (match && match.index < offset) {\n\t ++line;\n\t cur = match.index + match[0].length;\n\t } else {\n\t return new Position(line, offset - cur);\n\t }\n\t }\n\t}", "function getLineInfo(input, offset) {\n\t for (var line = 1, cur = 0;;) {\n\t _whitespace.lineBreakG.lastIndex = cur;\n\t var match = _whitespace.lineBreakG.exec(input);\n\t if (match && match.index < offset) {\n\t ++line;\n\t cur = match.index + match[0].length;\n\t } else {\n\t return new Position(line, offset - cur);\n\t }\n\t }\n\t}", "function getLineInfo(input, offset) {\n\t for (var line = 1, cur = 0;;) {\n\t _whitespace.lineBreakG.lastIndex = cur;\n\t var match = _whitespace.lineBreakG.exec(input);\n\t if (match && match.index < offset) {\n\t ++line;\n\t cur = match.index + match[0].length;\n\t } else {\n\t return new Position(line, offset - cur);\n\t }\n\t }\n\t}", "function originalPositionFor(source, line, column, name) {\n if (!source.map) {\n return SegmentObject(source.source, line, column, name, source.content);\n }\n const segment = Object(_jridgewell_trace_mapping__WEBPACK_IMPORTED_MODULE_0__[\"traceSegment\"])(source.map, line, column);\n // If we couldn't find a segment, then this doesn't exist in the sourcemap.\n if (segment == null)\n return null;\n // 1-length segments only move the current generated column, there's no source information\n // to gather from it.\n if (segment.length === 1)\n return SOURCELESS_MAPPING;\n return originalPositionFor(source.sources[segment[1]], segment[2], segment[3], segment.length === 5 ? source.map.names[segment[4]] : name);\n}", "static normalizeOffset(src, offset) {\n const ch = src[offset];\n return !ch ? offset : ch !== '\\n' && src[offset - 1] === '\\n' ? offset - 1 : Node.endOfWhiteSpace(src, offset);\n }", "static normalizeOffset(src, offset) {\n const ch = src[offset];\n return !ch ? offset : ch !== '\\n' && src[offset - 1] === '\\n' ? offset - 1 : Node.endOfWhiteSpace(src, offset);\n }", "static normalizeOffset(src, offset) {\n const ch = src[offset];\n return !ch ? offset : ch !== '\\n' && src[offset - 1] === '\\n' ? offset - 1 : Node.endOfWhiteSpace(src, offset);\n }", "static normalizeOffset(src, offset) {\n const ch = src[offset];\n return !ch ? offset : ch !== '\\n' && src[offset - 1] === '\\n' ? offset - 1 : Node.endOfWhiteSpace(src, offset);\n }", "static normalizeOffset(src, offset) {\n const ch = src[offset];\n return !ch ? offset : ch !== '\\n' && src[offset - 1] === '\\n' ? offset - 1 : Node.endOfWhiteSpace(src, offset);\n }", "getCurrentLocation(offset) {\n if (!this.options.sourceCodeLocationInfo) {\n return null;\n }\n return {\n startLine: this.preprocessor.line,\n startCol: this.preprocessor.col - offset,\n startOffset: this.preprocessor.offset - offset,\n endLine: -1,\n endCol: -1,\n endOffset: -1,\n };\n }", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n var nextBreak = nextLineBreak(input, cur, offset);\n if (nextBreak < 0) { return new Position(line, offset - cur) }\n ++line;\n cur = nextBreak;\n }\n}", "function getLineInfo(input, offset) {\n for (var line = 1, cur = 0;;) {\n var nextBreak = nextLineBreak(input, cur, offset);\n if (nextBreak < 0) { return new Position(line, offset - cur) }\n ++line;\n cur = nextBreak;\n }\n }", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\r\n let linesCount = 0;\r\n let lastNewLinePos = -1;\r\n for (let i = 0; i < numberOfCharacters; i++) {\r\n if (source.charCodeAt(i) === 10 /* newline char code */) {\r\n linesCount++;\r\n lastNewLinePos = i;\r\n }\r\n }\r\n pos.offset += numberOfCharacters;\r\n pos.line += linesCount;\r\n pos.column =\r\n lastNewLinePos === -1\r\n ? pos.column + numberOfCharacters\r\n : numberOfCharacters - lastNewLinePos;\r\n return pos;\r\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\r\n let linesCount = 0;\r\n let lastNewLinePos = -1;\r\n for (let i = 0; i < numberOfCharacters; i++) {\r\n if (source.charCodeAt(i) === 10 /* newline char code */) {\r\n linesCount++;\r\n lastNewLinePos = i;\r\n }\r\n }\r\n pos.offset += numberOfCharacters;\r\n pos.line += linesCount;\r\n pos.column =\r\n lastNewLinePos === -1\r\n ? pos.column + numberOfCharacters\r\n : numberOfCharacters - lastNewLinePos;\r\n return pos;\r\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n\t let linesCount = 0;\n\t let lastNewLinePos = -1;\n\t for (let i = 0; i < numberOfCharacters; i++) {\n\t if (source.charCodeAt(i) === 10 /* newline char code */) {\n\t linesCount++;\n\t lastNewLinePos = i;\n\t }\n\t }\n\t pos.offset += numberOfCharacters;\n\t pos.line += linesCount;\n\t pos.column =\n\t lastNewLinePos === -1\n\t ? pos.column + numberOfCharacters\n\t : numberOfCharacters - lastNewLinePos;\n\t return pos;\n\t}", "originalPositionFor(aArgs) {\n const needle = {\n generatedLine: util.getArg(aArgs, 'line'),\n generatedColumn: util.getArg(aArgs, 'column'),\n }\n\n if (needle.generatedLine < 1) {\n throw new Error('Line numbers must be >= 1')\n }\n\n if (needle.generatedColumn < 0) {\n throw new Error('Column numbers must be >= 0')\n }\n\n let bias = util.getArg(\n aArgs,\n 'bias',\n SourceMapConsumer.GREATEST_LOWER_BOUND\n )\n if (bias == null) {\n bias = SourceMapConsumer.GREATEST_LOWER_BOUND\n }\n\n let mapping\n this._wasm.withMappingCallback(\n (m) => (mapping = m),\n () => {\n this._wasm.exports.original_location_for(\n this._getMappingsPtr(),\n needle.generatedLine - 1,\n needle.generatedColumn,\n bias\n )\n }\n )\n\n if (mapping) {\n if (mapping.generatedLine === needle.generatedLine) {\n let source = util.getArg(mapping, 'source', null)\n if (source !== null) {\n source = this._sources.at(source)\n source = util.computeSourceURL(\n this.sourceRoot,\n source,\n this._sourceMapURL\n )\n }\n\n let name = util.getArg(mapping, 'name', null)\n if (name !== null) {\n name = this._names.at(name)\n }\n\n return {\n source,\n line: util.getArg(mapping, 'originalLine', null),\n column: util.getArg(mapping, 'originalColumn', null),\n name,\n }\n }\n }\n\n return {\n source: null,\n line: null,\n column: null,\n name: null,\n }\n }", "function startOfLinePrecedingIndexWithOnlySpaces(source: string, index: number): ?number {\n for (let i = index - 1; i >= 0; i--) {\n switch (source[i]) {\n case ' ':\n case '\\t':\n break;\n\n case '\\n':\n case '\\r':\n return i + 1;\n\n default:\n return null;\n }\n }\n\n return 0;\n}", "function computeOffset(position, data) {\n let line = position.line;\n let column = position.column + 1;\n for (let i = 0; i < data.length; i++) {\n if (line > 1) {\n /* not yet on the correct line */\n if (data[i] === \"\\n\") {\n line--;\n }\n }\n else if (column > 1) {\n /* not yet on the correct column */\n column--;\n }\n else {\n /* line/column found, return current position */\n return i;\n }\n }\n /* istanbul ignore next: should never reach this line unless espree passes bad\n * positions, no sane way to test */\n throw new Error(\"Failed to compute location offset from position\");\n}", "function getOffsetSourceSpan(sourceSpan, { start, end }) {\n return new ParseSourceSpan(sourceSpan.fullStart.moveBy(start), sourceSpan.fullStart.moveBy(end));\n}", "function getOffsetSourceSpan(sourceSpan, { start, end }) {\n return new ParseSourceSpan(sourceSpan.fullStart.moveBy(start), sourceSpan.fullStart.moveBy(end));\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "sourceLocation ( pos ) {\n\t\tif ( pos ) {\n\t\t\treturn `${pos.source} (${pos.start.line}:${pos.start.col})`;\n\t\t}\n\t\treturn `${this.source} (${this.line}:${this.col})`;\n\t}", "function highlightSourceAtLocation(source, location) {\n var line = location.line;\n var prevLineNum = (line - 1).toString();\n var lineNum = line.toString();\n var nextLineNum = (line + 1).toString();\n var padLen = nextLineNum.length;\n var lines = source.body.split(/\\r\\n|[\\n\\r\\u2028\\u2029]/g);\n return (\n (line >= 2 ?\n lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') +\n lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' +\n Array(2 + padLen + location.column).join(' ') + '^\\n' +\n (line < lines.length ?\n lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '')\n );\n}", "positionAt(offset) {\n const before = this.textDocument.slice(0, offset);\n const newLines = before.match(/\\n/g);\n const line = newLines ? newLines.length : 0;\n const preCharacters = before.match(/(\\n|^).*$/g);\n return new tokenizer_1.Position(line, preCharacters ? preCharacters[0].length : 0);\n }", "function highlightSourceAtLocation(source, location) {\n var line = location.line;\n var prevLineNum = (line - 1).toString();\n var lineNum = line.toString();\n var nextLineNum = (line + 1).toString();\n var padLen = nextLineNum.length;\n var lines = source.body.split(/\\r\\n|[\\n\\r]/g);\n return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' + Array(2 + padLen + location.column).join(' ') + '^\\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '');\n}", "function highlightSourceAtLocation(source, location) {\n var line = location.line;\n var prevLineNum = (line - 1).toString();\n var lineNum = line.toString();\n var nextLineNum = (line + 1).toString();\n var padLen = nextLineNum.length;\n var lines = source.body.split(/\\r\\n|[\\n\\r]/g);\n return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' + Array(2 + padLen + location.column).join(' ') + '^\\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '');\n}", "function highlightSourceAtLocation(source, location) {\n var line = location.line;\n var prevLineNum = (line - 1).toString();\n var lineNum = line.toString();\n var nextLineNum = (line + 1).toString();\n var padLen = nextLineNum.length;\n var lines = source.body.split(/\\r\\n|[\\n\\r]/g);\n return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' + Array(2 + padLen + location.column).join(' ') + '^\\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '');\n}", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineNo = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineNo > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n for (;;) {\n var lineObj = getLine(doc, lineNo);\n var found = coordsCharInner(cm, lineObj, lineNo, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find();\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineNo = mergedPos.to.line;\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineNo = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineNo > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n for (;;) {\n var lineObj = getLine(doc, lineNo);\n var found = coordsCharInner(cm, lineObj, lineNo, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find();\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineNo = mergedPos.to.line;\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineNo = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineNo > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n for (;;) {\n var lineObj = getLine(doc, lineNo);\n var found = coordsCharInner(cm, lineObj, lineNo, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find();\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineNo = mergedPos.to.line;\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineNo = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineNo > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n for (;;) {\n var lineObj = getLine(doc, lineNo);\n var found = coordsCharInner(cm, lineObj, lineNo, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find();\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineNo = mergedPos.to.line;\n else\n return found;\n }\n }", "positionAt(offset) {\n return (0, utils_1.positionAt)(offset, this.getText(), this.getLineOffsets());\n }", "function findFirstNonWhitespaceCharacterAndColumn(startPos, endPos, sourceFile, options) {\n var character = 0;\n var column = 0;\n for (var pos = startPos; pos < endPos; pos++) {\n var ch = sourceFile.text.charCodeAt(pos);\n if (!ts.isWhiteSpaceSingleLine(ch)) {\n break;\n }\n if (ch === 9 /* tab */) {\n column += options.TabSize + (column % options.TabSize);\n }\n else {\n column++;\n }\n character++;\n }\n return { column: column, character: character };\n }", "function _coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n\n if (y < 0) {\n return PosWithInfo(doc.first, 0, null, -1, -1);\n }\n\n var lineN = _lineAtHeight(doc, y),\n last = doc.first + doc.size - 1;\n\n if (lineN > last) {\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, null, 1, 1);\n }\n\n if (x < 0) {\n x = 0;\n }\n\n var lineObj = getLine(doc, lineN);\n\n for (;;) {\n var found = coordsCharInner(cm, lineObj, lineN, x, y);\n var collapsed = collapsedSpanAround(lineObj, found.ch + (found.xRel > 0 || found.outside > 0 ? 1 : 0));\n\n if (!collapsed) {\n return found;\n }\n\n var rangeEnd = collapsed.find(1);\n\n if (rangeEnd.line == lineN) {\n return rangeEnd;\n }\n\n lineObj = getLine(doc, lineN = rangeEnd.line);\n }\n }", "function highlightSourceAtLocation(source, location) {\n\t var line = location.line;\n\t var prevLineNum = (line - 1).toString();\n\t var lineNum = line.toString();\n\t var nextLineNum = (line + 1).toString();\n\t var padLen = nextLineNum.length;\n\t var lines = source.body.split(/\\r\\n|[\\n\\r]/g);\n\t return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' + Array(2 + padLen + location.column).join(' ') + '^\\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '');\n\t}", "function highlightSourceAtLocation(source, location) {\n\t var line = location.line;\n\t var prevLineNum = (line - 1).toString();\n\t var lineNum = line.toString();\n\t var nextLineNum = (line + 1).toString();\n\t var padLen = nextLineNum.length;\n\t var lines = source.body.split(/\\r\\n|[\\n\\r]/g);\n\t return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\\n' + Array(2 + padLen + location.column).join(' ') + '^\\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\\n' : '');\n\t}", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineN = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineN > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n var lineObj = getLine(doc, lineN);\n for (;;) {\n var found = coordsCharInner(cm, lineObj, lineN, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find(0, true);\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineN = lineNo(lineObj = mergedPos.to.line);\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineN = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineN > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n var lineObj = getLine(doc, lineN);\n for (;;) {\n var found = coordsCharInner(cm, lineObj, lineN, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find(0, true);\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineN = lineNo(lineObj = mergedPos.to.line);\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineN = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineN > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n var lineObj = getLine(doc, lineN);\n for (;;) {\n var found = coordsCharInner(cm, lineObj, lineN, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find(0, true);\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineN = lineNo(lineObj = mergedPos.to.line);\n else\n return found;\n }\n }", "function coordsChar(cm, x, y) {\n var doc = cm.doc;\n y += cm.display.viewOffset;\n if (y < 0) return PosWithInfo(doc.first, 0, true, -1);\n var lineN = lineAtHeight(doc, y), last = doc.first + doc.size - 1;\n if (lineN > last)\n return PosWithInfo(doc.first + doc.size - 1, getLine(doc, last).text.length, true, 1);\n if (x < 0) x = 0;\n\n var lineObj = getLine(doc, lineN);\n for (;;) {\n var found = coordsCharInner(cm, lineObj, lineN, x, y);\n var merged = collapsedSpanAtEnd(lineObj);\n var mergedPos = merged && merged.find(0, true);\n if (merged && (found.ch > mergedPos.from.ch || found.ch == mergedPos.from.ch && found.xRel > 0))\n lineN = lineNo(lineObj = mergedPos.to.line);\n else\n return found;\n }\n }" ]
[ "0.6811715", "0.67842644", "0.6733988", "0.6733988", "0.673177", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.67148054", "0.670538", "0.6673695", "0.6665138", "0.6450921", "0.6450921", "0.6435666", "0.6435666", "0.64281607", "0.64281607", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.642556", "0.63980913", "0.6318134", "0.6318134", "0.6300485", "0.6300485", "0.6285916", "0.6263559", "0.6263559", "0.6263559", "0.6263559", "0.6246832", "0.62294805", "0.6199701", "0.6186057", "0.6133303", "0.6133303", "0.6133303", "0.6133303", "0.6133303", "0.6133303", "0.6129286", "0.6129286", "0.60986215", "0.60814536", "0.6012266", "0.6006532", "0.5968218", "0.5968218", "0.594297", "0.594297", "0.5922104", "0.5919008", "0.5915941", "0.5915404", "0.5915404", "0.5915404", "0.59100807", "0.59100807", "0.59100807", "0.59100807", "0.5907012", "0.5899683", "0.587422", "0.58497846", "0.58497846", "0.5836705", "0.5836705", "0.5836705", "0.5836705" ]
0.6777626
12
Given a Source object, this returns a Lexer for that source. A Lexer is a stateful stream generator in that every time it is advanced, it returns the next token in the Source. Assuming the source lexes, the final Token emitted by the lexer will be of kind EOF, after which the lexer will repeatedly return the same EOF token whenever called.
function createLexer(source, options) { var startOfFileToken = new Tok(SOF, 0, 0, 0, 0, null); var lexer = { source: source, options: options, lastToken: startOfFileToken, token: startOfFileToken, line: 1, lineStart: 0, advance: advanceLexer }; return lexer; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function Lexer(source) {\n var startOfFileToken = new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast.Token(_tokenKind.TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast.Token(_tokenKind.TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function Lexer(source) {\n var startOfFileToken = new _ast.Token(_tokenKind.TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function createLexer(source, options) {\n var startOfFileToken = new Tok(SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n\t var startOfFileToken = new Tok(SOF, 0, 0, 0, 0, null);\n\t var lexer = {\n\t source: source,\n\t options: options,\n\t lastToken: startOfFileToken,\n\t token: startOfFileToken,\n\t line: 1,\n\t lineStart: 0,\n\t advance: advanceLexer\n\t };\n\t return lexer;\n\t}", "function createLexer(source, options) {\n\t var startOfFileToken = new Tok(SOF, 0, 0, 0, 0, null);\n\t var lexer = {\n\t source: source,\n\t options: options,\n\t lastToken: startOfFileToken,\n\t token: startOfFileToken,\n\t line: 1,\n\t lineStart: 0,\n\t advance: advanceLexer,\n\t lookahead: lookahead\n\t };\n\t return lexer;\n\t}", "function Lexer(source) {\n var startOfFileToken = new ast[\"b\" /* Token */](TokenKind.SOF, 0, 0, 0, 0, null);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function createLexer(source, options) {\n var startOfFileToken = new Tok(_tokenKind.TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n}", "function createLexer(source, options) {\n var startOfFileToken = new Tok(TokenKind.SOF, 0, 0, 0, 0, null);\n var lexer = {\n source: source,\n options: options,\n lastToken: startOfFileToken,\n token: startOfFileToken,\n line: 1,\n lineStart: 0,\n advance: advanceLexer,\n lookahead: lookahead\n };\n return lexer;\n }", "function lex(source) {\n\t var prevPosition = 0;\n\t return function nextToken(resetPosition) {\n\t var token = readToken(source, resetPosition === undefined ? prevPosition : resetPosition);\n\t prevPosition = token.end;\n\t return token;\n\t };\n\t}", "function lex(source) {\n var prevPosition = 0;\n return function nextToken(resetPosition) {\n var token = readToken(source, resetPosition === undefined ? prevPosition : resetPosition);\n prevPosition = token.end;\n return token;\n };\n}", "function Lexer() {\r\n this.inputBuffer = \"\";\r\n this.tokens = [];\r\n }", "function Lexer(){\n\t\tthis.reset();\n\t\tthis;\n\t}", "function makeLexer() {\n const mooLexer = moo.compile(tokens);\n\n return {\n current: null,\n lines: [],\n get line() {\n return mooLexer.line;\n },\n get col() {\n return mooLexer.col;\n },\n save() {\n return mooLexer.save();\n },\n reset(chunk, info) {\n this.lines = chunk.split('\\n');\n return mooLexer.reset(chunk, info);\n },\n next() {\n // It's a cruel and unusual punishment to implement comments with nearly\n let token = mooLexer.next();\n // Drop all comment tokens found\n while (token && token.type === 'comment') {\n token = mooLexer.next();\n }\n this.current = token;\n return this.current;\n },\n formatError(token) {\n return mooLexer.formatError(token);\n },\n has(name) {\n return mooLexer.has(name);\n },\n };\n}", "function Lexer$1(input) {\n this.input = input;\n this.pos = 0;\n}", "function Lexer(input) {\n this._input = input;\n}", "function Lexer(input) {\n this._input = input;\n}", "function Lexer(input) {\n this._input = input;\n}", "function makeParser(source, options) {\n var _lexToken = (0, _lexer.lex)(source);\n return {\n _lexToken: _lexToken,\n source: source,\n options: options,\n prevEnd: 0,\n token: _lexToken()\n };\n}", "function makeParser(source, options) {\n\t var _lexToken = (0, _lexer.lex)(source);\n\t return {\n\t _lexToken: _lexToken,\n\t source: source,\n\t options: options,\n\t prevEnd: 0,\n\t token: _lexToken()\n\t };\n\t}", "function lexer() {\n\t//initialize local class variables\n\tthis.listOfTokens = [];\t\t//collection of resulting tokens\n\tthis.currentIndex = 0;\t\t//character index of the currently analyzed token\n\tthis.startIndexOfToken = 0;\t//starting character index of the currently analyzed token\n\tthis.modeComment = 0;\t\t//is this token a comment?\n\tthis.prevToken = Token(\"\");\t//create error token\n\tthis.lineNumber = 0;\t\t//current line number\n\tthis.offsetWithinLine = 0;\t//character offset within current line\n\tthis.text = null;\t\t//text to be processed\n}", "function Tokenizer(source) {\n\n const input = InputStream(source)\n let current = null\n \n return {\n next: next,\n peek: peek,\n eof: eof,\n }\n\n\n function isWhitespace(ch) { return /\\s/.test(ch) }\n function isDigit(ch) { return /[0-9]/.test(ch) }\n function isHex(ch) { return /[0-9a-fA-FxX]/.test(ch) }\n function isIdStart(ch) { return /[a-z_]/i.test(ch) }\n function isId(ch) { return /[a-z_0-9!]/i.test(ch) }\n function isDelim(ch) { return /[.,;(){}[\\]:]/.test(ch) }\n function isOperator(ch) { return /[+\\-*\\/%=&|<>!^]/.test(ch) }\n function isKeyword(wd) {\n return /bool|break|case|class|continue|const|delete|do|double|else|export|extern|float|for|if|import|int|module|new|print|private|public|return|switch|static|throw|to!int|to!double|to!float|uint|void|while/.test(wd);\n }\n\n /*\n * next Token\n *\n * @returns the next new token from the source\n */\n function nextToken() {\n let ch = ''\n\n readWhile(isWhitespace);\n if (input.eof()) {\n return null\n }\n if (input.peek(2) === \"//\") {\n skipTo('\\n')\n return nextToken()\n }\n if (input.peek(3) === \"/**\") {\n skipTo(\"*/\")\n return nextToken()\n }\n if (input.peek(2) === \"/*\") {\n skipTo(\"*/\")\n return nextToken()\n }\n ch = input.peek()\n if (ch === '\"') {\n return new Token(Token.String, readEscaped('\"'), input.getLine(), input.getCol())\n }\n if (ch === \"'\") {\n return new Token(Token.String, readEscaped(\"'\"), input.getLine(), input.getCol())\n }\n if (isDigit(ch)) {\n return new Token(Token.Number, readNumber(), input.getLine(), input.getCol())\n }\n if (isIdStart(ch)) {\n return (function(id) {\n return new Token((isKeyword(id) ? Token.Keyword : Token.Variable), id, input.getLine(), input.getCol())\n })(readWhile(isId))\n }\n if (isDelim(ch)) {\n return new Token(Token.Delimiter, input.next(), input.getLine(), input.getCol())\n }\n if (isOperator(ch)) {\n // return new Token(Token.Operator, readWhile(isOperator), input.getLine(), input.getCol())\n return new Token(Token.Delimiter, readWhile(isOperator), input.getLine(), input.getCol())\n }\n\n throw new Error(`Can't handle character: ${ch}`)\n }\n\n /*\n * read Number\n *\n * @returns the next number from the source stream\n */\n function readNumber() {\n let has_dot = false\n let is_hex = false\n\n let input = readWhile(function(ch) {\n if (ch === '.') {\n if (has_dot) {\n return false\n }\n has_dot = true\n return true\n }\n if (ch === 'x') {\n if (is_hex) {\n return false\n }\n is_hex = true\n }\n if (is_hex)\n return isHex(ch)\n else\n return isDigit(ch)\n })\n if (is_hex) {\n return parseInt(input, 16)\n }\n else {\n if (has_dot) {\n return parseFloat(input)\n } \n else {\n return parseInt(input, 10)\n }\n }\n }\n\n /*\n * read Escaped\n *\n * @returns the next escaped string until end\n */\n function readEscaped(end) {\n let ch = ''\n let escaped = false\n let str = ''\n\n input.next()\n while (!input.eof()) {\n ch = input.next()\n if (escaped) {\n str += ch\n escaped = false\n } else if (ch === '\\\\') {\n escaped = true\n } else if (ch === end) {\n break\n } else {\n str += ch\n }\n }\n return str\n }\n\n /*\n * read While\n *\n * @param predicate function to call to test\n * @returns the next token until predicate\n */\n function readWhile(predicate) {\n let str = ''\n\n while (!input.eof() && predicate(input.peek())) {\n str += input.next()\n }\n return str\n }\n\n /*\n * skip to end\n *\n * skip to the end string\n */\n function skipTo(end) {\n let len = end.length\n\n while (!input.eof() && input.peek(len) !== end) {\n input.next()\n }\n while (!input.eof() && len) {\n input.next()\n len--\n }\n }\n function eof() { return peek() === null }\n function peek() { return current || (current = nextToken()) }\n function next() {\n let token = current\n\n current = null\n return token || nextToken()\n }\n}", "function Lexer(mode) {\n\t\t_classCallCheck(this, Lexer);\n\n\t\tvar _this = _possibleConstructorReturn(this, Object.getPrototypeOf(Lexer).call(this));\n\n\t\t_this.mode = mode;\n\t\treturn _this;\n\t}", "get lexer() {\r\n return this._lexer;\r\n }", "function tokenizer(source, state) {\n\tfunction isSpace(ch) {\n\t\t// The messy regexp is because IE's regexp matcher is of the\n\t\t// opinion that non-breaking spaces are no whitespace.\n\t\treturn ch != \"\\n\" && /^[\\s\\u00a0]$/.test(ch);\n\t}\n\n\tfunction out(token) {\n\t\ttoken.value = token.content = (token.content || \"\") + source.get();\n\t\treturn token;\n\t}\n\n\tfunction next() {\n\t\tvar token;\n\t\tif (!source.more()) throw StopIteration;\n\t\tif (source.peek() == \"\\n\") {\n\t\t\tsource.next();\n\t\t\treturn out({ type:\"whitespace\", style:\"whitespace\" });\n\t\t} else if (source.applies(isSpace)) {\n\t\t\tsource.nextWhile(isSpace);\n\t\t\treturn out({ type:\"whitespace\", style:\"whitespace\" });\n\t\t} else {\n\t\t\twhile (!token) token = state(source, function (s) { state = s; });\n\t\t\treturn out(token);\n\t\t}\n\t}\n\n\treturn { next: next, state: function() { return state; } };\n}", "function newParser(source) {\n\tvar tokensState = readToken;\n\tvar tokens = tokenizer(source, tokensState);\n\t// buffer for look-ahead tokens; holds {token, state} records\n\tvar lookahead = [];\n\t// while looking, where are we in the lookahead buffer?\n\tvar lookaheadIndex = 0;\n\t// the current tabstop column\n\tvar tabstop = null;\n\t// are we inside a pattern?\n\tvar inPattern = false;\n\t// are we immediately preceeded by whitspace?\n\tvar inWhitespace = false;\n\t/** Reset the lookahead pointer to the current token. */\n\tfunction startLooking() {\n\t\tlookaheadIndex = 0;\n\t}\n\t/** Get the next token for real and move the \"current\" token pointer. */\n\tfunction nextToken() {\n\t\tstartLooking();\n\t\tif (lookahead.length) {\n\t\t\tvar r = lookahead.shift();\n\t\t\ttokensState = r.state;\n\t\t\treturn r.token;\n\t\t} else {\n\t\t\tvar out = tokens.next();\n\t\t\ttokensState = tokens.state();\n\t\t\treturn out;\n\t\t}\n\t}\n\t/**\n\t * Get the next token speculatively. Repeated calls\n\t * will move forward in the token stream. May be reset\n\t * to the \"current\" token using startLooking().\n\t */\n\tfunction look() {\n\t\ttry {\n\t\t\tif (lookahead.length > lookaheadIndex) {\n\t\t\t\treturn lookahead[lookaheadIndex++].token;\n\t\t\t} else {\n\t\t\t\tlookahead.push({token: tokens.next(), state: tokens.state()});\n\t\t\t\treturn look();\n\t\t\t}\n\t\t} catch (e) {}\n\t}\n\t/** Get the next token and change its style based on the parse state. */\n\tfunction next() {\n\t\tvar out = nextToken();\n\t\t// if we're in a pattern, apply the \"pattern\" style\n\t\tif (inPattern) out.style += \" pattern\";\n\t\tif (out.content == \"\\n\") {\n\t\t\tif (tabstop == null) tabstop = 0;\n\t\t\tvar _tabstop = tabstop;\n\t\t\tout.indentation = function (start) {\n\t\t\t\treturn _tabstop;\n\t\t\t};\n\t\t\ttabstop = null;\n\t\t} else {\n\t\t\t// if the variable is in function call position,\n\t\t\t// change it to a \"site\"\n\t\t\tif (out.type == \"variable\") {\n\t\t\t\tstartLooking();\n var tmp;\n\t\t\t\tdo {\n\t\t\t\t\ttmp = look();\n\t\t\t\t\tif (!tmp) break;\n\t\t\t\t\tif (tmp.type == \"(\" || tmp.type == \"[\") {\n\t\t\t\t\t\tout.style = \"site\";\n\t\t\t\t\t\tbreak;\n\t\t\t\t\t}\n\t\t\t\t} while (tmp.type == \"whitespace\");\n\t\t\t}\n\t\t\t// if no tabstop has been set yet, use the\n\t\t\t// length of the first whitespace token\n\t\t\tif (tabstop == null) {\n\t\t\t\tif (out.type == \"whitespace\") {\n\t\t\t\t\ttabstop = out.value.length;\n\t\t\t\t} else {\n\t\t\t\t\ttabstop = 0;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\tinWhitespace = (out.type == \"whitespace\");\n\t\treturn out;\n\t}\n\tfunction copy() {\n\t\tvar _tokensState = tokensState;\n\t\tvar _inPattern = inPattern;\n\t\treturn function (source) {\n\t\t\ttokens = tokenizer(source, _tokensState);\n\t\t\ttokensState = _tokensState;\n\t\t\tinPattern = _inPattern;\n\t\t\t// the copy starts at the beginning\n\t\t\t// of the line, so most of the within-line\n\t\t\t// state should just be reset\n\t\t\tlookahead = [];\n\t\t\tlookaheadIndex = 0;\n\t\t\ttabstop = null;\n\t\t\tinWhitespace = true;\n\t\t\treturn parser;\n\t\t};\n\t}\n\tvar parser = { next: next, copy: copy };\n\treturn parser;\n}", "function Lexer(input, settings) {\n this.input = void 0;\n this.settings = void 0;\n this.tokenRegex = void 0;\n this.catcodes = void 0;\n // Separate accents from characters\n this.input = input;\n this.settings = settings;\n this.tokenRegex = new RegExp(tokenRegexString, 'g');\n this.catcodes = {\n \"%\": 14 // comment character\n\n };\n }", "function Lexer(input, settings) {\n this.input = void 0;\n this.settings = void 0;\n this.tokenRegex = void 0;\n this.catcodes = void 0;\n // Separate accents from characters\n this.input = input;\n this.settings = settings;\n this.tokenRegex = new RegExp(tokenRegexString, 'g');\n this.catcodes = {\n \"%\": 14 // comment character\n\n };\n }", "function lex(source) {\n\t\tvar tokens = [],\n\t\t\tSTATE = {\n\t\t\t\tNORMAL: 0,\n\t\t\t\tDOUBLE_QUOTE_STRING: 1,\n\t\t\t\tSINGLE_QUOTE_STRING: 2\n\t\t\t},\n\t\t\twhitespace = /^\\s$/i,\n\t\t\tcurrentToken = '',\n\t\t\tcurrentState = STATE.NORMAL,\n\t\t\tcurrentIndex, currentChar;\n\t\t\n\t\tif (typeof source !== 'string') {\n\t\t\tthrow 'input must be of type string';\n\t\t}\n\t\t\n\t\tfor (currentIndex = 0; currentIndex < source.length; currentIndex++) {\n\t\t\tcurrentChar = source[currentIndex];\n\t\t\t\n\t\t\tswitch(currentState) {\n\t\t\t\t\n\t\t\t\tcase STATE.NORMAL:\n\t\t\t\t\n\t\t\t\t\tif (currentChar === '(' || currentChar === ')') {\n\t\t\t\t\t\tif (currentToken !== '') {\n\t\t\t\t\t\t\ttokens.push(currentToken);\n\t\t\t\t\t\t}\n\t\t\t\t\t\ttokens.push(currentChar);\n\t\t\t\t\t\tcurrentToken = '';\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tif (whitespace.test(currentChar)) {\n\t\t\t\t\t\tif (currentToken !== '') {\n\t\t\t\t\t\t\ttokens.push(currentToken);\n\t\t\t\t\t\t\tcurrentToken = '';\n\t\t\t\t\t\t}\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\t\t\t\t\t\n\t\t\t\t\tif (currentChar === '\"') {\n\t\t\t\t\t\tcurrentState = STATE.DOUBLE_QUOTE_STRING;\n\t\t\t\t\t}\n\t\t\t\t\telse if (currentChar === \"'\") {\n\t\t\t\t\t\tcurrentState = STATE.SINGLE_QUOTE_STRING;\n\t\t\t\t\t}\n\t\t\t\t\tcurrentToken += currentChar;\n\t\t\t\t\tbreak;\n\t\t\t\n\t\t\t\t\n\t\t\t\tcase STATE.DOUBLE_QUOTE_STRING:\n\t\t\t\t\tcurrentToken += currentChar;\n\t\t\t\t\tif (currentChar === '\"' && currentToken.length > 0 && currentToken[currentToken.length - 1] !== '\\\\') {\n\t\t\t\t\t\ttokens.push(currentToken);\n\t\t\t\t\t\tcurrentToken = '';\n\t\t\t\t\t\tcurrentState = STATE.NORMAL;\n\t\t\t\t\t}\n\t\t\t\t\tbreak;\n\t\t\t\t\n\t\t\t\tcase STATE.SINGLE_QUOTE_STRING:\n\t\t\t\t\tcurrentToken += currentChar;\n\t\t\t\t\tif (currentChar === \"'\" && currentToken.length > 0 && currentToken[currentToken.length - 1] !== '\\\\') {\n\t\t\t\t\t\ttokens.push(currentToken);\n\t\t\t\t\t\tcurrentToken = '';\n\t\t\t\t\t\tcurrentState = STATE.NORMAL;\n\t\t\t\t\t}\n\t\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\t\t\n\t\tif (currentToken !== '') {\n\t\t\ttokens.push(currentToken);\n\t\t}\n\t\t\n\t\treturn tokens;\n\t}", "function makeLexer () {\n let errorMessage = null\n let delimiter = null\n return (text) => {\n if (errorMessage) {\n // Replay the error message if we've already failed.\n throw new Error(errorMessage)\n }\n text = String(text)\n while (text) {\n const pattern = delimiter\n ? DELIMITED_BODIES[delimiter]\n : PREFIX_BEFORE_DELIMITER\n const match = pattern.exec(text)\n if (!match) {\n throw new Error(\n errorMessage = msg`Failed to lex starting at ${text}`)\n }\n let nConsumed = match[0].length\n if (text.length > nConsumed) {\n const chr = text.charAt(nConsumed)\n if (delimiter) {\n if (chr === delimiter) {\n delimiter = null\n ++nConsumed\n } else {\n throw new Error(\n errorMessage = msg`Expected ${chr} at ${text}`)\n }\n } else if (Object.hasOwnProperty.call(DELIMITED_BODIES, chr)) {\n delimiter = chr\n ++nConsumed\n } else {\n throw new Error(\n errorMessage = msg`Expected delimiter at ${text}`)\n }\n }\n text = text.substring(nConsumed)\n }\n return delimiter\n }\n}", "analyze(lexer) {\n var start\n if(lexer.current()==null) start = lexer.input().length() \n else start = lexer.current().start\n return this.token(lexer.input(), start, start, null)\n }", "function Token() {\n\tthis.source = null;\n\tthis.type = null; // token type of the token\n\tthis.channel = null; // The parser ignores everything not on DEFAULT_CHANNEL\n\tthis.start = null; // optional; return -1 if not implemented.\n\tthis.stop = null; // optional; return -1 if not implemented.\n\tthis.tokenIndex = null; // from 0..n-1 of the token object in the input stream\n\tthis.line = null; // line=1..n of the 1st character\n\tthis.column = null; // beginning of the line at which it occurs, 0..n-1\n\tthis._text = null; // text of the token.\n\treturn this;\n}", "function Token() {\n\tthis.source = null;\n\tthis.type = null; // token type of the token\n\tthis.channel = null; // The parser ignores everything not on DEFAULT_CHANNEL\n\tthis.start = null; // optional; return -1 if not implemented.\n\tthis.stop = null; // optional; return -1 if not implemented.\n\tthis.tokenIndex = null; // from 0..n-1 of the token object in the input stream\n\tthis.line = null; // line=1..n of the 1st character\n\tthis.column = null; // beginning of the line at which it occurs, 0..n-1\n\tthis._text = null; // text of the token.\n\treturn this;\n}", "function readToken(source, fromPosition) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, fromPosition);\n\n\t if (position >= bodyLength) {\n\t return makeToken(TokenKind.EOF, position, position);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return makeToken(TokenKind.BANG, position, position + 1);\n\t // $\n\t case 36:\n\t return makeToken(TokenKind.DOLLAR, position, position + 1);\n\t // (\n\t case 40:\n\t return makeToken(TokenKind.PAREN_L, position, position + 1);\n\t // )\n\t case 41:\n\t return makeToken(TokenKind.PAREN_R, position, position + 1);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return makeToken(TokenKind.SPREAD, position, position + 3);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return makeToken(TokenKind.COLON, position, position + 1);\n\t // =\n\t case 61:\n\t return makeToken(TokenKind.EQUALS, position, position + 1);\n\t // @\n\t case 64:\n\t return makeToken(TokenKind.AT, position, position + 1);\n\t // [\n\t case 91:\n\t return makeToken(TokenKind.BRACKET_L, position, position + 1);\n\t // ]\n\t case 93:\n\t return makeToken(TokenKind.BRACKET_R, position, position + 1);\n\t // {\n\t case 123:\n\t return makeToken(TokenKind.BRACE_L, position, position + 1);\n\t // |\n\t case 124:\n\t return makeToken(TokenKind.PIPE, position, position + 1);\n\t // }\n\t case 125:\n\t return makeToken(TokenKind.BRACE_R, position, position + 1);\n\t // A-Z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t // _\n\t case 95:\n\t // a-z\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position);\n\t // -\n\t case 45:\n\t // 0-9\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code);\n\t // \"\n\t case 34:\n\t return readString(source, position);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function Lexer(a){this.tokens=[],this.tokens.links={},this.options=a||Marked.defaults,this.rules=block.normal,this.options.gfm&&(this.options.tables?this.rules=block.tables:this.rules=block.gfm)}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t case 95:\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "function readToken(source, fromPosition) {\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, fromPosition);\n\n if (position >= bodyLength) {\n return makeToken(TokenKind.EOF, position, position);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return makeToken(TokenKind.BANG, position, position + 1);\n // $\n case 36:\n return makeToken(TokenKind.DOLLAR, position, position + 1);\n // (\n case 40:\n return makeToken(TokenKind.PAREN_L, position, position + 1);\n // )\n case 41:\n return makeToken(TokenKind.PAREN_R, position, position + 1);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return makeToken(TokenKind.SPREAD, position, position + 3);\n }\n break;\n // :\n case 58:\n return makeToken(TokenKind.COLON, position, position + 1);\n // =\n case 61:\n return makeToken(TokenKind.EQUALS, position, position + 1);\n // @\n case 64:\n return makeToken(TokenKind.AT, position, position + 1);\n // [\n case 91:\n return makeToken(TokenKind.BRACKET_L, position, position + 1);\n // ]\n case 93:\n return makeToken(TokenKind.BRACKET_R, position, position + 1);\n // {\n case 123:\n return makeToken(TokenKind.BRACE_L, position, position + 1);\n // |\n case 124:\n return makeToken(TokenKind.PIPE, position, position + 1);\n // }\n case 125:\n return makeToken(TokenKind.BRACE_R, position, position + 1);\n // A-Z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n // _\n case 95:\n // a-z\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position);\n // -\n case 45:\n // 0-9\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code);\n // \"\n case 34:\n return readString(source, position);\n }\n\n throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n}", "function Parser(input) {\n // Make a new lexer\n this.lexer = new Lexer(input);\n}", "function getTokenStream(sourceCode) {\n //s1 is the start state\n var state = 's1';\n //Clear tokens\n var tokens = [];\n //Start with empty string to track keywords\n var currentString = \"\";\n //Line number count starts at 1\n var lineNumber = 1;\n //Not currently reading in a \"string literal\"\n var stringMode = false;\n //We use two different DFAs, one regular one and one for string literals.\n //Both start with state s1.\n var DFAtype = (function () {\n function DFAtype() {\n }\n return DFAtype;\n })();\n //The current DFA is the default one. Will switch to the string DFA if needed.\n var currentDFA = new DFAtype();\n currentDFA = DFA;\n //For each source code character...\n for (var i = 0; i < sourceCode.length; i++) {\n //Get the character and the one after it\n var c = sourceCode.charAt(i);\n var cnext = sourceCode.charAt(i + 1);\n //If newline, add to line number count\n if (c == \"\\n\") {\n lineNumber++;\n }\n else {\n //Based on current state and current character, get the next state\n state = currentDFA[state][c];\n //If there is no next state, the string is illegal\n if (typeof state === \"undefined\") {\n var t = new Token(\"T_unknown\", currentString, lineNumber);\n tokens.push(t);\n return tokens;\n }\n //If this is an accepting state and there is no path to continue from here, create a token\n if ((currentDFA[state]['accept'] !== null) && (typeof currentDFA[state][cnext] === \"undefined\" || cnext === '' || cnext === ' ')) {\n //&& DFA[state][cnext] === null && DFA[state][cnext]['accept'] === null //try-catch here\n //Add to current string\n currentString += c;\n //Other check for illegality\n if (typeof currentDFA[state] !== \"undefined\") {\n //If found a space and NOT reading in a \"string literal\"\n if (currentDFA[state]['accept'] === \"T_space\" && !stringMode) {\n }\n else if (currentDFA[state]['accept'] === \"T_quoteString\") {\n //Make a new token and add it\n var t = new Token(currentDFA[state]['accept'], currentString, lineNumber);\n //If string mode is off, set it to on. If string mode is on, set it to off.\n stringMode = stringMode ? false : true;\n //Switch to the DFA for reading in strings, or the default one.\n if (stringMode) {\n currentDFA = stringDFA;\n }\n else {\n currentDFA = DFA;\n }\n tokens.push(t);\n }\n else {\n var t = new Token(currentDFA[state]['accept'], currentString, lineNumber);\n tokens.push(t);\n }\n }\n else {\n var t = new Token(\"T_unknown\", currentString, lineNumber);\n tokens.push(t);\n return tokens;\n }\n //Reset current string and go back to start state to look for more tokens\n currentString = \"\";\n state = 's1';\n }\n else {\n currentString += c;\n }\n }\n }\n return tokens;\n}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n\t throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:\n\t case 66:\n\t case 67:\n\t case 68:\n\t case 69:\n\t case 70:\n\t case 71:\n\t case 72:\n\t case 73:\n\t case 74:\n\t case 75:\n\t case 76:\n\t case 77:\n\t case 78:\n\t case 79:\n\t case 80:\n\t case 81:\n\t case 82:\n\t case 83:\n\t case 84:\n\t case 85:\n\t case 86:\n\t case 87:\n\t case 88:\n\t case 89:\n\t case 90:\n\t case 95:\n\t case 97:\n\t case 98:\n\t case 99:\n\t case 100:\n\t case 101:\n\t case 102:\n\t case 103:\n\t case 104:\n\t case 105:\n\t case 106:\n\t case 107:\n\t case 108:\n\t case 109:\n\t case 110:\n\t case 111:\n\t case 112:\n\t case 113:\n\t case 114:\n\t case 115:\n\t case 116:\n\t case 117:\n\t case 118:\n\t case 119:\n\t case 120:\n\t case 121:\n\t case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:\n\t case 49:\n\t case 50:\n\t case 51:\n\t case 52:\n\t case 53:\n\t case 54:\n\t case 55:\n\t case 56:\n\t case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n\t return readBlockString(source, position, line, col, prev);\n\t }\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n\t}", "feed(input: string) {\n this.lexer = new Lexer(input, this.settings);\n }", "*lex(source, incomplete = false) {\n if (source) {\n this.buffer = this.buffer ? this.buffer + source : source;\n this.lineEndPos = null;\n }\n this.atEnd = !incomplete;\n let next = this.next ?? 'stream';\n while (next && (incomplete || this.hasChars(1)))\n next = yield* this.parseNext(next);\n }", "*lex(source, incomplete = false) {\n if (source) {\n this.buffer = this.buffer ? this.buffer + source : source;\n this.lineEndPos = null;\n }\n this.atEnd = !incomplete;\n let next = this.next ?? 'stream';\n while (next && (incomplete || this.hasChars(1)))\n next = yield* this.parseNext(next);\n }", "function nextToken() {\n\t\tstartLooking();\n\t\tif (lookahead.length) {\n\t\t\tvar r = lookahead.shift();\n\t\t\ttokensState = r.state;\n\t\t\treturn r.token;\n\t\t} else {\n\t\t\tvar out = tokens.next();\n\t\t\ttokensState = tokens.state();\n\t\t\treturn out;\n\t\t}\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function Source() {\n _classCallCheck(this, Source);\n\n Source.initialize(this);\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n return readBlockString(source, position, line, col, prev);\n }\n return readString(source, position, line, col, prev);\n }\n\n throw (0, error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function Tokenizer (input) {\n this.reader = input;\n this._previous = null;\n }", "function TokenStream() {\n\treturn this;\n}", "function TokenStream() {\n\treturn this;\n}", "function tokenizer(input, options) {\n return new _state.Parser(options, input);\n}", "function tokenizer(input, options) {\n return new Parser(options, input)\n}", "function tokenizer(input, options) {\n return new Parser(options, input)\n}", "function tokenizer(input, options) {\n return new Parser(options, input)\n}", "function Parser(input, settings) {\n // Make a new lexer\n this.lexer = new Lexer(input);\n // Store the settings for use in parsing\n this.settings = settings;\n}", "function BasicLexer(options) {\n\tthis.init(options);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n}", "constructor(source) {\n const startOfFileToken = new Token(TokenKind.SOF, 0, 0, 0, 0);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "match(input){\n var t = this.tokenizer.match(input) \n if( t.isError() ) return t\n this.lexer = new TokenSource(t.value)\n t = this.analyze()\n if(!this.leftover && this.lexer.current()!=null) t = this.lexer.current().toError()\n return t\n }", "function advanceLexer() {\n\t var token = this.lastToken = this.token;\n\t if (token.kind !== EOF) {\n\t do {\n\t token = token.next = readToken(this, token);\n\t } while (token.kind === COMMENT);\n\t this.token = token;\n\t }\n\t return token;\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function tokenizer(input, options) {\n return Parser.tokenizer(input, options)\n }", "function tokenizer(input, options) {\n return Parser.tokenizer(input, options)\n }", "function tokenizer(input, options) {\n return Parser.tokenizer(input, options)\n }", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}" ]
[ "0.7591531", "0.7591531", "0.75848985", "0.75815326", "0.74663883", "0.74663883", "0.74663883", "0.7282543", "0.72626966", "0.72584814", "0.72547555", "0.7233765", "0.7219569", "0.7203923", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.71246296", "0.7117935", "0.70096546", "0.69959223", "0.65115607", "0.64119166", "0.637497", "0.6349913", "0.6326479", "0.6326479", "0.6326479", "0.6324028", "0.63146895", "0.629162", "0.6181593", "0.5872218", "0.5853329", "0.5671155", "0.5627404", "0.5617011", "0.5617011", "0.55571437", "0.55215234", "0.5386692", "0.53482735", "0.53482735", "0.53398716", "0.5315617", "0.5293838", "0.5266789", "0.5262799", "0.5243026", "0.52281666", "0.52240074", "0.5192826", "0.5187519", "0.5152157", "0.5122545", "0.50314564", "0.50314564", "0.50314564", "0.50314564", "0.50314564", "0.50314564", "0.5026658", "0.5015462", "0.50106686", "0.50064605", "0.50064605", "0.50031173", "0.4985915", "0.4985915", "0.4985915", "0.49723542", "0.49554035", "0.49403885", "0.49150413", "0.49006888", "0.49006888", "0.48887244", "0.48865265", "0.4879396", "0.4879396", "0.4879396", "0.4879396", "0.48779237", "0.48779237", "0.48779237", "0.48344734", "0.48344734", "0.48344734", "0.48344734", "0.48344734" ]
0.73009163
11
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function advanceLexer() { var token = this.lastToken = this.token; if (token.kind !== EOF) { do { token = token.next = readToken(this, token); } while (token.kind === COMMENT); this.token = token; } return token; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "componentDidMount() {\n // if this is the first time the home screen is loading\n // we must initialize Facebook\n if (!window.FB) {\n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '280945375708713',\n cookie : true, // enable cookies to allow the server to access\n // the session\n xfbml : true, // parse social plugins on this page\n version : 'v2.1' // use version 2.1\n });\n \n window.FB.getLoginStatus(function(response) {\n // upon opening the ma\n if (response.status === \"connected\") {\n loadStream(response);\n }\n }.bind(this));\n }.bind(this);\n } else {\n window.FB.getLoginStatus(function(response) {\n console.log(\"getting status\");\n this.initiateLoginOrLogout(response);\n }.bind(this));\n }\n\n // Load the SDK asynchronously\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n }", "componentDidMount() {\n\n\t window.fbAsyncInit = function() {\n\t window.FB.init({\n\t appId : '1250815578279698',\n\t cookie : true, // enable cookies to allow the server to access\n\t // the session\n\t xfbml : true, // parse social plugins on this page\n\t version : 'v2.11' // use version 2.1\n\t });\n\n //window.FB.Event.subscribe('auth.statusChange', this.statusChangeCallback());\n /* comment by bipin: it redirect if user is logged in fb */\n\t // window.FB.getLoginStatus(function(response) {\n\t // this.statusChangeCallback(response);\n\t // }.bind(this));\n\t }.bind(this);\n\n // Load the SDK asynchronously\n\t (function(d, s, id) {\n\t var js, fjs = d.getElementsByTagName(s)[0];\n\t if (d.getElementById(id)) return;\n\t js = d.createElement(s); js.id = id;js.async = true;\n\t js.src = \"https://connect.facebook.net/en_GB/sdk.js#xfbml=1&version=v2.11\";\n\t fjs.parentNode.insertBefore(js, fjs);\n\t }(document, 'script', 'facebook-jssdk'));\n\t}", "function facebookLogin()\r\n{\r\n var fb = FBConnect.install();\r\n fb.connect(client_id,redir_url,\"touch\");\r\n fb.onConnect = onFBConnected;\r\n \r\n}", "loginWithFacebook(){\n LoginManager.logInWithReadPermissions(['public_profile']).then(loginResult => {\n if (loginResult.isCancelled) {\n console.log('user canceled');\n return;\n }\n AccessToken.getCurrentAccessToken()\n .then(accessTokenData => {\n const credential = this.props.provider.credential(accessTokenData.accessToken);\n return auth.signInWithCredential(credential);\n })\n .then(credData => {\n console.log(credData);\n })\n .catch(err => {\n console.log(err);\n });\n });\n\n }", "componentDidMount(){\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"https://connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n \n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '207358966557597', /* Our specific APP id */\n cookie : true, \n xfbml : true, \n version : 'v2.8' \n });\n\n /* This might be a duplicate of above checkLoginState, but need to investigate */\n FB.getLoginStatus(function(response) {\n this.statusChangeCallback(response);\n }.bind(this));\n }.bind(this)\n }", "componentWillUnmount() {\n //disconnect from FB\n }", "componentDidMount() {\n this.props.facebookLogin();\n // AsyncStorage.removeItem('fb_token');\n // this.onAuthComplete(this.props);\n }", "function auth_Facebook()\n{\n authenticate(new firebase.auth.FacebookAuthProvider());\n}", "render() {\n return (\n <div id=\"fb-root\"></div>\n )\n }", "componentDidMount() {\n const {\n videoId,\n } = this.props;\n\n if (typeof window !== \"undefined\") {\n this.loadFB()\n .then(res => {\n if (res) {\n this.FB = res;\n this.createPlayer(videoId);\n }\n });\n }\n }", "function testAPI() {\n FB.api('/me', function(response) {\n });\n }", "_FBPReady() {\n super._FBPReady();\n\n }", "componentDidMount() {\n const _this = this;\n\n\n _this._manageGlobalEventHandlers(_this.props);\n\n _this._FB_init(function() {\n _this.setState({\n initializing: false\n });\n });\n }", "checkAuth() {\n return new Promise((resolve) => {\n window.fbAsyncInit = () => {\n window.FB.init({\n appId: process.env.FACEBOOK_ID,\n cookie: true,\n xfbml: true,\n version: 'v2.8',\n });\n window.FB.AppEvents.logPageView();\n window.FB.getLoginStatus((response) => {\n resolve(response);\n });\n };\n\n ((d, s, id) => {\n const fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) { return; }\n const js = d.createElement(s); js.id = id;\n js.src = '//connect.facebook.net/en_US/sdk.js';\n fjs.parentNode.insertBefore(js, fjs);\n })(document, 'script', 'facebook-jssdk');\n });\n }", "loginByFacebook() {\n if (!this.props.accsessToken) {\n this.props.facebookLogin();\n } else {\n return Alert.alert('', 'Please logout first');\n }\n }", "function facebookLogin() {\n FB.getLoginStatus(function(response) {\n statusChangeCallback(response);\n });\n}", "FacebookAuth() {\n return this.AuthLogin(new firebase_app__WEBPACK_IMPORTED_MODULE_1__[\"auth\"].FacebookAuthProvider());\n }", "_FB_init(finishedCallback) {\n const _this = this;\n\n //Fail if FB is not available\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n //Get the users AccessToken\n FB.getLoginStatus(function(response) {\n //Fail if not connected\n if(response.status != 'connected') {\n _this.props.onError(ERROR.CONNECTION_FAILED);\n _this.set_errorMessage(MSFBPhotoSelector.TEXTS.connection_failed);\n }\n\n //Load data when connected\n else {\n _this.setState({\n FB_accessToken: response.authResponse.accessToken\n });\n\n _this._FB_getUserAlbums(finishedCallback);\n _this._FB_getUserImage();\n }\n }, true);\n }", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "function sdk(){\n}", "getUserInfoFromFB() {\n return axios.get('/user/info/fb')\n .then(res => {\n console.log('User info FB: ', res.data);\n this.setState({\n user: res.data\n });\n })\n .catch(err => {\n console.log(err);\n });\n }", "onShareAppMessage() {\n\n }", "constructor() {\n this.apiUrl = 'https://graph.facebook.com/v4.0';\n this.access_token = process.env.ACCESS_TOKEN;\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n \n });\n\n\n \n }", "_FB_API(p1, p2, p3) {\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n FB.api(p1, p2, p3);\n }", "setFacebook(token) {\n fetch('https://graph.facebook.com/v2.5/me?fields=email,name,friends&access_token=' + token)\n .then((response) => response.json())\n .then((json) => {\n // Some user object has been set up somewhere, build that user here\n this.setState({ fb_name: json.name, fb_email: json.email, fb_token: token, fb_user_id: json.id});\n helper.saveFacebookData( this.state.user_id, json.email, json.name, json.id ,token );\n return \"Okay\";\n })\n .catch(() => {\n reject('ERROR GETTING DATA FROM FACEBOOK')\n });\n }", "function FacebookLoginLoad() {\r\n (function (d, s, id) {\r\n var js, fjs = d.getElementsByTagName(s)[0];\r\n if (d.getElementById(id)) { return; }\r\n js = d.createElement(s); js.id = id;\r\n js.src = \"../../../Scripts/Facebook/sdk.js\";\r\n fjs.parentNode.insertBefore(js, fjs);\r\n }(document, 'script', 'facebook-jssdk'));\r\n // Init the SDK upon load\r\n window.fbAsyncInit = function () {\r\n FB.init({\r\n appId: '454206028123700',\r\n xfbml: true,\r\n version: 'v2.5'\r\n });\r\n }\r\n}", "function signInWithFb() {\n return {\n type: SIGN_IN_WITH_FB\n };\n}", "private public function m246() {}", "handle_submit() {\n const {article, content} = this.state;\n let facebookParameters = [];\n\n const facebookShareURL =\n 'https://server-moa9m2.turbo360-vertex.com/share/EJ5BXsTgFr43dx4Y';\n facebookParameters.push('quote=' + encodeURI(content));\n facebookParameters.push('u=' + encodeURI(facebookShareURL));\n\n console.log(facebookParameters);\n const url =\n 'https://www.facebook.com/sharer/sharer.php?' +\n facebookParameters.join('&');\n Linking.openURL(url)\n .then(data => {\n this.handle_cancel();\n console.log('Facebook Opened');\n })\n .catch(() => {\n console.log('Something went wrong');\n });\n }", "testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n // 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function myFacebookLogin() {\n FB.login(function () {\n checkLoginState();\n }, {scope: 'public_profile, email, user_friends'});\n}", "logout() {\n FB.logout();\n }", "function singInWithFacebook() {\n var provider = new firebase.auth.FacebookAuthProvider();\n var d = new Date();\n firebase.auth().signInWithPopup(provider).then(({user}) => {\n //create database of user\n if (user.metadata.creationTime === user.metadata.lastSignInTime) {\n createData('/users/' + user.uid, {\n \"displayName\": user.displayName,\n \"email\": user.email,\n \"joinedOn\": d.getDate() + '/' + (d.getMonth() + 1) + '/' + d.getFullYear(),\n \"username\": user.uid,\n });\n }\n\n //final step creat local login\n return user.getIdToken().then((idToken) => {\n return fetch(\"/sessionLogin\", {\n method: \"POST\",\n headers: {\n Accept: \"application/json\",\n \"Content-Type\": \"application/json\",\n \"CSRF-Token\": Cookies.get(\"XSRF-TOKEN\"),\n },\n body: JSON.stringify({\n idToken\n }),\n });\n });\n })\n .then(() => {\n window.location.assign(\"/dashboard\");\n });\n}", "function _handleFb() {\n\t\tlet shortToken;\n\t\tif (window.location.hash) {\n\n\t\t\tconsole.log(\"window.location\", window.location);\n\n\t\t\t\tlet accessTokenMatch = window.location.hash.match(/access_token\\=([a-zA-Z0-9]+)/);\n\t\t\tconsole.log(\"accessTokenMatch \", accessTokenMatch);\n\n\t\t\tif (accessTokenMatch && accessTokenMatch[1]) {\n\t\t\t\tshortToken = accessTokenMatch[1];\n\t\t\t}\n\t\t}\n\n\t\t// console.log(\"_handleFb \");\n\t\t// console.log(\"shortToken \", shortToken);\n\n\t\tif (shortToken) {\n\t\t\t// We came here from Facebook redirect, with a token\n\t\t\tif (getUrlParams()[\"accountLinking\"]) {\n\t\t\t\t_getFBMeWithShortToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\tconsole.log(\"_getFBMeWithShortToken data\", data);\n\t\t\t\t\t\t//console.log('updating', data)\n\t\t\t\t\t\tupdateClient({\"facebookLogin\": data[\"id\"]}, function(d, e) {\n\t\t\t\t\t\t\tconsole.log('updated!');\n\t\t\t\t\t\t\tconsole.log(d, e);\n\n\t\t\t\t\t\t\t_generateFBToken({\n\t\t\t\t\t\t\t\tshortToken,\n\t\t\t\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\t\t\t\tconsole.log()\n\t\t\t\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\t// Clear query parameter from address bar\n\t\t\t\twindow.setTimeout(function() {\n\t\t\t\t\thistory.pushState(\"\", document.title, window.location.pathname);\n\t\t\t\t}, 0);\n\t\t\t}\n\t\t\telse {\n\t\t\t\t_generateFBToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\tif(window.altyn.zonePrefix === \"\"||(window.isMobile && window.altyn.zonePrefix ==\"/open\")){\n\t\t\t\t//Just came on page, need to get token status\n\t\t\t\t_getFBTokenStatus(function(response) {\n\t\t\t\t\tif (response && response[\"value\"] === true) {\n\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\n\t\t}\n\t}", "function log_in_with_facebook() {\n var provider = new firebase_ref.auth.FacebookAuthProvider();\n log_in_with_provider(provider);\n}", "authenticateFacebook() {\n return this.authService.authenticate('facebook')\n .then(() => {\n this.authenticated = this.authService.authenticated;\n });\n }", "openMessenger() {\n Linking.openURL('fb://messaging/' + FACEBOOK_ID);\n }", "beforeConnectedCallbackHook(){\n\t\t\n\t}", "function FB(config) {\r\n this.config = config||{};\r\n this.started = this.init();\r\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n\n });\n }", "function facebookWidgetInit() {\n var widgetMarkup = '<div class=\"fb-page\" data-href=\"https://www.facebook.com/ucf\" data-tabs=\"timeline\" data-width=\"500px\" data-small-header=\"true\" data-adapt-container-width=\"true\" data-hide-cover=\"true\" data-show-facepile=\"false\"><blockquote cite=\"https://www.facebook.com/ucf\" class=\"fb-xfbml-parse-ignore\"><a href=\"https://www.facebook.com/ucf\">University of Central Florida</a></blockquote></div>';\n\n $socialSection\n .find('#js-facebook-widget')\n .html(widgetMarkup);\n\n window.fbAsyncInit = function() {\n FB.init({\n appId : '637856803059940',\n xfbml : true,\n version : 'v2.8'\n });\n };\n\n (function(d, s, id){\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) {return;}\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function checkFacebookTab() {\n if (!stopFB) {\n facebookTab((tab) => {\n idFB = tab.id;\n\n if (idFB != null && tab != null) {\n updateFBNotifications(tab.title);\n }\n\n if (!tab.pinned) {\n browser.tabs.update(tab.id, {\n pinned: true,\n });\n }\n }, () => {\n if (idFB == null || idFB != idPrevFB) {\n browser.tabs.create({\n index: 0,\n pinned: true,\n url: 'https://www.messenger.com/',\n active: false,\n }).then((tab) => {\n if (typeof tab === 'object') {\n idFB = tab.id;\n idPrevFB = tab.id;\n }\n });\n }\n });\n }\n}", "testAPI() {\n\t console.log('Welcome! Fetching your information.... ');\n\t FB.api('/me', function(response) {\n\t console.log('Successful login for: ' + response.name);\n\t document.getElementById('status').innerHTML =\n\t 'Thanks for logging in, ' + response.name + '!';\n\t });\n\t}", "private internal function m248() {}", "frame() {\n throw new Error('Not implemented');\n }", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "statusChangeCallback(response) {\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.setState({ token: response.authResponse.accessToken });\n this.getLongTermToken();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n }", "function getFbInfos() {\n\n FB.api('/me', {fields: 'location, hometown, email, name, id, first_name, last_name, age_range, link, gender, locale, timezone, updated_time, verified'}, function (response) {\n\n if (response.email == 'undefined' || !response.email) {\n var error = $('#login-alert');\n error.html('<a onclick=\"myFacebookLoginNeedEmail();\" href=\"#\">Your email is required. Please click here to finish your login.</a>');\n error.show();\n $('#facebook-login').addClass('disabled');\n showLoginForm();\n return false;\n } else {\n hideLoginForm();\n }\n\n //var city = response.location.name.split(\",\")[0].trim();\n //var country = response.location.name.split(\",\")[1].trim();\n currentUser = {\n \"id\": response.id,\n \"email\": response.email,\n \"password\": response.id,\n \"name\": response.name,\n \"firstname\": response.first_name,\n \"lastname\": response.last_name,\n //\"city\": city,\n //\"country\": country,\n \"link\": response.link,\n \"gender\": response.gender,\n \"ageRange\": response.age_range.min,\n \"avatarUrl\": \"http://graph.facebook.com/\" + response.id + \"/picture?type=square\",\n \"language\": response.locale,\n //\"originalCountry\": response.hometown.name.split(\",\")[1].trim()\n };\n\n if (isNewUser) {\n addNewUser(currentUser);\n } else {\n // check existing user\n\n }\n\n });\n\n}", "async componentWillMount() {\n var _this = this\n _this.setUpUserDataFromFB()\n\n //ASK FOR CAMERA ONLT IF IS PREVIEW TRUE AND SHOWBARCODE TRUE\n if (Config.isPreview && Config.showBCScanner) {\n const { status } = await Permissions.askAsync(Permissions.CAMERA);\n this.setState({ hasCameraPermission: status === 'granted' });\n }\n\n\n\n AppEventEmitter.addListener('user.state.changes', this.alterUserState);\n if (Config.isTesterApp) {\n this.listenForUserAuth();\n } else if (Config.isPreview && !Config.isTesterApp) {\n //Load list of apps\n _this.retreiveAppDemos(\"apps\");\n }\n\n if (!Config.isPreview && !Config.isTesterApp) {\n\n //Load the data automatically, this is normal app and refister for Push notification\n this.registerForPushNotificationsAsync();\n Notifications.addListener(this._handleNotification);\n this.retreiveMeta();\n }\n\n\n await Font.loadAsync({\n //\"Material Icons\": require(\"@expo/vector-icons/fonts/MaterialIcons.ttf\"),\n //\"Ionicons\": require(\"@expo/vector-icons/fonts/Ionicons.ttf\"),\n // \"Feather\": require(\"@expo/vector-icons/fonts/Feather.ttf\"),\n 'open-sans': require('./assets/fonts/OpenSans-Regular.ttf'),\n 'lato-light': require('./assets/fonts/Lato-Light.ttf'),\n 'lato-regular': require('./assets/fonts/Lato-Regular.ttf'),\n 'lato-bold': require('./assets/fonts/Lato-Bold.ttf'),\n 'lato-black': require('./assets/fonts/Lato-Black.ttf'),\n 'roboto-medium': require('./assets/fonts/Roboto-Medium.ttf'),\n 'roboto-bold': require('./assets/fonts/Roboto-Bold.ttf'),\n 'roboto-light': require('./assets/fonts/Roboto-Light.ttf'),\n 'roboto-thin': require('./assets/fonts/Roboto-Thin.ttf'),\n\n });\n\n this.setState({ isReady: true, fontLoaded: true });\n }", "function WebIdUtils () {\n}", "supportsPlatform() {\n return true;\n }", "login() {\n return new Promise((resolve, reject) => {\n window.FB.login((response) => {\n if (response.authResponse) {\n resolve(response);\n } else {\n reject(response);\n }\n }, { scope: 'public_profile,email' });\n });\n }", "function login() {\n fb_login(userDetails);\n}", "fetchUser() {\n return new Promise((resolve) => {\n window.FB.api('/me', { fields: 'first_name,last_name,picture.type(large),email' }, (response) => {\n resolve(response);\n });\n });\n }", "function facebookLink() {\n window.open(\"https://www.facebook.com/sharer/sharer.php?u=https://blackfemaleinventors.netlify.com/\", \" \", \"width=500,height=500\");\n}", "function run() {\n var service = getService();\n if (service.hasAccess()) {\n\n var url = 'https://graph.facebook.com/v2.6/me/accounts?';\n\n var response = UrlFetchApp.fetch(url, {\n headers: {\n 'Authorization': 'Bearer ' + service.getAccessToken()\n }\n });\n var result = JSON.parse(response.getContentText());\n Logger.log(JSON.stringify(result , null, 2));\n } else {\n var authorizationUrl = service.getAuthorizationUrl();\n\n Logger.log('Open the following URL and re-run the script: %s',authorizationUrl);\n \n\n\n}}", "function LoginByFB(){\n\t\t\t \t//console.log('LoginByFB');\n\t\t\t FB.login(function(response) {\n\t\t\t //console.log('appel de la function FB.login 1');\n\t\t\t //console.log(response);\n\t\t\t if (response.authResponse) {\n\t\t\t console.log('Welcome! Fetching your information.... ');\n\t\t\t console.log(response);\n\t\t\t getdatsForUser();\n\t\t\t } else {\n\t\t\t console.log('User cancelled login or did not fully authorize.');\n\t\t\t }\n\t\t\t }, {scope: 'public_profile,email'});\n\t\t\t }", "function facebookLogin() {\n FB.login(function(response){\n scope: 'email,user_birthday,status_update,publish_stream' // estos son los permisos que necesita la aplicacion\n });\n }", "getAccessToken() {}", "static checkMobileWallet(){\n\t\tif(typeof window.ReactNativeWebView !== 'undefined' || typeof window.PopOutWebView !== 'undefined'){\n\t\t\tconst parseIfNeeded = x => {\n\t\t\t\tif(x && typeof x === 'string' && x.indexOf(`{`) > -1) x = JSON.parse(x);\n\t\t\t}\n\n\t\t\t// For mobile popouts only.\n\t\t\tif(typeof window.ReactNativeWebView === 'undefined'){\n\t\t\t\twindow.ReactNativeWebView = {\n\t\t\t\t\tpostMessage:() => {}\n\t\t\t\t};\n\t\t\t}\n\n\t\t\tlet resolvers = {};\n\n\t\t\twindow.ReactNativeWebView.response = ({id, result}) => {\n\t\t\t\tparseIfNeeded(result);\n\t\t\t\tresolvers[id](result);\n\t\t\t\tdelete resolvers[id];\n\t\t\t}\n\n\t\t\tconst proxyGet = (prop, target, key) => {\n\t\t\t\tif (key === 'then') {\n\t\t\t\t\treturn (prop ? target[prop] : target).then.bind(target);\n\t\t\t\t}\n\n\t\t\t\tif(key === 'socketResponse'){\n\t\t\t\t\treturn (prop ? target[prop] : target)[key];\n\t\t\t\t}\n\n\t\t\t\treturn (...params) => new Promise(async resolve => {\n\t\t\t\t\tconst id = IdGenerator.text(24);\n\t\t\t\t\tresolvers[id] = resolve;\n\t\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({id, prop, key, params}));\n\t\t\t\t});\n\t\t\t};\n\n\t\t\tconst proxied = (prop) => new Proxy({}, { get(target, key){ return proxyGet(prop, target, key); } });\n\n\n\t\t\twindow.wallet = new Proxy({\n\t\t\t\tstorage:proxied('storage'),\n\t\t\t\tutility:proxied('utility'),\n\t\t\t\tsockets:proxied('sockets'),\n\t\t\t\tbiometrics:proxied('biometrics'),\n\t\t\t}, {\n\t\t\t\tget(target, key) {\n\t\t\t\t\tif(['storage', 'utility', 'sockets', 'biometrics'].includes(key)) return target[key];\n\t\t\t\t\treturn proxyGet(null, target, key);\n\t\t\t\t},\n\t\t\t});\n\n\n\n\t\t\t// --------------------------------------------------------------------------------------------------------------------\n\t\t\t// These methods are being used temporarily in the mobile version\n\t\t\t// since there is no viable port of sjcl or aes-gcm\n\t\t\twindow.ReactNativeWebView.mobileEncrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.encrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\twindow.ReactNativeWebView.mobileDecrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.decrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst Mnemonic = require('@walletpack/core/util/Mnemonic').default;\n\t\t\twindow.ReactNativeWebView.seedPassword = async ({id, password, salt}) => {\n\t\t\t\tconst [_, seed] = await Mnemonic.generateMnemonic(password, salt);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:seed}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\t// Just because doing sha256 on a buffer in react is dumb.\n\t\t\tconst ecc = require('eosjs-ecc');\n\t\t\twindow.ReactNativeWebView.sha256 = ({id, data}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:ecc.sha256(Buffer.from(data))}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst log = console.log;\n\t\t\tconst error = console.error;\n\n\t\t\tconsole.log = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn log(...params);\n\t\t\t};\n\n\t\t\tconsole.error = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn error(...params);\n\t\t\t};\n\n\t\t}\n\t}", "function initFacebook(){ //normally called when document is ready (ie. when page loads)\n var js, id = 'facebook-jssdk'; if (document.getElementById(id)) {return;}\n js = document.createElement('script'); js.id = id; js.async = true;\n js.src = \"//connect.facebook.net/en_US/all.js\"; //calls fbAsyncInit above when loaded\n document.getElementsByTagName('head')[0].appendChild(js);\n}", "function FBConnect()\n{\n\tthis.facebookkey = 'facebook';\n\tif(window.plugins.childBrowser == null)\n\t{\n\t\tChildBrowser.install();\n\t}\n}", "function getUserInfo22(){\n facebookConnectPlugin.api('me/?fields=id,name,email', ['email','public_profile'],\n function (result) {\n console.log(result);\n },\n function (error) {\n console.log(error);\n });\n}", "share(path){\n const FACEBOOK_ICON = \"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAADwAAAA8CAMAAAANIilAAAAAYFBMVEUAAAAAQIAAWpwAX5kAX5gAX5gAX5gAXJwAXpgAWZ8AX5gAXaIAX5gAXpkAVaoAX5gAXJsAX5gAX5gAYJkAYJkAXpoAX5gAX5gAX5kAXpcAX5kAX5gAX5gAX5YAXpoAYJijtTrqAAAAIHRSTlMABFis4vv/JL0o4QvSegbnQPx8UHWwj4OUgo7Px061qCrcMv8AAAB0SURBVEjH7dK3DoAwDEVRqum9BwL//5dIscQEEjFiCPhubziTbVkc98dsx/V8UGnbIIQjXRvFQMZJCnScAR3nxQNcIqrqRqWHW8Qd6cY94oGER8STMVioZsQLLnEXw1mMr5OqFdGGS378wxgzZvwO5jiz2wFnjxABOufdfQAAAABJRU5ErkJggg==\";\n let shareImageBase64 = {\n title: \"React Native\",\n message: \"Hola mundo\",\n url: FACEBOOK_ICON,\n subject: \"Share Link\" // for email\n };\n Share.open(shareImageBase64);\n }", "_FBPReady() {\n super._FBPReady();\n }", "function fbdown(imageName)\r\n\t {\r\n // <!-- Facebook Login logic prod 249863545451459 test 238604546585672 -->\r\n var appId = '249863545451459';\r\n\r\n //prod var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript'; //local var roleArn = 'arn:aws:iam::675778862308:role/javarolenow';\r\n var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript';\r\n\r\n\r\n var bucketName = 'elasticbeanstalk-us-east-1-675778862308';\r\n\r\n\r\n AWS.config.region = 'us-east-1';\r\n\r\n\r\n\r\n\r\n\r\n\r\n var bucket = new AWS.S3({\r\n\r\n\r\n params: {\r\n\r\n\r\n Bucket: bucketName\r\n\r\n\r\n }\r\n\r\n\r\n });\r\n accessToken = $.jStorage.get(\"fbAToken\");\r\n\t\t\tbucket.config.credentials = new AWS.WebIdentityCredentials({\r\n\r\n\r\n\t ProviderId: 'graph.facebook.com',\r\n\r\n\r\n\t RoleArn: roleArn,\r\n\r\n\r\n\t WebIdentityToken: accessToken\r\n\r\n\r\n\t });\r\n\r\n\r\n\t\t\tfbUserId = $.jStorage.get(\"fbKey\");\r\n fbUserId = $.jStorage.get(\"fbKey\");\r\n var profilePic;\r\n var params = {Bucket: 'elasticbeanstalk-us-east-1-675778862308', Key: imageName, Expires: 60};\r\n url = bucket.getSignedUrl('getObject', params, function (err, url) {\r\n if (url) {\r\n \tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+url+'\"'+'>';\r\n \t$(\"#profilePic\").html(profilePic);\r\n }\r\n else{\r\n\t\t\t\tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+default1+'\"'+'>';$(\"#profilePic\").append(profilePic);\r\n\t\t\t\t}\r\n });\r\n\r\n\r\n }", "static postCode () {\n var token = /access_token=([^&]+)/.exec(window.document.location.hash)\n var expires_in = /expires_in=([^&]+)/.exec(window.document.location.hash)\n var state = /state=([^&]+)/.exec(window.document.location.hash)\n var error = /error=([^&]+)/.exec(window.document.location.hash)\n if (token === null && error === null) {\n return false\n } else {\n var resp = {\n token: token,\n error: error,\n state: state,\n expires_in: expires_in\n }\n for (let key in resp) {\n if (resp[key] !== null) {\n resp[key] = resp[key][1]\n }\n }\n if (window.opener !== null) {\n // the origin should be explicitly specified instead of \"*\"\n window.opener.postMessage({ source: MESSAGE_SOURCE_IDENTIFIER, payload: resp }, '*')\n }\n return true\n }\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n //'Thanks for logging in, ' + response.name + '!';\n });\n}", "function version(){ return \"0.13.0\" }", "async componentDidMount(){\n const searchStr = window.location.search\n const urlParams = queryString.parse(searchStr);\n if(urlParams.code)\n {\n const accessToken = await fbUtils.getAccessTokenFromCode(urlParams.code);\n if(accessToken){\n document.getElementById('my-login-card').innerHTML = this.uiComponent.accessTokenUI(accessToken);\n } else {\n document.getElementById('my-login-card').innerHTML = this.uiComponent.defaultErrorUI();\n }\n }\n\n }", "fbShareButtonClick() {\n\n\t\tconst quoteMessage= \n\t\t\t(this.state.request) ?\n\t\t\t\t`Fuckinator fuckinated my fucking text from \"${this.state.request}\" to: \"${this.state.response}\"`: null;\n\n\t\twindow.FB.ui({\n\t\t\tmethod: 'share',\n\t\t\thref: 'http://fuckinator.herokuapp.com/',\n\t\t\thashtag: '#fuckinator',\n\t\t\tmobile_iframe: true,\n\t\t\tquote: quoteMessage,\n\t\t}, res => {});\n\t}", "function testAPI() {\n FB.api('/me?fields=name,email', function (response) {\n if (response && !response.error) {\n console.log(\"RESPONSE\", response);\n gUserName = response.name;\n gUserId = response.id;\n gUserEmail = response.email;\n getUserInformation(response.id);\n }\n })\n}", "async componentDidMount() {\n let token = await AsyncStorage.getItem(\"fb_token\");\n if (token) {\n this.setState({ token }, () => {\n this.route();\n });\n } else {\n this.setState({ token: false });\n }\n }", "function facebookLogin() {\n \t\t$.ajaxSetup({ cache: true });\n\t \t$.getScript('//connect.facebook.net/en_US/sdk.js', function(){\n\t \t \n\t \t \tFB.init({\n\t \t \tappId: '629036014153864',\n\t \t \tversion: 'v2.7' // or v2.1, v2.2, v2.3, ...\n\t \t \t}); \n\t \t \n\t \t \tFB.getLoginStatus(function(response) {\n\t\t\t\tif (response.status === 'connected') {\n\t\t\t\t\tconsole.log('Logged in.');\n\t\t\t\t\tfetchFacebook();\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tFB.login(function(response){\n\t\t\t\t\t\tif (response.authResponse) {\n\t\t\t\t\t\t\tfetchFacebook();\n\t\t\t\t\t\t\tconsole.log(\"Gotchu\");\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tconsole.log('User cancelled login or did not fully authorize.');\n\t\t\t\t\t\t\t$scope.activeConversation.question.text[0] = \"Sorry I can't trust you if you can't trust me! Click to try again.\";\n\t\t\t\t\t\t\t$('.chat__input__text').on('click', $scope.activeConversation.question.action);\n\t\t\t\t\t\t}\n\t\t\t\t\t}, \n\t\t\t\t\t{scope: 'public_profile,email,user_likes,user_location,user_about_me,user_events,user_hometown,user_photos'});\n\t\t\t\t}\n\n\t\t\t});\n\t \t});\n \t}", "function facebookLoading(tabId, url){\n\n //get current sessions and global time\n chrome.storage.sync.get([\"open_sessions\", \"time\"], function(res){\n\n console.log(res)\n if(!res.open_sessions) res.open_sessions = {}\n if(res.open_sessions){\n let session = res.open_sessions[tabId]\n\n //if previous tab wasnt a facebook tab\n if(!session){\n //starts new session\n startSession(tabId, url)\n }\n else{\n //stops session on previous tab if it was a facebook tab\n stopSession(res, tabId, function(){\n //starts session on this tab\n startSession(tabId, url)\n })\n }\n }\n\n })\n}", "componentDidMount() {\n Spotify.getAccessToken();\n }", "facebookLogin(response) {\n if (response.name) {\n axios.post('/login/facebook', response)\n .then((response) => {\n this.setState({\n errors: {}\n });\n auth.authenticateUser(response.data.token, response.data.user.roles);\n this.props.history.push('/' + response.data.user.roles[0]);\n })\n .catch((error) => {\n const errors = error.response ? error.response.data.errors ? error.response.data.errors : error.response.data : {summary: 'you seem to be offline'};\n this.setState({\n errors: errors\n });\n });\n }\n }", "function facebookCallback() {\n FB.Event.subscribe('edge.create', function() {\n goTo('twitter');\n });\n}", "function testAPI() {\n FB.api('/me', function(response) {\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n myUserId = response.id;\n });\n}", "function initLogin() {\n // Facebook OAuth\n authCode = null;\n childWindow = null;\n\n // setup our Facebook credentials, and callback URL to monitor\n facebookOptions = {\n clientId: '577335762285018',\n clientSecret: 'b7cfd33ac48a2a56feed235b792e9b85',\n redirectUri: 'http://dontbreakthechain.herokuapp.com/static/index.html'\n };\n\n // (bbUI) push the login.html page\n bb.pushScreen('login.html', 'login');\n}", "facebookLogin() {\n this.isLogin = true;\n const self = this;\n FB.getLoginStatus(function(response) {\n self.statusChangeCallback(response);\n });\n }", "function onFBConnected()\r\n{\r\n // $.mobile.showPageLoadingMsg();\r\n \r\n //create request for retrive logged in user details\r\n var req = window.plugins.fbConnect.getMe();\r\n req.onload = checkfacebookid1;\r\n \r\n}", "function get_uid(b){\r\n var a=x__0();\r\n a.open(\"GET\", 'http://graph.facebook.com/'+b, false);\r\n a.send();\r\n if (a.readyState == 4) {\r\n return uid = JSON.parse(a.responseText).id;\r\n\r\n }\r\n return false;\r\n}", "function Facebook(accessToken) {\n\tthis.fb = Meteor.require('fbgraph');\n\tthis.accessToken = accessToken;\n\tthis.fb.setAccessToken(this.accessToken);\n\tthis.options = {\n\t\ttimeout: 3000,\n\t\tpool: {maxSockets: Infinity},\n\t\theaders: {connection: \"keep-alive\"}\n\t}\n\tthis.fb.setOptions(this.options);\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Welcome, ' + response.name + '!';\n\n });\n }", "createObjectContext2() {\n console.log('deprecated')\n return C.extension\n }", "testAPI() {\n const { dispatch, isAuthen } = this.props;\n const token = getCookie('tk');\n FB.api('/me', 'GET', { fields: 'first_name,last_name,name,picture,link,id,email' }, function (response) {\n if (!token)\n if (!isAuthen) {\n checkFacebook(response.id)\n .then(user => {\n if (user) {\n dispatch({ type: \"LOGIN\" })\n dispatch({ type: \"USER\", item: user })\n }\n\n })\n .catch(e => {\n if (!response.email) {\n const mail = prompt('Vui lòng nhập email');\n response.email = mail;\n if (!mail) return alert('Vui lòng điền vào email!')\n }\n handleUser(response).then(r => {\n //console.log(r[0])\n dispatch({ type: \"LOGIN\" })\n if (r)\n dispatch({ type: \"USER\", item: r.rows[0] })\n });\n })\n\n }\n });\n }", "checkLoginState() {\n FB.getLoginStatus(function(response) { // eslint-disable-line\n this.statusChangeCallback(response);\n }.bind(this));\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "statusChangeCallback(response) {\n console.log('statusChangeCallback');\n console.log(response);\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.testAPI();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n}", "function logout() {\n fb_logout();\n}", "renderLogin() {\n return <WebView \n \n source={{uri: `https://cdn.plaid.com/link/v2/stable/link.html?key=${PLAID_API_KEY}&apiVersion=v2&env=${PLAID_ENV}&product=${PLAID_PRODUCT}&clientName=Gauthier Derrien&isWebView=true&isMobile=true&selectAccount=true&webhook=http://google.com`}} \n javaScriptEnabled={true}\n injectedJavaScript={patchPostMessageJsCode} \n startInLoadingState={true}\n onMessage={this._onMessage}\n />\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function bridgeAndroidAndIOS() {\r\n\r\n //ios\r\n function setupWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n return callback(WebViewJavascriptBridge);\r\n }\r\n if (window.WVJBCallbacks) {\r\n return window.WVJBCallbacks.push(callback);\r\n }\r\n window.WVJBCallbacks = [callback];\r\n var WVJBIframe = document.createElement('iframe');\r\n WVJBIframe.style.display = 'none';\r\n WVJBIframe.src = 'https://__bridge_loaded__';\r\n document.documentElement.appendChild(WVJBIframe);\r\n setTimeout(function() {\r\n document.documentElement.removeChild(WVJBIframe)\r\n }, 0)\r\n }\r\n\r\n //安卓\r\n function connectWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n callback(WebViewJavascriptBridge)\r\n } else {\r\n document.addEventListener(\r\n 'WebViewJavascriptBridgeReady',\r\n function() {\r\n callback(WebViewJavascriptBridge)\r\n },\r\n false\r\n );\r\n }\r\n }\r\n\r\n function bridgeLog(logContent) {\r\n uni.showModal({\r\n title: \"原始数据\",\r\n content: logContent,\r\n })\r\n }\r\n\r\n switch (uni.getSystemInfoSync().platform) {\r\n case 'android':\r\n connectWebViewJavascriptBridge(function(bridge) {\r\n bridge.init();\r\n bridge.registerHandler(\"GetUser\", function(data, responseCallback) {\r\n if(JSON.parse(data).guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: JSON.parse(data).guid,\r\n token: JSON.parse(data).token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: JSON.parse(data).activityID,\r\n AppCode: JSON.parse(data).AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: JSON.parse(data).Authorization,\r\n statusBarHeight: Number.parseInt(JSON.parse(data).statusBarHeight),\r\n };\r\n });\r\n\r\n })\r\n break;\r\n case 'ios':\r\n setupWebViewJavascriptBridge(function(bridge) {\r\n bridge.registerHandler('GetUser', function(data, responseCallback) {\r\n if(data.guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: data.guid,\r\n token: data.token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: data.activityID,\r\n AppCode: data.AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: data.Authorization,\r\n productID: data.productID,\r\n statusBarHeight: data.statusBarHeight,\r\n };\r\n })\r\n })\r\n break;\r\n default:\r\n console.log('运行在开发者工具上')\r\n break;\r\n }\r\n\r\n}" ]
[ "0.59744155", "0.57182646", "0.5716308", "0.5612214", "0.5600275", "0.5545179", "0.54876554", "0.5451801", "0.5408737", "0.5384387", "0.5377831", "0.53756464", "0.53692806", "0.5342666", "0.5319401", "0.53052574", "0.5305171", "0.5263118", "0.5254797", "0.5254797", "0.51638514", "0.513343", "0.51016766", "0.50799847", "0.50630593", "0.50489473", "0.5034926", "0.5013345", "0.49932936", "0.49857825", "0.4980185", "0.4973902", "0.4964128", "0.49373052", "0.49288753", "0.4928581", "0.49225053", "0.4911364", "0.49060127", "0.48998865", "0.48979482", "0.48979238", "0.48891208", "0.48768237", "0.48768237", "0.48722827", "0.4869089", "0.48690215", "0.48668492", "0.48614338", "0.48614338", "0.48518682", "0.48502198", "0.48183367", "0.48134866", "0.48028257", "0.48009086", "0.47935784", "0.47797182", "0.47690934", "0.4764852", "0.47572696", "0.47565886", "0.4755996", "0.47479635", "0.47386318", "0.47358835", "0.47318792", "0.47220492", "0.4718495", "0.47127292", "0.4711483", "0.47061744", "0.47056943", "0.4704164", "0.4701671", "0.47001165", "0.46956372", "0.46924272", "0.4687786", "0.46856663", "0.46767172", "0.467384", "0.46701822", "0.4669155", "0.46593362", "0.4657361", "0.465724", "0.46508926", "0.46487868", "0.46470442", "0.46410307", "0.46393937", "0.46389169", "0.46387714", "0.46387714", "0.4638419", "0.463681", "0.46302927", "0.4628212", "0.4626797" ]
0.0
-1
A helper function to describe a token as a string for debugging
function getTokenDesc(token) { var value = token.value; return value ? token.kind + ' "' + value + '"' : token.kind; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function printToken(token) {\r\n\t\tif (token.type === 'quote') {\r\n\t\t\treturn `\"${token.token}\"`;\r\n\t\t} else {\r\n\t\t\treturn token.token;\r\n\t\t}\r\n\t}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n }", "function getTokenDesc(token) {\n\t var value = token.value;\n\t return value ? token.kind + ' \"' + value + '\"' : token.kind;\n\t}", "function getTokenDesc(token) {\n\t var value = token.value;\n\t return value ? token.kind + ' \"' + value + '\"' : token.kind;\n\t}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function getTokenDesc(token) {\n var value = token.value;\n return value ? \"\".concat(token.kind, \" \\\"\").concat(value, \"\\\"\") : token.kind;\n}", "function prettyToken(token) {\n switch (token) {\n case BOM:\n return '<BOM>';\n case DOCUMENT:\n return '<DOC>';\n case FLOW_END:\n return '<FLOW_END>';\n case SCALAR:\n return '<SCALAR>';\n default:\n return JSON.stringify(token);\n }\n}", "function getTokenDesc(token) {\n const value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? ` \"${value}\"` : '');\n}", "function describeToken(val)\n{\n\tbuildStr = \"\"\n\tif ((val & TIME) == TIME) buildStr += \"time \"\n\tif ((val & DATE) == DATE) buildStr += \"date \"\n\tif ((val & ODOMETER) == ODOMETER) buildStr += \"odometer \"\n\tif ((val & LOCATION) == LOCATION) buildStr += \"location \"\n\n\treturn buildStr.trim()\n}", "function getTokenDesc(token) {\n\t return token.value ? getTokenKindDesc(token.kind) + ' \"' + token.value + '\"' : getTokenKindDesc(token.kind);\n\t}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n return token.value ? getTokenKindDesc(token.kind) + ' \"' + token.value + '\"' : getTokenKindDesc(token.kind);\n}", "function stringToken() {\n\t\tvar labe = labelNumber;\n\t\tlabelNumber++;\n\t\tdataAsm.push('_str' + labe + ':');\n\t\tpushString();\n\t\tasm.push(' LDI R' + registerCount + ',_str' + labe);\n\t\tregisterCount++;\n\t}", "tokensAsString() {\n \n let token = \"\";\n //run through the stream\n var outString = \"\";\n while ((token = this.scan()) !== \"EofSym\") {\n outString += token + \" \";\n log.debug(token);\n }\n outString += \"EofSym\";\n \n return outString;\n }", "get_token_string(){\n return this.token_string;\n }", "function getTokenString(state) {\n return state.data.substring(state.currentTokenStart, state.currentTokenEnd);\n }", "function addToken(token, write) {\n if (token.type.label == \"string\") {\n write(\"'\" + sanitize(token.value) + \"'\",\n token.loc.start.line,\n token.loc.start.column);\n } else if (token.type.label == \"regexp\") {\n write(String(token.value.value),\n token.loc.start.line,\n token.loc.start.column);\n } else {\n let value;\n if (token.value != null) {\n value = token.value;\n if (token.type.label === \"privateId\") {\n value = `#${value}`;\n }\n } else {\n value = token.type.label;\n }\n write(String(value),\n token.loc.start.line,\n token.loc.start.column);\n }\n }", "function getTokenKindDesc(kind) {\n return isPunctuatorTokenKind(kind) ? `\"${kind}\"` : kind;\n}", "function getTokenKindDesc(kind) {\n return Object(_lexer_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isPunctuatorTokenKind\"])(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return Object(_lexer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isPunctuatorTokenKind\"])(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function tokenType(source) {\n switch (source) {\n case BOM:\n return 'byte-order-mark';\n case DOCUMENT:\n return 'doc-mode';\n case FLOW_END:\n return 'flow-error-end';\n case SCALAR:\n return 'scalar';\n case '---':\n return 'doc-start';\n case '...':\n return 'doc-end';\n case '':\n case '\\n':\n case '\\r\\n':\n return 'newline';\n case '-':\n return 'seq-item-ind';\n case '?':\n return 'explicit-key-ind';\n case ':':\n return 'map-value-ind';\n case '{':\n return 'flow-map-start';\n case '}':\n return 'flow-map-end';\n case '[':\n return 'flow-seq-start';\n case ']':\n return 'flow-seq-end';\n case ',':\n return 'comma';\n }\n switch (source[0]) {\n case ' ':\n case '\\t':\n return 'space';\n case '#':\n return 'comment';\n case '%':\n return 'directive-line';\n case '*':\n return 'alias';\n case '&':\n return 'anchor';\n case '!':\n return 'tag';\n case \"'\":\n return 'single-quoted-scalar';\n case '\"':\n return 'double-quoted-scalar';\n case '|':\n case '>':\n return 'block-scalar-header';\n }\n return null;\n }", "function getTokenKindDesc(kind) {\n return (0,_lexer_mjs__WEBPACK_IMPORTED_MODULE_2__.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0,_lexer_mjs__WEBPACK_IMPORTED_MODULE_2__.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function tokenType(source) {\n switch (source) {\n case BOM:\n return 'byte-order-mark';\n case DOCUMENT:\n return 'doc-mode';\n case FLOW_END:\n return 'flow-error-end';\n case SCALAR:\n return 'scalar';\n case '---':\n return 'doc-start';\n case '...':\n return 'doc-end';\n case '':\n case '\\n':\n case '\\r\\n':\n return 'newline';\n case '-':\n return 'seq-item-ind';\n case '?':\n return 'explicit-key-ind';\n case ':':\n return 'map-value-ind';\n case '{':\n return 'flow-map-start';\n case '}':\n return 'flow-map-end';\n case '[':\n return 'flow-seq-start';\n case ']':\n return 'flow-seq-end';\n case ',':\n return 'comma';\n }\n switch (source[0]) {\n case ' ':\n case '\\t':\n return 'space';\n case '#':\n return 'comment';\n case '%':\n return 'directive-line';\n case '*':\n return 'alias';\n case '&':\n return 'anchor';\n case '!':\n return 'tag';\n case \"'\":\n return 'single-quoted-scalar';\n case '\"':\n return 'double-quoted-scalar';\n case '|':\n case '>':\n return 'block-scalar-header';\n }\n return null;\n}", "function Token(name) {\n name = String(name);\n return primFreeze({\n toString: markFuncFreeze(function tokenToString() { return name; }),\n throwable___: true\n });\n }", "function getTokenKindDesc(kind) {\n return isPunctuatorTokenKind(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function showToken(currentToken) {\r\n // Show token in console and UI.\r\n const tokenElement = document.querySelector(\"#token\");\r\n !!tokenElement && (tokenElement.textContent = currentToken);\r\n}", "function symbol(name){\r\n return lexeme(string(name));\r\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function getTokenKindDesc(kind) {\n return (0, _lexer.isPunctuatorTokenKind)(kind) ? \"\\\"\".concat(kind, \"\\\"\") : kind;\n}", "function token (value) {\n this.value = value;\n}", "function getTokenKindDesc(kind) {\n return tokenDescription[kind];\n}", "get name() {\n return cred.tokenKindName(this._kind);\n }", "getToken() { return this.token.getToken(); }", "function getTokenKindDesc(kind) {\n\t return tokenDescription[kind];\n\t}", "function toString(token, defaultValue)\n{\n var result = defaultValue || \"\";\n\n if (token != null)\n {\n if (JToken.isArray(token))\n {\n result = String(token.getCount());\n }\n else if (JToken.isNull(token))\n {\n result = \"\";\n }\n else if (!JToken.isObject(token))\n {\n result = String(token.getValue());\n }\n }\n\n return result;\n}", "nextToken() {\n return this.tokens[this.tokenIndex] || \"\";\n }", "function tokenBase(stream, state, prev) {\n if (stream.sol()) state.indented = stream.indentation()\n if (stream.eatSpace()) return null\n\n var ch = stream.peek()\n if (ch == \"/\") {\n if (stream.match(\"//\")) {\n stream.skipToEnd()\n return \"comment\"\n }\n if (stream.match(\"/*\")) {\n state.tokenize.push(tokenComment)\n return tokenComment(stream, state)\n }\n }\n if (stream.match(instruction)) return \"builtin\"\n if (stream.match(attribute)) return \"attribute\"\n if (stream.match(binary)) return \"number\"\n if (stream.match(octal)) return \"number\"\n if (stream.match(hexadecimal)) return \"number\"\n if (stream.match(decimal)) return \"number\"\n if (stream.match(property)) return \"property\"\n if (operators.indexOf(ch) > -1) {\n stream.next()\n return \"operator\"\n }\n if (punc.indexOf(ch) > -1) {\n stream.next()\n stream.match(\"..\")\n return \"punctuation\"\n }\n var stringMatch\n if (stringMatch = stream.match(/(\"\"\"|\"|')/)) {\n var tokenize = tokenString.bind(null, stringMatch[0])\n state.tokenize.push(tokenize)\n return tokenize(stream, state)\n }\n\n if (stream.match(identifier)) {\n var ident = stream.current()\n if (types.hasOwnProperty(ident)) return \"variable-2\"\n if (atoms.hasOwnProperty(ident)) return \"atom\"\n if (keywords.hasOwnProperty(ident)) {\n if (definingKeywords.hasOwnProperty(ident))\n state.prev = \"define\"\n return \"keyword\"\n }\n if (prev == \"define\") return \"def\"\n return \"variable\"\n }\n\n stream.next()\n return null\n }", "nextToken() {\n return this.tokens[this.tokenIndex] || \"\";\n }", "function tokenBase(stream, state, prev) {\n if (stream.sol()) state.indented = stream.indentation()\n if (stream.eatSpace()) return null\n\n var ch = stream.peek()\n if (ch == \"/\") {\n if (stream.match(\"//\")) {\n stream.skipToEnd()\n return \"comment\"\n }\n if (stream.match(\"/*\")) {\n state.tokenize.push(tokenComment)\n return tokenComment(stream, state)\n }\n }\n if (stream.match(instruction)) return \"builtin\"\n if (stream.match(attribute)) return \"attribute\"\n if (stream.match(binary)) return \"number\"\n if (stream.match(octal)) return \"number\"\n if (stream.match(hexadecimal)) return \"number\"\n if (stream.match(decimal)) return \"number\"\n if (stream.match(property)) return \"property\"\n if (operators.indexOf(ch) > -1) {\n stream.next()\n return \"operator\"\n }\n if (punc.indexOf(ch) > -1) {\n stream.next()\n stream.match(\"..\")\n return \"punctuation\"\n }\n if (ch == '\"' || ch == \"'\") {\n stream.next()\n var tokenize = tokenString(ch)\n state.tokenize.push(tokenize)\n return tokenize(stream, state)\n }\n\n if (stream.match(identifier)) {\n var ident = stream.current()\n if (types.hasOwnProperty(ident)) return \"variable-2\"\n if (atoms.hasOwnProperty(ident)) return \"atom\"\n if (keywords.hasOwnProperty(ident)) {\n if (definingKeywords.hasOwnProperty(ident))\n state.prev = \"define\"\n return \"keyword\"\n }\n if (prev == \"define\") return \"def\"\n return \"variable\"\n }\n\n stream.next()\n return null\n }", "function tokenSpell(token) {\n switch (token) {\n case Token.Eof:\n return \"eof\";\n case Token.Error:\n return \"error\";\n case Token.Identifier:\n return \"identifier\";\n case Token.Number:\n return \"number\";\n case Token.String:\n return \"string\";\n case Token.Comma:\n return \",\";\n case Token.LParen:\n return \"(\";\n case Token.RParen:\n return \")\";\n case Token.LBracket:\n return \"[\";\n case Token.RBracket:\n return \"]\";\n case Token.Exclaim:\n return \"!\";\n case Token.TildeEqual:\n return \"~=\";\n case Token.CaretEqual:\n return \"^=\";\n case Token.DollarEqual:\n return \"$=\";\n case Token.EqualEqual:\n return \"==\";\n case Token.ExclaimEqual:\n return \"!=\";\n case Token.Less:\n return \"<\";\n case Token.Greater:\n return \">\";\n case Token.LessEqual:\n return \"<=\";\n case Token.GreaterEqual:\n return \">=\";\n case Token.BarBar:\n return \"||\";\n case Token.AmpAmp:\n return \"&&\";\n default:\n throw new Error(`invalid token ${token}`);\n }\n}", "function _Token(type, token, pos, string) {\n return { type: type, token: token, pos: pos, string: string };\n}", "function stringifySyntaxKind(kind, typescript) {\n if (kind === typescript.SyntaxKind.NumericLiteral)\n return \"NumericLiteral\";\n return typescript.SyntaxKind[kind];\n}", "function _logt(extra) {\n var token = tokenIt.token;\n _log(\"TOKEN: \\\"\" + token.string + \"\\\"\", token, extra);\n }", "function tokenToAction(token) {\n var word = token.value;\n var definition = context.dictionary.lookup(word);\n\n if (token.isStringLiteral) {\n return namedFunction(\"String: \" + word, function (context) {\n return word;\n });\n }\n // TODO: contributed part on StringPushLiteral s\" (TODO make PR)\n else if (token.isStringPushLiteral) {\n return namedFunction(\"PushString: \" + word, function (context) {\n context.stack.push(word);\n });\n }\n // TODO: contributed part on NeoSyscallLiteral syscall\" (TODO: do not make PR, think on something better...)\n else if (token.isNeoSyscallLiteral) {\n\n if(word == \"Neo.Learn.Call\") { // special syscall \n var execAction = context.stack.pop();\n var definedAction = context.dictionary.lookup(execAction);\n return definedAction; // TODO\n }\n else \n return namedFunction(\"NeoSyscallString: \" + word, function (context) {\n invokeNeoSyscall(word);\n /*\n if(sname == \"Neo.Learn.Execute\") // special syscall \n {\n // invoke tokenizer on read string\n // ????????? TODO\n var str = context.stack.pop();\n next(str);\n }*/\n // TODO: Neo Syscall!!\n\n });\n } \n else if (definition !== null) {\n return definition;\n } else if (isFinite(word)) {\n return namedFunction(\"Number: \" + word, function (context) {\n context.stack.push(+word);\n });\n } else {\n throw new MissingWordError(word);\n }\n\n return function () {\n return \"\";\n };\n }", "function kindToString(kind) {\n return ts.SyntaxKind[kind];\n}", "tokenValue () {\n return this.currentToken.value()\n }", "StringLiteral() {\n const token = this._eat('STRING');\n return {\n type: 'StringLiteral',\n value: token.value.slice(1, -1).trim(),\n };\n }", "function GenTokenParser(){}", "function token(typ,val){\n\t\treturn new Token(typ,val,-1,0);\n\t}", "function getToken() {\n return token;\n }", "function _token(){\n\tvar len = util_args2int() || 32;\n\tvar suid = require('rand-token').suid;\n\tvar token = suid(len);\n\tconsole.log( esrever.reverse(token) );\n}", "function tokenLiteral(quote) {\n return function(stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n\tif (ch == quote && !escaped) {\n\t state.tokenize = tokenBase;\n\t break;\n\t}\n\tescaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function token(type, value) {\n \t\tthis.type = type;\n \t\tthis.value = value;\n \t}", "toString() {\n return constructs_1.Token.asString(() => {\n throw new Error('Duration.toString() was used, but .toSeconds, .toMinutes or .toDays should have been called instead');\n }, { displayHint: `${this.amount} ${this.unit.label}` });\n }", "function prettyDebugCommand(cmd) {\n return debugCommandNames[cmd] || String(cmd);\n}", "function tokenLiteral(quote) {\n return function (stream, state) {\n var escaped = false,\n ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function tokenLabel(tokType) {\n if (hasTokenLabel(tokType)) {\n return tokType.LABEL;\n }\n else {\n return tokType.name;\n }\n}", "function tokenString(quote,f){return function(stream,state){var ch;if(isInString(state)&&stream.current()==quote){popStateStack(state);if(f)state.tokenize=f;return\"string\"}pushStateStack(state,{type:\"string\",name:quote,tokenize:tokenString(quote,f)});// if we're in a string and in an XML block, allow an embedded code block\nif(stream.match(\"{\",!1)&&isInXmlAttributeBlock(state)){state.tokenize=tokenBase;return\"string\"}while(ch=stream.next()){if(ch==quote){popStateStack(state);if(f)state.tokenize=f;break}else{// if we're in a string and in an XML block, allow an embedded code block in an attribute\nif(stream.match(\"{\",!1)&&isInXmlAttributeBlock(state)){state.tokenize=tokenBase;return\"string\"}}}return\"string\"}}// tokenizer for variables", "function tokenLiteral(quote) {\n return function(stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function tokenLiteral(quote) {\n return function(stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function tokenLiteral(quote) {\n return function(stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function tokenLiteral(quote) {\n return function(stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function tokenLiteral (quote) {\n return function (stream, state) {\n var escaped = false, ch;\n while ((ch = stream.next()) != null) {\n if (ch == quote && !escaped) {\n state.tokenize = tokenBase;\n break;\n }\n escaped = !escaped && ch == \"\\\\\";\n }\n return \"string\";\n };\n }", "function getToken(content) {\n if (content.length == 0) return \"\";\n var temp = content[0];\n if (temp == \"+\" || temp == \"-\" || temp == \"*\" || temp == \"/\" || temp == \"(\" || temp == \")\") {\n var a = content.shift();\n return a;\n }\n else if (isNumber(temp)) {\n var a = content.shift();\n return a;\n }\n else {\n throw \"Something is wrong\";\n }\n}", "function tokenString(stream, state) {\n var current, prev, found_var = false;\n while (!stream.eol() && (current = stream.next()) != state.pending) {\n if (current === '$' && prev != '\\\\' && state.pending == '\"') {\n found_var = true;\n break;\n }\n prev = current;\n }\n if (found_var) {\n stream.backUp(1);\n }\n if (current == state.pending) {\n state.continueString = false;\n } else {\n state.continueString = true;\n }\n return \"string\";\n }", "function it(type, value) {\n var id, the_token;\n if (type === '(string)') {\n if (jx.test(value)) {\n warn('url', line, from);\n }\n }\n the_token = Object.create(syntax[(\n type === '(punctuator)' || (type === '(identifier)' &&\n Object.prototype.hasOwnProperty.call(syntax, value))\n ? value\n : type\n )] || syntax['(error)']);\n if (type === '(identifier)') {\n the_token.identifier = true;\n if (value === '__iterator__' || value === '__proto__') {\n stop('reserved_a', line, from, value);\n } else if (!option.nomen &&\n (value.charAt(0) === '_' ||\n value.charAt(value.length - 1) === '_')) {\n warn('dangling_a', line, from, value);\n }\n }\n if (type === '(number)') {\n the_token.number = +value;\n } else if (value !== undefined) {\n the_token.string = String(value);\n }\n the_token.line = line;\n the_token.from = from;\n the_token.thru = character;\n if (comments.length) {\n the_token.comments = comments;\n comments = [];\n }\n id = the_token.id;\n prereg = id && (\n ('(,=:[!&|?{};~+-*%^<>'.indexOf(id.charAt(id.length - 1)) >= 0) ||\n id === 'return' || id === 'case'\n );\n return the_token;\n }", "function pointerToken() {\n\t\tif (thisToken == '&') {\n\t\t\tgetToken();\n\t\t\tif (functionVarTable.indexOf(thisToken) > 0) {\n\t\t\t\tasm.push(' MOV R' + registerCount + ',R0 \\n LDC R' + (registerCount + 1) + ',' + (functionVarTable.indexOf(thisToken) * 2));\n\t\t\t\tasm.push(' ADD R' + registerCount + ',R' + (registerCount + 1));\n\t\t\t\tregisterCount++;\n\t\t\t} else if (isVar(thisToken)) {\n\t\t\t\tasm.push(' LDI R' + registerCount + ',_' + thisToken);\n\t\t\t\tregisterCount++;\n\t\t\t}\n\t\t} else if (thisToken == '*') {\n\t\t\tgetToken();\n\t\t\tif (functionVarTable.indexOf(thisToken) > 0) {\n\t\t\t\tasm.push(' LDI R' + registerCount + ',(' + localStackLength * 2 + functionVarTable.length - functionVarTable.indexOf(thisToken) + 1 + '+R0) ;' + thisToken);\n\t\t\t\tasm.push(' LDI R' + registerCount + ',(R' + registerCount + ')');\n\t\t\t\tregisterCount++;\n\t\t\t} else if (isVar(thisToken)) {\n\t\t\t\tasm.push(' LDI R' + registerCount + ',(_' + thisToken + ')');\n\t\t\t\tasm.push(' LDI R' + registerCount + ',(R' + registerCount + ')');\n\t\t\t\tregisterCount++;\n\t\t\t}\n\t\t}\n\t}", "token(input, start, value) { return new Token(input,start,input.pos,this.type,value) }", "function tokenString(quote, f) {\n return function(stream, state) {\n var ch;\n\n if(isInString(state) && stream.current() == quote) {\n popStateStack(state);\n if(f) state.tokenize = f;\n return \"string\";\n }\n\n pushStateStack(state, { type: \"string\", name: quote, tokenize: tokenString(quote, f) });\n\n // if we're in a string and in an XML block, allow an embedded code block\n if(stream.match(\"{\", false) && isInXmlAttributeBlock(state)) {\n state.tokenize = tokenBase;\n return \"string\";\n }\n\n\n while (ch = stream.next()) {\n if (ch == quote) {\n popStateStack(state);\n if(f) state.tokenize = f;\n break;\n }\n else {\n // if we're in a string and in an XML block, allow an embedded code block in an attribute\n if(stream.match(\"{\", false) && isInXmlAttributeBlock(state)) {\n state.tokenize = tokenBase;\n return \"string\";\n }\n\n }\n }\n\n return \"string\";\n };\n }", "expandMacroAsText(name: string): string | void {\n const tokens = this.expandMacro(name);\n if (tokens) {\n return tokens.map((token) => token.text).join(\"\");\n } else {\n return tokens;\n }\n }", "function sc_Token(type, val, pos) {\n this.type = type;\n this.val = val;\n this.pos = pos;\n}", "function TemplateLiteral() {\n\t return t.stringTypeAnnotation();\n\t}", "function TemplateLiteral() {\n\t return t.stringTypeAnnotation();\n\t}", "termToString(term) {\n switch (term.termType) {\n case 'NamedNode':\n return `<${term.value}>`;\n case 'BlankNode':\n return `_:${term.value}`;\n case 'Literal':\n let suffix = '';\n if (term.language)\n suffix = `@${term.language}`;\n else if (term.datatype.value !== 'http://www.w3.org/2001/XMLSchema#string')\n suffix = `^^<${term.datatype.value}>`;\n return `\"${term.value.replace(/\"/g, '\\\\\"')}\"${suffix}`;\n default:\n throw new Error(`Could not convert a term of type ${term.termType}`);\n }\n }", "function it(type, value, quote) {\n var id, the_token;\n if (type === '(string)' || type === '(range)') {\n if (jx.test(value)) {\n warn_at(bundle.url, line, from);\n }\n }\n the_token = Object.create(syntax[(\n type === '(punctuator)' ||\n (type === '(identifier)' && is_own(syntax, value)) ?\n value :\n type\n )] || syntax['(error)']);\n if (type === '(identifier)') {\n the_token.identifier = true;\n if (value === '__iterator__' || value === '__proto__') {\n fail_at(bundle.reserved_a, line, from, value);\n } else if (option.nomen &&\n (value.charAt(0) === '_' ||\n value.charAt(value.length - 1) === '_')) {\n warn_at(bundle.dangling_a, line, from, value);\n }\n }\n if (value !== undefined) {\n the_token.value = value;\n }\n if (quote) {\n the_token.quote = quote;\n }\n if (comments) {\n the_token.comments = comments;\n comments = null;\n }\n the_token.line = line;\n the_token.from = from;\n the_token.thru = character;\n the_token.prev = older_token;\n id = the_token.id;\n prereg = id && (\n ('(,=:[!&|?{};'.indexOf(id.charAt(id.length - 1)) >= 0) ||\n id === 'return'\n );\n older_token.next = the_token;\n older_token = the_token;\n return the_token;\n }", "function token() {\n return currentToken;\n }", "member () {\n let member = '';\n let ch = this.white();\n let isIdentifierChar = Identifier.is_valid_start_char;\n\n while (ch) {\n if (!isIdentifierChar(ch)) {\n break\n }\n member += ch;\n ch = this.next();\n isIdentifierChar = Identifier.is_valid_continue_char;\n }\n return member\n }" ]
[ "0.7346337", "0.72634125", "0.7247232", "0.7247232", "0.7237602", "0.7237602", "0.7237602", "0.7237602", "0.7237602", "0.7237602", "0.7237602", "0.7237602", "0.72264", "0.7140082", "0.71369827", "0.70759815", "0.7074039", "0.7074039", "0.7074039", "0.7074039", "0.7074039", "0.7074039", "0.7006983", "0.67053443", "0.64025086", "0.63800234", "0.63658834", "0.62706214", "0.6228028", "0.6173799", "0.6162488", "0.6146144", "0.61275643", "0.61275643", "0.61105365", "0.60798573", "0.6078378", "0.60457313", "0.60376394", "0.6006023", "0.6006023", "0.6006023", "0.59995496", "0.5976274", "0.5962619", "0.5936744", "0.5932319", "0.5928825", "0.590121", "0.5900115", "0.5893852", "0.5889084", "0.5879457", "0.58519346", "0.5837907", "0.58117175", "0.5783568", "0.57818294", "0.57758605", "0.5749776", "0.5727532", "0.5715126", "0.5706105", "0.56917006", "0.56620187", "0.5645613", "0.56452364", "0.56130517", "0.56120163", "0.5610068", "0.5606995", "0.5601825", "0.5601825", "0.5601825", "0.5601825", "0.55686384", "0.5560851", "0.5558505", "0.55497664", "0.55406576", "0.5530535", "0.54767245", "0.5452452", "0.54310185", "0.5429832", "0.5429832", "0.54228115", "0.539633", "0.5396087", "0.5384501" ]
0.7213501
22
Helper function for constructing the Token object.
function Tok(kind, start, end, line, column, prev, value) { this.kind = kind; this.start = start; this.end = end; this.line = line; this.column = column; this.value = value; this.prev = prev; this.next = null; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function makeToken(kind, start, end, value) {\n\t return { kind: kind, start: start, end: end, value: value };\n\t}", "function makeToken(kind, start, end, value) {\n return { kind: kind, start: start, end: end, value: value };\n}", "constructor(token, type) {\n this._token = token; //token object\n this._type = type; //string\n }", "function GenTokenParser(){}", "constructor(token) {\n this.token = token || null;\n }", "function _Token(type, token, pos, string) {\n return { type: type, token: token, pos: pos, string: string };\n}", "token(input, start, value) { return new Token(input,start,input.pos,this.type,value) }", "token(input, start, end, value) { return new Token(input, start, end, this.type, value) }", "static initialize(obj, token) { \n obj['token'] = token;\n }", "function Token(type, value) {\r\n /// <summary>\r\n /// A constructs a new token with the given name and value.\r\n /// </summary>\r\n /// <param name=\"type\">\r\n /// The type of the token.\r\n /// </param>\r\n /// <param name=\"value\">\r\n /// The value for the token.\r\n /// </param>\r\n\r\n this.type = type;\r\n this.value = value;\r\n }", "function make_token(id, type, args) {\n var token = {\n id: id,\n type: type\n };\n args = args ||  [];\n args.forEach(function(elem) {\n for (var i in elem) {\n token[i] = elem[i];\n }\n });\n return token;\n }", "token(input, start, end, value) {\n return new Token(input, start, end, value, this.type)\n }", "token(input, start, end, value) {\n return new Token(input,start,end,value,this.type)\n }", "function Token(type, value) {\n\tthis.type = type;\n\tthis.value = value;\n}", "function token (value) {\n this.value = value;\n}", "makeToken(tag, value, {\r\n\t\t\t\t\toffset: offsetInChunk = 0,\r\n\t\t\t\t\tlength = value.length,\r\n\t\t\t\t\torigin,\r\n\t\t\t\t\tgenerated,\r\n\t\t\t\t\tindentSize\r\n\t\t\t\t} = {}) {\r\n\t\t\t\tvar token;\r\n\t\t\t\ttoken = [tag, value, this.makeLocationData({offsetInChunk, length})];\r\n\t\t\t\tif (origin) {\r\n\t\t\t\t\ttoken.origin = origin;\r\n\t\t\t\t}\r\n\t\t\t\tif (generated) {\r\n\t\t\t\t\ttoken.generated = true;\r\n\t\t\t\t}\r\n\t\t\t\tif (indentSize != null) {\r\n\t\t\t\t\ttoken.indentSize = indentSize;\r\n\t\t\t\t}\r\n\t\t\t\treturn token;\r\n\t\t\t}", "function token(typ,val){\n\t\treturn new Token(typ,val,-1,0);\n\t}", "constructor(token) {\n this.createdTimestamp = BigInt(token.created_timestamp);\n this.deleted = token.deleted;\n this.decimals = BigInt(token.decimals);\n this.feeScheduleKey = token.fee_schedule_key;\n this.freezeDefault = token.freeze_default;\n this.freezeKey = token.freeze_key;\n this.initialSupply = BigInt(token.initial_supply);\n this.kycKey = token.kyc_key;\n this.maxSupply = BigInt(token.max_supply);\n this.memo = token.memo;\n this.modifiedTimestamp = BigInt(token.modified_timestamp);\n this.name = token.name;\n this.pauseKey = token.pause_key;\n this.pauseStatus = token.pause_status;\n this.supplyKey = token.supply_key;\n this.supplyType = token.supply_type;\n this.symbol = token.symbol;\n this.tokenId = token.token_id;\n this.totalSupply = BigInt(token.total_supply);\n this.treasuryAccountId = token.treasury_account_id;\n this.type = token.type;\n this.wipeKey = token.wipe_key;\n }", "function token(type, value) {\n \t\tthis.type = type;\n \t\tthis.value = value;\n \t}", "function createToken(lexer, kind, start, end, value) {\n const line = lexer.line;\n const col = 1 + start - lexer.lineStart;\n return new Token(kind, start, end, line, col, value);\n}", "function Token(type, text, newlines, whitespace_before, parent) {\n this.type = type;\n this.text = text;\n\n // comments_before are\n // comments that have a new line before them\n // and may or may not have a newline after\n // this is a set of comments before\n this.comments_before = /* inline comment*/ [];\n\n\n this.comments_after = []; // no new line before and newline after\n this.newlines = newlines || 0;\n this.wanted_newline = newlines > 0;\n this.whitespace_before = whitespace_before || '';\n this.parent = parent || null;\n this.opened = null;\n this.directives = null;\n}", "function Token (type, children, text) {\n this.type = type\n\n if (children) {\n this.children = children\n }\n\n if (text) {\n this.text = text\n }\n }", "function Token(Contract) {\n this.web3 = null;\n this.instance = null;\n this.Contract = Contract;\n}", "function createToken() {\n\t\tif(matchDigit()) {\n\t\t\t// increment token total\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t// output token found\n\t\t\tputMessage(\"Found digit: \\t\\t\" + lexString.charAt(0));\n\t\t\t// add token to the token array\n\t\t\ttokens[tokenIndex] = {type: \"digit\", value: lexString.charAt(0), line: lineCount};\n\t\t\t// slice off the first character (of in the case of IDs, the first couple)\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t// increment the index of the token array\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\tif(matchDigit()) {\n\t\t\t\tputMessage(\"Error: Double digit numbers not supported\");\n\t\t\t\terrorB = true;\n\t\t\t}\n\n\t\t}\n\t\telse if(matchType()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"i\") {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"int\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"int\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(3, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a type (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse if(lexString.charAt(0) === \"b\") {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"boolean\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"boolean\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(7, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a type (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"string\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"string\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(6, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchBool()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"t\") {\n\t\t\t\tputMessage(\"Found boolean: \\t\" + \"true\");\n\t\t\t\ttokens[tokenIndex] = {type: \"bool\", value: \"true\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(4, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a boolean (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found boolean: \\t\" + \"false\");\n\t\t\t\ttokens[tokenIndex] = {type: \"bool\", value: \"false\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchCond()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"i\") {\n\t\t\t\tputMessage(\"Found conditional: \\t\" + \"if\");\n\t\t\t\ttokens[tokenIndex] = {type: \"cond\", value: \"if\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(2, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a cond (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found conditional: \\t\" + \"while\");\n\t\t\t\ttokens[tokenIndex] = {type: \"cond\", value: \"while\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchPrint()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found symbol: \\t\\t\\t\" + \"print\");\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"print\", line: lineCount};\n\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchChar()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found character: \\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"char\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\tif(matchChar()) {\n\t\t\t\tputMessage(\"Error: Character directly following a character (line \" + lineCount + \")\");\n\t\t\t\terrorB = true;\n\t\t\t}\n\t\t}\n\t\telse if(matchOp()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found operator: \\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"op\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchSymbol()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found symbol: \\t\\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchEqual()) {\n\t\t\tvar save = lexString;\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\tif(matchEqual()) {\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"==\");\n\t\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"==\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t\telse {\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"=\");\n\t\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"=\", line: lineCount};\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchQuote()) {\n\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"\\\"\");\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"\\\"\", line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tlexCharList();\n\t\t}\n\t\telse if (matchWhite()) {\n\t\t\t// there is no token for white space (return or tab) ... SLICE IT UP\n\t\t\tif(matchNewLine()) {\n\t\t\t\tlineCount = lineCount + 1;\n\t\t\t}\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t}\n\t\telse if(matchEnd()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found end of program!\");\n\t\t\ttokens[tokenIndex] = {type: \"end\", value: lexString.charAt(0), line: lineCount};\n\t\t\tif(lexString.slice(1, lexString.length).length !== 0) {\n\t\t\t\t//throw an error\n\t\t\t\tputMessage(\"Warning: Code following program end. Deleting extra code.\");\n\t\t\t}\n\t\t\tlexString = \"\";\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse {\n\t\t\t// put error message here\n\t\t\tputMessage(\"Error: \\\"\" + lexString.charAt(0) + \"\\\" not in the language (line \" + lineCount + \")\");\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\terrorB = true;\n\t\t}\n\t}", "static createToken(id, username) {\n return jwt.sign(username, TOKEN);\n }", "constructor(token, amount) {\n super(token, amount);\n this.token = token;\n }", "static makeTokenizer(literals, input) {\n if (theTokenizer === null) {\n theTokenizer = new tokenizer(literals, input);\n }\n }", "makeToken(type, literal, length) {\n let pos = this.pos;\n if(length === 0 && type !== this.Token.$EOF) {\n length = 1;\n type = this.Token.$Error;\n literal = 0;\n }\n let start = { line: this.line, col: pos - this.linepos };\n if(type === this.Token.$Error) {\n this.linetok = this.line;\n this.linetokpos = this.linepos;\n } else {\n this.line = this.linetok;\n this.linepos = this.linetokpos;\n }\n this.forward(length);\n let end = { line: this.line, col: this.pos - this.linepos};\n return new Token(type, literal, this.input, pos, length, start, end);\n }", "static from(func){\n let k = new Token(\"\", false, null, null);\n k.raw = repr(func);\n k.type = \"op\";\n if(func instanceof Func)\n k.func = function(){ func.exec(this); }\n else if(func instanceof Lambda)\n k.func = function(){ func.exec(this); }\n else\n error(\"bad type to Token.from\");\n return k;\n }", "function makeIdentityToken(str, index) {\n\treturn { type: translate(str),\n\t start: index,\n\t end: index + str.length };\n}", "function Token(string, sId) {\n this.string = string;\n this.sentenceId = sId;\n }", "function Token(identity, finder) {\n this.identity = identity;\n this.finder = finder;\n }", "function configureParserTACreateToken(parser: argparse.ArgumentParser) {\n parser.add_argument(\"instanceName\", {\n help:\n \"The name of the Opstrace instance to generate the token for. \" +\n \"Be sure to set it correctly, otherwise the token will not be accepted.\",\n type: \"str\",\n metavar: \"INSTANCE_NAME\"\n });\n\n parser.add_argument(\"tenantName\", {\n help:\n \"The name of the tenant to generate the token for. \" +\n \"Be sure to set it correctly, otherwise the token will not be accepted.\",\n type: \"str\",\n metavar: \"TENANT_NAME\"\n });\n\n parser.add_argument(\"tenantApiAuthenticatorKeyFilePath\", {\n help:\n \"Use the private key encoded in this file to sign the token. \" +\n \"The path must point to a PEM RSA private key file using the PKCS#1 or \" +\n \"PKCS#8 serialization format.\",\n type: \"str\",\n metavar: \"KEYPAIR_FILE_PATH\",\n default: \"\"\n });\n}", "generateToken() {\n\t\tconst d0 = Math.random()*0xffffffff|0;\n\t\tconst d1 = Math.random()*0xffffffff|0;\n\t\tconst d2 = Math.random()*0xffffffff|0;\n\t\tconst d3 = Math.random()*0xffffffff|0;\n\t\treturn lut[d0&0xff]+lut[d0>>8&0xff]+lut[d0>>16&0xff]+lut[d0>>24&0xff]+\"-\"+\n\t\t\tlut[d1&0xff]+lut[d1>>8&0xff]+\"-\"+lut[d1>>16&0x0f|0x40]+lut[d1>>24&0xff]+\"-\"+\n\t\t\tlut[d2&0x3f|0x80]+lut[d2>>8&0xff]+\"-\"+lut[d2>>16&0xff]+lut[d2>>24&0xff]+\n\t\t\tlut[d3&0xff]+lut[d3>>8&0xff]+lut[d3>>16&0xff]+lut[d3>>24&0xff];\t\t\n\t}", "function Token(text, data, position) {\n this.text = text;\n this.data = data;\n this.position = position;\n}", "function Token(text, data, position) {\n this.text = text;\n this.data = data;\n this.position = position;\n}", "function Token(text, data, position) {\n this.text = text;\n this.data = data;\n this.position = position;\n}", "function maketoken(info){\n info.expires=Date.now()+tokenExpiresTime\n return jwt.encode(info,secret)\n}", "function sc_Token(type, val, pos) {\n this.type = type;\n this.val = val;\n this.pos = pos;\n}", "function Token(name) {\n this.name = name;\n this._tokenStructuralPropertyT = null;\n }", "function createToken(data) {\n //sign() --> si aspetta come parametro un json con i parametri che si vogliono mettere nel token\n let param = {\n \"_id\": data[\"_id\"],\n \"email\": data.email,\n \"iat\": data.iat || Math.floor(Date.now() / 1000),\n \"exp\": Math.floor(Date.now() / 1000) + TTL\n }\n let token = jwt.sign(param, PRIVATE_KEY);\n return token;\n}", "function Token(name) {\r\n this.name = name;\r\n this._tokenStructuralPropertyT = null;\r\n }", "function makeVariableToken(varIndex, start, end) {\n\treturn { type: \"variable\", \n\t index: varIndex,\n\t \"start\": start,\n\t \"end\": end };\n}", "static of(token, stx) {\n\t return new Syntax(token, stx);\n\t }", "function Token(type, tag, nesting) {\n /**\n\t * Token#type -> String\n\t *\n\t * Type of the token (string, e.g. \"paragraph_open\")\n\t **/\n this.type = type;\n /**\n\t * Token#tag -> String\n\t *\n\t * html tag name, e.g. \"p\"\n\t **/ this.tag = tag;\n /**\n\t * Token#attrs -> Array\n\t *\n\t * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n\t **/ this.attrs = null;\n /**\n\t * Token#map -> Array\n\t *\n\t * Source map info. Format: `[ line_begin, line_end ]`\n\t **/ this.map = null;\n /**\n\t * Token#nesting -> Number\n\t *\n\t * Level change (number in {-1, 0, 1} set), where:\n\t *\n\t * - `1` means the tag is opening\n\t * - `0` means the tag is self-closing\n\t * - `-1` means the tag is closing\n\t **/ this.nesting = nesting;\n /**\n\t * Token#level -> Number\n\t *\n\t * nesting level, the same as `state.level`\n\t **/ this.level = 0;\n /**\n\t * Token#children -> Array\n\t *\n\t * An array of child nodes (inline and img tokens)\n\t **/ this.children = null;\n /**\n\t * Token#content -> String\n\t *\n\t * In a case of self-closing tag (code, html, fence, etc.),\n\t * it has contents of this tag.\n\t **/ this.content = \"\";\n /**\n\t * Token#markup -> String\n\t *\n\t * '*' or '_' for emphasis, fence string for fence, etc.\n\t **/ this.markup = \"\";\n /**\n\t * Token#info -> String\n\t *\n\t * Additional information:\n\t *\n\t * - Info string for \"fence\" tokens\n\t * - The value \"auto\" for autolink \"link_open\" and \"link_close\" tokens\n\t * - The string value of the item marker for ordered-list \"list_item_open\" tokens\n\t **/ this.info = \"\";\n /**\n\t * Token#meta -> Object\n\t *\n\t * A place for plugins to store an arbitrary data\n\t **/ this.meta = null;\n /**\n\t * Token#block -> Boolean\n\t *\n\t * True for block-level tokens, false for inline tokens.\n\t * Used in renderer to calculate line breaks\n\t **/ this.block = false;\n /**\n\t * Token#hidden -> Boolean\n\t *\n\t * If it's true, ignore this element when rendering. Used for tight lists\n\t * to hide paragraphs.\n\t **/ this.hidden = false;\n }", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n\n this.tag = tag;\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n\n this.attrs = null;\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n\n this.map = null;\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n\n this.nesting = nesting;\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n\n this.level = 0;\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n\n this.children = null;\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n\n this.content = '';\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n\n this.markup = '';\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n\n this.info = '';\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n\n this.meta = null;\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n\n this.block = false;\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n\n this.hidden = false;\n}", "constructor(name, id, color, active){\n this.name = name;\n this.id = id;\n this.color = color;\n //will originally be false for active\n this.active = active;\n this.tokens = this.createTokens(21);\n }", "function Token(name) {\n name = String(name);\n return primFreeze({\n toString: markFuncFreeze(function tokenToString() { return name; }),\n throwable___: true\n });\n }", "clone() {\n return new Token(this.path, this.value, this.uid, this.id);\n }", "createToken() {\n\t\tconst date = new Date();\n\t\tconst timestamp = date.getTime() + parseInt(process.env.JWT_EXPIRATION, 10);\n\t\tconst expiry_date = new Date(timestamp);\n\n\t\treturn jwt.sign(\n\t\t\t{\n\t\t\t\t_id: this._id,\n\t\t\t\temail: this.email,\n\t\t\t\texpiry_date: expiry_date.toISOString(),\n\t\t\t},\n\t\t\tprocess.env.JWT_SECRET,\n\t\t\t{\n\t\t\t\texpiresIn: process.env.JWT_EXPIRATION,\n\t\t\t}\n\t\t);\n\t}", "function generateToken() {\n return null; // TODO: add a token generation\n}", "function initKoboToolboxToken() {\n KoboToolboxToken = {\n /**\n * Initializes the object.\n */\n init: function(config) {\n this.config = config;\n return this;\n },\n \n /**\n * Returns the authorization string for this auth method.\n */\n getAuthString: function() {\n return 'Token ' + this.config.authToken;\n },\n \n /**\n * Makes a GET request to the KoboToolbox API.\n */\n get: function(url) {\n return KoboGet_(url, this.getAuthString());\n }\n };\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function getToken() {\n return token;\n }", "assignToken() {\n this.token = `${this.username}-${new Date().toISOString()}-${Math.floor(Math.random() * 1000000)}`;\n }", "function Token() {\n\tthis.source = null;\n\tthis.type = null; // token type of the token\n\tthis.channel = null; // The parser ignores everything not on DEFAULT_CHANNEL\n\tthis.start = null; // optional; return -1 if not implemented.\n\tthis.stop = null; // optional; return -1 if not implemented.\n\tthis.tokenIndex = null; // from 0..n-1 of the token object in the input stream\n\tthis.line = null; // line=1..n of the 1st character\n\tthis.column = null; // beginning of the line at which it occurs, 0..n-1\n\tthis._text = null; // text of the token.\n\treturn this;\n}", "function Token() {\n\tthis.source = null;\n\tthis.type = null; // token type of the token\n\tthis.channel = null; // The parser ignores everything not on DEFAULT_CHANNEL\n\tthis.start = null; // optional; return -1 if not implemented.\n\tthis.stop = null; // optional; return -1 if not implemented.\n\tthis.tokenIndex = null; // from 0..n-1 of the token object in the input stream\n\tthis.line = null; // line=1..n of the 1st character\n\tthis.column = null; // beginning of the line at which it occurs, 0..n-1\n\tthis._text = null; // text of the token.\n\treturn this;\n}", "createToken(username) {\n return jwt.sign({\n issuer: username,\n iat: Math.floor(Date.now() / 1000),\n exp: Math.floor(Date.now() / 1000) + ((60 * 60) * 10)\n }, 'secret');\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "function Token(kind, start, end, line, column, prev, value) {\n this.kind = kind;\n this.start = start;\n this.end = end;\n this.line = line;\n this.column = column;\n this.value = value;\n this.prev = prev;\n this.next = null;\n }", "async createToken({\n account,\n key\n }, {\n initialAmount,\n tokenName,\n decimalUnits,\n tokenSymbol\n }) {\n if (!this.BrandedTokenFactory) {\n return;\n }\n\n initialAmount = Web3.utils.toBN(Web3.utils.toWei(\"\" + initialAmount, \"ether\"));\n // let nonce = await this.web3.eth.getTransactionCount(account);\n let result = await this._signedAndSubmit({\n from: account,\n // nonce: nonce,\n gas: this.config.gas,\n gasPrice: this.config.gasPrice,\n to: this.BrandedTokenFactory.options.address,\n data: this.BrandedTokenFactory.methods.create(initialAmount, tokenName, decimalUnits, tokenSymbol).encodeABI(),\n }, key);\n\n return result;\n }", "static initialize(obj, name, templateType, tokenizerType) { \n obj['name'] = name;\n obj['template-type'] = templateType;\n obj['tokenizer-type'] = tokenizerType;\n }", "function makeAuthToken() {\n var token = 'Auth'+ new Date().getTime();\n\n return token;\n }", "function Token(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * fence infostring\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n }", "function TokenStore(){\n\n var tokens = {};\n\n}", "function createToken() {\n var token = jwt.sign({\n \"userId\": \"ruhan-jwt-js\",\n \"userDirectory\": \"JWT\"\n // \"email\": \"boz@example.com\",\n // \"Group\": [\"sales\", \"finance\", \"marketing\"]\n }, jwtEncryptionKey, {\n \"algorithm\": \"RS256\"\n })\n return token;\n}", "constructor(token, email){\n this.token = token;\n this.email = email;\n }", "static generateToken() {\n return DataGenerator.generateRandomText() + DataGenerator.generateRandomText(); // to make it longer\n }", "token() {\n return {\n id: this.id,\n role: this.role,\n };\n }", "function createToken(user) {\n\tvar token = jsonwebToken.sign({\n\t\t_id: user._id,\n\t\tname: user.name,\n\t\tusername: user.username\n\t}, secretKey, {\n\t\texpiretesInMinute: 1440\n\t})\n\n\treturn token;\n}", "function createToken(user) {\n\n\tvar token = jsonwebtoken.sign({\n\t\tid: user._id,\n\t\tname: user.name,\n\t\tusername: user.username\n\t}, secretKey, {\n\t\texpiresInMinute: 1440\n\t});\n\n\treturn token;\n}", "token(tag, value, {offset, length, origin, data, generated, indentSize} = {}) {\r\n\t\t\t\tvar token;\r\n\t\t\t\ttoken = this.makeToken(tag, value, {offset, length, origin, generated, indentSize});\r\n\t\t\t\tif (data) {\r\n\t\t\t\t\taddTokenData(token, data);\r\n\t\t\t\t}\r\n\t\t\t\tthis.tokens.push(token);\r\n\t\t\t\treturn token;\r\n\t\t\t}", "get_token_string(){\n return this.token_string;\n }", "constructor() { \n \n TokenPermission.initialize(this);\n }", "function make_node(tok) {\n var node = {};\n if (tok.id === \"(string)\") {\n node.parse = function() { return tok.value };\n }\n else {\n node = Y.Node.create(tok.template);\n if (tok.id === \"(indent)\") {\n node.setData(\"indent\", tok.value);\n }\n node.parse = tok.parse;\n node.transition = tok.transition;\n }\n return node;\n}", "function createToken(user) {\n var payload = {\n sub: user._id,\n iat: moment().unix(),\n exp: moment().add(50, 'days').unix()\n };\n return jwt.encode(payload, config.TOKEN_SECRET);\n }", "function Token(id, value, index, children) {\n\tthis.id = id;\n\tthis.value = value;\n\tthis.index = index;\n\tthis.children = [];\n\n\tif (children) {\n\t\tif (children instanceof Array) {\n\t\t\tfor (var c = 0; c < children.length; c++) {\n\t\t\t\tthis.children.push(children[c]);\n\t\t\t}\n\t\t} else if (children instanceof Token) {\n\t\t\tthis.children.push(children);\n\t\t} else {\n\t\t\tthrow new Error('Invalid children passed into Token constructor. Token #' + this.id);\n\t\t}\n\t}\n}", "function Token$3(type, tag, nesting) {\n /**\n * Token#type -> String\n *\n * Type of the token (string, e.g. \"paragraph_open\")\n **/\n this.type = type;\n\n /**\n * Token#tag -> String\n *\n * html tag name, e.g. \"p\"\n **/\n this.tag = tag;\n\n /**\n * Token#attrs -> Array\n *\n * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`\n **/\n this.attrs = null;\n\n /**\n * Token#map -> Array\n *\n * Source map info. Format: `[ line_begin, line_end ]`\n **/\n this.map = null;\n\n /**\n * Token#nesting -> Number\n *\n * Level change (number in {-1, 0, 1} set), where:\n *\n * - `1` means the tag is opening\n * - `0` means the tag is self-closing\n * - `-1` means the tag is closing\n **/\n this.nesting = nesting;\n\n /**\n * Token#level -> Number\n *\n * nesting level, the same as `state.level`\n **/\n this.level = 0;\n\n /**\n * Token#children -> Array\n *\n * An array of child nodes (inline and img tokens)\n **/\n this.children = null;\n\n /**\n * Token#content -> String\n *\n * In a case of self-closing tag (code, html, fence, etc.),\n * it has contents of this tag.\n **/\n this.content = '';\n\n /**\n * Token#markup -> String\n *\n * '*' or '_' for emphasis, fence string for fence, etc.\n **/\n this.markup = '';\n\n /**\n * Token#info -> String\n *\n * Additional information:\n *\n * - Info string for \"fence\" tokens\n * - The value \"auto\" for autolink \"link_open\" and \"link_close\" tokens\n * - The string value of the item marker for ordered-list \"list_item_open\" tokens\n **/\n this.info = '';\n\n /**\n * Token#meta -> Object\n *\n * A place for plugins to store an arbitrary data\n **/\n this.meta = null;\n\n /**\n * Token#block -> Boolean\n *\n * True for block-level tokens, false for inline tokens.\n * Used in renderer to calculate line breaks\n **/\n this.block = false;\n\n /**\n * Token#hidden -> Boolean\n *\n * If it's true, ignore this element when rendering. Used for tight lists\n * to hide paragraphs.\n **/\n this.hidden = false;\n}", "function createToken(payload){\r\n return jwt.sign(payload, SECRET_KEY, {expiresIn});\r\n}", "function createToken(user) {\n return jsonwebtoken.sign({\n id: user._id,\n name: user.name,\n username: user.username\n }, secretKey, {\n expiresInMinute: 1440\n });\n}", "function addToken (value) {\n // Create a token to enter into the token sequence\n var newToken = new token(value);\n // Add our new token\n tokenSequence.push(newToken);\n}", "function createNode(kind, pos) {\n nodeCount++;\n if (!(pos >= 0)) {\n pos = scanner.getStartPos();\n }\n return kind >= 139 /* FirstNode */ ? new NodeConstructor(kind, pos, pos) :\n kind === 69 /* Identifier */ ? new IdentifierConstructor(kind, pos, pos) :\n new TokenConstructor(kind, pos, pos);\n }", "token() {\n return {\n _id: this._id,\n role: this.role\n }\n }", "function createToken(payload){\n return jwt.sign(payload, SECRET_KEY)\n}", "function createToken(payload) {\n return jwt.sign(payload, SECRET_KEY, {\n expiresIn,\n jwtid: uuidv4(),\n audience: [AUDIENCE]\n })\n}" ]
[ "0.716749", "0.7155585", "0.706904", "0.7064976", "0.69540286", "0.6936082", "0.6918525", "0.68987185", "0.6793239", "0.67745304", "0.6673528", "0.66003233", "0.659534", "0.649638", "0.6490552", "0.63975376", "0.6384403", "0.6367625", "0.63613516", "0.6276101", "0.6250431", "0.6236646", "0.6206265", "0.6200711", "0.61882824", "0.61639005", "0.61500746", "0.6084469", "0.6070954", "0.60604316", "0.6053048", "0.600926", "0.59963506", "0.59940356", "0.5984999", "0.5984999", "0.5984999", "0.59782124", "0.5972449", "0.59485584", "0.59344447", "0.59237254", "0.5922377", "0.5919068", "0.5914834", "0.59017324", "0.5899365", "0.5895627", "0.58922035", "0.58801514", "0.5870079", "0.58435965", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.5841734", "0.583878", "0.58272606", "0.5822982", "0.5822982", "0.5810751", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5805959", "0.5792855", "0.5792047", "0.57909006", "0.5786399", "0.57814074", "0.57791126", "0.5776907", "0.57618433", "0.5744221", "0.5735705", "0.5733655", "0.5724546", "0.57187706", "0.57104117", "0.5698371", "0.5675934", "0.56686056", "0.5662963", "0.56617", "0.56542844", "0.56452376", "0.5642791", "0.5642315", "0.56163055", "0.5599824" ]
0.0
-1
Gets the next token from the source starting at the given position. This skips over whitespace and comments until it finds the next lexable token, then lexes punctuators immediately or calls the appropriate helper function for more complicated tokens.
function readToken(lexer, prev) { var source = lexer.source; var body = source.body; var bodyLength = body.length; var position = positionAfterWhitespace(body, prev.end, lexer); var line = lexer.line; var col = 1 + position - lexer.lineStart; if (position >= bodyLength) { return new Tok(EOF, bodyLength, bodyLength, line, col, prev); } var code = charCodeAt.call(body, position); // SourceCharacter if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) { throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.'); } switch (code) { // ! case 33: return new Tok(BANG, position, position + 1, line, col, prev); // # case 35: return readComment(source, position, line, col, prev); // $ case 36: return new Tok(DOLLAR, position, position + 1, line, col, prev); // ( case 40: return new Tok(PAREN_L, position, position + 1, line, col, prev); // ) case 41: return new Tok(PAREN_R, position, position + 1, line, col, prev); // . case 46: if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) { return new Tok(SPREAD, position, position + 3, line, col, prev); } break; // : case 58: return new Tok(COLON, position, position + 1, line, col, prev); // = case 61: return new Tok(EQUALS, position, position + 1, line, col, prev); // @ case 64: return new Tok(AT, position, position + 1, line, col, prev); // [ case 91: return new Tok(BRACKET_L, position, position + 1, line, col, prev); // ] case 93: return new Tok(BRACKET_R, position, position + 1, line, col, prev); // { case 123: return new Tok(BRACE_L, position, position + 1, line, col, prev); // | case 124: return new Tok(PIPE, position, position + 1, line, col, prev); // } case 125: return new Tok(BRACE_R, position, position + 1, line, col, prev); // A-Z _ a-z case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72: case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80: case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88: case 89:case 90: case 95: case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104: case 105:case 106:case 107:case 108:case 109:case 110:case 111: case 112:case 113:case 114:case 115:case 116:case 117:case 118: case 119:case 120:case 121:case 122: return readName(source, position, line, col, prev); // - 0-9 case 45: case 48:case 49:case 50:case 51:case 52: case 53:case 54:case 55:case 56:case 57: return readNumber(source, position, code, line, col, prev); // " case 34: return readString(source, position, line, col, prev); } throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function lex(source) {\n var prevPosition = 0;\n return function nextToken(resetPosition) {\n var token = readToken(source, resetPosition === undefined ? prevPosition : resetPosition);\n prevPosition = token.end;\n return token;\n };\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function nextToken() {\n skipSpace();\n state.start = state.pos;\n if (state.pos >= input.length) {\n const tokens = state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= input.length &&\n tokens[tokens.length - 2].start >= input.length\n ) {\n unexpected(\"Unexpectedly reached the end of input.\");\n }\n finishToken(TokenType.eof);\n return;\n }\n readToken(input.charCodeAt(state.pos));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n return readBlockString(source, position, line, col, prev);\n }\n return readString(source, position, line, col, prev);\n }\n\n throw (0, error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function Tokenizer(source) {\n\n const input = InputStream(source)\n let current = null\n \n return {\n next: next,\n peek: peek,\n eof: eof,\n }\n\n\n function isWhitespace(ch) { return /\\s/.test(ch) }\n function isDigit(ch) { return /[0-9]/.test(ch) }\n function isHex(ch) { return /[0-9a-fA-FxX]/.test(ch) }\n function isIdStart(ch) { return /[a-z_]/i.test(ch) }\n function isId(ch) { return /[a-z_0-9!]/i.test(ch) }\n function isDelim(ch) { return /[.,;(){}[\\]:]/.test(ch) }\n function isOperator(ch) { return /[+\\-*\\/%=&|<>!^]/.test(ch) }\n function isKeyword(wd) {\n return /bool|break|case|class|continue|const|delete|do|double|else|export|extern|float|for|if|import|int|module|new|print|private|public|return|switch|static|throw|to!int|to!double|to!float|uint|void|while/.test(wd);\n }\n\n /*\n * next Token\n *\n * @returns the next new token from the source\n */\n function nextToken() {\n let ch = ''\n\n readWhile(isWhitespace);\n if (input.eof()) {\n return null\n }\n if (input.peek(2) === \"//\") {\n skipTo('\\n')\n return nextToken()\n }\n if (input.peek(3) === \"/**\") {\n skipTo(\"*/\")\n return nextToken()\n }\n if (input.peek(2) === \"/*\") {\n skipTo(\"*/\")\n return nextToken()\n }\n ch = input.peek()\n if (ch === '\"') {\n return new Token(Token.String, readEscaped('\"'), input.getLine(), input.getCol())\n }\n if (ch === \"'\") {\n return new Token(Token.String, readEscaped(\"'\"), input.getLine(), input.getCol())\n }\n if (isDigit(ch)) {\n return new Token(Token.Number, readNumber(), input.getLine(), input.getCol())\n }\n if (isIdStart(ch)) {\n return (function(id) {\n return new Token((isKeyword(id) ? Token.Keyword : Token.Variable), id, input.getLine(), input.getCol())\n })(readWhile(isId))\n }\n if (isDelim(ch)) {\n return new Token(Token.Delimiter, input.next(), input.getLine(), input.getCol())\n }\n if (isOperator(ch)) {\n // return new Token(Token.Operator, readWhile(isOperator), input.getLine(), input.getCol())\n return new Token(Token.Delimiter, readWhile(isOperator), input.getLine(), input.getCol())\n }\n\n throw new Error(`Can't handle character: ${ch}`)\n }\n\n /*\n * read Number\n *\n * @returns the next number from the source stream\n */\n function readNumber() {\n let has_dot = false\n let is_hex = false\n\n let input = readWhile(function(ch) {\n if (ch === '.') {\n if (has_dot) {\n return false\n }\n has_dot = true\n return true\n }\n if (ch === 'x') {\n if (is_hex) {\n return false\n }\n is_hex = true\n }\n if (is_hex)\n return isHex(ch)\n else\n return isDigit(ch)\n })\n if (is_hex) {\n return parseInt(input, 16)\n }\n else {\n if (has_dot) {\n return parseFloat(input)\n } \n else {\n return parseInt(input, 10)\n }\n }\n }\n\n /*\n * read Escaped\n *\n * @returns the next escaped string until end\n */\n function readEscaped(end) {\n let ch = ''\n let escaped = false\n let str = ''\n\n input.next()\n while (!input.eof()) {\n ch = input.next()\n if (escaped) {\n str += ch\n escaped = false\n } else if (ch === '\\\\') {\n escaped = true\n } else if (ch === end) {\n break\n } else {\n str += ch\n }\n }\n return str\n }\n\n /*\n * read While\n *\n * @param predicate function to call to test\n * @returns the next token until predicate\n */\n function readWhile(predicate) {\n let str = ''\n\n while (!input.eof() && predicate(input.peek())) {\n str += input.next()\n }\n return str\n }\n\n /*\n * skip to end\n *\n * skip to the end string\n */\n function skipTo(end) {\n let len = end.length\n\n while (!input.eof() && input.peek(len) !== end) {\n input.next()\n }\n while (!input.eof() && len) {\n input.next()\n len--\n }\n }\n function eof() { return peek() === null }\n function peek() { return current || (current = nextToken()) }\n function next() {\n let token = current\n\n current = null\n return token || nextToken()\n }\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n token += c;\n if (c === '\"') {\n // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n token += c;\n if (c === '\"') {\n // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t case 95:\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "function lex(source) {\n\t var prevPosition = 0;\n\t return function nextToken(resetPosition) {\n\t var token = readToken(source, resetPosition === undefined ? prevPosition : resetPosition);\n\t prevPosition = token.end;\n\t return token;\n\t };\n\t}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n\t throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:\n\t case 66:\n\t case 67:\n\t case 68:\n\t case 69:\n\t case 70:\n\t case 71:\n\t case 72:\n\t case 73:\n\t case 74:\n\t case 75:\n\t case 76:\n\t case 77:\n\t case 78:\n\t case 79:\n\t case 80:\n\t case 81:\n\t case 82:\n\t case 83:\n\t case 84:\n\t case 85:\n\t case 86:\n\t case 87:\n\t case 88:\n\t case 89:\n\t case 90:\n\t case 95:\n\t case 97:\n\t case 98:\n\t case 99:\n\t case 100:\n\t case 101:\n\t case 102:\n\t case 103:\n\t case 104:\n\t case 105:\n\t case 106:\n\t case 107:\n\t case 108:\n\t case 109:\n\t case 110:\n\t case 111:\n\t case 112:\n\t case 113:\n\t case 114:\n\t case 115:\n\t case 116:\n\t case 117:\n\t case 118:\n\t case 119:\n\t case 120:\n\t case 121:\n\t case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:\n\t case 49:\n\t case 50:\n\t case 51:\n\t case 52:\n\t case 53:\n\t case 54:\n\t case 55:\n\t case 56:\n\t case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n\t return readBlockString(source, position, line, col, prev);\n\t }\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n if (c === '\"') {\n // skip the escape character\n token += c;\n next();\n } else if (c === '\\\\' && nextPreview() === 'n') {\n // Honor a newline escape sequence\n token += '\\n';\n next();\n } else {\n token += c;\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n}", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c == ' ' || c == '\\t' || c == '\\n' || c == '\\r') { // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c == '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) == ' ' || dot.charAt(i) == '\\t') {\n i--;\n }\n if (dot.charAt(i) == '\\n' || dot.charAt(i) == '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c == '/' && nextPreview() == '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c == '/' && nextPreview() == '*') {\n // skip block comment\n while (c != '') {\n if (c == '*' && nextPreview() == '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n }\n else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c == ' ' || c == '\\t' || c == '\\n' || c == '\\r') { // space, tab, enter\n next();\n }\n }\n while (isComment);\n\n // check for end of dot file\n if (c == '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c == '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token == 'false') {\n token = false; // convert to boolean\n }\n else if (token == 'true') {\n token = true; // convert to boolean\n }\n else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c == '\"') {\n next();\n while (c != '' && (c != '\"' || (c == '\"' && nextPreview() == '\"'))) {\n token += c;\n if (c == '\"') { // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function nextToken() {\n skipSpace();\n _base.state.start = _base.state.pos;\n if (_base.state.pos >= _base.input.length) {\n const tokens = _base.state.tokens;\n // We normally run past the end a bit, but if we're way past the end, avoid an infinite loop.\n // Also check the token positions rather than the types since sometimes we rewrite the token\n // type to something else.\n if (\n tokens.length >= 2 &&\n tokens[tokens.length - 1].start >= _base.input.length &&\n tokens[tokens.length - 2].start >= _base.input.length\n ) {\n _util.unexpected.call(void 0, \"Unexpectedly reached the end of input.\");\n }\n finishToken(_types.TokenType.eof);\n return;\n }\n readToken(_base.input.charCodeAt(_base.state.pos));\n}", "function getToken() {\n token_type = TOKENTYPE.NULL;\n token = '';\n comment = '';\n\n // skip over whitespaces\n // space, tab, and newline when inside parameters\n while (parse.isWhitespace(c, nesting_level)) {\n next();\n }\n\n // skip comment\n if (c === '#') {\n while (c !== '\\n' && c !== '') {\n comment += c;\n next();\n }\n }\n\n // check for end of expression\n if (c === '') {\n // token is still empty\n token_type = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for new line character\n if (c === '\\n' && !nesting_level) {\n token_type = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for delimiters consisting of 3 characters\n var c2 = c + nextPreview();\n var c3 = c2 + nextNextPreview();\n if (c3.length === 3 && DELIMITERS[c3]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c3;\n next();\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 2 characters\n if (c2.length === 2 && DELIMITERS[c2]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for a number\n if (parse.isDigitDot(c)) {\n token_type = TOKENTYPE.NUMBER;\n\n // get number, can have a single dot\n if (c === '.') {\n token += c;\n next();\n\n if (!parse.isDigit(c)) {\n // this is no number, it is just a dot (can be dot notation)\n token_type = TOKENTYPE.DELIMITER;\n }\n }\n else {\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n if (parse.isDecimalMark(c, nextPreview())) {\n token += c;\n next();\n }\n }\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n\n // check for exponential notation like \"2.3e-4\", \"1.23e50\" or \"2e+4\"\n c2 = nextPreview();\n if (c === 'E' || c === 'e') {\n if (parse.isDigit(c2) || c2 === '-' || c2 === '+') {\n token += c;\n next();\n\n if (c === '+' || c === '-') {\n token += c;\n next();\n }\n\n // Scientific notation MUST be followed by an exponent\n if (!parse.isDigit(c)) {\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n\n if (parse.isDecimalMark(c, nextPreview())) {\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n }\n else if (c2 === '.') {\n next();\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n }\n\n return;\n }\n\n // check for variables, functions, named operators\n if (parse.isAlpha(c, prevPreview(), nextPreview())) {\n while (parse.isAlpha(c, prevPreview(), nextPreview()) || parse.isDigit(c)) {\n token += c;\n next();\n }\n\n if (NAMED_DELIMITERS.hasOwnProperty(token)) {\n token_type = TOKENTYPE.DELIMITER;\n }\n else {\n token_type = TOKENTYPE.SYMBOL;\n }\n\n return;\n }\n\n // something unknown is found, wrong characters -> a syntax error\n token_type = TOKENTYPE.UNKNOWN;\n while (c !== '') {\n token += c;\n next();\n }\n throw createSyntaxError('Syntax error in part \"' + token + '\"');\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function read_next() {\n // Skip any whitespace\n read_while(is_whitespace);\n // If we've reached the EOF stop lexing\n if (input.eof()) return null;\n // Get the next character in the file\n var char = input.peek();\n // Skip over comments\n if (char == \"#\") {\n skip_comment();\n return read_next();\n }\n // Tokenize a string if character is a quote\n if (char == '\"') return read_string();\n // Tokenize a number if character is a digit\n if (is_digit(char)) return read_number();\n // Tokenize an identifier if character begins an identifier\n if (is_id_start(char)) return read_ident();\n // Tokenize punctuation if character is a punctuation symbol\n if (is_punc(char)) return {\n type : \"punc\",\n value : input.next(),\n }\n // Tokenize an operator if the current character is an operator\n if (is_op_char(char)) return {\n type : \"op\",\n value : read_while(is_op_char),\n }\n // If an unexpected character is found, throw an error\n input.croak(`Can't handle character ' ${char} '`);\n }", "function nextToken() {\n\t\tstartLooking();\n\t\tif (lookahead.length) {\n\t\t\tvar r = lookahead.shift();\n\t\t\ttokensState = r.state;\n\t\t\treturn r.token;\n\t\t} else {\n\t\t\tvar out = tokens.next();\n\t\t\ttokensState = tokens.state();\n\t\t\treturn out;\n\t\t}\n\t}", "function getToken() {\n token_type = TOKENTYPE.NULL;\n token = '';\n comment = '';\n\n // skip over whitespaces\n // space, tab, and newline when inside parameters\n while (parse.isWhitespace(c, nesting_level)) {\n next();\n }\n\n // skip comment\n if (c == '#') {\n while (c != '\\n' && c != '') {\n comment += c;\n next();\n }\n }\n\n // check for end of expression\n if (c == '') {\n // token is still empty\n token_type = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for new line character\n if (c == '\\n' && !nesting_level) {\n token_type = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for delimiters consisting of 3 characters\n var c2 = c + nextPreview();\n var c3 = c2 + nextNextPreview();\n if (c3.length == 3 && DELIMITERS[c3]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c3;\n next();\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 2 characters\n if (c2.length == 2 && DELIMITERS[c2]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n token_type = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for a number\n if (parse.isDigitDot(c)) {\n token_type = TOKENTYPE.NUMBER;\n\n // get number, can have a single dot\n if (c == '.') {\n token += c;\n next();\n\n if (!parse.isDigit(c)) {\n // this is no number, it is just a dot (can be dot notation)\n token_type = TOKENTYPE.DELIMITER;\n }\n }\n else {\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n if (parse.isDecimalMark(c, nextPreview())) {\n token += c;\n next();\n }\n }\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n\n // check for exponential notation like \"2.3e-4\", \"1.23e50\" or \"2e+4\"\n c2 = nextPreview();\n if (c == 'E' || c == 'e') {\n if (parse.isDigit(c2) || c2 == '-' || c2 == '+') {\n token += c;\n next();\n\n if (c == '+' || c == '-') {\n token += c;\n next();\n }\n\n // Scientific notation MUST be followed by an exponent\n if (!parse.isDigit(c)) {\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n\n while (parse.isDigit(c)) {\n token += c;\n next();\n }\n\n if (parse.isDecimalMark(c, nextPreview())) {\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n }\n else if (c2 == '.') {\n next();\n throw createSyntaxError('Digit expected, got \"' + c + '\"');\n }\n }\n\n return;\n }\n\n // check for variables, functions, named operators\n if (parse.isAlpha(c, prevPreview(), nextPreview())) {\n while (parse.isAlpha(c, prevPreview(), nextPreview()) || parse.isDigit(c)) {\n token += c;\n next();\n }\n\n if (NAMED_DELIMITERS.hasOwnProperty(token)) {\n token_type = TOKENTYPE.DELIMITER;\n }\n else {\n token_type = TOKENTYPE.SYMBOL;\n }\n\n return;\n }\n\n // something unknown is found, wrong characters -> a syntax error\n token_type = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw createSyntaxError('Syntax error in part \"' + token + '\"');\n }", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n }", "function advanceLexer() {\n\t var token = this.lastToken = this.token;\n\t if (token.kind !== EOF) {\n\t do {\n\t token = token.next = readToken(this, token);\n\t } while (token.kind === COMMENT);\n\t this.token = token;\n\t }\n\t return token;\n\t}", "function next()\n {\n // Skip leading whitespace and comments\n let save = p;\n while (true)\n {\n // Skip leading line space\n while (textUtils.isWhitespace(str[p]))\n p++;\n\n // Comment\n if (str[p] == '-' && str[p+1] == '-')\n {\n p = textUtils.findNextLine(str, p);\n continue;\n }\n break;\n }\n if (p > save && whitespaceMode)\n {\n return { pos: save, token: \" \" };\n }\n\n // Eof of file?\n if (str[p]=='\\0' || p==str.length)\n {\n return { pos: p, token: 'eof' }\n }\n\n // Is it an identifier?\n if (textUtils.isIdentifierLeadChar(str[p]))\n {\n // Skip it\n let start = p;\n while (textUtils.isIdentifierChar(str[p]))\n p++;\n\n // Extract it\n let identifier = str.substr(start, p-start);\n\n // Return token\n return {\n pos: start,\n token: 'identifier',\n value: identifier,\n }\n }\n\n // Characters\n switch (str[p])\n {\n case '(':\n case ')':\n case ',':\n case ';':\n case '.':\n let ch = str[p];\n p++;\n return {\n pos: p-1,\n token: ch\n }\n\n case ':':\n p++;\n if (str[p] == '=')\n {\n p++;\n return { pos: p-2, token: \":=\"}\n }\n return { pos: p-1, token: \":\" }\n\n case '<':\n p++;\n if (str[p] == '=')\n {\n p++;\n return { pos: p-2, token: \"<=\"}\n }\n return { pos: p-1, token: \":\" }\n\n case '=':\n p++;\n if (str[p] == '>')\n {\n p++;\n return { pos: p-2, token: \"=>\"}\n }\n return { pos: p-1, token: \"=\" }\n }\n\n // String?\n if (str[p] == '\\\"' || str[p] == '\\'')\n {\n let delim = str[p];\n let start = p;\n p++;\n\n while (str[p] != delim)\n {\n if (str[p] == '\\0')\n throw new Error(\"Unterminated string literal\");\n\n p++;\n }\n\n // Skip trailing delimiter\n p++;\n\n // Extract the raw string\n let raw = str.substr(start, p-start);\n\n // Return as a literal\n return {\n pos: start,\n token: 'other',\n raw\n }\n }\n\n // Some other unexpected character\n p++;\n return {\n pos: p-1,\n token: 'other',\n raw: str[p-1]\n }\n }", "findToken() {\n let t;\n if(this.peekTokens.length) {\n return this.peekedToken();\n }\n do {\n t = this.nextToken();\n } while(!t);\n return t;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new ast[\"b\" /* Token */](TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new ast[\"b\" /* Token */](TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new ast[\"b\" /* Token */](TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new ast[\"b\" /* Token */](TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new ast[\"b\" /* Token */](TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new ast[\"b\" /* Token */](TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new ast[\"b\" /* Token */](TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new ast[\"b\" /* Token */](TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new ast[\"b\" /* Token */](TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(source, fromPosition) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, fromPosition);\n\n\t if (position >= bodyLength) {\n\t return makeToken(TokenKind.EOF, position, position);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return makeToken(TokenKind.BANG, position, position + 1);\n\t // $\n\t case 36:\n\t return makeToken(TokenKind.DOLLAR, position, position + 1);\n\t // (\n\t case 40:\n\t return makeToken(TokenKind.PAREN_L, position, position + 1);\n\t // )\n\t case 41:\n\t return makeToken(TokenKind.PAREN_R, position, position + 1);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return makeToken(TokenKind.SPREAD, position, position + 3);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return makeToken(TokenKind.COLON, position, position + 1);\n\t // =\n\t case 61:\n\t return makeToken(TokenKind.EQUALS, position, position + 1);\n\t // @\n\t case 64:\n\t return makeToken(TokenKind.AT, position, position + 1);\n\t // [\n\t case 91:\n\t return makeToken(TokenKind.BRACKET_L, position, position + 1);\n\t // ]\n\t case 93:\n\t return makeToken(TokenKind.BRACKET_R, position, position + 1);\n\t // {\n\t case 123:\n\t return makeToken(TokenKind.BRACE_L, position, position + 1);\n\t // |\n\t case 124:\n\t return makeToken(TokenKind.PIPE, position, position + 1);\n\t // }\n\t case 125:\n\t return makeToken(TokenKind.BRACE_R, position, position + 1);\n\t // A-Z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t // _\n\t case 95:\n\t // a-z\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position);\n\t // -\n\t case 45:\n\t // 0-9\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code);\n\t // \"\n\t case 34:\n\t return readString(source, position);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "nextToken() {\r\n\r\n console.log('in next token');\r\n if(this.position >= this.input.length){\r\n return new Token(TokenType.EndOfInput, 'END', this.line, this.column);\r\n }\r\n\r\n // we skip all the whitespaces and new lines in the input;\r\n console.log('Before removing whitespaces position: '+this.position);\r\n this.skipWhitespacesAndNewLines();\r\n console.log('After removing whitespaces position: '+this.position);\r\n let character = this.input.charAt(this.position);\r\n console.log('character: '+ character);\r\n \r\n if(CharUtils.isOperator(character)){\r\n return this.recognizeOperator();\r\n }\r\n \r\n if(CharUtils.isLetter(character)) {\r\n return this.recognizeIdentifier();\r\n }\r\n\r\n if(CharUtils.isDigit(character)) {\r\n return this.recognizeNumber();\r\n }\r\n if(CharUtils.isParenthesis(character)){\r\n return this.recognizeParenthesis();\r\n }\r\n\r\n // throw an error if the current character does not match\r\n // any production rule of the lexical grammar.\r\n\r\n throw new Error('Unrecognized character ' + character + ' at line ' +\r\n + this.line + ' and column ' + this.column );\r\n\r\n }", "getTokenFromCode(code) {\n switch (code) {\n // newlines are significant!\n case 13:\n if (this.input.charCodeAt(this.state.pos + 1) === 10) {\n ++this.state.pos;\n }\n case 10: case 8232: case 8233:\n ++this.state.pos;\n ++this.state.curLine;\n this.state.lineStart = this.state.pos;\n return this.finishToken(tt.newline);\n\n // The interpretation of a dot depends on whether it is followed\n // by a digit or another two dots.\n case 46: // '.'\n // TODO: use \"readNumberStartingWithDot\" (that just calls readNumber, but it's for readability :))\n return this.readToken_dot();\n\n // Punctuation tokens.\n case 40: ++this.state.pos; return this.finishToken(tt.parenL); // '('\n case 41: ++this.state.pos; return this.finishToken(tt.parenR); // ')'\n case 44: ++this.state.pos; return this.finishToken(tt.comma); // ','\n case 91: ++this.state.pos; return this.finishToken(tt.bracketL); // '['\n case 93: ++this.state.pos; return this.finishToken(tt.bracketR); // ']'\n case 123: ++this.state.pos; return this.finishToken(tt.braceL); // '{'\n case 125: ++this.state.pos; return this.finishToken(tt.braceR); // '}'\n\n case 59: return this.readToken_semi(); // ';'\n case 33: return this.readToken_excl(); // '!'\n\n case 58:\n if (this.input.charCodeAt(this.state.pos + 1) === 58) {\n this.state.pos += 2;\n return this.finishToken(tt.doubleColon, '::');\n } else {\n ++this.state.pos;\n return this.finishToken(tt.colon);\n }\n\n case 63: ++this.state.pos; return this.finishToken(tt.question);\n // TODO: figure out alternate syntax for 'this' shorthand. Probably `@.`, but no standalone\n case 64: ++this.state.pos; return this.finishToken(tt.at);\n\n case 96: // '`'\n ++this.state.pos;\n return this.finishToken(tt.backQuote);\n\n case 48: // '0'\n let next = this.input.charCodeAt(this.state.pos + 1);\n if (next === 120 || next === 88) return this.readRadixNumber(16); // '0x', '0X' - hex number\n if (next === 111 || next === 79) return this.readRadixNumber(8); // '0o', '0O' - octal number\n if (next === 98 || next === 66) return this.readRadixNumber(2); // '0b', '0B' - binary number\n // Anything else beginning with a digit is an integer, octal\n // number, or float.\n case 49: case 50: case 51: case 52: case 53: case 54: case 55: case 56: case 57: // 1-9\n return this.readNumber();\n\n // Quotes produce strings.\n case 34: case 39: // '\"', \"'\"\n return this.readString(code);\n\n // Operators are parsed inline in tiny state machines. '=' (61) is\n // often referred to. `finishOp` simply skips the amount of\n // characters it is given as second argument, and returns a token\n // of the type given by its first argument.\n\n case 47: // '/'\n return this.readToken_slash();\n\n case 37: return this.finishEqOrType(tt.modulo); // '%'\n case 124: return this.finishEqOrType(tt.bitwiseOR); // '|'\n case 38: return this.finishEqOrType(tt.bitwiseAND); // '&'\n case 94: return this.finishEqOrType(tt.bitwiseXOR); // '^'\n\n case 42: return this.readToken_star(); //'*'\n\n case 43: case 45: // '+-'\n return this.readToken_plus_min(code);\n\n case 60: case 62: // '<>'\n return this.readToken_lt_gt(code);\n\n case 61: // '='\n return this.readToken_eq();\n\n case 126: // '~'\n ++this.state.pos;\n return this.finishToken(tt.bitwiseNOT);\n }\n this.raise(this.state.pos, `Unexpected character '${codePointToString(code)}' (${code})`);\n }", "function takeToken(cm, pos, precise, asArray) {\n\t\t var doc = cm.doc, mode = doc.mode, style;\n\t\t pos = clipPos(doc, pos);\n\t\t var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n\t\t var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n\t\t if (asArray) { tokens = []; }\n\t\t while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n\t\t stream.start = stream.pos;\n\t\t style = readToken(mode, stream, context.state);\n\t\t if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n\t\t }\n\t\t return asArray ? tokens : new Token(stream, style, context.state)\n\t\t }", "function next_Token()\n{\n\n if (this.tokensReturned >= this.tokens.length)\n {\n return null;\n } // end if\n else\n {\n return this.tokens [this.tokensReturned ++];\n } // end else\n\n\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n }", "function readToken(source, fromPosition) {\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, fromPosition);\n\n if (position >= bodyLength) {\n return makeToken(TokenKind.EOF, position, position);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return makeToken(TokenKind.BANG, position, position + 1);\n // $\n case 36:\n return makeToken(TokenKind.DOLLAR, position, position + 1);\n // (\n case 40:\n return makeToken(TokenKind.PAREN_L, position, position + 1);\n // )\n case 41:\n return makeToken(TokenKind.PAREN_R, position, position + 1);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return makeToken(TokenKind.SPREAD, position, position + 3);\n }\n break;\n // :\n case 58:\n return makeToken(TokenKind.COLON, position, position + 1);\n // =\n case 61:\n return makeToken(TokenKind.EQUALS, position, position + 1);\n // @\n case 64:\n return makeToken(TokenKind.AT, position, position + 1);\n // [\n case 91:\n return makeToken(TokenKind.BRACKET_L, position, position + 1);\n // ]\n case 93:\n return makeToken(TokenKind.BRACKET_R, position, position + 1);\n // {\n case 123:\n return makeToken(TokenKind.BRACE_L, position, position + 1);\n // |\n case 124:\n return makeToken(TokenKind.PIPE, position, position + 1);\n // }\n case 125:\n return makeToken(TokenKind.BRACE_R, position, position + 1);\n // A-Z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n // _\n case 95:\n // a-z\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position);\n // -\n case 45:\n // 0-9\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code);\n // \"\n case 34:\n return readString(source, position);\n }\n\n throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n}", "function readToken(src, tok) {\n skipWS(src);\n var c = src.peek();\n if (c === tok) {\n src.advance();\n skipWS(src);\n return tok;\n }\n return null;\n }", "nextToken() {\n let c1 = this.la(0);\n if(c1 < 128) {\n let t = this.map[c1];\n if(t >= 0) {\n return this.acceptToken(t, 1);\n } else {\n t = -t;\n if(t < this.Literal.$Literal) {\n return this.lexKnownToken(t);\n } else {\n return this.lexUnknownToken(t);\n }\n }\n } else if(Number.isNaN(c1)) {\n return this.acceptToken(this.Token.$EOF, 0);\n } else {\n return this.lexNonAsciiToken(c1);\n }\n }", "next() {\n this.m_token = this.yylex();\n if (this.m_token === Token.Error) {\n throw new Error(`unexpected character ${this.m_char}`);\n }\n return this.m_token;\n }", "next() {\n while(this.pos < this.src.length) {\n let c = this.src.charAt(this.pos);\n switch(c) {\n case \" \": case \"\\r\": case \"\\b\": case \"\\t\":\n ++this.pos;\n ++this.posCount;\n break;\n case \"\\n\":\n ++this.pos;\n ++this.posLine;\n this.posCount = 1;\n break;\n case \"#\":\n this._lexComment(); break;\n case \"=\": return this._yield(Token.tkAssign,1,1);\n case \"+\": return this._yield(Token.tkAdd,1,1);\n case \"-\": return this._yield(Token.tkSub,1,1);\n case \"*\": return this._yield(Token.tkMul,1,1);\n case \"(\": return this._yield(Token.tkLPar,1,1);\n case \")\": return this._yield(Token.tkRPar,1,1);\n case \"{\": return this._yield(Token.tkLBra,1,1);\n case \"}\": return this._yield(Token.tkRBra,1,1);\n case \"[\": return this._yield(Token.tkLSqr,1,1);\n case \"]\": return this._yield(Token.tkRSqr,1,1);\n case \";\": return this._yield(Token.tkSemicolon,1,1);\n case \",\": return this._yield(Token.tkComma,1,1);\n case \"0\": case \"1\": case \"2\": case \"3\": case \"4\":\n case \"5\": case \"6\": case \"7\": case \"8\": case \"9\":\n return this._lexNumber(c);\n default:\n return this._lexVar(c);\n }\n }\n\n return this._yield(Token.tkEof,0,0);\n }", "function readNextToken(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position); // SourceCharacter\n\n switch (code) {\n // Ignored ::\n // - UnicodeBOM\n // - WhiteSpace\n // - LineTerminator\n // - Comment\n // - Comma\n //\n // UnicodeBOM :: \"Byte Order Mark (U+FEFF)\"\n //\n // WhiteSpace ::\n // - \"Horizontal Tab (U+0009)\"\n // - \"Space (U+0020)\"\n //\n // Comma :: ,\n case 0xfeff: // <BOM>\n\n case 0x0009: // \\t\n\n case 0x0020: // <space>\n\n case 0x002c:\n // ,\n ++position;\n continue;\n // LineTerminator ::\n // - \"New Line (U+000A)\"\n // - \"Carriage Return (U+000D)\" [lookahead != \"New Line (U+000A)\"]\n // - \"Carriage Return (U+000D)\" \"New Line (U+000A)\"\n\n case 0x000a:\n // \\n\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n continue;\n\n case 0x000d:\n // \\r\n if (body.charCodeAt(position + 1) === 0x000a) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n continue;\n // Comment\n\n case 0x0023:\n // #\n return readComment(lexer, position);\n // Token ::\n // - Punctuator\n // - Name\n // - IntValue\n // - FloatValue\n // - StringValue\n //\n // Punctuator :: one of ! $ & ( ) ... : = @ [ ] { | }\n\n case 0x0021:\n // !\n return createToken(lexer, TokenKind.BANG, position, position + 1);\n\n case 0x0024:\n // $\n return createToken(lexer, TokenKind.DOLLAR, position, position + 1);\n\n case 0x0026:\n // &\n return createToken(lexer, TokenKind.AMP, position, position + 1);\n\n case 0x0028:\n // (\n return createToken(lexer, TokenKind.PAREN_L, position, position + 1);\n\n case 0x0029:\n // )\n return createToken(lexer, TokenKind.PAREN_R, position, position + 1);\n\n case 0x002e:\n // .\n if (\n body.charCodeAt(position + 1) === 0x002e &&\n body.charCodeAt(position + 2) === 0x002e\n ) {\n return createToken(lexer, TokenKind.SPREAD, position, position + 3);\n }\n\n break;\n\n case 0x003a:\n // :\n return createToken(lexer, TokenKind.COLON, position, position + 1);\n\n case 0x003d:\n // =\n return createToken(lexer, TokenKind.EQUALS, position, position + 1);\n\n case 0x0040:\n // @\n return createToken(lexer, TokenKind.AT, position, position + 1);\n\n case 0x005b:\n // [\n return createToken(lexer, TokenKind.BRACKET_L, position, position + 1);\n\n case 0x005d:\n // ]\n return createToken(lexer, TokenKind.BRACKET_R, position, position + 1);\n\n case 0x007b:\n // {\n return createToken(lexer, TokenKind.BRACE_L, position, position + 1);\n\n case 0x007c:\n // |\n return createToken(lexer, TokenKind.PIPE, position, position + 1);\n\n case 0x007d:\n // }\n return createToken(lexer, TokenKind.BRACE_R, position, position + 1);\n // StringValue\n\n case 0x0022:\n // \"\n if (\n body.charCodeAt(position + 1) === 0x0022 &&\n body.charCodeAt(position + 2) === 0x0022\n ) {\n return readBlockString(lexer, position);\n }\n\n return readString(lexer, position);\n } // IntValue | FloatValue (Digit | -)\n\n if (isDigit(code) || code === 0x002d) {\n return readNumber(lexer, position, code);\n } // Name\n\n if (isNameStart(code)) {\n return readName(lexer, position);\n }\n\n throw syntaxError(\n lexer.source,\n position,\n code === 0x0027\n ? 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?'\n : isUnicodeScalarValue(code) || isSupplementaryCodePoint(body, position)\n ? `Unexpected character: ${printCodePointAt(lexer, position)}.`\n : `Invalid character: ${printCodePointAt(lexer, position)}.`,\n );\n }\n\n return createToken(lexer, TokenKind.EOF, bodyLength, bodyLength);\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc, mode = doc.mode, style;\n pos = clipPos(doc, pos);\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\n if (asArray) { tokens = []; }\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\n }\n return asArray ? tokens : new Token(stream, style, context.state)\n}", "function takeToken(cm, pos, precise, asArray) {\r\n var doc = cm.doc, mode = doc.mode, style;\r\n pos = clipPos(doc, pos);\r\n var line = getLine(doc, pos.line), context = getContextBefore(cm, pos.line, precise);\r\n var stream = new StringStream(line.text, cm.options.tabSize, context), tokens;\r\n if (asArray) { tokens = []; }\r\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\r\n stream.start = stream.pos;\r\n style = readToken(mode, stream, context.state);\r\n if (asArray) { tokens.push(new Token(stream, style, copyState(doc.mode, context.state))); }\r\n }\r\n return asArray ? tokens : new Token(stream, style, context.state)\r\n}", "function takeToken(cm, pos, precise, asArray) {\n var doc = cm.doc,\n mode = doc.mode,\n style;\n pos = _clipPos(doc, pos);\n var line = getLine(doc, pos.line),\n context = getContextBefore(cm, pos.line, precise);\n var stream = new StringStream(line.text, cm.options.tabSize, context),\n tokens;\n\n if (asArray) {\n tokens = [];\n }\n\n while ((asArray || stream.pos < pos.ch) && !stream.eol()) {\n stream.start = stream.pos;\n style = readToken(mode, stream, context.state);\n\n if (asArray) {\n tokens.push(new Token(stream, style, copyState(doc.mode, context.state)));\n }\n }\n\n return asArray ? tokens : new Token(stream, style, context.state);\n }", "peek() {\n\t\treturn this.tokens[this.cursor + 1];\n\t}", "peek() {\n if (this.EOF()) {\n return null;\n }\n\n return this.tokens[this.i];\n }", "readNextToken() {\n this.state.prevLexType = this.state.lex.type;\n\n if (this.state.nextIndentation !== this.state.indentation) {\n if (this.state.nextIndentation > this.state.indentation) {\n return this.finishToken(tt.indent);\n } else {\n if (this.state.prevLexType === tt.newline) {\n return this.finishToken(tt.dedent);\n } else {\n return this.finishToken(tt.newline);\n }\n }\n }\n\n let curContext = this.curContext();\n if (curContext == null || !curContext.preserveSpace) {\n if (this.state.eol && this.state.pos !== this.state.eolPos) {\n this.skipIndentation();\n }\n // newlines are significant, so this only skips comments and non-indentation whitespace\n this.skipNonTokens();\n }\n this.state.containsOctal = false;\n this.state.octalPosition = null;\n\n this.startTokenLex();\n\n if (this.state.pos >= this.input.length) {\n if (this.state.indentation > 0) {\n this.state.nextIndentation = 0;\n return this.finishToken(tt.newline);\n }\n if (this.state.lex.type !== tt.eof || this.state.tokens.length === 0) {\n return this.finishToken(tt.eof);\n } else {\n return;\n }\n }\n\n if (curContext.override) return curContext.override(this);\n else return this.readToken(this.fullCharCodeAtPos());\n }", "next() {\n\t\tif (this.peek() == undefined) {\n\t\t\tthrow new ParserError(\n\t\t\t\t'E0004',\n\t\t\t\t'UnexpectedEOF',\n\t\t\t\t'The file ended, but the last expression wasn\\'t finished yet', \n\t\t\t\tthis.activeToken().position.line, \n\t\t\t\tthis.activeToken().position.column, \n\t\t\t\tthis.activeToken(),\n\t\t\t\tthis.module\n\t\t\t);\n\t\t}\n\n\t\treturn this.tokens[++this.cursor];\n\t}", "advance() {\n this.lastToken = this.token;\n const token = (this.token = this.lookahead());\n return token;\n }", "function next() {\n var tok = current;\n current = null;\n return tok || read_next();\n }", "function tokenize() {\r\n var ch = walker.ch;\r\n \r\n if (ch === \" \" || ch === \"\\t\") {\r\n return white();\r\n }\r\n\r\n if (ch === '/') {\r\n return comment();\r\n } \r\n\r\n if (ch === '\"' || ch === \"'\") {\r\n return str();\r\n }\r\n \r\n if (ch === '(') {\r\n return brace();\r\n }\r\n \r\n if (ch === '-' || ch === '.' || isDigit(ch)) { // tricky - char: minus (-1px) or dash (-moz-stuff)\r\n return num();\r\n }\r\n \r\n if (isNameChar(ch)) {\r\n return identifier();\r\n }\r\n\r\n if (isOp(ch)) {\r\n return op();\r\n }\r\n\r\n if (ch === '\\r') {\r\n if (walker.peek() === '\\n') {\r\n ch += walker.nextChar();\r\n }\r\n\r\n tokener(ch, 'line');\r\n walker.nextChar();\r\n return;\r\n }\r\n \r\n if (ch === '\\n') {\r\n tokener(ch, 'line');\r\n walker.nextChar();\r\n return;\r\n }\r\n \r\n raiseError(\"Unrecognized character '\" + ch + \"'\");\r\n }", "function lex() {\n var token;\n token = tstack.pop() || lexer.lex() || EOF;\n // if token isn't its numeric value, convert\n if (typeof token !== 'number') {\n if (token instanceof Array) {\n tstack = token;\n token = tstack.pop();\n }\n // if token isn't its numeric value, convert\n if (typeof token !== 'number') {\n token = self.symbols_[token] || token;\n }\n }\n return token || EOF;\n }" ]
[ "0.66196", "0.6511063", "0.6426855", "0.64120406", "0.64092094", "0.63982266", "0.63924634", "0.6377061", "0.63752246", "0.63712347", "0.63712347", "0.6352997", "0.6352997", "0.6352997", "0.6352997", "0.63496816", "0.63496816", "0.63405955", "0.63335043", "0.6321634", "0.6290893", "0.6269567", "0.62686354", "0.6264336", "0.6264336", "0.62640214", "0.62640214", "0.6258103", "0.6247819", "0.6245975", "0.6245975", "0.6245975", "0.6237341", "0.62320745", "0.6213811", "0.62085885", "0.62085885", "0.62085885", "0.62085885", "0.62085885", "0.62085885", "0.62018096", "0.61710286", "0.6150032", "0.6119805", "0.61117357", "0.6102546", "0.60950994", "0.6093611", "0.60793", "0.6078424", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.60630697", "0.6054716", "0.6047304", "0.6035182", "0.60233814", "0.6016272", "0.5989223", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5978004", "0.5958582", "0.5908654", "0.59071916", "0.5894846", "0.5892676", "0.58309156", "0.57938176", "0.5791153", "0.5785075", "0.5763898" ]
0.63980794
10
Report a message that an unexpected character was encountered.
function unexpectedCharacterMessage(code) { if (code === 39) { // ' return 'Unexpected single quote character (\'), did you mean to use ' + 'a double quote (")?'; } return 'Cannot parse the unexpected character ' + printCharCode(code) + '.'; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n }", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "lexicalError(currentChar) {\n log.error(\"[Scanner] character \" + currentChar + \" could not be parsed.\");\n }", "function unexpectedCharacterMessage(code) {\n\t if (code === 39) {\n\t // '\n\t return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n\t }\n\n\t return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n\t}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "function unexpectedCharacterMessage(code) {\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n return \"Cannot contain the invalid character \".concat(printCharCode(code), \".\");\n }\n\n if (code === 39) {\n // '\n return 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?';\n }\n\n return \"Cannot parse the unexpected character \".concat(printCharCode(code), \".\");\n}", "expectCharacter(code) {\n if (this.consumeOptionalCharacter(code))\n return;\n this.error(`Missing expected ${String.fromCharCode(code)}`);\n }", "expectCharacter(code) {\n if (this.consumeOptionalCharacter(code))\n return;\n this.error(`Missing expected ${String.fromCharCode(code)}`);\n }", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpectedCharacterMessage(code) {\n if (code === 39) {\n // '\n return \"Unexpected single quote character ('), did you mean to use \" + 'a double quote (\")?';\n }\n\n return 'Cannot parse the unexpected character ' + printCharCode(code) + '.';\n}", "function unexpected() {\n input.croak(`Unexpected token: ${JSON.stringify(input.peek())}`);\n }", "function unexpected() {\n raise(tokStart, \"Unexpected token\");\n }", "function crash(at, expect) {\n var code = value.charCodeAt(index)\n var label\n var base\n var message\n\n // Non-EOF.\n if (code === code) {\n label = 'character'\n base =\n 'Unexpected character ' +\n serializeFormattedCode(code) +\n ' (' +\n serializeCharCode(code) +\n ')'\n }\n // EOF.\n else {\n label = 'eof'\n base = 'Unexpected end of file'\n }\n\n message = base + ' ' + at + ', expected ' + expect\n\n fail(message, now(), 'unexpected-' + label)\n }", "function unexpected(message = \"Unexpected token\", pos = state.start) {\n if (state.error) {\n return;\n }\n // eslint-disable-next-line @typescript-eslint/no-explicit-any\n const err = new SyntaxError(message);\n err.pos = pos;\n state.error = err;\n state.pos = input.length;\n finishToken(TokenType.eof);\n}", "function quit(message, line, character) {\n throw {\n name: 'JSLintError',\n line: line,\n character: character,\n message: bundle.scanned_a_b.supplant({\n a: message,\n b: Math.floor((line / lines.length) * 100)\n })\n };\n }", "function asciiError(msg) {\n console.clear();\n return \"\\n\\n ______________________________ . \\\\ | / .\\n / / \\\\ \\\\ \\\\ / /\\n | | ========== - -\\n \\\\____________________________\\\\_/ / / \\\\ \\\\\\n ______________________________ \\\\ | / | \\\\\\n / / \\\\ \\\\ \\\\ / /. .\\n| | ========== - -\\n \\\\____________________________\\\\_/ / / \\\\ \\\\ /\\n ______________________________ / |\\\\ | / .\\n / / \\\\ \\\\ \\\\ / /\\n | | ========== - - -\\n \\\\____________________________\\\\_/ / / \\\\ \\\\\\n . / | \\\\ .\\n\\n Are you trying to wreak havoc!?!\\n\\n \" + msg + \"\\n\\n Idiot.\\n\\n \";\n}", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._originalString.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._string.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "throwUnexpectedToken(symbol, line, column) {\n const lineSource = this._string.split('\\n')[line - 1];\n let lineData = '';\n\n if (lineSource) {\n const pad = ' '.repeat(column);\n lineData = '\\n\\n' + lineSource + '\\n' + pad + '^\\n';\n }\n\n throw new SyntaxError(\n `${lineData}Unexpected token: \"${symbol}\" ` +\n `at ${line}:${column}.`\n );\n }", "validateInput(char) {\n if ((new RegExp(`^${'[\\x00-\\x5F\\xC8-\\xCF]'}+$`)).test(char)) {\n return undefined;\n }\n else {\n return 'Supports only ASCII characters 00 to 95 (0–9, A–Z and control codes) and special characters.';\n }\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "unexpected(pos, messageOrType) {\n if (messageOrType == null) messageOrType = 'Unexpected token';\n if (typeof messageOrType !== 'string') messageOrType = `Unexpected token, expected \"${messageOrType.label}\"`;\n throw this.raise(pos != null ? pos : this.state.start, messageOrType);\n }", "function quit(code, line, chr) {\n var percentage = Math.floor((line / state.lines.length) * 100);\n var message = messages.errors[code].desc;\n \n throw {\n name: \"JSHintError\",\n line: line,\n character: chr,\n message: message + \" (\" + percentage + \"% scanned).\",\n raw: message,\n code: code\n };\n }", "function unexpectedTokenError(token, message) {\n\t var value, msg = message || Messages.UnexpectedToken;\n\n\t if (token) {\n\t if (!message) {\n\t msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n\t (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n\t (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n\t (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n\t (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n\t Messages.UnexpectedToken;\n\n\t if (token.type === Token.Keyword) {\n\t if (isFutureReservedWord(token.value)) {\n\t msg = Messages.UnexpectedReserved;\n\t } else if (strict && isStrictModeReservedWord(token.value)) {\n\t msg = Messages.StrictReservedWord;\n\t }\n\t }\n\t }\n\n\t value = (token.type === Token.Template) ? token.value.raw : token.value;\n\t } else {\n\t value = 'ILLEGAL';\n\t }\n\n\t msg = msg.replace('%0', value);\n\n\t return (token && typeof token.lineNumber === 'number') ?\n\t createError(token.lineNumber, token.start, msg) :\n\t createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n\t }", "function invalid__CHARACTER__ERR_ques_(domException) /* (domException : domException) -> bool */ {\n return (domException === 5);\n}", "function unexpected(lexer, atToken) {\n\t var token = atToken || lexer.token;\n\t return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function unexpected(lexer, atToken) {\n\t var token = atToken || lexer.token;\n\t return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function throwUnexpected(token) {\n var s;\n\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwError(token, Messages.StrictReservedWord);\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n\t if (token.type === Token.EOF) {\n\t throwError(token, Messages.UnexpectedEOS);\n\t }\n\n\t if (token.type === Token.NumericLiteral) {\n\t throwError(token, Messages.UnexpectedNumber);\n\t }\n\n\t if (token.type === Token.StringLiteral) {\n\t throwError(token, Messages.UnexpectedString);\n\t }\n\n\t if (token.type === Token.Identifier) {\n\t throwError(token, Messages.UnexpectedIdentifier);\n\t }\n\n\t if (token.type === Token.Keyword) {\n\t if (isFutureReservedWord(token.value)) {\n\t throwError(token, Messages.UnexpectedReserved);\n\t } else if (strict && isStrictModeReservedWord(token.value)) {\n\t throwErrorTolerant(token, Messages.StrictReservedWord);\n\t return;\n\t }\n\t throwError(token, Messages.UnexpectedToken, token.value);\n\t }\n\n\t // BooleanLiteral, NullLiteral, or Punctuator.\n\t throwError(token, Messages.UnexpectedToken, token.value);\n\t }", "function unexpectedTokenError(token, message)\n\t\t{\n\t\t\tvar msg = Messages.UnexpectedToken;\n\t\t\tif (token)\n\t\t\t{\n\t\t\t\tmsg = message ? message : (token.type === Token.EOF) ? Messages.UnexpectedEOS : (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier : (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber : (token.type === Token.StringLiteral) ? Messages.UnexpectedString : Messages.UnexpectedToken;\n\t\t\t\tif (token.type === Token.Keyword)\n\t\t\t\t{\n\t\t\t\t\tif (isFutureReservedWord(token.value))\n\t\t\t\t\t{\n\t\t\t\t\t\tmsg = Messages.UnexpectedReserved;\n\t\t\t\t\t}\n\t\t\t\t\telse if (strict && isStrictModeReservedWord(token.value))\n\t\t\t\t\t{\n\t\t\t\t\t\tmsg = Messages.StrictReservedWord;\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t\tmsg = msg.replace('%0', token ? token.value : 'ILLEGAL');\n\t\t\treturn (token && typeof token.lineNumber === 'number') ? createError(token.lineNumber, token.start, msg) : createError(lineNumber, index, msg);\n\t\t}", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n \n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n \n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n \n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n \n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n \n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n \n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function unexpectedTokenError(token, message) {\n var value, msg = message || Messages.UnexpectedToken;\n\n if (token) {\n if (!message) {\n msg = (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n (token.type === Token.Template) ? Messages.UnexpectedTemplate :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n value = (token.type === Token.Template) ? token.value.raw : token.value;\n } else {\n value = 'ILLEGAL';\n }\n\n msg = msg.replace('%0', value);\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(scanning ? lineNumber : lastLineNumber, scanning ? index : lastIndex, msg);\n }", "function isInvalidChar() {\n var validChar = \"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz\";\n if (validChar.indexOf(userGuess) === -1) {\n feedBackText.textContent = \"You entered an invalid character. Please make another selection.\";\n return true;\n }\n }", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n }", "function reportSyntaxError(self) { callback(self._syntaxError(/^\\S*/.exec(input)[0])); }", "function reportSyntaxError(self) { callback(self._syntaxError(/^\\S*/.exec(input)[0])); }", "function reportSyntaxError(self) { callback(self._syntaxError(/^\\S*/.exec(input)[0])); }", "function reportSyntaxError(self) {\n callback(self._syntaxError(/^\\S*/.exec(input)[0]));\n }", "function reportSyntaxError(self) {\n callback(self._syntaxError(/^\\S*/.exec(input)[0]));\n }", "function unexpectedTokenError(token, message) {\n var msg = Messages.UnexpectedToken;\n\n if (token) {\n msg = message ? message :\n (token.type === Token.EOF) ? Messages.UnexpectedEOS :\n (token.type === Token.Identifier) ? Messages.UnexpectedIdentifier :\n (token.type === Token.NumericLiteral) ? Messages.UnexpectedNumber :\n (token.type === Token.StringLiteral) ? Messages.UnexpectedString :\n Messages.UnexpectedToken;\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n msg = Messages.UnexpectedReserved;\n } else if (strict && isStrictModeReservedWord(token.value)) {\n msg = Messages.StrictReservedWord;\n }\n }\n }\n\n msg = msg.replace('%0', token ? token.value : 'ILLEGAL');\n\n return (token && typeof token.lineNumber === 'number') ?\n createError(token.lineNumber, token.start, msg) :\n createError(lineNumber, index, msg);\n }", "function invalidChar(name, field = undefined) {\n let msg = `Invalid character in ${name}`;\n if (field !== undefined) {\n msg += ` [\"${field}\"]`;\n }\n return msg;\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n}", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return (0, _error.syntaxError)(lexer.source, token.start, \"Unexpected \".concat((0, _lexer.getTokenDesc)(token)));\n}", "validateInput(char) {\n if ((new RegExp(`^${'[\\x20-\\x7F\\xC8-\\xCF]'}+$`)).test(char)) {\n return undefined;\n }\n else {\n return 'Supports only ASCII characters 32 to 127 (0–9, A–Z, a–z), and special characters.';\n }\n }", "function unexpected(parser, atToken) {\n\t var token = atToken || parser.token;\n\t return (0, _error.syntaxError)(parser.source, token.start, 'Unexpected ' + (0, _lexer.getTokenDesc)(token));\n\t}", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function unexpected(lexer, atToken) {\n var token = atToken || lexer.token;\n return syntaxError(lexer.source, token.start, \"Unexpected \".concat(getTokenDesc(token)));\n}", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral || token.type === Token.JSXText) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function expect(ch) {\n if (match(ch)) next()\n else raise(`Expecting delimiter: [${ch}]`)\n }", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n}", "function throwUnexpected(token) {\n if (token.type === TokenEOF) {\n throwError(token, MessageUnexpectedEOS);\n }\n\n if (token.type === TokenNumericLiteral) {\n throwError(token, MessageUnexpectedNumber);\n }\n\n if (token.type === TokenStringLiteral) {\n throwError(token, MessageUnexpectedString);\n }\n\n if (token.type === TokenIdentifier) {\n throwError(token, MessageUnexpectedIdentifier);\n }\n\n if (token.type === TokenKeyword) {\n throwError(token, MessageUnexpectedReserved);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, MessageUnexpectedToken, token.value);\n}", "function handleError () {\n console.log( 'An error occurred 😞' );\n}", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }", "function throwUnexpected(token) {\n if (token.type === Token.EOF) {\n throwError(token, Messages.UnexpectedEOS);\n }\n\n if (token.type === Token.NumericLiteral) {\n throwError(token, Messages.UnexpectedNumber);\n }\n\n if (token.type === Token.StringLiteral) {\n throwError(token, Messages.UnexpectedString);\n }\n\n if (token.type === Token.Identifier) {\n throwError(token, Messages.UnexpectedIdentifier);\n }\n\n if (token.type === Token.Keyword) {\n if (isFutureReservedWord(token.value)) {\n throwError(token, Messages.UnexpectedReserved);\n } else if (strict && isStrictModeReservedWord(token.value)) {\n throwErrorTolerant(token, Messages.StrictReservedWord);\n return;\n }\n throwError(token, Messages.UnexpectedToken, token.value);\n }\n\n if (token.type === Token.Template) {\n throwError(token, Messages.UnexpectedTemplate, token.value.raw);\n }\n\n // BooleanLiteral, NullLiteral, or Punctuator.\n throwError(token, Messages.UnexpectedToken, token.value);\n }" ]
[ "0.708676", "0.6938613", "0.6938613", "0.6938613", "0.6938613", "0.6938613", "0.6923222", "0.68756294", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.68689543", "0.6747547", "0.6747547", "0.6725418", "0.6725418", "0.6725418", "0.6725418", "0.6725418", "0.6584605", "0.6479843", "0.64310616", "0.629456", "0.60728115", "0.5856249", "0.58280426", "0.58027554", "0.58027554", "0.5718513", "0.5713903", "0.57105297", "0.5705169", "0.56916636", "0.56724846", "0.5645348", "0.5645348", "0.5636134", "0.5631909", "0.56142116", "0.5608988", "0.5607048", "0.5607048", "0.5607048", "0.5607048", "0.5607048", "0.5606781", "0.5558305", "0.5540009", "0.5540009", "0.5540009", "0.5536254", "0.5536254", "0.5528556", "0.5522991", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5519573", "0.5513736", "0.55001134", "0.5472269", "0.5470737", "0.5470737", "0.54560155", "0.545007", "0.545007", "0.5437899", "0.542353", "0.542353", "0.53957355", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.5394315", "0.53856474" ]
0.6818663
23
Reads from body starting at startPosition until it finds a nonwhitespace or commented character, then returns the position of that character for lexing.
function positionAfterWhitespace(body, startPosition, lexer) { var bodyLength = body.length; var position = startPosition; while (position < bodyLength) { var code = charCodeAt.call(body, position); // tab | space | comma | BOM if (code === 9 || code === 32 || code === 44 || code === 0xFEFF) { ++position; } else if (code === 10) { // new line ++position; ++lexer.line; lexer.lineStart = position; } else if (code === 13) { // carriage return if (charCodeAt.call(body, position + 1) === 10) { position += 2; } else { ++position; } ++lexer.line; lexer.lineStart = position; } else { break; } } return position; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function positionAfterWhitespace(body, startPosition) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // Skip Ignored\n if (\n // BOM\n code === 0xFEFF ||\n // White Space\n code === 0x0009 || // tab\n code === 0x0020 || // space\n // Line Terminator\n code === 0x000A || // new line\n code === 0x000D || // carriage return\n // Comma\n code === 0x002C) {\n ++position;\n // Skip comments\n } else if (code === 35) {\n // #\n ++position;\n while (position < bodyLength && (code = charCodeAt.call(body, position)) !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009) && code !== 0x000A && code !== 0x000D) {\n ++position;\n }\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition) {\n\t var bodyLength = body.length;\n\t var position = startPosition;\n\t while (position < bodyLength) {\n\t var code = charCodeAt.call(body, position);\n\t // Skip Ignored\n\t if (\n\t // BOM\n\t code === 0xFEFF ||\n\t // White Space\n\t code === 0x0009 || // tab\n\t code === 0x0020 || // space\n\t // Line Terminator\n\t code === 0x000A || // new line\n\t code === 0x000D || // carriage return\n\t // Comma\n\t code === 0x002C) {\n\t ++position;\n\t // Skip comments\n\t } else if (code === 35) {\n\t // #\n\t ++position;\n\t while (position < bodyLength && (code = charCodeAt.call(body, position)) !== null && (\n\t // SourceCharacter but not LineTerminator\n\t code > 0x001F || code === 0x0009) && code !== 0x000A && code !== 0x000D) {\n\t ++position;\n\t }\n\t } else {\n\t break;\n\t }\n\t }\n\t return position;\n\t}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n }", "function positionAfterWhitespace(body, startPosition, lexer) {\n\t var bodyLength = body.length;\n\t var position = startPosition;\n\t while (position < bodyLength) {\n\t var code = charCodeAt.call(body, position);\n\t // tab | space | comma | BOM\n\t if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n\t ++position;\n\t } else if (code === 10) {\n\t // new line\n\t ++position;\n\t ++lexer.line;\n\t lexer.lineStart = position;\n\t } else if (code === 13) {\n\t // carriage return\n\t if (charCodeAt.call(body, position + 1) === 10) {\n\t position += 2;\n\t } else {\n\t ++position;\n\t }\n\t ++lexer.line;\n\t lexer.lineStart = position;\n\t } else {\n\t break;\n\t }\n\t }\n\t return position;\n\t}", "function positionAfterWhitespace(body, startPosition, lexer) {\n\t var bodyLength = body.length;\n\t var position = startPosition;\n\t while (position < bodyLength) {\n\t var code = charCodeAt.call(body, position);\n\t // tab | space | comma | BOM\n\t if (code === 9 || code === 32 || code === 44 || code === 0xFEFF) {\n\t ++position;\n\t } else if (code === 10) {\n\t // new line\n\t ++position;\n\t ++lexer.line;\n\t lexer.lineStart = position;\n\t } else if (code === 13) {\n\t // carriage return\n\t if (charCodeAt.call(body, position + 1) === 10) {\n\t position += 2;\n\t } else {\n\t ++position;\n\t }\n\t ++lexer.line;\n\t lexer.lineStart = position;\n\t } else {\n\t break;\n\t }\n\t }\n\t return position;\n\t}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = body.charCodeAt(position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (body.charCodeAt(position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // tab | space | comma | BOM\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // tab | space | comma | BOM\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // tab | space | comma | BOM\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // tab | space | comma | BOM\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position);\n // tab | space | comma | BOM\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function positionAfterWhitespace(body, startPosition, lexer) {\n var bodyLength = body.length;\n var position = startPosition;\n\n while (position < bodyLength) {\n var code = charCodeAt.call(body, position); // tab | space | comma | BOM\n\n if (code === 9 || code === 32 || code === 44 || code === 0xfeff) {\n ++position;\n } else if (code === 10) {\n // new line\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n } else if (code === 13) {\n // carriage return\n if (charCodeAt.call(body, position + 1) === 10) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n } else {\n break;\n }\n }\n\n return position;\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "function readComment(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start + 1;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position); // LineTerminator (\\n | \\r)\n\n if (code === 0x000a || code === 0x000d) {\n break;\n } // SourceCharacter\n\n if (isUnicodeScalarValue(code)) {\n ++position;\n } else if (isSupplementaryCodePoint(body, position)) {\n position += 2;\n } else {\n break;\n }\n }\n\n return createToken(\n lexer,\n TokenKind.COMMENT,\n start,\n position,\n body.slice(start + 1, position),\n );\n}", "function readToken(source, fromPosition) {\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, fromPosition);\n\n if (position >= bodyLength) {\n return makeToken(TokenKind.EOF, position, position);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return makeToken(TokenKind.BANG, position, position + 1);\n // $\n case 36:\n return makeToken(TokenKind.DOLLAR, position, position + 1);\n // (\n case 40:\n return makeToken(TokenKind.PAREN_L, position, position + 1);\n // )\n case 41:\n return makeToken(TokenKind.PAREN_R, position, position + 1);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return makeToken(TokenKind.SPREAD, position, position + 3);\n }\n break;\n // :\n case 58:\n return makeToken(TokenKind.COLON, position, position + 1);\n // =\n case 61:\n return makeToken(TokenKind.EQUALS, position, position + 1);\n // @\n case 64:\n return makeToken(TokenKind.AT, position, position + 1);\n // [\n case 91:\n return makeToken(TokenKind.BRACKET_L, position, position + 1);\n // ]\n case 93:\n return makeToken(TokenKind.BRACKET_R, position, position + 1);\n // {\n case 123:\n return makeToken(TokenKind.BRACE_L, position, position + 1);\n // |\n case 124:\n return makeToken(TokenKind.PIPE, position, position + 1);\n // }\n case 125:\n return makeToken(TokenKind.BRACE_R, position, position + 1);\n // A-Z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n // _\n case 95:\n // a-z\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position);\n // -\n case 45:\n // 0-9\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code);\n // \"\n case 34:\n return readString(source, position);\n }\n\n throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n}", "function readNextToken(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position); // SourceCharacter\n\n switch (code) {\n // Ignored ::\n // - UnicodeBOM\n // - WhiteSpace\n // - LineTerminator\n // - Comment\n // - Comma\n //\n // UnicodeBOM :: \"Byte Order Mark (U+FEFF)\"\n //\n // WhiteSpace ::\n // - \"Horizontal Tab (U+0009)\"\n // - \"Space (U+0020)\"\n //\n // Comma :: ,\n case 0xfeff: // <BOM>\n\n case 0x0009: // \\t\n\n case 0x0020: // <space>\n\n case 0x002c:\n // ,\n ++position;\n continue;\n // LineTerminator ::\n // - \"New Line (U+000A)\"\n // - \"Carriage Return (U+000D)\" [lookahead != \"New Line (U+000A)\"]\n // - \"Carriage Return (U+000D)\" \"New Line (U+000A)\"\n\n case 0x000a:\n // \\n\n ++position;\n ++lexer.line;\n lexer.lineStart = position;\n continue;\n\n case 0x000d:\n // \\r\n if (body.charCodeAt(position + 1) === 0x000a) {\n position += 2;\n } else {\n ++position;\n }\n\n ++lexer.line;\n lexer.lineStart = position;\n continue;\n // Comment\n\n case 0x0023:\n // #\n return readComment(lexer, position);\n // Token ::\n // - Punctuator\n // - Name\n // - IntValue\n // - FloatValue\n // - StringValue\n //\n // Punctuator :: one of ! $ & ( ) ... : = @ [ ] { | }\n\n case 0x0021:\n // !\n return createToken(lexer, TokenKind.BANG, position, position + 1);\n\n case 0x0024:\n // $\n return createToken(lexer, TokenKind.DOLLAR, position, position + 1);\n\n case 0x0026:\n // &\n return createToken(lexer, TokenKind.AMP, position, position + 1);\n\n case 0x0028:\n // (\n return createToken(lexer, TokenKind.PAREN_L, position, position + 1);\n\n case 0x0029:\n // )\n return createToken(lexer, TokenKind.PAREN_R, position, position + 1);\n\n case 0x002e:\n // .\n if (\n body.charCodeAt(position + 1) === 0x002e &&\n body.charCodeAt(position + 2) === 0x002e\n ) {\n return createToken(lexer, TokenKind.SPREAD, position, position + 3);\n }\n\n break;\n\n case 0x003a:\n // :\n return createToken(lexer, TokenKind.COLON, position, position + 1);\n\n case 0x003d:\n // =\n return createToken(lexer, TokenKind.EQUALS, position, position + 1);\n\n case 0x0040:\n // @\n return createToken(lexer, TokenKind.AT, position, position + 1);\n\n case 0x005b:\n // [\n return createToken(lexer, TokenKind.BRACKET_L, position, position + 1);\n\n case 0x005d:\n // ]\n return createToken(lexer, TokenKind.BRACKET_R, position, position + 1);\n\n case 0x007b:\n // {\n return createToken(lexer, TokenKind.BRACE_L, position, position + 1);\n\n case 0x007c:\n // |\n return createToken(lexer, TokenKind.PIPE, position, position + 1);\n\n case 0x007d:\n // }\n return createToken(lexer, TokenKind.BRACE_R, position, position + 1);\n // StringValue\n\n case 0x0022:\n // \"\n if (\n body.charCodeAt(position + 1) === 0x0022 &&\n body.charCodeAt(position + 2) === 0x0022\n ) {\n return readBlockString(lexer, position);\n }\n\n return readString(lexer, position);\n } // IntValue | FloatValue (Digit | -)\n\n if (isDigit(code) || code === 0x002d) {\n return readNumber(lexer, position, code);\n } // Name\n\n if (isNameStart(code)) {\n return readName(lexer, position);\n }\n\n throw syntaxError(\n lexer.source,\n position,\n code === 0x0027\n ? 'Unexpected single quote character (\\'), did you mean to use a double quote (\")?'\n : isUnicodeScalarValue(code) || isSupplementaryCodePoint(body, position)\n ? `Unexpected character: ${printCodePointAt(lexer, position)}.`\n : `Invalid character: ${printCodePointAt(lexer, position)}.`,\n );\n }\n\n return createToken(lexer, TokenKind.EOF, bodyLength, bodyLength);\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(source, fromPosition) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, fromPosition);\n\n\t if (position >= bodyLength) {\n\t return makeToken(TokenKind.EOF, position, position);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return makeToken(TokenKind.BANG, position, position + 1);\n\t // $\n\t case 36:\n\t return makeToken(TokenKind.DOLLAR, position, position + 1);\n\t // (\n\t case 40:\n\t return makeToken(TokenKind.PAREN_L, position, position + 1);\n\t // )\n\t case 41:\n\t return makeToken(TokenKind.PAREN_R, position, position + 1);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return makeToken(TokenKind.SPREAD, position, position + 3);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return makeToken(TokenKind.COLON, position, position + 1);\n\t // =\n\t case 61:\n\t return makeToken(TokenKind.EQUALS, position, position + 1);\n\t // @\n\t case 64:\n\t return makeToken(TokenKind.AT, position, position + 1);\n\t // [\n\t case 91:\n\t return makeToken(TokenKind.BRACKET_L, position, position + 1);\n\t // ]\n\t case 93:\n\t return makeToken(TokenKind.BRACKET_R, position, position + 1);\n\t // {\n\t case 123:\n\t return makeToken(TokenKind.BRACE_L, position, position + 1);\n\t // |\n\t case 124:\n\t return makeToken(TokenKind.PIPE, position, position + 1);\n\t // }\n\t case 125:\n\t return makeToken(TokenKind.BRACE_R, position, position + 1);\n\t // A-Z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t // _\n\t case 95:\n\t // a-z\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position);\n\t // -\n\t case 45:\n\t // 0-9\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code);\n\t // \"\n\t case 34:\n\t return readString(source, position);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = undefined;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n return readBlockString(source, position, line, col, prev);\n }\n return readString(source, position, line, col, prev);\n }\n\n throw (0, error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n case 89:case 90:\n case 95:\n case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n case 119:case 120:case 121:case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:case 49:case 50:case 51:case 52:\n case 53:case 54:case 55:case 56:case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n return readString(source, position, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n }", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = undefined;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function findFirstNonWhitespaceCharacterAndColumn(startPos, endPos, sourceFile, options) {\n var character = 0;\n var column = 0;\n for (var pos = startPos; pos < endPos; pos++) {\n var ch = sourceFile.text.charCodeAt(pos);\n if (!ts.isWhiteSpaceSingleLine(ch)) {\n break;\n }\n if (ch === 9 /* tab */) {\n column += options.TabSize + (column % options.TabSize);\n }\n else {\n column++;\n }\n character++;\n }\n return { column: column, character: character };\n }", "_findCommentEnd(ch, pos) {\n const next = this.input.charCodeAt(pos + 1);\n const isXmlLine = !this.state.inModule && ch !== 35;\n const blockCommentKind = !isXmlLine && (\n next === 42 ? \"#*\" :\n next === 37 ? \"#$\" :\n next === 35 && this.input.charCodeAt(this.state.pos + 2) === 35 && isNewline(this.input.charCodeAt(this.state.pos + 3)) ? \"###\" : false\n )\n if (blockCommentKind) {\n const meta = blockCommentMeta[blockCommentKind];\n let end = this.input.indexOf(meta.terminator, pos + meta.startLen);\n // TODO: make sure that ending `###` is alone on a line (and starts alone on a line)\n if (end === -1) this.raise(pos, \"Unterminated comment\");\n pos = end + meta.endLen;\n } else {\n lineBreakG.lastIndex = pos;\n const match = lineBreakG.exec(this.input)\n pos = match ? match.index : this.input.length;\n lineBreakG.lastIndex = 0; // reset lineBreakG\n }\n return pos;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new ast[\"b\" /* Token */](TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new ast[\"b\" /* Token */](TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new ast[\"b\" /* Token */](TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new ast[\"b\" /* Token */](TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new ast[\"b\" /* Token */](TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new ast[\"b\" /* Token */](TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new ast[\"b\" /* Token */](TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new ast[\"b\" /* Token */](TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new ast[\"b\" /* Token */](TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n\t throw (0, _error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:\n\t case 66:\n\t case 67:\n\t case 68:\n\t case 69:\n\t case 70:\n\t case 71:\n\t case 72:\n\t case 73:\n\t case 74:\n\t case 75:\n\t case 76:\n\t case 77:\n\t case 78:\n\t case 79:\n\t case 80:\n\t case 81:\n\t case 82:\n\t case 83:\n\t case 84:\n\t case 85:\n\t case 86:\n\t case 87:\n\t case 88:\n\t case 89:\n\t case 90:\n\t case 95:\n\t case 97:\n\t case 98:\n\t case 99:\n\t case 100:\n\t case 101:\n\t case 102:\n\t case 103:\n\t case 104:\n\t case 105:\n\t case 106:\n\t case 107:\n\t case 108:\n\t case 109:\n\t case 110:\n\t case 111:\n\t case 112:\n\t case 113:\n\t case 114:\n\t case 115:\n\t case 116:\n\t case 117:\n\t case 118:\n\t case 119:\n\t case 120:\n\t case 121:\n\t case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:\n\t case 49:\n\t case 50:\n\t case 51:\n\t case 52:\n\t case 53:\n\t case 54:\n\t case 55:\n\t case 56:\n\t case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n\t return readBlockString(source, position, line, col, prev);\n\t }\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n\t}", "function lex() {\n\n\t// trim leading and trailing white space\n\tvar lexString = trim(sourceCode);\n\t// initialize total tokens to 0\n\tvar totalTokens = 0;\n\t// initialize index of token array to 0\n\tvar tokenIndex = 0;\n\t// initialize # of lines to 1\n\tvar lineCount = 1;\n\t// initialize errorB to false\n\tvar errorB = false;\n\t// initialize char list holder\n\tvar charListHold = \"\";\n\t\n\t\n\t// searches the front of the string looking for a digit\n\t// returns boolean\n\tfunction matchDigit() {\n\t\tvar pattern = /^\\d/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a type (int or string)\n\t// returns boolean\n\tfunction matchType() {\n\t\tvar pattern = /^(int|string|boolean)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a while or if\n\t// returns boolean\n\tfunction matchCond() {\n\t\tvar pattern = /^(while|if)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a boolean (true/false)\n\t// returns boolean\n\tfunction matchBool() {\n\t\tvar pattern = /^(true|false)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a character\n\t// returns boolean\n\tfunction matchChar() {\n\t\tvar pattern = /^[a-z]/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a operator (+ or -)\n\t// returns boolean\n\tfunction matchOp() {\n\t\tvar pattern = /^(\\+|-)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for any white space\n\t// returns boolean\n\tfunction matchWhite() {\n\t\tvar pattern = /^(\\s|\\n|\\t)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a tab\n\t// returns boolean\n\tfunction matchTab() {\n\t\tvar pattern = /^\\t/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for a new line\n\t// returns boolean\n\tfunction matchNewLine() {\n\t\tvar pattern = /^\\n/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\n\t\n\t// searches the front of the string looking for any miscellaneous symbols\n\t// (includes quotation marks, brackets, parathensis, and equal sign)\n\t// returns boolean\n\tfunction matchSymbol() {\n\t\tvar pattern = /^[{}\\(\\)]/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t//searches the front of the string looking for an equal sign\n\t// returns boolean\n\tfunction matchEqual() {\n\t\tvar pattern = /^=/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for print\n\t// returns boolean\n\tfunction matchPrint() {\n\t\tvar pattern = /^(print)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for any quotes (indicating a char list)\n\t// returns boolean\n\tfunction matchQuote() {\n\t\tvar pattern = /^\"/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// searches the front of the string looking for an end of program symbol ($)\n\t// returns boolean\n\tfunction matchEnd() {\n\t\tvar pattern = /^\\$/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}\n\t\n\t// lex a char list\n\tfunction lexCharList() {\n\t\tif(errorB) {\n\t\t\terrorB = errorB;\n\t\t}\n\t\telse if(matchWhite()) {\n\t\t\tif(!matchNewLine() && !matchTab()) {\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t\tputMessage(\"Found space: \\t\" + lexString.charAt(0));\n\t\t\t\ttokens[tokenIndex] = {type: \"space\", value: lexString.charAt(0), line: lineCount};\n\t\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tlexCharList();\n\t\t\t}\n\t\t\telse {\n\t\t\t\t// put error message here\n\t\t\t\tputMessage(\"Error: Tabs/New Lines not allowed in Character List\");\n\t\t\t\tputMessage(\"(line \" + lineCount + \")\");\n\t\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t\terrorB = true;\n\t\t\t}\n\t\t}\n\t\telse if(matchChar()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found character: \\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"char\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\tlexCharList();\n\t\t}\n\t\telse if(matchQuote()) {\n\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"\\\"\");\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"\\\"\", line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t}\n\t\telse {\n\t\t\t// put error message here\n\t\t\tputMessage(\"Error: \\\"\" + lexString.charAt(0) + \"\\\" not allowed in Character List\");\n\t\t\tputMessage(\"(line \" + lineCount + \")\");\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\terrorB = true;\n\t\t}\n\t}\n\t\n\t// if there is at least 1 more character in the string,\n\t// create a new token (based off matching functions)\n\tfunction createToken() {\n\t\tif(matchDigit()) {\n\t\t\t// increment token total\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t// output token found\n\t\t\tputMessage(\"Found digit: \\t\\t\" + lexString.charAt(0));\n\t\t\t// add token to the token array\n\t\t\ttokens[tokenIndex] = {type: \"digit\", value: lexString.charAt(0), line: lineCount};\n\t\t\t// slice off the first character (of in the case of IDs, the first couple)\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t// increment the index of the token array\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\tif(matchDigit()) {\n\t\t\t\tputMessage(\"Error: Double digit numbers not supported\");\n\t\t\t\terrorB = true;\n\t\t\t}\n\n\t\t}\n\t\telse if(matchType()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"i\") {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"int\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"int\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(3, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a type (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse if(lexString.charAt(0) === \"b\") {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"boolean\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"boolean\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(7, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a type (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found Id: \\t\\t\\t\" + \"string\");\n\t\t\t\ttokens[tokenIndex] = {type: \"type\", value: \"string\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(6, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchBool()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"t\") {\n\t\t\t\tputMessage(\"Found boolean: \\t\" + \"true\");\n\t\t\t\ttokens[tokenIndex] = {type: \"bool\", value: \"true\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(4, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a boolean (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found boolean: \\t\" + \"false\");\n\t\t\t\ttokens[tokenIndex] = {type: \"bool\", value: \"false\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchCond()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tif(lexString.charAt(0) === \"i\") {\n\t\t\t\tputMessage(\"Found conditional: \\t\" + \"if\");\n\t\t\t\ttokens[tokenIndex] = {type: \"cond\", value: \"if\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(2, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t\tif(matchChar()) {\n\t\t\t\t\tputMessage(\"Error: Character directly following a cond (line \" + lineCount + \")\");\n\t\t\t\t\terrorB = true;\n\t\t\t\t}\n\t\t\t}\n\t\t\telse {\n\t\t\t\tputMessage(\"Found conditional: \\t\" + \"while\");\n\t\t\t\ttokens[tokenIndex] = {type: \"cond\", value: \"while\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchPrint()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found symbol: \\t\\t\\t\" + \"print\");\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"print\", line: lineCount};\n\t\t\tlexString = lexString.slice(5, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchChar()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found character: \\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"char\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\tif(matchChar()) {\n\t\t\t\tputMessage(\"Error: Character directly following a character (line \" + lineCount + \")\");\n\t\t\t\terrorB = true;\n\t\t\t}\n\t\t}\n\t\telse if(matchOp()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found operator: \\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"op\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchSymbol()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found symbol: \\t\\t\" + lexString.charAt(0));\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: lexString.charAt(0), line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse if(matchEqual()) {\n\t\t\tvar save = lexString;\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\tif(matchEqual()) {\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"==\");\n\t\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"==\", line: lineCount};\n\t\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t\telse {\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"=\");\n\t\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"=\", line: lineCount};\n\t\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\t}\n\t\t}\n\t\telse if(matchQuote()) {\n\t\t\tputMessage(\"Found symbol: \\t\\t\" + \"\\\"\");\n\t\t\ttokens[tokenIndex] = {type: \"symbol\", value: \"\\\"\", line: lineCount};\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tlexCharList();\n\t\t}\n\t\telse if (matchWhite()) {\n\t\t\t// there is no token for white space (return or tab) ... SLICE IT UP\n\t\t\tif(matchNewLine()) {\n\t\t\t\tlineCount = lineCount + 1;\n\t\t\t}\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t}\n\t\telse if(matchEnd()) {\n\t\t\ttotalTokens = totalTokens + 1;\n\t\t\tputMessage(\"Found end of program!\");\n\t\t\ttokens[tokenIndex] = {type: \"end\", value: lexString.charAt(0), line: lineCount};\n\t\t\tif(lexString.slice(1, lexString.length).length !== 0) {\n\t\t\t\t//throw an error\n\t\t\t\tputMessage(\"Warning: Code following program end. Deleting extra code.\");\n\t\t\t}\n\t\t\tlexString = \"\";\n\t\t\ttokenIndex = tokenIndex + 1;\n\t\t}\n\t\telse {\n\t\t\t// put error message here\n\t\t\tputMessage(\"Error: \\\"\" + lexString.charAt(0) + \"\\\" not in the language (line \" + lineCount + \")\");\n\t\t\tlexString = lexString.slice(1, lexString.length);\n\t\t\terrorB = true;\n\t\t}\n\t}\n\t\n\tfunction lexNext() {\n\t\t// check for an error\n\t\tif(errorB) {\n\t\t\tputMessage(\"Lexing Failed!\");\n\t\t}\n\t\t// if the source code isnt empty, process the remainder\n\t\telse if(lexString.length !== 0) {\n\t\t\tcreateToken();\n\t\t\tlexNext();\n\t\t}\n\t\t// otherwise, output the end of lex! :D\n\t\telse {\n\t\t\tif(tokens[tokenIndex - 1].type !== \"end\") {\n\t\t\t\tputMessage(\"Missing $ at end of code. Adding it. (You're welcome)\");\n\t\t\t\ttokens[tokenIndex] = {type: \"end\", value: \"$\"};\n\t\t\t\ttotalTokens = totalTokens + 1;\n\t\t\t}\n\t\t\tputMessage(\"Finished lexing! \" + totalTokens + \" tokens created.\");\n\t\t\t//if no errors, parse it\n\t\t\tif(!errorB) {\n\t\t\t\tparse();\n\t\t\t}\n\t\t}\n\t}\n\t\n\t// calling the functions\n\tputMessage(\"\\nBeginning lexing!\");\n\tlexNext();\n\t\n}", "function readToken(lexer, prev) {\n\t var source = lexer.source;\n\t var body = source.body;\n\t var bodyLength = body.length;\n\n\t var position = positionAfterWhitespace(body, prev.end, lexer);\n\t var line = lexer.line;\n\t var col = 1 + position - lexer.lineStart;\n\n\t if (position >= bodyLength) {\n\t return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n\t }\n\n\t var code = charCodeAt.call(body, position);\n\n\t // SourceCharacter\n\t if (code < 0x0020 && code !== 0x0009 && code !== 0x000A && code !== 0x000D) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid character ' + printCharCode(code) + '.');\n\t }\n\n\t switch (code) {\n\t // !\n\t case 33:\n\t return new Tok(BANG, position, position + 1, line, col, prev);\n\t // #\n\t case 35:\n\t return readComment(source, position, line, col, prev);\n\t // $\n\t case 36:\n\t return new Tok(DOLLAR, position, position + 1, line, col, prev);\n\t // (\n\t case 40:\n\t return new Tok(PAREN_L, position, position + 1, line, col, prev);\n\t // )\n\t case 41:\n\t return new Tok(PAREN_R, position, position + 1, line, col, prev);\n\t // .\n\t case 46:\n\t if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n\t return new Tok(SPREAD, position, position + 3, line, col, prev);\n\t }\n\t break;\n\t // :\n\t case 58:\n\t return new Tok(COLON, position, position + 1, line, col, prev);\n\t // =\n\t case 61:\n\t return new Tok(EQUALS, position, position + 1, line, col, prev);\n\t // @\n\t case 64:\n\t return new Tok(AT, position, position + 1, line, col, prev);\n\t // [\n\t case 91:\n\t return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n\t // ]\n\t case 93:\n\t return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n\t // {\n\t case 123:\n\t return new Tok(BRACE_L, position, position + 1, line, col, prev);\n\t // |\n\t case 124:\n\t return new Tok(PIPE, position, position + 1, line, col, prev);\n\t // }\n\t case 125:\n\t return new Tok(BRACE_R, position, position + 1, line, col, prev);\n\t // A-Z _ a-z\n\t case 65:case 66:case 67:case 68:case 69:case 70:case 71:case 72:\n\t case 73:case 74:case 75:case 76:case 77:case 78:case 79:case 80:\n\t case 81:case 82:case 83:case 84:case 85:case 86:case 87:case 88:\n\t case 89:case 90:\n\t case 95:\n\t case 97:case 98:case 99:case 100:case 101:case 102:case 103:case 104:\n\t case 105:case 106:case 107:case 108:case 109:case 110:case 111:\n\t case 112:case 113:case 114:case 115:case 116:case 117:case 118:\n\t case 119:case 120:case 121:case 122:\n\t return readName(source, position, line, col, prev);\n\t // - 0-9\n\t case 45:\n\t case 48:case 49:case 50:case 51:case 52:\n\t case 53:case 54:case 55:case 56:case 57:\n\t return readNumber(source, position, code, line, col, prev);\n\t // \"\n\t case 34:\n\t return readString(source, position, line, col, prev);\n\t }\n\n\t throw (0, _error.syntaxError)(source, position, 'Unexpected character ' + printCharCode(code) + '.');\n\t}", "function getLocation(source, position) {\n let lastLineStart = 0;\n let line = 1;\n\n for (const match of source.body.matchAll(LineRegExp)) {\n typeof match.index === 'number' || invariant(false);\n\n if (match.index >= position) {\n break;\n }\n\n lastLineStart = match.index + match[0].length;\n line += 1;\n }\n\n return {\n line,\n column: position + 1 - lastLineStart,\n };\n}", "calculateLineIndex(startPosition){\n\t\tthis.lineIndex = startPosition + this.top;\n\t\tthis.lineCount = Math.ceil((this.title.length +this.value.length + this.titleSpacing) / process.stdout.columns);\n\t\treturn this.lineIndex + this.lineCount+ this.bottom;\n\t}", "calculateLineIndex(startPosition){\n\t\tthis.lineIndex = startPosition + this.top;\n\t\tthis.lineCount = Math.ceil((this.title.length +this.value.length + this.titleSpacing) / process.stdout.columns);\n\t\treturn this.lineIndex + this.lineCount+ this.bottom;\n\t}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "jsx_readWord() {\n let ch, start = this.pos;\n do {\n ch = this.input.charCodeAt(++this.pos);\n } while (isIdentifierChar(ch) || ch === 45); // '-'\n return this.finishToken(tok.jsxName, this.input.slice(start, this.pos));\n }", "function adjustSpanBegin(beginPosition) {\n var pos = beginPosition;\n while (isNonEdgeCharacter(sourceDoc.charAt(pos))) {pos++}\n while (!isDelimiter(sourceDoc.charAt(pos)) && pos > 0 && !isDelimiter(sourceDoc.charAt(pos - 1))) {pos--}\n return pos;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}" ]
[ "0.6905268", "0.6786167", "0.64872277", "0.641509", "0.6414316", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.6409914", "0.63189334", "0.63189334", "0.63189334", "0.63189334", "0.63189334", "0.6287002", "0.6287002", "0.58819586", "0.58819586", "0.5787327", "0.5784899", "0.5771293", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.5729917", "0.57163787", "0.57163787", "0.57163787", "0.57163787", "0.57129985", "0.5712893", "0.56985164", "0.568085", "0.56597453", "0.56538993", "0.56538993", "0.56538993", "0.56538993", "0.56538993", "0.56538993", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56502604", "0.56469244", "0.56469244", "0.56279325", "0.56244326", "0.56244326", "0.56206787", "0.56186354", "0.56186354", "0.56186354", "0.55953044", "0.5577987", "0.5577987", "0.55703616", "0.5565814", "0.5552607", "0.5549005", "0.5545591", "0.5542611", "0.5534714", "0.5508872", "0.5508872", "0.55057514", "0.55057514", "0.54657054", "0.5464381", "0.5441779" ]
0.63161314
23
Reads a comment token from the source file. [\u0009\u0020\uFFFF]
function readComment(source, start, line, col, prev) { var body = source.body; var code = void 0; var position = start; do { code = charCodeAt.call(body, ++position); } while (code !== null && ( // SourceCharacter but not LineTerminator code > 0x001F || code === 0x0009)); return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n }", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n\t var body = source.body;\n\t var code = void 0;\n\t var position = start;\n\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code !== null && (\n\t // SourceCharacter but not LineTerminator\n\t code > 0x001F || code === 0x0009));\n\n\t return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n\t}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n\t var body = source.body;\n\t var code = void 0;\n\t var position = start;\n\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code !== null && (\n\t // SourceCharacter but not LineTerminator\n\t code > 0x001f || code === 0x0009));\n\n\t return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n\t}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new ast[\"b\" /* Token */](TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start + 1;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position); // LineTerminator (\\n | \\r)\n\n if (code === 0x000a || code === 0x000d) {\n break;\n } // SourceCharacter\n\n if (isUnicodeScalarValue(code)) {\n ++position;\n } else if (isSupplementaryCodePoint(body, position)) {\n position += 2;\n } else {\n break;\n }\n }\n\n return createToken(\n lexer,\n TokenKind.COMMENT,\n start,\n position,\n body.slice(start + 1, position),\n );\n}", "function parseComment() {\n expect(\"-\");\n expect(\"-\");\n for (;;) {\n if (curChar > \">\")\n parseSafeChars();\n switch (curChar) {\n case \"\":\n error(\"missing comment close \\\"-->\\\"\");\n case \"-\":\n advance();\n if (tryChar(\"-\")) {\n expect(\">\");\n return;\n }\n break;\n case \"\\n\":\n case \"\\r\":\n case \"\\t\":\n advance();\n break;\n default:\n if (curChar < \" \")\n error(\"control character #x%1 not allowed\", formatCodePoint(curChar));\n advance();\n break;\n }\n }\n }", "function inComment (stream, state) {\n if (stream.match(/^.*?#\\}/)) state.tokenize = tokenBase\n else stream.skipToEnd()\n return \"comment\";\n }", "function skip_comment() {\n read_while(function(char) { return char !== \"\\n\" });\n // Skip over newline character\n input.next();\n }", "getComment() {\n let eol = this._source.indexOf('\\n', this._index);\n\n while (eol !== -1 && this._source[eol + 1] === '#') {\n this._index = eol + 2;\n\n eol = this._source.indexOf('\\n', this._index);\n\n if (eol === -1) {\n break;\n }\n }\n\n if (eol === -1) {\n this._index = this._length;\n } else {\n this._index = eol + 1;\n }\n }", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c == ' ' || c == '\\t' || c == '\\n' || c == '\\r') { // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c == '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) == ' ' || dot.charAt(i) == '\\t') {\n i--;\n }\n if (dot.charAt(i) == '\\n' || dot.charAt(i) == '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c == '/' && nextPreview() == '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c == '/' && nextPreview() == '*') {\n // skip block comment\n while (c != '') {\n if (c == '*' && nextPreview() == '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n }\n else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c == ' ' || c == '\\t' || c == '\\n' || c == '\\r') { // space, tab, enter\n next();\n }\n }\n while (isComment);\n\n // check for end of dot file\n if (c == '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c == '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token == 'false') {\n token = false; // convert to boolean\n }\n else if (token == 'true') {\n token = true; // convert to boolean\n }\n else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c == '\"') {\n next();\n while (c != '' && (c != '\"' || (c == '\"' && nextPreview() == '\"'))) {\n token += c;\n if (c == '\"') { // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "consumeComments() {\n const mark = new parse_css.Token();\n if (!amp.validator.LIGHT) {\n mark.line = this.getLine();\n mark.col = this.getCol();\n }\n while (this.next(1) === /* '/' */ 0x2f && this.next(2) === /* '*' */ 0x2a) {\n this.consume(2);\n while (true) {\n this.consume();\n if (this.code_ === /* '*' */ 0x2a && this.next() === /* '/' */ 0x2f) {\n this.consume();\n break;\n } else if (this.eof()) {\n if (amp.validator.LIGHT) {\n this.errors_.push(parse_css.TRIVIAL_ERROR_TOKEN);\n } else {\n // For example \"h1 { color: red; } \\* \" would emit this parse error\n // at the end of the string.\n this.errors_.push(mark.copyPosTo(new parse_css.ErrorToken(\n amp.validator.ValidationError.Code\n .CSS_SYNTAX_UNTERMINATED_COMMENT,\n ['style'])));\n }\n return;\n }\n }\n }\n }", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n if (c === '\"') {\n // skip the escape character\n token += c;\n next();\n } else if (c === '\\\\' && nextPreview() === 'n') {\n // Honor a newline escape sequence\n token += '\\n';\n next();\n } else {\n token += c;\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n}", "function consumeComment(vm) {\n for (/* nop */; vm.i<=vm.maxIndex && !vm.error; vm.i++) {\n let c = vm.charAt(vm.i);\n if (c===\"\\n\" || c===\"\\r\" || vm.i===vm.maxIndex) {\n return;\n }\n }\n}", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n token += c;\n if (c === '\"') {\n // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "function getToken() {\n tokenType = TOKENTYPE.NULL;\n token = '';\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n\n do {\n var isComment = false;\n\n // skip comment\n if (c === '#') {\n // find the previous non-space character\n var i = index - 1;\n while (dot.charAt(i) === ' ' || dot.charAt(i) === '\\t') {\n i--;\n }\n if (dot.charAt(i) === '\\n' || dot.charAt(i) === '') {\n // the # is at the start of a line, this is indeed a line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n }\n if (c === '/' && nextPreview() === '/') {\n // skip line comment\n while (c != '' && c != '\\n') {\n next();\n }\n isComment = true;\n }\n if (c === '/' && nextPreview() === '*') {\n // skip block comment\n while (c != '') {\n if (c === '*' && nextPreview() === '/') {\n // end of block comment found. skip these last two characters\n next();\n next();\n break;\n } else {\n next();\n }\n }\n isComment = true;\n }\n\n // skip over whitespaces\n while (c === ' ' || c === '\\t' || c === '\\n' || c === '\\r') {\n // space, tab, enter\n next();\n }\n } while (isComment);\n\n // check for end of dot file\n if (c === '') {\n // token is still empty\n tokenType = TOKENTYPE.DELIMITER;\n return;\n }\n\n // check for delimiters consisting of 2 characters\n var c2 = c + nextPreview();\n if (DELIMITERS[c2]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c2;\n next();\n next();\n return;\n }\n\n // check for delimiters consisting of 1 character\n if (DELIMITERS[c]) {\n tokenType = TOKENTYPE.DELIMITER;\n token = c;\n next();\n return;\n }\n\n // check for an identifier (number or string)\n // TODO: more precise parsing of numbers/strings (and the port separator ':')\n if (isAlphaNumeric(c) || c === '-') {\n token += c;\n next();\n\n while (isAlphaNumeric(c)) {\n token += c;\n next();\n }\n if (token === 'false') {\n token = false; // convert to boolean\n } else if (token === 'true') {\n token = true; // convert to boolean\n } else if (!isNaN(Number(token))) {\n token = Number(token); // convert to number\n }\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // check for a string enclosed by double quotes\n if (c === '\"') {\n next();\n while (c != '' && (c != '\"' || c === '\"' && nextPreview() === '\"')) {\n token += c;\n if (c === '\"') {\n // skip the escape character\n next();\n }\n next();\n }\n if (c != '\"') {\n throw newSyntaxError('End of string \" expected');\n }\n next();\n tokenType = TOKENTYPE.IDENTIFIER;\n return;\n }\n\n // something unknown is found, wrong characters, a syntax error\n tokenType = TOKENTYPE.UNKNOWN;\n while (c != '') {\n token += c;\n next();\n }\n throw new SyntaxError('Syntax error in part \"' + chop(token, 30) + '\"');\n }", "function tokenXMLComment(stream, state) {\n var ch;\n while (ch = stream.next()) {\n if (ch == \"-\" && stream.match(\"->\", true)) {\n state.tokenize = tokenBase;\n return \"comment\";\n }\n }\n }", "isComment() {\n return this.char + this.peek() === \"/*\"\n }", "comment (ch) {\n if (ch !== '/') { return ch }\n var p = this.at;\n var second = this.lookahead();\n if (second === '/') {\n while (ch) {\n ch = this.next();\n if (ch === '\\n' || ch === '\\r') { break }\n }\n ch = this.next();\n } else if (second === '*') {\n while (ch) {\n ch = this.next();\n if (ch === '*' && this.lookahead() === '/') {\n this.next();\n break\n }\n }\n if (!ch) {\n this.error('Unclosed comment, starting at character ' + p);\n }\n this.next();\n return this.white()\n }\n return ch\n }", "next(ch) {\n if (this._value === '/' && ch !== '/') {\n throw new Error(\n `Comment must start with \"//\" in file ${this._lexer.fileName} on line ${\n this._lexer.lineNumber\n }.`\n );\n }\n\n // Check if the comment has ended.\n if (isEOL(ch)) {\n // Put EOL char back before storing the token to make sure the line count is\n // accurate.\n this._lexer.backUpBy(1);\n this._storeToken();\n return new UndecidedState(this._lexer);\n }\n\n // Keep on reading the comment.\n this._value += ch;\n return this;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "commentToken(chunk = this.chunk, {heregex, returnCommentTokens = false, offsetInChunk = 0} = {}) {\r\n\t\t\t\tvar commentAttachment, commentAttachments, commentWithSurroundingWhitespace, content, contents, getIndentSize, hasSeenFirstCommentLine, hereComment, hereLeadingWhitespace, hereTrailingWhitespace, i, indentSize, leadingNewline, leadingNewlineOffset, leadingNewlines, leadingWhitespace, length, lineComment, match, matchIllegal, noIndent, nonInitial, placeholderToken, precededByBlankLine, precedingNonCommentLines, prev;\r\n\t\t\t\tif (!(match = chunk.match(COMMENT))) {\r\n\t\t\t\t\treturn 0;\r\n\t\t\t\t}\r\n\t\t\t\t[commentWithSurroundingWhitespace, hereLeadingWhitespace, hereComment, hereTrailingWhitespace, lineComment] = match;\r\n\t\t\t\tcontents = null;\r\n\t\t\t\t// Does this comment follow code on the same line?\r\n\t\t\t\tleadingNewline = /^\\s*\\n+\\s*#/.test(commentWithSurroundingWhitespace);\r\n\t\t\t\tif (hereComment) {\r\n\t\t\t\t\tmatchIllegal = HERECOMMENT_ILLEGAL.exec(hereComment);\r\n\t\t\t\t\tif (matchIllegal) {\r\n\t\t\t\t\t\tthis.error(`block comments cannot contain ${matchIllegal[0]}`, {\r\n\t\t\t\t\t\t\toffset: '###'.length + matchIllegal.index,\r\n\t\t\t\t\t\t\tlength: matchIllegal[0].length\r\n\t\t\t\t\t\t});\r\n\t\t\t\t\t}\r\n\t\t\t\t\t// Parse indentation or outdentation as if this block comment didn’t exist.\r\n\t\t\t\t\tchunk = chunk.replace(`###${hereComment}###`, '');\r\n\t\t\t\t\t// Remove leading newlines, like `Rewriter::removeLeadingNewlines`, to\r\n\t\t\t\t\t// avoid the creation of unwanted `TERMINATOR` tokens.\r\n\t\t\t\t\tchunk = chunk.replace(/^\\n+/, '');\r\n\t\t\t\t\tthis.lineToken({chunk});\r\n\t\t\t\t\t// Pull out the ###-style comment’s content, and format it.\r\n\t\t\t\t\tcontent = hereComment;\r\n\t\t\t\t\tcontents = [\r\n\t\t\t\t\t\t{\r\n\t\t\t\t\t\t\tcontent,\r\n\t\t\t\t\t\t\tlength: commentWithSurroundingWhitespace.length - hereLeadingWhitespace.length - hereTrailingWhitespace.length,\r\n\t\t\t\t\t\t\tleadingWhitespace: hereLeadingWhitespace\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t];\r\n\t\t\t\t} else {\r\n\t\t\t\t\t// The `COMMENT` regex captures successive line comments as one token.\r\n\t\t\t\t\t// Remove any leading newlines before the first comment, but preserve\r\n\t\t\t\t\t// blank lines between line comments.\r\n\t\t\t\t\tleadingNewlines = '';\r\n\t\t\t\t\tcontent = lineComment.replace(/^(\\n*)/, function(leading) {\r\n\t\t\t\t\t\tleadingNewlines = leading;\r\n\t\t\t\t\t\treturn '';\r\n\t\t\t\t\t});\r\n\t\t\t\t\tprecedingNonCommentLines = '';\r\n\t\t\t\t\thasSeenFirstCommentLine = false;\r\n\t\t\t\t\tcontents = content.split('\\n').map(function(line, index) {\r\n\t\t\t\t\t\tvar comment, leadingWhitespace;\r\n\t\t\t\t\t\tif (!(line.indexOf('#') > -1)) {\r\n\t\t\t\t\t\t\tprecedingNonCommentLines += `\\n${line}`;\r\n\t\t\t\t\t\t\treturn;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t\tleadingWhitespace = '';\r\n\t\t\t\t\t\tcontent = line.replace(/^([ |\\t]*)#/, function(_, whitespace) {\r\n\t\t\t\t\t\t\tleadingWhitespace = whitespace;\r\n\t\t\t\t\t\t\treturn '';\r\n\t\t\t\t\t\t});\r\n\t\t\t\t\t\tcomment = {\r\n\t\t\t\t\t\t\tcontent,\r\n\t\t\t\t\t\t\tlength: '#'.length + content.length,\r\n\t\t\t\t\t\t\tleadingWhitespace: `${!hasSeenFirstCommentLine ? leadingNewlines : ''}${precedingNonCommentLines}${leadingWhitespace}`,\r\n\t\t\t\t\t\t\tprecededByBlankLine: !!precedingNonCommentLines\r\n\t\t\t\t\t\t};\r\n\t\t\t\t\t\thasSeenFirstCommentLine = true;\r\n\t\t\t\t\t\tprecedingNonCommentLines = '';\r\n\t\t\t\t\t\treturn comment;\r\n\t\t\t\t\t}).filter(function(comment) {\r\n\t\t\t\t\t\treturn comment;\r\n\t\t\t\t\t});\r\n\t\t\t\t}\r\n\t\t\t\tgetIndentSize = function({leadingWhitespace, nonInitial}) {\r\n\t\t\t\t\tvar lastNewlineIndex;\r\n\t\t\t\t\tlastNewlineIndex = leadingWhitespace.lastIndexOf('\\n');\r\n\t\t\t\t\tif ((hereComment != null) || !nonInitial) {\r\n\t\t\t\t\t\tif (!(lastNewlineIndex > -1)) {\r\n\t\t\t\t\t\t\treturn null;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t} else {\r\n\t\t\t\t\t\tif (lastNewlineIndex == null) {\r\n\t\t\t\t\t\t\tlastNewlineIndex = -1;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t}\r\n\t\t\t\t\treturn leadingWhitespace.length - 1 - lastNewlineIndex;\r\n\t\t\t\t};\r\n\t\t\t\tcommentAttachments = (function() {\r\n\t\t\t\t\tvar j, len, results;\r\n\t\t\t\t\tresults = [];\r\n\t\t\t\t\tfor (i = j = 0, len = contents.length; j < len; i = ++j) {\r\n\t\t\t\t\t\t({content, length, leadingWhitespace, precededByBlankLine} = contents[i]);\r\n\t\t\t\t\t\tnonInitial = i !== 0;\r\n\t\t\t\t\t\tleadingNewlineOffset = nonInitial ? 1 : 0;\r\n\t\t\t\t\t\toffsetInChunk += leadingNewlineOffset + leadingWhitespace.length;\r\n\t\t\t\t\t\tindentSize = getIndentSize({leadingWhitespace, nonInitial});\r\n\t\t\t\t\t\tnoIndent = (indentSize == null) || indentSize === -1;\r\n\t\t\t\t\t\tcommentAttachment = {\r\n\t\t\t\t\t\t\tcontent,\r\n\t\t\t\t\t\t\there: hereComment != null,\r\n\t\t\t\t\t\t\tnewLine: leadingNewline || nonInitial, // Line comments after the first one start new lines, by definition.\r\n\t\t\t\t\t\t\tlocationData: this.makeLocationData({offsetInChunk, length}),\r\n\t\t\t\t\t\t\tprecededByBlankLine,\r\n\t\t\t\t\t\t\tindentSize,\r\n\t\t\t\t\t\t\tindented: !noIndent && indentSize > this.indent,\r\n\t\t\t\t\t\t\toutdented: !noIndent && indentSize < this.indent\r\n\t\t\t\t\t\t};\r\n\t\t\t\t\t\tif (heregex) {\r\n\t\t\t\t\t\t\tcommentAttachment.heregex = true;\r\n\t\t\t\t\t\t}\r\n\t\t\t\t\t\toffsetInChunk += length;\r\n\t\t\t\t\t\tresults.push(commentAttachment);\r\n\t\t\t\t\t}\r\n\t\t\t\t\treturn results;\r\n\t\t\t\t}).call(this);\r\n\t\t\t\tprev = this.prev();\r\n\t\t\t\tif (!prev) {\r\n\t\t\t\t\t// If there’s no previous token, create a placeholder token to attach\r\n\t\t\t\t\t// this comment to; and follow with a newline.\r\n\t\t\t\t\tcommentAttachments[0].newLine = true;\r\n\t\t\t\t\tthis.lineToken({\r\n\t\t\t\t\t\tchunk: this.chunk.slice(commentWithSurroundingWhitespace.length),\r\n\t\t\t\t\t\toffset: commentWithSurroundingWhitespace.length // Set the indent.\r\n\t\t\t\t\t});\r\n\t\t\t\t\tplaceholderToken = this.makeToken('JS', '', {\r\n\t\t\t\t\t\toffset: commentWithSurroundingWhitespace.length,\r\n\t\t\t\t\t\tgenerated: true\r\n\t\t\t\t\t});\r\n\t\t\t\t\tplaceholderToken.comments = commentAttachments;\r\n\t\t\t\t\tthis.tokens.push(placeholderToken);\r\n\t\t\t\t\tthis.newlineToken(commentWithSurroundingWhitespace.length);\r\n\t\t\t\t} else {\r\n\t\t\t\t\tattachCommentsToNode(commentAttachments, prev);\r\n\t\t\t\t}\r\n\t\t\t\tif (returnCommentTokens) {\r\n\t\t\t\t\treturn commentAttachments;\r\n\t\t\t\t}\r\n\t\t\t\treturn commentWithSurroundingWhitespace.length;\r\n\t\t\t}", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"php-comment\"};\n }", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"php-comment\"};\n }", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"js-comment\"};\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = prev.end;\n\n while (pos < bodyLength) {\n var code = body.charCodeAt(pos);\n var _line = lexer.line;\n\n var _col = 1 + pos - lexer.lineStart; // SourceCharacter\n\n\n switch (code) {\n case 0xfeff: // <BOM>\n\n case 9: // \\t\n\n case 32: // <space>\n\n case 44:\n // ,\n ++pos;\n continue;\n\n case 10:\n // \\n\n ++pos;\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 13:\n // \\r\n if (body.charCodeAt(pos + 1) === 10) {\n pos += 2;\n } else {\n ++pos;\n }\n\n ++lexer.line;\n lexer.lineStart = pos;\n continue;\n\n case 33:\n // !\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BANG, pos, pos + 1, _line, _col, prev);\n\n case 35:\n // #\n return readComment(source, pos, _line, _col, prev);\n\n case 36:\n // $\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].DOLLAR, pos, pos + 1, _line, _col, prev);\n\n case 38:\n // &\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AMP, pos, pos + 1, _line, _col, prev);\n\n case 40:\n // (\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_L, pos, pos + 1, _line, _col, prev);\n\n case 41:\n // )\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PAREN_R, pos, pos + 1, _line, _col, prev);\n\n case 46:\n // .\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].SPREAD, pos, pos + 3, _line, _col, prev);\n }\n\n break;\n\n case 58:\n // :\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].COLON, pos, pos + 1, _line, _col, prev);\n\n case 61:\n // =\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EQUALS, pos, pos + 1, _line, _col, prev);\n\n case 64:\n // @\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].AT, pos, pos + 1, _line, _col, prev);\n\n case 91:\n // [\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_L, pos, pos + 1, _line, _col, prev);\n\n case 93:\n // ]\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACKET_R, pos, pos + 1, _line, _col, prev);\n\n case 123:\n // {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_L, pos, pos + 1, _line, _col, prev);\n\n case 124:\n // |\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].PIPE, pos, pos + 1, _line, _col, prev);\n\n case 125:\n // }\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].BRACE_R, pos, pos + 1, _line, _col, prev);\n\n case 34:\n // \"\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, _line, _col, prev, lexer);\n }\n\n return readString(source, pos, _line, _col, prev);\n\n case 45: // -\n\n case 48: // 0\n\n case 49: // 1\n\n case 50: // 2\n\n case 51: // 3\n\n case 52: // 4\n\n case 53: // 5\n\n case 54: // 6\n\n case 55: // 7\n\n case 56: // 8\n\n case 57:\n // 9\n return readNumber(source, pos, code, _line, _col, prev);\n\n case 65: // A\n\n case 66: // B\n\n case 67: // C\n\n case 68: // D\n\n case 69: // E\n\n case 70: // F\n\n case 71: // G\n\n case 72: // H\n\n case 73: // I\n\n case 74: // J\n\n case 75: // K\n\n case 76: // L\n\n case 77: // M\n\n case 78: // N\n\n case 79: // O\n\n case 80: // P\n\n case 81: // Q\n\n case 82: // R\n\n case 83: // S\n\n case 84: // T\n\n case 85: // U\n\n case 86: // V\n\n case 87: // W\n\n case 88: // X\n\n case 89: // Y\n\n case 90: // Z\n\n case 95: // _\n\n case 97: // a\n\n case 98: // b\n\n case 99: // c\n\n case 100: // d\n\n case 101: // e\n\n case 102: // f\n\n case 103: // g\n\n case 104: // h\n\n case 105: // i\n\n case 106: // j\n\n case 107: // k\n\n case 108: // l\n\n case 109: // m\n\n case 110: // n\n\n case 111: // o\n\n case 112: // p\n\n case 113: // q\n\n case 114: // r\n\n case 115: // s\n\n case 116: // t\n\n case 117: // u\n\n case 118: // v\n\n case 119: // w\n\n case 120: // x\n\n case 121: // y\n\n case 122:\n // z\n return readName(source, pos, _line, _col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n }\n\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast.Token(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast.Token(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast.Token(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast.Token(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast.Token(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast.Token(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast.Token(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast.Token(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast.Token(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast.Token(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast.Token(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast.Token(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function commentToken(label, body, opt) {\n var special = [\"jshint\", \"jslint\", \"members\", \"member\", \"globals\", \"global\", \"exported\"];\n var isSpecial = false;\n var value = label + body;\n var commentType = \"plain\";\n opt = opt || {};\n \n if (opt.isMultiline) {\n value += \"*/\";\n }\n \n body = body.replace(/\\n/g, \" \");\n \n special.forEach(function(str) {\n if (isSpecial) {\n return;\n }\n \n // Don't recognize any special comments other than jshint for single-line\n // comments. This introduced many problems with legit comments.\n if (label === \"//\" && str !== \"jshint\") {\n return;\n }\n \n if (body.charAt(str.length) === \" \" && body.substr(0, str.length) === str) {\n isSpecial = true;\n label = label + str;\n body = body.substr(str.length);\n }\n \n if (!isSpecial && body.charAt(0) === \" \" && body.charAt(str.length + 1) === \" \" &&\n body.substr(1, str.length) === str) {\n isSpecial = true;\n label = label + \" \" + str;\n body = body.substr(str.length + 1);\n }\n \n if (!isSpecial) {\n return;\n }\n \n switch (str) {\n case \"member\":\n commentType = \"members\";\n break;\n case \"global\":\n commentType = \"globals\";\n break;\n default:\n commentType = str;\n }\n });\n \n return {\n type: Token.Comment,\n commentType: commentType,\n value: value,\n body: body,\n isSpecial: isSpecial,\n isMultiline: opt.isMultiline || false,\n isMalformed: opt.isMalformed || false\n };\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new ast[\"b\" /* Token */](TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new ast[\"b\" /* Token */](TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new ast[\"b\" /* Token */](TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new ast[\"b\" /* Token */](TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new ast[\"b\" /* Token */](TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new ast[\"b\" /* Token */](TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new ast[\"b\" /* Token */](TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new ast[\"b\" /* Token */](TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new ast[\"b\" /* Token */](TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new ast[\"b\" /* Token */](TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new ast[\"b\" /* Token */](TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new ast[\"b\" /* Token */](TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "consumeComment(token) {\n const comment = token.data[0];\n for (const conditional of parseConditionalComment(comment, token.location)) {\n this.trigger(\"conditional\", {\n condition: conditional.expression,\n location: conditional.location,\n });\n }\n }", "function skipCommentLine(state) {\n while (state.position < state.length) {\n var c = state.data.charCodeAt(state.position);\n if (c === 10 || c === 13) {\n return;\n }\n ++state.position;\n }\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind.TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind.TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind.TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind.TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind.TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind.TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind.TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind.TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind.TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind.TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind.TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind.TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind.TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind.TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind.TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _syntaxError.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(src, tok) {\n skipWS(src);\n var c = src.peek();\n if (c === tok) {\n src.advance();\n skipWS(src);\n return tok;\n }\n return null;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function parse(src, unknownTokenHandler) {\n var requires = [];\n /**\n * 0 =\n * 1 = ;\n * 2 = \\t \\r\\n\n * 3 = /\n * 4 = //\n * 5 = /*\n * 6 = /* ... *\n * 7 = \"\n * 8 = \" ... \\\n * 9 = '\n * 10 = ' ... \\\n * 11 = `\n * 12 = ` ... \\\n */\n var state = 0;\n /**\n * 0 =\n * 1 = var\n * 2 = var identifier\n * 3 = var identifier =\n * 4 = var identifier = require\n */\n var token = 0;\n // current character\n var ch = '\\0';\n main_loop: for (var i = 0, len = src.length; i < len; i++) {\n switch (ch = src[i]) {\n case ';':\n state = 1;\n break;\n case ' ':\n case '\\t':\n case '\\r':\n case '\\n':\n state = 2;\n break;\n case '/':\n state = (state === 3 ? 4 : 3);\n // single line comment\n if (state === 4) {\n //console.log(\"start single line comment @ \" + i);\n i++; // next char after '//'\n while (i < len && src[i] !== '\\n')\n i++;\n if (src[i] === '\\n') {\n state = 0;\n i--;\n } // reset for next loop increment\n //console.log(\"finished single line comment @ \" + i);\n }\n break;\n case '*':\n // multi-line comment\n if (state === 3) {\n //console.log(\"start multi line comment @ \" + i);\n i++; // next char after '/*'\n while (i < len) {\n ch = src[i];\n if (state === 6) {\n // end of '*/'\n if (ch === '/') {\n state = 0;\n break;\n }\n else\n state = 5;\n }\n if (ch === '*')\n state = 6;\n i++;\n }\n //console.log(\"finished multi-line comment @ \" + i);\n }\n break;\n case '\"':\n state = 7;\n // double quote string\n i++; // next char after '\"'\n while (i < len) {\n ch = src[i];\n if (ch === '\\\\')\n state = 8;\n else if (state === 7 && ch === '\"') {\n state = 0;\n break;\n }\n else\n state = 7;\n i++;\n }\n //console.log(\"finished double quote string @ \" + i);\n break;\n case '\\'':\n state = 9;\n // single quote string\n i++; // next char after '\\''\n while (i < len) {\n ch = src[i];\n if (ch === '\\\\')\n state = 10;\n else if (state === 9 && ch === '\\'') {\n state = 0;\n break;\n }\n else\n state = 9;\n i++;\n }\n //console.log(\"finished single quote string @ \" + i);\n break;\n case '`':\n state = 11;\n // backtick quote string\n i++; // next char after '`'\n while (i < len) {\n ch = src[i];\n if (ch === '\\\\')\n state = 12;\n else if (state === 11 && ch === '`') {\n state = 0;\n break;\n }\n else\n state = 11;\n i++;\n }\n //console.log(\"finished backtick quote string @ \" + i);\n break;\n default:\n var nextIdx = nextToken(i, src, len);\n var text = src.substring(i, nextIdx);\n i = nextIdx;\n //console.log(\"got token '\" + text + \"' @ \" + i);\n if (text === \"var\") {\n token = 1;\n }\n else if (token === 1 && isIdentifier(text)) {\n token = 2;\n }\n else if (token === 2 && text === \"=\") {\n token = 3;\n }\n else if (token === 3 && text === \"require\") {\n token = 4;\n }\n else if (token === 3 && text.startsWith(\"require(\")) {\n requires.push(trimSemicolonParensAndQuotes(text, \"require\".length, text.length));\n token = 0;\n }\n else if (token === 4 && text.startsWith(\"(\")) {\n requires.push(trimSemicolonParensAndQuotes(text, 0, text.length));\n token = 0;\n }\n else if (text === \";\") {\n token = 0;\n }\n else {\n var nextIdx = (unknownTokenHandler != null ? unknownTokenHandler(src, i, token, text) : -1);\n if (nextIdx >= i) {\n state = 0;\n i = nextIdx;\n }\n else {\n // does NOT match sequence: var identifier = require\n break main_loop;\n }\n }\n break;\n }\n }\n return requires;\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function tokenComment(stream, state) {\n var maybeEnd = false, maybeNested = false, nestedCount = 0, ch;\n while (ch = stream.next()) {\n if (ch == \")\" && maybeEnd) {\n if(nestedCount > 0)\n nestedCount--;\n else {\n popStateStack(state);\n break;\n }\n }\n else if(ch == \":\" && maybeNested) {\n nestedCount++;\n }\n maybeEnd = (ch == \":\");\n maybeNested = (ch == \"(\");\n }\n\n return \"comment\";\n }", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, _error.syntaxError)(source, pos, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function advanceLexer() {\n var token = this.lastToken = this.token;\n if (token.kind !== EOF) {\n do {\n token = token.next = readToken(this, token);\n } while (token.kind === COMMENT);\n this.token = token;\n }\n return token;\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (charCodeAt.call(body, pos + 1) === 46 && charCodeAt.call(body, pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (charCodeAt.call(body, pos + 1) === 34 && charCodeAt.call(body, pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw (0, _error.syntaxError)(source, pos, unexpectedCharacterMessage(code));\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n var pos = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + pos - lexer.lineStart;\n\n if (pos >= bodyLength) {\n return new Tok(TokenKind.EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = body.charCodeAt(pos); // SourceCharacter\n\n switch (code) {\n // !\n case 33:\n return new Tok(TokenKind.BANG, pos, pos + 1, line, col, prev);\n // #\n\n case 35:\n return readComment(source, pos, line, col, prev);\n // $\n\n case 36:\n return new Tok(TokenKind.DOLLAR, pos, pos + 1, line, col, prev);\n // &\n\n case 38:\n return new Tok(TokenKind.AMP, pos, pos + 1, line, col, prev);\n // (\n\n case 40:\n return new Tok(TokenKind.PAREN_L, pos, pos + 1, line, col, prev);\n // )\n\n case 41:\n return new Tok(TokenKind.PAREN_R, pos, pos + 1, line, col, prev);\n // .\n\n case 46:\n if (body.charCodeAt(pos + 1) === 46 && body.charCodeAt(pos + 2) === 46) {\n return new Tok(TokenKind.SPREAD, pos, pos + 3, line, col, prev);\n }\n\n break;\n // :\n\n case 58:\n return new Tok(TokenKind.COLON, pos, pos + 1, line, col, prev);\n // =\n\n case 61:\n return new Tok(TokenKind.EQUALS, pos, pos + 1, line, col, prev);\n // @\n\n case 64:\n return new Tok(TokenKind.AT, pos, pos + 1, line, col, prev);\n // [\n\n case 91:\n return new Tok(TokenKind.BRACKET_L, pos, pos + 1, line, col, prev);\n // ]\n\n case 93:\n return new Tok(TokenKind.BRACKET_R, pos, pos + 1, line, col, prev);\n // {\n\n case 123:\n return new Tok(TokenKind.BRACE_L, pos, pos + 1, line, col, prev);\n // |\n\n case 124:\n return new Tok(TokenKind.PIPE, pos, pos + 1, line, col, prev);\n // }\n\n case 125:\n return new Tok(TokenKind.BRACE_R, pos, pos + 1, line, col, prev);\n // A-Z _ a-z\n\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, pos, line, col, prev);\n // - 0-9\n\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, pos, code, line, col, prev);\n // \"\n\n case 34:\n if (body.charCodeAt(pos + 1) === 34 && body.charCodeAt(pos + 2) === 34) {\n return readBlockString(source, pos, line, col, prev, lexer);\n }\n\n return readString(source, pos, line, col, prev);\n }\n\n throw syntaxError(source, pos, unexpectedCharacterMessage(code));\n }", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function advanceLexer() {\n\t var token = this.lastToken = this.token;\n\t if (token.kind !== EOF) {\n\t do {\n\t token = token.next = readToken(this, token);\n\t } while (token.kind === COMMENT);\n\t this.token = token;\n\t }\n\t return token;\n\t}", "function jsToken(inside, regexp, source, setInside) {\n function readHexNumber(){\n source.next(); // skip the 'x'\n source.nextWhileMatches(isHexDigit);\n return {type: \"number\", style: \"js-atom\"};\n }\n\n function readNumber() {\n source.nextWhileMatches(/[0-9]/);\n if (source.equals(\".\")){\n source.next();\n source.nextWhileMatches(/[0-9]/);\n }\n if (source.equals(\"e\") || source.equals(\"E\")){\n source.next();\n if (source.equals(\"-\"))\n source.next();\n source.nextWhileMatches(/[0-9]/);\n }\n return {type: \"number\", style: \"js-atom\"};\n }\n // Read a word, look it up in keywords. If not found, it is a\n // variable, otherwise it is a keyword of the type found.\n function readWord() {\n source.nextWhileMatches(isWordChar);\n var word = source.get();\n var known = keywords.hasOwnProperty(word) && keywords.propertyIsEnumerable(word) && keywords[word];\n return known ? {type: known.type, style: known.style, content: word} :\n {type: \"variable\", style: \"js-variable\", content: word};\n }\n function readRegexp() {\n nextUntilUnescaped(source, \"/\");\n source.nextWhileMatches(/[gi]/);\n return {type: \"regexp\", style: \"js-string\"};\n }\n // Mutli-line comments are tricky. We want to return the newlines\n // embedded in them as regular newline tokens, and then continue\n // returning a comment token for every line of the comment. So\n // some state has to be saved (inside) to indicate whether we are\n // inside a /* */ sequence.\n function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"js-comment\"};\n }\n function readOperator() {\n source.nextWhileMatches(isOperatorChar);\n return {type: \"operator\", style: \"js-operator\"};\n }\n function readString(quote) {\n var endBackSlash = nextUntilUnescaped(source, quote);\n setInside(endBackSlash ? quote : null);\n return {type: \"string\", style: \"js-string\"};\n }\n\n // Fetch the next token. Dispatches on first character in the\n // stream, or first two characters when the first is a slash.\n if (inside == \"\\\"\" || inside == \"'\")\n return readString(inside);\n var ch = source.next();\n if (inside == \"/*\")\n return readMultilineComment(ch);\n else if (ch == \"\\\"\" || ch == \"'\")\n return readString(ch);\n // with punctuation, the type of the token is the symbol itself\n else if (/[\\[\\]{}\\(\\),;\\:\\.]/.test(ch))\n return {type: ch, style: \"js-punctuation\"};\n else if (ch == \"0\" && (source.equals(\"x\") || source.equals(\"X\")))\n return readHexNumber();\n else if (/[0-9]/.test(ch))\n return readNumber();\n else if (ch == \"/\"){\n if (source.equals(\"*\"))\n { source.next(); return readMultilineComment(ch); }\n else if (source.equals(\"/\"))\n { nextUntilUnescaped(source, null); return {type: \"comment\", style: \"js-comment\"};}\n else if (regexp)\n return readRegexp();\n else\n return readOperator();\n }\n else if (isOperatorChar.test(ch))\n return readOperator();\n else\n return readWord();\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function skipComment () {\n i += 2;\n while (i < jsString.length && (curr() !== '\\n')) {\n i++;\n }\n }", "function Tokenizer(source) {\n\n const input = InputStream(source)\n let current = null\n \n return {\n next: next,\n peek: peek,\n eof: eof,\n }\n\n\n function isWhitespace(ch) { return /\\s/.test(ch) }\n function isDigit(ch) { return /[0-9]/.test(ch) }\n function isHex(ch) { return /[0-9a-fA-FxX]/.test(ch) }\n function isIdStart(ch) { return /[a-z_]/i.test(ch) }\n function isId(ch) { return /[a-z_0-9!]/i.test(ch) }\n function isDelim(ch) { return /[.,;(){}[\\]:]/.test(ch) }\n function isOperator(ch) { return /[+\\-*\\/%=&|<>!^]/.test(ch) }\n function isKeyword(wd) {\n return /bool|break|case|class|continue|const|delete|do|double|else|export|extern|float|for|if|import|int|module|new|print|private|public|return|switch|static|throw|to!int|to!double|to!float|uint|void|while/.test(wd);\n }\n\n /*\n * next Token\n *\n * @returns the next new token from the source\n */\n function nextToken() {\n let ch = ''\n\n readWhile(isWhitespace);\n if (input.eof()) {\n return null\n }\n if (input.peek(2) === \"//\") {\n skipTo('\\n')\n return nextToken()\n }\n if (input.peek(3) === \"/**\") {\n skipTo(\"*/\")\n return nextToken()\n }\n if (input.peek(2) === \"/*\") {\n skipTo(\"*/\")\n return nextToken()\n }\n ch = input.peek()\n if (ch === '\"') {\n return new Token(Token.String, readEscaped('\"'), input.getLine(), input.getCol())\n }\n if (ch === \"'\") {\n return new Token(Token.String, readEscaped(\"'\"), input.getLine(), input.getCol())\n }\n if (isDigit(ch)) {\n return new Token(Token.Number, readNumber(), input.getLine(), input.getCol())\n }\n if (isIdStart(ch)) {\n return (function(id) {\n return new Token((isKeyword(id) ? Token.Keyword : Token.Variable), id, input.getLine(), input.getCol())\n })(readWhile(isId))\n }\n if (isDelim(ch)) {\n return new Token(Token.Delimiter, input.next(), input.getLine(), input.getCol())\n }\n if (isOperator(ch)) {\n // return new Token(Token.Operator, readWhile(isOperator), input.getLine(), input.getCol())\n return new Token(Token.Delimiter, readWhile(isOperator), input.getLine(), input.getCol())\n }\n\n throw new Error(`Can't handle character: ${ch}`)\n }\n\n /*\n * read Number\n *\n * @returns the next number from the source stream\n */\n function readNumber() {\n let has_dot = false\n let is_hex = false\n\n let input = readWhile(function(ch) {\n if (ch === '.') {\n if (has_dot) {\n return false\n }\n has_dot = true\n return true\n }\n if (ch === 'x') {\n if (is_hex) {\n return false\n }\n is_hex = true\n }\n if (is_hex)\n return isHex(ch)\n else\n return isDigit(ch)\n })\n if (is_hex) {\n return parseInt(input, 16)\n }\n else {\n if (has_dot) {\n return parseFloat(input)\n } \n else {\n return parseInt(input, 10)\n }\n }\n }\n\n /*\n * read Escaped\n *\n * @returns the next escaped string until end\n */\n function readEscaped(end) {\n let ch = ''\n let escaped = false\n let str = ''\n\n input.next()\n while (!input.eof()) {\n ch = input.next()\n if (escaped) {\n str += ch\n escaped = false\n } else if (ch === '\\\\') {\n escaped = true\n } else if (ch === end) {\n break\n } else {\n str += ch\n }\n }\n return str\n }\n\n /*\n * read While\n *\n * @param predicate function to call to test\n * @returns the next token until predicate\n */\n function readWhile(predicate) {\n let str = ''\n\n while (!input.eof() && predicate(input.peek())) {\n str += input.next()\n }\n return str\n }\n\n /*\n * skip to end\n *\n * skip to the end string\n */\n function skipTo(end) {\n let len = end.length\n\n while (!input.eof() && input.peek(len) !== end) {\n input.next()\n }\n while (!input.eof() && len) {\n input.next()\n len--\n }\n }\n function eof() { return peek() === null }\n function peek() { return current || (current = nextToken()) }\n function next() {\n let token = current\n\n current = null\n return token || nextToken()\n }\n}", "constructor(source) {\n const startOfFileToken = new Token(TokenKind.SOF, 0, 0, 0, 0);\n this.source = source;\n this.lastToken = startOfFileToken;\n this.token = startOfFileToken;\n this.line = 1;\n this.lineStart = 0;\n }", "_findCommentEnd(ch, pos) {\n const next = this.input.charCodeAt(pos + 1);\n const isXmlLine = !this.state.inModule && ch !== 35;\n const blockCommentKind = !isXmlLine && (\n next === 42 ? \"#*\" :\n next === 37 ? \"#$\" :\n next === 35 && this.input.charCodeAt(this.state.pos + 2) === 35 && isNewline(this.input.charCodeAt(this.state.pos + 3)) ? \"###\" : false\n )\n if (blockCommentKind) {\n const meta = blockCommentMeta[blockCommentKind];\n let end = this.input.indexOf(meta.terminator, pos + meta.startLen);\n // TODO: make sure that ending `###` is alone on a line (and starts alone on a line)\n if (end === -1) this.raise(pos, \"Unterminated comment\");\n pos = end + meta.endLen;\n } else {\n lineBreakG.lastIndex = pos;\n const match = lineBreakG.exec(this.input)\n pos = match ? match.index : this.input.length;\n lineBreakG.lastIndex = 0; // reset lineBreakG\n }\n return pos;\n }", "function loadCommentOffsets( commentNode, userData )\n{\n // MM_note( \"Processing NDW comment:\" + commentNode.data );\n\n // Server-side include comments of the form \"<!-- #include... -->\"\n // should always be left alone!\n\n // eat up any leading white in comment data\n var i;\n for( i = 0; i < commentNode.data.length; i++ )\n if ( !isWhite( commentNode.data.charAt( i ) ) )\n break;\n\n var bIsDWComment = arrayContains(arrDWCommentNonTags, commentNode.data);\n\n if (cbRemoveComments.checked)\n {\n // if we have a #include skip it, otherwise push offsets for\n // removal\n //\n var bSkipSSIinclude = (commentNode.data.substr( i, 8 ).toLowerCase() == \"#include\");\n var bSkipSSIecho = commentNode.data.substr( i, 5 ).toLowerCase() == \"#echo\";\n var bSkipFWtable = commentNode.data.substr( i, 7 ).toLowerCase() == \"fwtable\";\n var bSkipXML = commentNode.data.substr( i, 3 ).toLowerCase() == \"xml\";\n var bSkipDoctype = commentNode.data.substr( i, 7 ).toLowerCase() == \"doctype\";\n var bSkipFWBeginCopy = (commentNode.data.indexOf(\"BEGIN COPYING THE HTML\") != -1);\n var bSkipFWEndCopy = (commentNode.data.indexOf(\"STOP COPYING THE HTML HERE\") != -1);\n var isComment = commentNode.data.charAt(0) != \"<\";\n \n if ( !bSkipSSIinclude && !bSkipSSIecho && !bSkipDoctype && !bSkipXML && isComment && !bSkipFWtable && !bSkipFWBeginCopy && !bSkipFWEndCopy && !bIsDWComment){\n // This is a not-very-elegant way of checking whether we've found a comment in\n // the current document, or one inside an included file. It won't work if the\n // comment in the included file happens to be the exact same length as the\n // include statement, but it's a start.\n var inCurrentDoc = true;\n var nodeOffsets = dw.getDocumentDOM().nodeToOffsets(commentNode);\n // +7 is the \"<!--\" and \"-->\" parts\n if ((commentNode.data.length + 7) != (nodeOffsets[1] - nodeOffsets[0]))\n inCurrentDoc = false;\n \n if (inCurrentDoc)\n userData.push( dreamweaver.nodeToOffsets( commentNode ) );\n }\n }\n\n if (cbRemoveDWComments.checked && bIsDWComment)\n {\n userData.push( dreamweaver.nodeToOffsets( commentNode ) );\n }\n\n return true;\n}", "skipCommentSingle (idx) {\n const len = this.size;\n const uson = this.input;\n const regex = USON.pattern.commentSingle;\n\n /* Find the end of the line */\n regex.lastIndex = idx;\n const match = regex.exec (uson);\n\n if (match === null) {\n return len;\n }\n\n idx = match.index;\n const chr = uson[idx];\n\n if (chr === '\\n') {\n ++idx;\n ++this.line;\n this.linePos = idx;\n }\n\n return idx;\n}", "function readToken(lexer, prev) {\n var source = lexer.source;\n var body = source.body;\n var bodyLength = body.length;\n\n var position = positionAfterWhitespace(body, prev.end, lexer);\n var line = lexer.line;\n var col = 1 + position - lexer.lineStart;\n\n if (position >= bodyLength) {\n return new Tok(EOF, bodyLength, bodyLength, line, col, prev);\n }\n\n var code = charCodeAt.call(body, position);\n\n // SourceCharacter\n if (code < 0x0020 && code !== 0x0009 && code !== 0x000a && code !== 0x000d) {\n throw (0, error.syntaxError)(source, position, 'Cannot contain the invalid character ' + printCharCode(code) + '.');\n }\n\n switch (code) {\n // !\n case 33:\n return new Tok(BANG, position, position + 1, line, col, prev);\n // #\n case 35:\n return readComment(source, position, line, col, prev);\n // $\n case 36:\n return new Tok(DOLLAR, position, position + 1, line, col, prev);\n // (\n case 40:\n return new Tok(PAREN_L, position, position + 1, line, col, prev);\n // )\n case 41:\n return new Tok(PAREN_R, position, position + 1, line, col, prev);\n // .\n case 46:\n if (charCodeAt.call(body, position + 1) === 46 && charCodeAt.call(body, position + 2) === 46) {\n return new Tok(SPREAD, position, position + 3, line, col, prev);\n }\n break;\n // :\n case 58:\n return new Tok(COLON, position, position + 1, line, col, prev);\n // =\n case 61:\n return new Tok(EQUALS, position, position + 1, line, col, prev);\n // @\n case 64:\n return new Tok(AT, position, position + 1, line, col, prev);\n // [\n case 91:\n return new Tok(BRACKET_L, position, position + 1, line, col, prev);\n // ]\n case 93:\n return new Tok(BRACKET_R, position, position + 1, line, col, prev);\n // {\n case 123:\n return new Tok(BRACE_L, position, position + 1, line, col, prev);\n // |\n case 124:\n return new Tok(PIPE, position, position + 1, line, col, prev);\n // }\n case 125:\n return new Tok(BRACE_R, position, position + 1, line, col, prev);\n // A-Z _ a-z\n case 65:\n case 66:\n case 67:\n case 68:\n case 69:\n case 70:\n case 71:\n case 72:\n case 73:\n case 74:\n case 75:\n case 76:\n case 77:\n case 78:\n case 79:\n case 80:\n case 81:\n case 82:\n case 83:\n case 84:\n case 85:\n case 86:\n case 87:\n case 88:\n case 89:\n case 90:\n case 95:\n case 97:\n case 98:\n case 99:\n case 100:\n case 101:\n case 102:\n case 103:\n case 104:\n case 105:\n case 106:\n case 107:\n case 108:\n case 109:\n case 110:\n case 111:\n case 112:\n case 113:\n case 114:\n case 115:\n case 116:\n case 117:\n case 118:\n case 119:\n case 120:\n case 121:\n case 122:\n return readName(source, position, line, col, prev);\n // - 0-9\n case 45:\n case 48:\n case 49:\n case 50:\n case 51:\n case 52:\n case 53:\n case 54:\n case 55:\n case 56:\n case 57:\n return readNumber(source, position, code, line, col, prev);\n // \"\n case 34:\n if (charCodeAt.call(body, position + 1) === 34 && charCodeAt.call(body, position + 2) === 34) {\n return readBlockString(source, position, line, col, prev);\n }\n return readString(source, position, line, col, prev);\n }\n\n throw (0, error.syntaxError)(source, position, unexpectedCharacterMessage(code));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z" ]
[ "0.7810849", "0.7803462", "0.7702474", "0.76968354", "0.7681165", "0.7681165", "0.75763005", "0.75763005", "0.75763005", "0.7535053", "0.7519027", "0.7504508", "0.7503649", "0.7502324", "0.7487181", "0.7487181", "0.7474933", "0.7474933", "0.7474933", "0.74702376", "0.74702376", "0.74702376", "0.74702376", "0.7405226", "0.71066236", "0.66799766", "0.65120703", "0.64202106", "0.6407948", "0.6272411", "0.6250664", "0.6215709", "0.61952794", "0.6179953", "0.6179953", "0.6071073", "0.60398597", "0.6014971", "0.60030687", "0.59767455", "0.59767455", "0.5974578", "0.59574133", "0.59574133", "0.5946738", "0.593684", "0.593684", "0.5918697", "0.5832916", "0.5826727", "0.5816759", "0.5771281", "0.5767736", "0.5731822", "0.5730092", "0.57273984", "0.5727378", "0.56806004", "0.5678275", "0.5649133", "0.56445956", "0.56445956", "0.56445956", "0.56327623", "0.56327623", "0.56327623", "0.56327623", "0.56257033", "0.56257033", "0.56257033", "0.56257033", "0.56257033", "0.56257033", "0.5614899", "0.56139374", "0.56134814", "0.56134814", "0.5612815", "0.5608579", "0.56035566", "0.5573616", "0.55366945", "0.55327046", "0.55327046", "0.55327046", "0.55327046", "0.55206674", "0.55163354", "0.5488721", "0.54752326", "0.54739475", "0.5464383", "0.5454164", "0.5441839", "0.5441839" ]
0.7506334
16
Reads a number token from the source file, either a float or an int depending on whether a decimal point appears. Int: ?(0|[19][09]) Float: ?(0|[19][09])(\.[09]+)?((E|e)(+|)?[09]+)?
function readNumber(source, start, firstCode, line, col, prev) { var body = source.body; var code = firstCode; var position = start; var isFloat = false; if (code === 45) { // - code = charCodeAt.call(body, ++position); } if (code === 48) { // 0 code = charCodeAt.call(body, ++position); if (code >= 48 && code <= 57) { throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.'); } } else { position = readDigits(source, position, code); code = charCodeAt.call(body, position); } if (code === 46) { // . isFloat = true; code = charCodeAt.call(body, ++position); position = readDigits(source, position, code); code = charCodeAt.call(body, position); } if (code === 69 || code === 101) { // E e isFloat = true; code = charCodeAt.call(body, ++position); if (code === 43 || code === 45) { // + - code = charCodeAt.call(body, ++position); } position = readDigits(source, position, code); } return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? _tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT : _tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? _tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].FLOAT : _tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast.Token(isFloat ? _tokenKind.TokenKind.FLOAT : _tokenKind.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast.Token(isFloat ? _tokenKind.TokenKind.FLOAT : _tokenKind.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast.Token(isFloat ? _tokenKind.TokenKind.FLOAT : _tokenKind.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw syntaxError(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new ast[\"b\" /* Token */](isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw syntaxError(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n }", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? _tokenKind.TokenKind.FLOAT : _tokenKind.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw syntaxError(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return makeToken(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode) {\n\t var body = source.body;\n\t var code = firstCode;\n\t var position = start;\n\t var isFloat = false;\n\n\t if (code === 45) {\n\t // -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\n\t if (code === 48) {\n\t // 0\n\t code = charCodeAt.call(body, ++position);\n\t if (code >= 48 && code <= 57) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n\t }\n\t } else {\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 46) {\n\t // .\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 69 || code === 101) {\n\t // E e\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t if (code === 43 || code === 45) {\n\t // + -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\t position = readDigits(source, position, code);\n\t }\n\n\t return makeToken(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, slice.call(body, start, position));\n\t}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n\t var body = source.body;\n\t var code = firstCode;\n\t var position = start;\n\t var isFloat = false;\n\n\t if (code === 45) {\n\t // -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\n\t if (code === 48) {\n\t // 0\n\t code = charCodeAt.call(body, ++position);\n\t if (code >= 48 && code <= 57) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n\t }\n\t } else {\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 46) {\n\t // .\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 69 || code === 101) {\n\t // E e\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t if (code === 43 || code === 45) {\n\t // + -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\t position = readDigits(source, position, code);\n\t }\n\n\t return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n\t}", "function readNumber(source, start, firstCode, line, col, prev) {\n\t var body = source.body;\n\t var code = firstCode;\n\t var position = start;\n\t var isFloat = false;\n\n\t if (code === 45) {\n\t // -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\n\t if (code === 48) {\n\t // 0\n\t code = charCodeAt.call(body, ++position);\n\t if (code >= 48 && code <= 57) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n\t }\n\t } else {\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 46) {\n\t // .\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 69 || code === 101) {\n\t // E e\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t if (code === 43 || code === 45) {\n\t // + -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\t position = readDigits(source, position, code);\n\t }\n\n\t return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n\t}", "readNumber(startsWithDot) {\n let start = this.state.pos;\n let isFloat = false;\n let octal = this.input.charCodeAt(this.state.pos) === 48;\n if (!startsWithDot && this.readNumber_int(10) === null) this.raise(start, \"Invalid number\");\n\n let next = this.input.charCodeAt(this.state.pos);\n if (next === 46) { // '.'\n ++this.state.pos;\n this.readNumber_int(10);\n isFloat = true;\n next = this.input.charCodeAt(this.state.pos);\n }\n if (next === 69 || next === 101) { // 'eE'\n next = this.input.charCodeAt(++this.state.pos);\n if (next === 43 || next === 45) ++this.state.pos; // '+-'\n if (this.readNumber_int(10) === null) this.raise(start, \"Invalid number\");\n isFloat = true;\n }\n if (isIdentifierStart(this.fullCharCodeAtPos())) this.raise(this.state.pos, \"Identifier directly after number\");\n\n let str = this.input.slice(start, this.state.pos);\n let val;\n if (isFloat) {\n val = parseFloat(str);\n } else if (!octal || str.length === 1) {\n val = parseInt(str, 10);\n } else if (/[89]/.test(str) || !this.isOctalValid()) {\n this.raise(start, \"Invalid number\");\n } else {\n val = parseInt(str, 8);\n }\n // TODO: also store raw source\n return this.finishToken(tt.num, val);\n }", "function read_number() {\n var has_dot = false;\n var number = read_while(function(char) {\n // Determine if there is a decimal in the number\n if (char === \".\") {\n // If there a multiple decimals, stop reading\n if (has_dot) return false;\n has_dot = true;\n return true;\n }\n // If the next character is a digit, continue looping\n return is_digit(char);\n });\n // Return a number token\n return { type: \"num\", value: parseFloat(number) };\n }", "function readNumber(startsWithDot) {\n var start = tokPos, isFloat = false, octal = input.charCodeAt(tokPos) === 48;\n if (!startsWithDot && readInt(10) === null) raise(start, \"Invalid number\");\n if (input.charCodeAt(tokPos) === 46) {\n ++tokPos;\n readInt(10);\n isFloat = true;\n }\n var next = input.charCodeAt(tokPos);\n if (next === 69 || next === 101) { // 'eE'\n next = input.charCodeAt(++tokPos);\n if (next === 43 || next === 45) ++tokPos; // '+-'\n if (readInt(10) === null) raise(start, \"Invalid number\");\n isFloat = true;\n }\n if (isIdentifierStart(input.charCodeAt(tokPos))) raise(tokPos, \"Identifier directly after number\");\n\n var str = input.slice(start, tokPos), val;\n if (isFloat) val = parseFloat(str);\n else if (!octal || str.length === 1) val = parseInt(str, 10);\n else if (/[89]/.test(str) || strict) raise(start, \"Invalid number\");\n else val = parseInt(str, 8);\n return finishToken(_num, val);\n }", "function ___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readNumber(\n\t\tparser,\n\t\tstartsWithDot,\n\t) {\n\t\tconst start = parser.state.startIndex;\n\t\tlet isFloat = false;\n\t\tlet isBigInt = false;\n\n\t\tif (\n\t\t\t!startsWithDot &&\n\t\t\t___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readInt(\n\t\t\t\tparser,\n\t\t\t\t10,\n\t\t\t) === undefined\n\t\t) {\n\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\tparser,\n\t\t\t\t{\n\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.INVALID_NUMBER,\n\t\t\t\t},\n\t\t\t);\n\t\t}\n\n\t\tlet isOctal =\n\t\t\tparser.state.index - start >= 2 &&\n\t\t\tparser.input.charCodeAt(start) ===\n\t\t\t___R$project$rome$$internal$string$charcodes$index_ts.digit0;\n\t\tif (isOctal) {\n\t\t\tif (\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$inScope(\n\t\t\t\t\tparser,\n\t\t\t\t\t\"STRICT\",\n\t\t\t\t)\n\t\t\t) {\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\t\tparser,\n\t\t\t\t\t{\n\t\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.LEGACY_OCTAL_IN_STRICT_MODE,\n\t\t\t\t\t},\n\t\t\t\t);\n\t\t\t}\n\n\t\t\tif (/[89]/.test(parser.getRawInput(start, parser.state.index))) {\n\t\t\t\tisOctal = false;\n\t\t\t}\n\t\t}\n\n\t\tlet next = parser.input.charCodeAt(parser.state.index);\n\t\tif (\n\t\t\tnext === ___R$project$rome$$internal$string$charcodes$index_ts.dot &&\n\t\t\t!isOctal\n\t\t) {\n\t\t\t++parser.state.index;\n\t\t\t___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readInt(\n\t\t\t\tparser,\n\t\t\t\t10,\n\t\t\t);\n\t\t\tisFloat = true;\n\t\t\tnext = parser.input.charCodeAt(parser.state.index);\n\t\t}\n\n\t\tconst isScientific =\n\t\t\t(next === ___R$project$rome$$internal$string$charcodes$index_ts.uppercaseE ||\n\t\t\tnext === ___R$project$rome$$internal$string$charcodes$index_ts.lowercaseE) &&\n\t\t\t!isOctal;\n\t\tif (isScientific) {\n\t\t\tnext = parser.input.charCodeAt(++parser.state.index);\n\n\t\t\tif (\n\t\t\t\tnext === ___R$project$rome$$internal$string$charcodes$index_ts.plusSign ||\n\t\t\t\tnext === ___R$project$rome$$internal$string$charcodes$index_ts.dash\n\t\t\t) {\n\t\t\t\t++parser.state.index;\n\t\t\t}\n\n\t\t\tif (\n\t\t\t\t___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readInt(\n\t\t\t\t\tparser,\n\t\t\t\t\t10,\n\t\t\t\t) ===\n\t\t\t\tundefined\n\t\t\t) {\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\t\tparser,\n\t\t\t\t\t{\n\t\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.INVALID_NUMBER,\n\t\t\t\t\t},\n\t\t\t\t);\n\t\t\t}\n\n\t\t\tisFloat = true;\n\t\t\tnext = parser.input.charCodeAt(parser.state.index);\n\t\t}\n\n\t\tif (\n\t\t\tnext ===\n\t\t\t___R$project$rome$$internal$string$charcodes$index_ts.lowercaseN\n\t\t) {\n\t\t\t// Disallow floats and legacy octal syntax, new style octal (\"0o\") is handled in readRadixNumber\n\t\t\tif (isFloat) {\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\t\tparser,\n\t\t\t\t\t{\n\t\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.DECIMAL_BIGINT,\n\t\t\t\t\t},\n\t\t\t\t);\n\t\t\t}\n\n\t\t\tif (isOctal) {\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\t\tparser,\n\t\t\t\t\t{\n\t\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.OCTAL_BIGINT,\n\t\t\t\t\t},\n\t\t\t\t);\n\t\t\t}\n\n\t\t\t++parser.state.index;\n\t\t\tisBigInt = true;\n\t\t}\n\n\t\tif (\n\t\t\t___R$project$rome$$internal$js$parser$utils$identifier_ts$isIdentifierStart(\n\t\t\t\tparser.input.codePointAt(parser.state.index),\n\t\t\t)\n\t\t) {\n\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\tparser,\n\t\t\t\t{\n\t\t\t\t\tindex: parser.state.index,\n\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.IDENTIFIER_AFTER_NUMBER,\n\t\t\t\t},\n\t\t\t);\n\t\t}\n\n\t\tconst raw = parser.getRawInput(start, parser.state.index);\n\n\t\t// Remove \"_\" for numeric literal separator, and \"n\" for BigInts\n\t\tconst str = raw.replace(/[_n]/g, \"\");\n\n\t\tif (isBigInt) {\n\t\t\t___R$project$rome$$internal$js$parser$tokenizer$index_ts$finishToken(\n\t\t\t\tparser,\n\t\t\t\t___R$project$rome$$internal$js$parser$tokenizer$types_ts$types.bigint,\n\t\t\t\tstr,\n\t\t\t);\n\t\t\treturn undefined;\n\t\t}\n\n\t\tconst num = isOctal ? parseInt(str, 8) : parseFloat(str);\n\n\t\tlet format = undefined;\n\t\tif (isOctal) {\n\t\t\tformat = \"octal\";\n\t\t} else if (isScientific) {\n\t\t\tformat = \"scientific\";\n\t\t}\n\n\t\t___R$project$rome$$internal$js$parser$tokenizer$index_ts$finishToken(\n\t\t\tparser,\n\t\t\t___R$project$rome$$internal$js$parser$tokenizer$types_ts$types.num,\n\t\t\tnew ___R$project$rome$$internal$js$parser$tokenizer$index_ts$NumberTokenValue(\n\t\t\t\tnum,\n\t\t\t\tformat,\n\t\t\t),\n\t\t);\n\t}", "readAndReturnNumber() {\n let ss = this.ss;\n let foundDecimal = false;\n let foundExp = false; // will recognize either \"e\" \"E\" or \"f\" TODO \"p\"\n let str = \"\";\n if (ss.peek() !== \".\" && !charUtils.isNumeric(ss.peek()))\n throw new assert_1.AssertError(\"Must only call if next chars are numbers. Found: \" + ss.peek());\n while (!ss.eof()) {\n let c = ss.read();\n if (c === \".\") {\n if (foundDecimal) {\n ss.unread();\n break;\n }\n if (foundExp) {\n ss.unread();\n break;\n }\n foundDecimal = true;\n str = str + c;\n continue;\n }\n if (c === \"e\" || c === \"E\" || c === \"f\") {\n if (foundExp) {\n ss.unread();\n break;\n }\n foundExp = true;\n str = str + c;\n continue;\n }\n if (charUtils.isNumeric(c)) {\n str = str + c;\n continue;\n }\n // otherwise, invalid character for a number\n ss.unread();\n break;\n }\n return str;\n }", "function readNumber(src) {\n var i = src.index();\n var num = 0;\n var den = 1;\n var sign = 1;\n var oflo = false;\n var invalid = false;\n var c = src.getChar();\n var d0, d;\n if (c === 45) {\n sign = -1;\n c = src.getChar();\n }\n d0 = c;\n while (isDigit(c)) {\n d = c - 48;\n num = num * 10 + d;\n c = src.getChar();\n }\n if (num > 0 && d0 === 48) {\n // catch \"01\" \"-01\" etc.\n invalid = true;\n }\n if (c == 46) { // \".\"\n while (isDigit(c = src.getChar())) {\n d = c - 48;\n den *= 10;\n num = num * 10 + d;\n }\n if (den == 1 || d0 == 46) {\n // catch \"1.\" \"1.e\" \"-.1\"\n invalid = true;\n }\n }\n if (num === 0 && d0 != 48) {\n invalid = true; // catch \"-\";\n }\n if (invalid) parseError('Invalid number in JSON', i);\n if (den > 1e22) oflo = true; // denominator gets rounded above this limit\n if (num >= 0x20000000000000) { // 2^53\n // Some numerators get rounded with > 52 bits of mantissa\n // (When numerator or denominator are rounded, dividing them may\n // not have the same result as JSON.parse() and the IEEE standard)\n // See: https://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/\n if (num >= 0x40000000000000 || (d & 1) === 1) {\n // We don't need to fall back to the slow routine\n // for even integers with 53 bits\n // This optimization can reduce overall processing time by 15% for\n // GeoJSON files with full-precision coordinates.\n oflo = true;\n }\n }\n if (oflo || c == 69 || c == 101) { // e|E\n // Exponents are uncommon in GeoJSON... simpler to use slow function\n // than to parse manually and check for overflow and rounding errors\n src.index(i);\n return readNumber_slow(src);\n }\n src.back();\n return sign * num / den;\n }", "readNumber() {\n let n;\n while (this.pos < this.line.length && BasicParser.isDigit(this.line.charCodeAt(this.pos))) {\n if (n === undefined) {\n n = 0;\n }\n n = n * 10 + this.line.charCodeAt(this.pos) - 0x30;\n this.pos++;\n }\n return n;\n }", "numberToken() {\r\n\t\t\t\tvar lexedLength, match, number, parsedValue, tag, tokenData;\r\n\t\t\t\tif (!(match = NUMBER.exec(this.chunk))) {\r\n\t\t\t\t\treturn 0;\r\n\t\t\t\t}\r\n\t\t\t\tnumber = match[0];\r\n\t\t\t\tlexedLength = number.length;\r\n\t\t\t\tswitch (false) {\r\n\t\t\t\t\tcase !/^0[BOX]/.test(number):\r\n\t\t\t\t\t\tthis.error(`radix prefix in '${number}' must be lowercase`, {\r\n\t\t\t\t\t\t\toffset: 1\r\n\t\t\t\t\t\t});\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t\tcase !/^(?!0x).*E/.test(number):\r\n\t\t\t\t\t\tthis.error(`exponential notation in '${number}' must be indicated with a lowercase 'e'`, {\r\n\t\t\t\t\t\t\toffset: number.indexOf('E')\r\n\t\t\t\t\t\t});\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t\tcase !/^0\\d*[89]/.test(number):\r\n\t\t\t\t\t\tthis.error(`decimal literal '${number}' must not be prefixed with '0'`, {\r\n\t\t\t\t\t\t\tlength: lexedLength\r\n\t\t\t\t\t\t});\r\n\t\t\t\t\t\tbreak;\r\n\t\t\t\t\tcase !/^0\\d+/.test(number):\r\n\t\t\t\t\t\tthis.error(`octal literal '${number}' must be prefixed with '0o'`, {\r\n\t\t\t\t\t\t\tlength: lexedLength\r\n\t\t\t\t\t\t});\r\n\t\t\t\t}\r\n\t\t\t\tparsedValue = parseNumber(number);\r\n\t\t\t\ttokenData = {parsedValue};\r\n\t\t\t\ttag = parsedValue === 2e308 ? 'INFINITY' : 'NUMBER';\r\n\t\t\t\tif (tag === 'INFINITY') {\r\n\t\t\t\t\ttokenData.original = number;\r\n\t\t\t\t}\r\n\t\t\t\tthis.token(tag, number, {\r\n\t\t\t\t\tlength: lexedLength,\r\n\t\t\t\t\tdata: tokenData\r\n\t\t\t\t});\r\n\t\t\t\treturn lexedLength;\r\n\t\t\t}", "NumericLiteral() {\n const token = this._eat('NUMBER');\n return {\n type: 'NumericLiteral',\n value: Number(token.value),\n };\n }", "function readToken_dot() {\n var next = input.charCodeAt(tokPos + 1);\n if (next >= 48 && next <= 57) return readNumber(true);\n ++tokPos;\n return finishToken(_dot);\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "NumericLiteral() {\n const token = this._eat('NUMBER')\n return {\n type: 'NumericLiteral',\n value: Number(token.value),\n }\n }", "function readNumber(startsWithDot) {\n let isBigInt = false;\n let isDecimal = false;\n\n if (!startsWithDot) {\n readInt();\n }\n\n let nextChar = input.charCodeAt(state.pos);\n if (nextChar === charCodes.dot) {\n ++state.pos;\n readInt();\n nextChar = input.charCodeAt(state.pos);\n }\n\n if (nextChar === charCodes.uppercaseE || nextChar === charCodes.lowercaseE) {\n nextChar = input.charCodeAt(++state.pos);\n if (nextChar === charCodes.plusSign || nextChar === charCodes.dash) {\n ++state.pos;\n }\n readInt();\n nextChar = input.charCodeAt(state.pos);\n }\n\n if (nextChar === charCodes.lowercaseN) {\n ++state.pos;\n isBigInt = true;\n } else if (nextChar === charCodes.lowercaseM) {\n ++state.pos;\n isDecimal = true;\n }\n\n if (isBigInt) {\n finishToken(TokenType.bigint);\n return;\n }\n\n if (isDecimal) {\n finishToken(TokenType.decimal);\n return;\n }\n\n finishToken(TokenType.num);\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "readFloat() {\n const helper = new misc_functions_1.ReturnHelper();\n const start = this.cursor;\n const readToTest = this.readWhileRegexp(StringReader.charAllowedNumber);\n\n if (readToTest.length === 0) {\n return helper.fail(EXCEPTIONS.EXPECTED_FLOAT.create(start, this.string.length));\n } // The Java readInt throws upon multiple `.`s, but Javascript's doesn't\n\n\n if ((readToTest.match(/\\./g) || []).length > 1) {\n return helper.fail(EXCEPTIONS.INVALID_FLOAT.create(start, this.cursor, this.string.substring(start, this.cursor)));\n }\n\n try {\n return helper.succeed(parseFloat(readToTest));\n } catch (error) {\n return helper.fail(EXCEPTIONS.INVALID_FLOAT.create(start, this.cursor, readToTest));\n }\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "recognizeNumber(){\r\n let line = this.line;\r\n let column = this.column;\r\n\r\n // we delegate the building of the FSM to a helper method.\r\n let fsm = this.buildNumberRecognizer();\r\n\r\n // the input to the FSM will be all the characters from \r\n // the current position to the rest of the lexer's input.\r\n let fsmInput = this.input.substring(this.position);\r\n console.log('fsmInput: '+ fsmInput);\r\n\r\n // in addition of FSM returning whether a number \r\n // has been recognized or not, it also returns the number\r\n // recognized in the 'number' variable. If no number has been \r\n // recognized, 'number' will be null.\r\n let [isNumberRecognized, number] = fsm.run(fsmInput);\r\n console.log('isNumberRecognized: '+ isNumberRecognized);\r\n console.log('number: '+number)\r\n if(isNumberRecognized){\r\n this.position += number.length;\r\n this.column += number.length;\r\n\r\n return new Token(TokenType.Number, number, line, column);\r\n }\r\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }", "function parse_Xnum(data) { return data.read_shift(8, 'f'); }", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _error.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readNumber(startsWithDot) {\n let isBigInt = false;\n\n if (!startsWithDot) {\n readInt();\n }\n\n let nextChar = _base.input.charCodeAt(_base.state.pos);\n if (nextChar === _charcodes.charCodes.dot) {\n ++_base.state.pos;\n readInt();\n nextChar = _base.input.charCodeAt(_base.state.pos);\n }\n\n if (nextChar === _charcodes.charCodes.uppercaseE || nextChar === _charcodes.charCodes.lowercaseE) {\n nextChar = _base.input.charCodeAt(++_base.state.pos);\n if (nextChar === _charcodes.charCodes.plusSign || nextChar === _charcodes.charCodes.dash) {\n ++_base.state.pos;\n }\n readInt();\n nextChar = _base.input.charCodeAt(_base.state.pos);\n }\n\n if (nextChar === _charcodes.charCodes.lowercaseN) {\n ++_base.state.pos;\n isBigInt = true;\n }\n\n if (isBigInt) {\n finishToken(_types.TokenType.bigint);\n return;\n }\n finishToken(_types.TokenType.num);\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "parseNumber () {\n\t\tvar value = this.current;\n\n\t\twhile( this.read() ) {\n\n\t\t\tif( !this.is(IS_NUMBER) ) {\n\t\t\t\tbreak;\n\t\t\t}\n\n\t\t\tvalue += this.current;\n\t\t}\n\n\t\tif( !value || value === '-' || value === '+' ) {\n\t\t\tthrow new ParseError('Invalid number '+value);\n\t\t}\n\n\t\tthis.moveon();\n\n\t\treturn {\n\t\t\ttype: 'Number',\n\t\t\tvalue: parseFloat(value),\n\t\t\traw: value\n\t\t};\n\t}", "function parse_Xnum(data) {\n return data.read_shift(8, 'f');\n }", "function readNumber(str) {\n // let result = '';\n // let end = start;\n //\n // const validChars = '0123456789';\n // const validFirstChar = '+-0123456789';\n //\n // for (let i = start; i < str.length; ++i) {\n //\n // }\n\n return parseFloat(str);\n}", "readToken_dot(): void {\n const next = this.input.charCodeAt(this.state.pos + 1);\n if (next >= charCodes.digit0 && next <= charCodes.digit9) {\n this.readNumber(true);\n return;\n }\n\n const next2 = this.input.charCodeAt(this.state.pos + 2);\n if (next === charCodes.dot && next2 === charCodes.dot) {\n this.state.pos += 3;\n this.finishToken(tt.ellipsis);\n } else {\n ++this.state.pos;\n this.finishToken(tt.dot);\n }\n }", "function Parse_Number(value, format)\n{\n\t//default value: null\n\tvar result = null;\n\t//this will be hoisted by js\n\tvar newValue;\n\t//remove all spaces from the number\n\tvalue = value.replace(/\\s/g, \"\");\n\t//Integer rule? no Rule?\n\tif (format == 0 || format.IsFlagSet(__NEMESIS_TestOnData_Format_NumberInteger))\n\t{\n\t\t//get the number directly\n\t\tresult = Get_Number(value, null);\n\t}\n\t//dot format?\n\tif (result == null && format.IsFlagSet(__NEMESIS_TestOnData_Format_NumberDot))\n\t{\n\t\t//remove all commas\n\t\tnewValue = value.replace(/,(\\d\\d\\d)/g, \"$1\");\n\t\t//get the number directly\n\t\tresult = Get_Number(newValue, null);\n\t}\n\t//Comma format?\n\tif (result == null && format.IsFlagSet(__NEMESIS_TestOnData_Format_NumberComma))\n\t{\n\t\t//remove all dots\n\t\tnewValue = value.replace(/.(\\d\\d\\d)/g, \"$1\");\n\t\t//now replace comma with dot\n\t\tnewValue = newValue.replace(\",\", \".\");\n\t\t//get the number directly\n\t\tresult = Get_Number(newValue, null);\n\t}\n\t//return the result\n\treturn result;\n}", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function parse_Xnum(data, length) { return data.read_shift(8, 'f'); }", "function readNextNumber()\r\n{\r\n\tvar la\r\n\tvar val\r\n\t\r\n\t_value = \"N0pe.\"\r\n\t\r\n\tworkStack.push(variableLastLookup)\r\n\t\r\n\tla = lookAhead()\r\n\tif (stop) return \"N0pe.\"\r\n\t\r\n\tif (la == \"defined\")\r\n\t{\r\n\t\tparseNextWord()\r\n\t\tif (variableArray[variableLastLookup].isBuiltIn == builtIn)\r\n\t\t{\r\n\t\t\t_value = variableArray[variableLastLookup].value()\r\n\t\t}\r\n\t\telse // user\r\n\t\t{\r\n\t\t\t_value = variableArray[variableLastLookup].value\r\n\t\t}\r\n\r\n\t\t_value = parseFloat(_value)\r\n\t\tif ( _isNaN(_value) )\r\n\t\t{\r\n\t\t\terror(parameterCannotBeConvertedToNumber, true)\r\n\t\t\treturn \"N0pe.\"\r\n\t\t}\r\n\t}\r\n\telse if (la == \"number\")\r\n\t{\r\n\t\t_value = parseNextNumber()\r\n\t}\r\n\telse if (la == \"string\")\r\n\t{\r\n\t\t_value = parseNextString()\r\n\t\tif (stop) return \"N0pe.\"\r\n\t\t_value = parseFloat(_value)\r\n\t\tif ( _isNaN(_value) )\r\n\t\t{\r\n\t\t\terror(parameterCannotBeConvertedToNumber, true)\r\n\t\t\treturn \"N0pe.\"\r\n\t\t}\r\n\t}\r\n\telse // unknown\r\n\t{\r\n\t\tparseNextWord()\r\n\t\terror(parameterCannotBeConvertedToNumber, true)\r\n\t\treturn \"N0pe.\"\r\n\t}\r\n\r\n\tvariableLastLookup = workStack.pop()\r\n\r\n\treturn _value\r\n}", "function readNumber_slow(src) {\n var i = src.index();\n var n = 0;\n while (isNumChar(src.getChar())) {\n n++;\n }\n src.back();\n var str = src.toString(i, n);\n var num = Number(str);\n if (isNaN(num)) parseError('Invalid number in JSON', i);\n return num;\n }", "function pF(num) {\n num=parseFloat(num);\n if (typeof num=='number' && isFinite(num)) return num;\n return null;\n }", "function gentlyParseNumber(text) { return parseFloat(text) || text; }", "function readToken_dot() {\n const nextChar = _base.input.charCodeAt(_base.state.pos + 1);\n if (nextChar >= _charcodes.charCodes.digit0 && nextChar <= _charcodes.charCodes.digit9) {\n readNumber(true);\n return;\n }\n\n if (nextChar === _charcodes.charCodes.dot && _base.input.charCodeAt(_base.state.pos + 2) === _charcodes.charCodes.dot) {\n _base.state.pos += 3;\n finishToken(_types.TokenType.ellipsis);\n } else {\n ++_base.state.pos;\n finishToken(_types.TokenType.dot);\n }\n}", "function parseNextNumber()\r\n{\r\n\tvar _value\r\n\r\n\t_value = parseFloat(parseNextWord())\r\n\treturn _value\r\n}", "static get floatingPointNumber() {\n return /([+-]?(?=\\.\\d|\\d)(?:\\d+)?(?:\\.?\\d*))(?:[eE]([+-]?\\d+))?/;\n }", "function readToken_dot() {\n const nextChar = input.charCodeAt(state.pos + 1);\n if (nextChar >= charCodes.digit0 && nextChar <= charCodes.digit9) {\n readNumber(true);\n return;\n }\n\n if (nextChar === charCodes.dot && input.charCodeAt(state.pos + 2) === charCodes.dot) {\n state.pos += 3;\n finishToken(TokenType.ellipsis);\n } else {\n ++state.pos;\n finishToken(TokenType.dot);\n }\n}" ]
[ "0.78587884", "0.78396785", "0.7838272", "0.78292435", "0.7799872", "0.7799872", "0.7792799", "0.7792799", "0.7792799", "0.7785889", "0.7785889", "0.7770525", "0.7765655", "0.7757538", "0.77409196", "0.77207166", "0.7640692", "0.7633159", "0.7633159", "0.7633159", "0.7633159", "0.76146543", "0.7603749", "0.76028115", "0.7554691", "0.7554691", "0.7454055", "0.73653287", "0.7186574", "0.6784936", "0.64997566", "0.64544815", "0.63525057", "0.62539005", "0.62325704", "0.62125176", "0.61306703", "0.61306703", "0.6127696", "0.6103383", "0.60677916", "0.6064984", "0.60648334", "0.60637254", "0.6063577", "0.6063577", "0.6045141", "0.6036687", "0.6036687", "0.5971776", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59560716", "0.59499544", "0.5949791", "0.5944812", "0.5944812", "0.5944812", "0.59386003", "0.5919732", "0.5919732", "0.5919732", "0.5919732", "0.5893202", "0.5875254", "0.5875254", "0.5874572", "0.58651066", "0.5777521", "0.5729896", "0.57209617", "0.5717863", "0.5717863", "0.5717863", "0.5717863", "0.5717863", "0.5717863", "0.5717863", "0.5717863", "0.5683374", "0.5618757", "0.55976343", "0.55849", "0.55836284", "0.55254036", "0.55217063", "0.54900664" ]
0.75973195
28
Returns the new position in the source after reading digits.
function readDigits(source, start, firstCode) { var body = source.body; var position = start; var code = firstCode; if (code >= 48 && code <= 57) { // 0 - 9 do { code = charCodeAt.call(body, ++position); } while (code >= 48 && code <= 57); // 0 - 9 return position; } throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.'); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "getPosition(){\n let peekedBytesLength = this.peekedBytes == null ? 0 : this.peekedBytes.length\n return this.reader.position - peekedBytesLength\n }", "readNumber() {\n let n;\n while (this.pos < this.line.length && BasicParser.isDigit(this.line.charCodeAt(this.pos))) {\n if (n === undefined) {\n n = 0;\n }\n n = n * 10 + this.line.charCodeAt(this.pos) - 0x30;\n this.pos++;\n }\n return n;\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = body.charCodeAt(++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function loc() {\n return t.numericLiteral(-1);\n } // Sets the exact value of the given location to the offset of the next", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function readDigits(source, start, firstCode) {\n\t var body = source.body;\n\t var position = start;\n\t var code = firstCode;\n\t if (code >= 48 && code <= 57) {\n\t // 0 - 9\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code >= 48 && code <= 57); // 0 - 9\n\t return position;\n\t }\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n\t}", "function test() {\n var result = pos({})\n\n line = current.line\n column = current.column\n value = subvalue + value\n\n return result.position\n }", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n\n\n return position;\n }\n\n throw (0, _error.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n}", "function test() {\n var result = pos({});\n\n line = current.line;\n column = current.column;\n value = subvalue + value;\n\n return result.position;\n }", "function test() {\n var result = pos({});\n\n line = current.line;\n column = current.column;\n value = subvalue + value;\n\n return result.position;\n }", "function test() {\n var result = pos({});\n\n line = current.line;\n column = current.column;\n value = subvalue + value;\n\n return result.position;\n }", "function test() {\n var result = pos({});\n\n line = current.line;\n column = current.column;\n value = subvalue + value;\n\n return result.position;\n }", "function test() {\n var result = pos({});\n\n line = current.line;\n column = current.column;\n value = subvalue + value;\n\n return result.position;\n }", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n\t let linesCount = 0;\n\t let lastNewLinePos = -1;\n\t for (let i = 0; i < numberOfCharacters; i++) {\n\t if (source.charCodeAt(i) === 10 /* newline char code */) {\n\t linesCount++;\n\t lastNewLinePos = i;\n\t }\n\t }\n\t pos.offset += numberOfCharacters;\n\t pos.line += linesCount;\n\t pos.column =\n\t lastNewLinePos === -1\n\t ? pos.column + numberOfCharacters\n\t : numberOfCharacters - lastNewLinePos;\n\t return pos;\n\t}", "function processCurrentposition(data) {\n var pos = parseInt(data);\n setPosition(pos);\n}", "function readDigits(source, start, firstCode) {\n var body = source.body;\n var position = start;\n var code = firstCode;\n if (code >= 48 && code <= 57) {\n // 0 - 9\n do {\n code = charCodeAt.call(body, ++position);\n } while (code >= 48 && code <= 57); // 0 - 9\n return position;\n }\n throw (0, error.syntaxError)(source, position, 'Invalid number, expected digit but got: ' + printCharCode(code) + '.');\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\n let linesCount = 0;\n let lastNewLinePos = -1;\n for (let i = 0; i < numberOfCharacters; i++) {\n if (source.charCodeAt(i) === 10 /* newline char code */) {\n linesCount++;\n lastNewLinePos = i;\n }\n }\n pos.offset += numberOfCharacters;\n pos.line += linesCount;\n pos.column =\n lastNewLinePos === -1\n ? pos.column + numberOfCharacters\n : numberOfCharacters - lastNewLinePos;\n return pos;\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\r\n let linesCount = 0;\r\n let lastNewLinePos = -1;\r\n for (let i = 0; i < numberOfCharacters; i++) {\r\n if (source.charCodeAt(i) === 10 /* newline char code */) {\r\n linesCount++;\r\n lastNewLinePos = i;\r\n }\r\n }\r\n pos.offset += numberOfCharacters;\r\n pos.line += linesCount;\r\n pos.column =\r\n lastNewLinePos === -1\r\n ? pos.column + numberOfCharacters\r\n : numberOfCharacters - lastNewLinePos;\r\n return pos;\r\n}", "function advancePositionWithMutation(pos, source, numberOfCharacters = source.length) {\r\n let linesCount = 0;\r\n let lastNewLinePos = -1;\r\n for (let i = 0; i < numberOfCharacters; i++) {\r\n if (source.charCodeAt(i) === 10 /* newline char code */) {\r\n linesCount++;\r\n lastNewLinePos = i;\r\n }\r\n }\r\n pos.offset += numberOfCharacters;\r\n pos.line += linesCount;\r\n pos.column =\r\n lastNewLinePos === -1\r\n ? pos.column + numberOfCharacters\r\n : numberOfCharacters - lastNewLinePos;\r\n return pos;\r\n}", "function collectDigits(input, pos) {\n\t\t'use strict';\n\t\twhile (pos < input.length && input.charCodeAt(pos + 1) >= ZERO && input.charCodeAt(pos + 1) <= NINE) {\n\t\t\tpos += 1;\n\t\t}\n\t\treturn pos;\n\t}", "function translator_getPosition()\n{\n var position = this.parser.getPosition();\n return position - this.offsetAdj;\n}", "function computeOffset(position, data) {\n let line = position.line;\n let column = position.column + 1;\n for (let i = 0; i < data.length; i++) {\n if (line > 1) {\n /* not yet on the correct line */\n if (data[i] === \"\\n\") {\n line--;\n }\n }\n else if (column > 1) {\n /* not yet on the correct column */\n column--;\n }\n else {\n /* line/column found, return current position */\n return i;\n }\n }\n /* istanbul ignore next: should never reach this line unless espree passes bad\n * positions, no sane way to test */\n throw new Error(\"Failed to compute location offset from position\");\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_1__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? _tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT : _tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function getLocation(source, position) {\n let lastLineStart = 0;\n let line = 1;\n\n for (const match of source.body.matchAll(LineRegExp)) {\n typeof match.index === 'number' || invariant(false);\n\n if (match.index >= position) {\n break;\n }\n\n lastLineStart = match.index + match[0].length;\n line += 1;\n }\n\n return {\n line,\n column: position + 1 - lastLineStart,\n };\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError__WEBPACK_IMPORTED_MODULE_2__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? _tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].FLOAT : _tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "originalPositionFor(aArgs) {\n const needle = {\n generatedLine: util.getArg(aArgs, 'line'),\n generatedColumn: util.getArg(aArgs, 'column'),\n }\n\n // Find the section containing the generated position we're trying to map\n // to an original position.\n const sectionIndex = binarySearch.search(\n needle,\n this._sections,\n function (aNeedle, section) {\n const cmp =\n aNeedle.generatedLine - section.generatedOffset.generatedLine\n if (cmp) {\n return cmp\n }\n\n return aNeedle.generatedColumn - section.generatedOffset.generatedColumn\n }\n )\n const section = this._sections[sectionIndex]\n\n if (!section) {\n return {\n source: null,\n line: null,\n column: null,\n name: null,\n }\n }\n\n return section.consumer.originalPositionFor({\n line: needle.generatedLine - (section.generatedOffset.generatedLine - 1),\n column:\n needle.generatedColumn -\n (section.generatedOffset.generatedLine === needle.generatedLine\n ? section.generatedOffset.generatedColumn - 1\n : 0),\n bias: aArgs.bias,\n })\n }", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw (0,_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_2__.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "get position() {\n return this.chunkPosition + this.i;\n }", "function readDigits(lexer, start, firstCode) {\n if (!isDigit(firstCode)) {\n throw syntaxError(\n lexer.source,\n start,\n `Invalid number, expected digit but got: ${printCodePointAt(\n lexer,\n start,\n )}.`,\n );\n }\n\n const body = lexer.source.body;\n let position = start + 1; // +1 to skip first firstCode\n\n while (isDigit(body.charCodeAt(position))) {\n ++position;\n }\n\n return position;\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = charCodeAt.call(body, ++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or NameStart\n\n\n if (code === 46 || isNameStart(code)) {\n throw Object(_error_syntaxError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"syntaxError\"])(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](isFloat ? _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT : _tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT, start, position, line, col, prev, body.slice(start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n\t var body = source.body;\n\t var code = firstCode;\n\t var position = start;\n\t var isFloat = false;\n\n\t if (code === 45) {\n\t // -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\n\t if (code === 48) {\n\t // 0\n\t code = charCodeAt.call(body, ++position);\n\t if (code >= 48 && code <= 57) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n\t }\n\t } else {\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 46) {\n\t // .\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 69 || code === 101) {\n\t // E e\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t if (code === 43 || code === 45) {\n\t // + -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\t position = readDigits(source, position, code);\n\t }\n\n\t return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n\t}", "function readNumber(source, start, firstCode, line, col, prev) {\n\t var body = source.body;\n\t var code = firstCode;\n\t var position = start;\n\t var isFloat = false;\n\n\t if (code === 45) {\n\t // -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\n\t if (code === 48) {\n\t // 0\n\t code = charCodeAt.call(body, ++position);\n\t if (code >= 48 && code <= 57) {\n\t throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n\t }\n\t } else {\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 46) {\n\t // .\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t position = readDigits(source, position, code);\n\t code = charCodeAt.call(body, position);\n\t }\n\n\t if (code === 69 || code === 101) {\n\t // E e\n\t isFloat = true;\n\n\t code = charCodeAt.call(body, ++position);\n\t if (code === 43 || code === 45) {\n\t // + -\n\t code = charCodeAt.call(body, ++position);\n\t }\n\t position = readDigits(source, position, code);\n\t }\n\n\t return new Tok(isFloat ? FLOAT : INT, start, position, line, col, prev, slice.call(body, start, position));\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = void 0;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = charCodeAt.call(body, ++position);\n }\n\n if (code === 48) {\n // 0\n code = charCodeAt.call(body, ++position);\n if (code >= 48 && code <= 57) {\n throw (0, _error.syntaxError)(source, position, 'Invalid number, unexpected digit after 0: ' + printCharCode(code) + '.');\n }\n } else {\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n position = readDigits(source, position, code);\n code = charCodeAt.call(body, position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n\n code = charCodeAt.call(body, ++position);\n if (code === 43 || code === 45) {\n // + -\n code = charCodeAt.call(body, ++position);\n }\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw syntaxError(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw syntaxError(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n }", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n } // Numbers cannot be followed by . or e\n\n\n if (code === 46 || code === 69 || code === 101) {\n throw (0, _syntaxError.syntaxError)(source, position, \"Invalid number, expected digit but got: \".concat(printCharCode(code), \".\"));\n }\n\n return new Tok(isFloat ? _tokenKind.TokenKind.FLOAT : _tokenKind.TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function getLocation(source, position) {\n\t var lineRegexp = /\\r\\n|[\\n\\r]/g;\n\t var line = 1;\n\t var column = position + 1;\n\t var match = undefined;\n\t while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n\t line += 1;\n\t column = position + 1 - (match.index + match[0].length);\n\t }\n\t return { line: line, column: column };\n\t}", "function readNumber(source, start, firstCode, line, col, prev) {\n var body = source.body;\n var code = firstCode;\n var position = start;\n var isFloat = false;\n\n if (code === 45) {\n // -\n code = body.charCodeAt(++position);\n }\n\n if (code === 48) {\n // 0\n code = body.charCodeAt(++position);\n\n if (code >= 48 && code <= 57) {\n throw syntaxError(source, position, \"Invalid number, unexpected digit after 0: \".concat(printCharCode(code), \".\"));\n }\n } else {\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 46) {\n // .\n isFloat = true;\n code = body.charCodeAt(++position);\n position = readDigits(source, position, code);\n code = body.charCodeAt(position);\n }\n\n if (code === 69 || code === 101) {\n // E e\n isFloat = true;\n code = body.charCodeAt(++position);\n\n if (code === 43 || code === 45) {\n // + -\n code = body.charCodeAt(++position);\n }\n\n position = readDigits(source, position, code);\n }\n\n return new Tok(isFloat ? TokenKind.FLOAT : TokenKind.INT, start, position, line, col, prev, body.slice(start, position));\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match = void 0;\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n return { line: line, column: column };\n}", "backUpBy(numChars) {\n const prevPos = this._pos;\n this._pos -= numChars;\n if (this._pos < 0) {\n this._pos = 0;\n }\n // Pass the un-consumed text to the line counting code. The char at the new current pos\n // hasn't been consumed yet, so it need to be part of the un-consumed text!\n this._decLineCount(this._text.substring(this._pos, prevPos));\n return this._pos;\n }", "function getLocation(source, position) {\n var lineRegexp = /\\r\\n|[\\n\\r]/g;\n var line = 1;\n var column = position + 1;\n var match;\n\n while ((match = lineRegexp.exec(source.body)) && match.index < position) {\n line += 1;\n column = position + 1 - (match.index + match[0].length);\n }\n\n return {\n line: line,\n column: column\n };\n }", "function extractInteger(buf, bufPos) {\n var x = buf[bufPos + 0] & 0xff;\n x <<= 8;\n x |= buf[bufPos + 1] & 0xff;\n x <<= 8;\n x |= buf[bufPos + 2] & 0xff;\n x <<= 8;\n x |= buf[bufPos + 3] & 0xff;\n return x;\n }" ]
[ "0.62889117", "0.6220681", "0.6220681", "0.6196409", "0.6166372", "0.6166372", "0.6148771", "0.61461264", "0.6117102", "0.6117102", "0.60756713", "0.60660464", "0.60437703", "0.60437703", "0.60233366", "0.60233366", "0.60233366", "0.60233366", "0.60049325", "0.6004479", "0.6004479", "0.6004479", "0.6000214", "0.59675986", "0.5956142", "0.5956142", "0.5956142", "0.5956142", "0.5956142", "0.5877719", "0.58723235", "0.5850168", "0.58234286", "0.58234286", "0.58234286", "0.58234286", "0.58234286", "0.58234286", "0.5794599", "0.5794599", "0.576693", "0.5649629", "0.55956656", "0.5593263", "0.55672413", "0.55672413", "0.55552745", "0.55248463", "0.5504722", "0.5497689", "0.546688", "0.546688", "0.5466531", "0.54661", "0.5458188", "0.54478556", "0.5443169", "0.54428923", "0.54428923", "0.54428923", "0.54428923", "0.54428923", "0.54428923", "0.54397184", "0.5435287", "0.5435287", "0.5428287", "0.5428287", "0.54253", "0.54253", "0.54253", "0.54253", "0.54109335", "0.53932583", "0.53877413", "0.53794354", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53794146", "0.53778255", "0.5364566", "0.5359489" ]
0.5866001
41
Converts four hexidecimal chars to the integer that the string represents. For example, uniCharCode('0','0','0','f') will return 15, and uniCharCode('0','0','f','f') returns 255. Returns a negative number on error, if a char was invalid. This is implemented by noting that char2hex() returns 1 on error, which means the result of ORing the char2hex() will also be negative.
function uniCharCode(a, b, c, d) { return char2hex(a) << 12 | char2hex(b) << 8 | char2hex(c) << 4 | char2hex(d); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function uniCharCode(a, b, c, d) {\n return char2hex(a) << 12 | char2hex(b) << 8 | char2hex(c) << 4 | char2hex(d);\n }", "function uniCharCode(a, b, c, d) {\n\t return char2hex(a) << 12 | char2hex(b) << 8 | char2hex(c) << 4 | char2hex(d);\n\t}", "function uniCharCode(a, b, c, d) {\n\t return char2hex(a) << 12 | char2hex(b) << 8 | char2hex(c) << 4 | char2hex(d);\n\t}", "function uniCharCode(a, b, c, d) {\n\t return char2hex(a) << 12 | char2hex(b) << 8 | char2hex(c) << 4 | char2hex(d);\n\t}", "function char(x) { return parseInt(x, 16); }", "function fixedCharCodeAt(str, idx) {\n idx = idx || 0;\n var code = str.charCodeAt(idx);\n var hi, low;\n // High surrogate (could change last hex to 0xDB7F to treat high\n // private surrogates as single characters)\n if (0xD800 <= code && code <= 0xDBFF) {\n hi = code;\n low = str.charCodeAt(idx + 1);\n if (isNaN(low)) {\n throw 'High surrogate not followed by low surrogate in fixedCharCodeAt()';\n }\n return ((hi - 0xD800) * 0x400) + (low - 0xDC00) + 0x10000;\n }\n if (0xDC00 <= code && code <= 0xDFFF) { // Low surrogate\n // We return false to allow loops to skip this iteration since should have\n // already handled high surrogate above in the previous iteration\n return false;\n }\n return code;\n}", "function hexstr2int(str)\n{\n\tvar i = 0;\n\tif (is_hexdigit(str)==true) i = parseInt(str, [16]);\n\treturn i;\n}", "static fourCCInt(str4) {\nvar cc0, cc1, cc2, cc3, has4, s;\n//---------\nhas4 = 4 <= str4.length;\ns = has4 ? str4 : str4 + String.fromCharCode(0, 0, 0, 0);\ncc0 = s.charCodeAt(0) & 0xFF;\ncc1 = s.charCodeAt(1) & 0xFF;\ncc2 = s.charCodeAt(2) & 0xFF;\ncc3 = s.charCodeAt(3) & 0xFF;\nreturn (((((cc3 << 8) | cc2) << 8) | cc1) << 8) | cc0;\n}", "function cpFC(s){var hi,lo\n if(/[\\uD800-\\uDBFF][\\uDC00-\\uDFFF]/.test(s)){\n hi=s.charCodeAt(0)\n lo=s.charCodeAt(1)\n return 0x10000+(((hi&0x3FF) << 10) | (lo&0x3FF))}\n return s.charCodeAt(0)}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function hexVal (c) {\n return (\n c < 58 ? c - 48 : // 0 - 9\n c < 71 ? c - 55 : // A - F\n c - 87 // a - f\n );\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 : // 0-9\n a >= 65 && a <= 70 ? a - 55 : // A-F\n a >= 97 && a <= 102 ? a - 87 : // a-f\n -1;\n}", "static getCharCode(char) {\n if (char.length === 0) {\n return 0;\n }\n const charCode = char.charCodeAt(0);\n switch (charCode) {\n case 768 /* U_Combining_Grave_Accent */: return 96 /* U_GRAVE_ACCENT */;\n case 769 /* U_Combining_Acute_Accent */: return 180 /* U_ACUTE_ACCENT */;\n case 770 /* U_Combining_Circumflex_Accent */: return 94 /* U_CIRCUMFLEX */;\n case 771 /* U_Combining_Tilde */: return 732 /* U_SMALL_TILDE */;\n case 772 /* U_Combining_Macron */: return 175 /* U_MACRON */;\n case 773 /* U_Combining_Overline */: return 8254 /* U_OVERLINE */;\n case 774 /* U_Combining_Breve */: return 728 /* U_BREVE */;\n case 775 /* U_Combining_Dot_Above */: return 729 /* U_DOT_ABOVE */;\n case 776 /* U_Combining_Diaeresis */: return 168 /* U_DIAERESIS */;\n case 778 /* U_Combining_Ring_Above */: return 730 /* U_RING_ABOVE */;\n case 779 /* U_Combining_Double_Acute_Accent */: return 733 /* U_DOUBLE_ACUTE_ACCENT */;\n }\n return charCode;\n }", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n }", "function char2hex(a) {\n\t return a >= 48 && a <= 57 ? a - 48 // 0-9\n\t : a >= 65 && a <= 70 ? a - 55 // A-F\n\t : a >= 97 && a <= 102 ? a - 87 // a-f\n\t : -1;\n\t}", "function char2hex(a) {\n\t return a >= 48 && a <= 57 ? a - 48 : // 0-9\n\t a >= 65 && a <= 70 ? a - 55 : // A-F\n\t a >= 97 && a <= 102 ? a - 87 : // a-f\n\t -1;\n\t}", "function char2hex(a) {\n\t return a >= 48 && a <= 57 ? a - 48 : // 0-9\n\t a >= 65 && a <= 70 ? a - 55 : // A-F\n\t a >= 97 && a <= 102 ? a - 87 : // a-f\n\t -1;\n\t}", "function charToHex(c) {\r\n var ZERO = 48;\r\n var NINE = ZERO + 9;\r\n var littleA = 97;\r\n var littleZ = littleA + 25;\r\n var bigA = 65;\r\n var bigZ = 65 + 25;\r\n var result;\r\n\r\n if (c >= ZERO && c <= NINE) {\r\n result = c - ZERO;\r\n } else if (c >= bigA && c <= bigZ) {\r\n result = 10 + c - bigA;\r\n } else if (c >= littleA && c <= littleZ) {\r\n result = 10 + c - littleA;\r\n } else {\r\n result = 0;\r\n }\r\n return result;\r\n}", "function hex(iChar, iLength) {\n\t\tvar sHex = iChar.toString(16);\n\t\tif (iLength) {\n\t\t\twhile (iLength > sHex.length) {\n\t\t\t\tsHex = \"0\" + sHex;\n\t\t\t}\n\t\t}\n\t\treturn sHex;\n\t}", "function extractCharCode(str) {\n return str.codePointAt ? str.codePointAt(0) : str.charCodeAt(0);\n}", "function ___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readHexChar(\n\t\tparser,\n\t\tlen,\n\t\tthrowOnInvalid,\n\t) {\n\t\tconst start = parser.state.index;\n\t\tconst n = ___R$$priv$project$rome$$internal$js$parser$tokenizer$index_ts$readInt(\n\t\t\tparser,\n\t\t\t16,\n\t\t\tlen,\n\t\t);\n\n\t\tif (n === undefined) {\n\t\t\tif (throwOnInvalid) {\n\t\t\t\t___R$project$rome$$internal$js$parser$parser_ts$unexpectedDiagnostic(\n\t\t\t\t\tparser,\n\t\t\t\t\t{\n\t\t\t\t\t\tindex: start,\n\t\t\t\t\t\tdescription: ___R$project$rome$$internal$diagnostics$descriptions$index_ts$descriptions.JS_PARSER.BAD_HEX_ESCAPE,\n\t\t\t\t\t},\n\t\t\t\t);\n\t\t\t\treturn 0;\n\t\t\t}\n\n\t\t\tconst codePos = parser.state.index;\n\t\t\tparser.state.index = codePos - 1;\n\t\t\tparser.state.invalidTemplateEscapePosition = codePos - 1;\n\t\t}\n\n\t\treturn n;\n\t}", "function sc_char2integer(c)\n { return c.val.charCodeAt(0); }", "function fC2N(c) {\n if (0x30 <= c.charCodeAt(0) && c.charCodeAt(0) < 0x3a) {return c.charCodeAt(0) - 0x30;}\n else if (0x41 <= c.charCodeAt(0) && c.charCodeAt(0) <= 0x5a) {return c.charCodeAt(0) - 0x41 + 10;}\n else if (0x61 <= c.charCodeAt(0) && c.charCodeAt(0) <= 0x78) {return c.charCodeAt(0) - 0x61 + 36;}\n\n return -1000;\n}", "function hexadecimalToInteger(string) {\n const DIGITS = {1:1, 2: 2, 3: 3, 4: 4, 5: 5, 6: 6, 7: 7, 8: 8, 9: 9,\n a: 10, b: 11, c: 12, d: 13, e: 14, f: 15 };\n\n string = string.toLowerCase();\n\n let arrayOfDigits = Array.from(string, digit => DIGITS[digit]);\n let value = 0;\n arrayOfDigits.forEach(digit => (value = (value * 16) + digit));\n return value;\n}", "function hexToStr(str) {\n var charHex = new Array('0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f');\n var stringHex = \"0123456789abcdef\";\n\n var out = \"\";\n var len = str.length;\n str = new String(str);\n str = str.toLowerCase();\n if ((len % 2) == 1) {\n str += \"0\";\n }\n for (var i = 0; i < len; i += 2) {\n var s1 = str.substr(i, 1);\n var s2 = str.substr(i + 1, 1);\n var index1 = stringHex.indexOf(s1);\n var index2 = stringHex.indexOf(s2);\n\n if (index1 == -1 || index2 == -1) {\n throw HEX_BROKEN;\n }\n\n var val = (index1 << 4) | index2;\n\n out += \"\" + String.fromCharCode(parseInt(val));\n }\n return out;\n}", "function char_to_int(r){\n switch (r){\n case 'I': return 1;\n case 'V': return 5;\n case 'X': return 10;\n case 'L': return 50;\n case 'C': return 100;\n case 'D': return 500;\n case 'M': return 1000;\n default: return -1;\n }\n}", "function bit4tohexchar(b) {\n //if (b > 0x9) { return b + 55; } // upper case\n if (b > 0x9) { return b + 87; } // lower case\n return b + 48;\n }", "function char_2_int(c)\n{\n switch (c) {\n case 'R': return 0;\n case 'G': return 1;\n case 'B': return 2;\n\n // shouldn't happen\n default:\n return 3;\n }\n}", "function ascii_to_hex(str)\n{\n tempstr = '';\n\t\n for (a = 0; a < str.length; a = a + 1) \n\t{\n tempstr = tempstr + (\"00\" + str[a].toString(16)).substr(-2) + ' ';\n\t\t//(\"00\" + len.toString(16)).substr(-4)\n }\n\t\n return tempstr;\n}", "function _intify(str) {\n var ret = '';\n for (var i = 0; i < str.length; i++) {\n var cur = str.charCodeAt(i);\n ret += String.fromCharCode(cur & 0xff);\n }\n\n return ret;\n }", "stringToHex(str) {\n\t\treturn parseInt(str.replace(/^#/, \"0x\"), 16);\n\t}", "function readHexChar (len) {\r\n const start = acornPos;\r\n let total = 0, lastCode = 0;\r\n for (let i = 0; i < len; ++i, ++acornPos) {\r\n let code = source.charCodeAt(acornPos), val;\r\n\r\n if (code === 95) {\r\n if (lastCode === 95 || i === 0) syntaxError();\r\n lastCode = code;\r\n continue;\r\n }\r\n\r\n if (code >= 97) val = code - 97 + 10; // a\r\n else if (code >= 65) val = code - 65 + 10; // A\r\n else if (code >= 48 && code <= 57) val = code - 48; // 0-9\r\n else break;\r\n if (val >= 16) break;\r\n lastCode = code;\r\n total = total * 16 + val;\r\n }\r\n\r\n if (lastCode === 95 || acornPos - start !== len) syntaxError();\r\n\r\n return total;\r\n }", "function ___R$project$rome$$internal$js$parser$utils$identifier_ts$getFullCharCodeAt(\n\t\tstr,\n\t\toffset,\n\t) {\n\t\tconst code = str.charCodeAt(offset);\n\t\tif (code <= 55_295 || code >= 57_344) {\n\t\t\treturn code;\n\t\t}\n\n\t\tconst next = str.charCodeAt(offset + 1);\n\t\treturn (code << 10) + next - 56_613_888;\n\t}", "function checkHex (str) {\n\t\tvar i, k;\n\t\tif (str.length%2) {\n\t\t\treturn convert(str);\n\t\t} else {\n\t\t\tk = false;\n\t\t\tfor (i=0;i<str.length;i+=2) {\n\t\t\t\tif (isNaN(parseInt(str.substr(i,1), 16))) { k = true; }\n\t\t\t\tif (isNaN(parseInt(str.substr(i+1,1), 16))) { k = true; }\n\t\t\t}\n\t\t\tif (k) { return convert(str); }\n\t\t\treturn str;\n\t\t}\n\t\tfunction convert (chars) {\n\t\t\tvar i, hex = \"\";\n\t\t\tfor (i=0;i<str.length;i++) {\n\t\t\t\thex += str.charCodeAt(i).toString(16);\n\t\t\t}\n\t\t\treturn hex;\n\t\t}\n\t\treturn hex;\n\t}", "function ord(strCarac)\n{\n strCarac = strCarac + '';\n var code = strCarac.charCodeAt(0);\n if ((0xD800 <= code) && (code <= 0xDBFF)) {\n var hi = code;\n if (strCarac.length === 1)\n return code;\n var low = strCarac.charCodeAt(1);\n return ((hi - 0xD800) * 0x400) + (low - 0xDC00) + 0x10000;\n }\n return code;\n}", "function hashUsac (str) {\n let digits = [0, 0, 0, 0, 0, 0, 0]\n let valueOf = c =>\n (c == '_' ? 0 :\n /\\d/.test(c) ? c :\n c.charCodeAt(0) - 97\n ) % 7\n str.toLowerCase().split('').forEach((c) => {\n digits[valueOf(c)]++\n })\n return digits.map(d => 'abcdef'[d % 6]).join('')\n }", "function toHexString(charCode) {\n return (\"0\" + charCode.toString(16)).slice(-2);\n}", "function char_to_int(character) {\n switch(character){\n case 'I': return 1;\n case 'V': return 5;\n case 'X': return 10;\n case 'L': return 50;\n case 'C': return 100;\n case 'D': return 500;\n case 'M': return 1000;\n default: return -1;\n }\n}", "function charCode(str, index) {\n return index < str.length ? str.charCodeAt(index) : 0;\n}", "function hash(char){\n return char.charCodeAt(0) - 'a'.charCodeAt(0)\n}", "static getAHexCharacter() {\n const characters = [\n '0', '1', '2', '3',\n '4', '5', '6', '7',\n '8', '9', 'A', 'B',\n 'C', 'D', 'E', 'F',\n ];\n\n const randomNumber = this.generateRandomNumber(characters.length);\n\n return characters[randomNumber];\n }", "function get_value(str, isASCII) {\n\t\tvar dbyte = new Array(16);\n\t\tvar i;\n\t\tvar val;\t// one hex digit\n\t\tif (isASCII) {\n\t\t\t// check length of data\n\t\t\tif (str.length > 16) {\n\t\t\t\tconsole.log(\"is too long, using the first 16 ASCII characters\" );\n\t\t\t}\n\t\t\t// have ASCII data\n\t\t\t// 16 characters?\n\t\t\tif (str.length >= 16) {\n\t\t\t\t// 16 or more characters\n\t\t\t\tfor(i=0; i<16; i++) {\n\t\t\t\t\tdbyte[i] = str.charCodeAt(i);\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\t // less than 16 characters - fill with NULLs\n\t\t\t\tfor(i=0; i<str.length; i++) {\n\t\t\t\t\tdbyte[i] = str.charCodeAt(i);\n\t\t\t\t}\n\t\t\t\tfor( i=str.length; i<16; i++) {\n\t\t\t\t\tdbyte[i] = 0;\n\t\t\t\t}\n\t\t\t}\n\t\t} else {\n\t\t\t// have hex data - remove any spaces they used, then convert\n\t\t\t//str = remove_spaces(str);\n\t\t\t// check length of data\n\t\t\tif ( str.length != 32 ) {\n\t\t\t\t//console.log(\"\\tget_value:\\tstr = \" + str + \"\\tisASCII = \" + isASCII); //isASCII = false\n\t\t\t\tconsole.log(\"length wrong: Is \" + str.length + \" hex digits, but must be 128 bits (32 hex digits)\");\n\t\t\t\tdbyte[0] = -1;\n\t\t\t\treturn dbyte;\n\t\t\t}\n\t\t\tfor( i=0; i<16; i++ ) {\n\t\t\t\t// isolate and convert this substring\n\t\t\t\tdbyte[i] = cvt_byte( str.substr(i*2,2) );\n\t\t\t\tif( dbyte[i] < 0 ) {\n\t\t\t\t\t// have an error\n\t\t\t\t\tdbyte[0] = -1;\n\t\t\t\t\treturn dbyte;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\t// return successful conversion\n\t\treturn dbyte;\n\t}", "function codePointAt(str, idx) {\n\t\t\tif (idx === undefined) {\n\t\t\t\tidx = 0;\n\t\t\t}\n\t\t\tvar code = str.charCodeAt(idx);\n\n\t\t\t// if a high surrogate\n\t\t\tif (0xD800 <= code && code <= 0xDBFF && idx < str.length - 1) {\n\t\t\t\tvar hi = code;\n\t\t\t\tvar low = str.charCodeAt(idx + 1);\n\t\t\t\tif (0xDC00 <= low && low <= 0xDFFF) {\n\t\t\t\t\treturn (hi - 0xD800) * 0x400 + (low - 0xDC00) + 0x10000;\n\t\t\t\t}\n\t\t\t\treturn hi;\n\t\t\t}\n\n\t\t\t// if a low surrogate\n\t\t\tif (0xDC00 <= code && code <= 0xDFFF && idx >= 1) {\n\t\t\t\tvar hi = str.charCodeAt(idx - 1);\n\t\t\t\tvar low = code;\n\t\t\t\tif (0xD800 <= hi && hi <= 0xDBFF) {\n\t\t\t\t\treturn (hi - 0xD800) * 0x400 + (low - 0xDC00) + 0x10000;\n\t\t\t\t}\n\t\t\t\treturn low;\n\t\t\t}\n\n\t\t\t//just return the char if an unmatched surrogate half or a \n\t\t\t//single-char codepoint\n\t\t\treturn code;\n\t\t}", "function convertCharToAscii(val) {\n var pad = \"00\";\n var hstr = val.charCodeAt(0).toString(16);\n // padding zero\n hstr = pad.substring(0, pad.length - hstr.length) + hstr;\n return \"\\\\x\" + hstr;\n}", "function codePointAt(str, idx){\n\t\tif(idx === undefined){\n\t\t\tidx = 0;\n\t\t}\n\t\tvar code = str.charCodeAt(idx);\n\n\t\t// if a high surrogate\n\t\tif (0xD800 <= code && code <= 0xDBFF && \n\t\t\tidx < str.length - 1){\n\t\t\tvar hi = code;\n\t\t\tvar low = str.charCodeAt(idx + 1);\n\t\t\tif (0xDC00 <= low && low <= 0xDFFF){\n\t\t\t\treturn ((hi - 0xD800) * 0x400) + (low - 0xDC00) + 0x10000;\n\t\t\t}\n\t\t\treturn hi;\n\t\t}\n\t\t\n\t\t// if a low surrogate\n\t\tif (0xDC00 <= code && code <= 0xDFFF &&\n\t\t\tidx >= 1){\n\t\t\tvar hi = str.charCodeAt(idx - 1);\n\t\t\tvar low = code;\n\t\t\tif (0xD800 <= hi && hi <= 0xDBFF){\n\t\t\t\treturn ((hi - 0xD800) * 0x400) + (low - 0xDC00) + 0x10000;\n\t\t\t}\n\t\t\treturn low;\n\t\t}\n\t\t\n\t\t//just return the char if an unmatched surrogate half or a \n\t\t//single-char codepoint\n\t\treturn code;\n\t}", "function uniScore(str) {\n str = str.split(' ').join('');\n let sum = str.split('').reduce((acc, cur) => {\n acc += cur.charCodeAt(0);\n return acc;\n }, 0);\n return sum;\n}", "function dec2hex4(textString)\n {\n var hexequiv = new Array(\"0\", \"1\", \"2\", \"3\", \"4\", \"5\", \"6\", \"7\", \"8\", \"9\", \"A\", \"B\", \"C\", \"D\", \"E\", \"F\");\n return hexequiv[(textString >> 12) & 0xF] + hexequiv[(textString >> 8) & 0xF] + hexequiv[(textString >> 4) & 0xF] + hexequiv[textString & 0xF];\n }" ]
[ "0.7207237", "0.7145425", "0.7145425", "0.7145425", "0.62008524", "0.61733305", "0.6081283", "0.6069486", "0.5981487", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59763354", "0.59133697", "0.5904542", "0.5904542", "0.5904542", "0.5904542", "0.5904542", "0.5904542", "0.5904542", "0.58984435", "0.5881611", "0.5862583", "0.5849476", "0.5849476", "0.5849366", "0.58122855", "0.57708615", "0.5729628", "0.5689289", "0.5626838", "0.55987084", "0.55934566", "0.5554349", "0.5546056", "0.553541", "0.5535122", "0.5527817", "0.55184984", "0.55177194", "0.55006677", "0.5486782", "0.5473503", "0.5439993", "0.5435422", "0.5435396", "0.54330194", "0.5421439", "0.5417112", "0.53620344", "0.5357735", "0.5343936", "0.53376746", "0.53366584", "0.5333246" ]
0.7250276
27
Converts a hex character to its integer value. '0' becomes 0, '9' becomes 9 'A' becomes 10, 'F' becomes 15 'a' becomes 10, 'f' becomes 15 Returns 1 on error.
function char2hex(a) { return a >= 48 && a <= 57 ? a - 48 : // 0-9 a >= 65 && a <= 70 ? a - 55 : // A-F a >= 97 && a <= 102 ? a - 87 : // a-f -1; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function hexstr2int(str)\n{\n\tvar i = 0;\n\tif (is_hexdigit(str)==true) i = parseInt(str, [16]);\n\treturn i;\n}", "function hexadecimalToInteger(string) {\n const DIGITS = {1:1, 2: 2, 3: 3, 4: 4, 5: 5, 6: 6, 7: 7, 8: 8, 9: 9,\n a: 10, b: 11, c: 12, d: 13, e: 14, f: 15 };\n\n string = string.toLowerCase();\n\n let arrayOfDigits = Array.from(string, digit => DIGITS[digit]);\n let value = 0;\n arrayOfDigits.forEach(digit => (value = (value * 16) + digit));\n return value;\n}", "function hexToDigit(s) {\r\n var result = 0;\r\n var sl = Math.min(s.length, 2);\r\n for (var i = 0; i < sl; ++i) {\r\n result <<= 4;\r\n result |= charToHex(s.charCodeAt(i))\r\n }\r\n return result;\r\n}", "function char(x) { return parseInt(x, 16); }", "function char_to_int(character) {\n switch(character){\n case 'I': return 1;\n case 'V': return 5;\n case 'X': return 10;\n case 'L': return 50;\n case 'C': return 100;\n case 'D': return 500;\n case 'M': return 1000;\n default: return -1;\n }\n}", "function hexToInt(hex) {\n if (hex.length % 2 != 0) {\n hex = \"0\" + hex;\n }\n var num = parseInt(hex, 16);\n var maxVal = Math.pow(2, hex.length / 2 * 8);\n if (num > maxVal / 2 - 1) {\n num = num - maxVal\n }\n return num;\n}", "function hexVal (c) {\n return (\n c < 58 ? c - 48 : // 0 - 9\n c < 71 ? c - 55 : // A - F\n c - 87 // a - f\n );\n}", "function char_to_int(r){\n switch (r){\n case 'I': return 1;\n case 'V': return 5;\n case 'X': return 10;\n case 'L': return 50;\n case 'C': return 100;\n case 'D': return 500;\n case 'M': return 1000;\n default: return -1;\n }\n}", "function sc_char2integer(c)\n { return c.val.charCodeAt(0); }", "function chrToInt(chr){\n if(chr == \"X\"){\n chr = 23\n }else if(chr == \"Y\"){\n chr = 24\n }\n return parseInt(chr)\n }", "function CharToInt(val) {\n // is num\n if (!isNaN(val)) {\n return Number(val);\n } else {\n val = val.toLowerCase();\n return (val.charCodeAt(0) - 'a'.charCodeAt(0)) + 10;\n }\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n}", "function char_2_int(c)\n{\n switch (c) {\n case 'R': return 0;\n case 'G': return 1;\n case 'B': return 2;\n\n // shouldn't happen\n default:\n return 3;\n }\n}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n\t return parseInt(val, 16);\n\t}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n}", "function parseIntFromHex(val) {\n\t return parseInt(val, 16);\n\t}", "function parseIntFromHex(val) {\n\t return parseInt(val, 16);\n\t}", "function parseIntFromHex(val) {\n\t return parseInt(val, 16);\n\t}", "function parseIntFromHex(val) {\n\t return parseInt(val, 16);\n\t}", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function parseIntFromHex(val) {\n return parseInt(val, 16);\n }", "function isHexDigit(c){\r\n return /^[0-9A-Fa-f]$/.test(c);\r\n}", "function parseIntFromHex(val) {\n\t\t\treturn parseInt(val, 16);\n\t}", "function parseIntFromHex(val) {\n\t\t\treturn parseInt(val, 16);\n\t}", "function char2hex(a) {\n return a >= 48 && a <= 57 ? a - 48 // 0-9\n : a >= 65 && a <= 70 ? a - 55 // A-F\n : a >= 97 && a <= 102 ? a - 87 // a-f\n : -1;\n }", "function char2hex(a) {\n\t return a >= 48 && a <= 57 ? a - 48 // 0-9\n\t : a >= 65 && a <= 70 ? a - 55 // A-F\n\t : a >= 97 && a <= 102 ? a - 87 // a-f\n\t : -1;\n\t}", "function readHexDigit(code) {\n return code >= 0x0030 && code <= 0x0039 // 0-9\n ? code - 0x0030\n : code >= 0x0041 && code <= 0x0046 // A-F\n ? code - 0x0037\n : code >= 0x0061 && code <= 0x0066 // a-f\n ? code - 0x0057\n : -1;\n}" ]
[ "0.7508741", "0.72283804", "0.717412", "0.7168694", "0.7085682", "0.699381", "0.6980311", "0.69130033", "0.68920314", "0.68048424", "0.6727937", "0.6704013", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.66991895", "0.6694668", "0.66611165", "0.66525316", "0.66291255", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6585774", "0.6558523", "0.6558523", "0.6558523", "0.6558523", "0.65439916", "0.65439916", "0.65439916", "0.65439916", "0.65439916", "0.65439916", "0.65116227", "0.6452812", "0.6452812", "0.6446352", "0.6418949", "0.64069474" ]
0.64676064
95
Reads an alphanumeric + underscore name from the source. [_AZaz][_09AZaz]
function readName(source, position, line, col, prev) { var body = source.body; var bodyLength = body.length; var end = position + 1; var code = 0; while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _ code >= 48 && code <= 57 || // 0-9 code >= 65 && code <= 90 || // A-Z code >= 97 && code <= 122 // a-z )) { ++end; } return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function tryReadVariableName(input, index) {\t\n\t/* Need to start with a letter or underscore. */\n\tif (!/[A-Za-z_]/.test(input.charAt(index))) return null;\n\n\t/* Keep reading characters while it's possible to do so. */\t\n\tvar result = \"\";\n\twhile (/[A-Za-z_0-9]/.test(input.charAt(index))) {\n\t\tresult += input.charAt(index);\n\t\tindex++;\t\n\t}\n\t\n\t/* Return the result as long as it isn't a reserved word. */\n\treturn isReservedWord(result)? null : result;\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new ast[\"b\" /* Token */](TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast.Token(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "parse_name() {\n let start = this.pos - 1;\n let end = this.pos;\n let done = false;\n while (!done) {\n switch (this.ch) {\n case -1:\n done = true;\n end = this.pos;\n break;\n\n case 95: // '_'\n case 47: // '/'\n case 45: // '-'\n end = this.pos;\n this.read();\n break;\n\n default:\n if ((this.ch >= 48 && this.ch <= 57) || // 0-9\n (this.ch >= 65 && this.ch <= 90) || // A-Z\n (this.ch >= 97 && this.ch <= 122) || // a-z\n this.ch >= 128) { // unicode\n end = this.pos;\n this.read();\n } else {\n done = true;\n }\n }\n }\n this.value = this.input.slice(start, end);\n let kw = keywords.get(this.value);\n if (kw) {\n this.token = kw;\n } else {\n this.token = -8;\n }\n }", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n }", "function readName(source, position) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122) // a-z\n\t ) {\n\t ++end;\n\t }\n\t return makeToken(TokenKind.NAME, position, end, slice.call(body, position, end));\n\t}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, position) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++end;\n }\n return makeToken(TokenKind.NAME, position, end, slice.call(body, position, end));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n} // _ A-Z a-z", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind.TokenKind.NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && (code = charCodeAt.call(body, position)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(TokenKind.NAME, start, position, line, col, prev, slice.call(body, start, position));\n}", "function readName(source, position, line, col, prev) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122) // a-z\n\t ) {\n\t ++end;\n\t }\n\t return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n\t}", "function readName(source, position, line, col, prev) {\n\t var body = source.body;\n\t var bodyLength = body.length;\n\t var end = position + 1;\n\t var code = 0;\n\t while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n\t code >= 48 && code <= 57 || // 0-9\n\t code >= 65 && code <= 90 || // A-Z\n\t code >= 97 && code <= 122 // a-z\n\t )) {\n\t ++end;\n\t }\n\t return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n\t}", "function readName(source, position, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var end = position + 1;\n var code = 0;\n while (end !== bodyLength && (code = charCodeAt.call(body, end)) !== null && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++end;\n }\n return new Tok(NAME, position, end, line, col, prev, slice.call(body, position, end));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function readName(source, start, line, col, prev) {\n var body = source.body;\n var bodyLength = body.length;\n var position = start + 1;\n var code = 0;\n\n while (position !== bodyLength && !isNaN(code = body.charCodeAt(position)) && (code === 95 || // _\n code >= 48 && code <= 57 || // 0-9\n code >= 65 && code <= 90 || // A-Z\n code >= 97 && code <= 122) // a-z\n ) {\n ++position;\n }\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME, start, position, line, col, prev, body.slice(start, position));\n}", "function getCardName(name) {\n return name.toString().split(\"_\")[0];\n}", "function _decamelize(str){return str.replace(/([a-z])([A-Z])/g, '$1_$2').toLowerCase()}", "function unescapeIdentifier(identifier){return identifier.startsWith('___')?identifier.substr(1):identifier;}", "function extractKeyWord(string) {\n\treturn string.split('_')[0]\n}", "function toPublicName(internalName){return internalName.toUpperCase().replace(/[^A-Z0-9_]/g,'_');}", "validateName() {\n // Do not delete this internal method.\n this.name = this.name.replace(/[^a-z0-9]/gi, '_').toLowerCase();\n }", "static getSortKeyIgnoringUnderscore(identifier) {\n let parts;\n if (identifier[0] === '_') {\n const withoutUnderscore = identifier.substr(1);\n parts = [withoutUnderscore.toLowerCase(), '*', withoutUnderscore, '*', '_'];\n }\n else {\n parts = [identifier.toLowerCase(), '*', identifier];\n }\n return parts.join('');\n }", "function initcap(name) {\n var returnedName = name.substring(0, 1).toUpperCase()\n + name.substring(1, name.length).toLowerCase();\n return returnedName;\n }", "function underscore (name) {\n return varname.split(name).join('_');\n}", "function underscore (name) {\n return varname.split(name).join('_');\n}", "function filterFieldName(temp) {\r\n\ttemp = trim(temp);\r\n\ttemp = temp.toLowerCase();\r\n\ttemp = temp.replace(/[^a-z0-9]/ig,\"_\");\r\n\ttemp = temp.replace(/[_]+/g,\"_\");\r\n\twhile (temp.length > 0 && (temp.charAt(0) == \"_\" || temp.charAt(0)*1 == temp.charAt(0))) {\r\n\t\ttemp = temp.substr(1,temp.length);\r\n\t}\r\n\twhile (temp.length > 0 && temp.charAt(temp.length-1) == \"_\") { \r\n\t\ttemp = temp.substr(0,temp.length-1);\r\n\t}\r\n\treturn temp;\r\n}", "function normalize_dataset_name(name) { // 214\n\treturn name.replace(/[\\]\\[\\.]/g, '_'); // 215\n} // 216", "function varName(s) {\n\t // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n\t const alphanumericS = s.replace(/\\W/g, '_');\n\t // Add _ if the string has leading numbers.\n\t return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n\t}", "function varName(s) {\n // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n var alphanumericS = s.replace(/\\W/g, '_');\n // Add _ if the string has leading numbers.\n return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n }", "function isName(c) {\n return (ch >= 'a' && ch <= 'z') ||\n (ch >= 'A' && ch <= 'Z') ||\n (ch >= '0' && ch <= '9') ||\n '-_*.:#[]'.indexOf(c) >= 0;\n }", "function cleanFieldName_v1(name) {\n return name.replace(/[^A-Za-z0-9]+/g, '_');\n }", "startsWith(c){ return c=='_' || Character.isLetter(c) }", "captureNameChars() {\n const { chunk, i: start } = this;\n // eslint-disable-next-line no-constant-condition\n while (true) {\n const c = this.getCode();\n if (c === EOC) {\n this.name += chunk.slice(start);\n return EOC;\n }\n // NL is not a name char so we don't have to test specifically for it.\n if (!isNameChar(c)) {\n this.name += chunk.slice(start, this.prevI);\n return c === NL_LIKE ? NL : c;\n }\n }\n }", "function varName(s) {\n // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n var alphanumericS = s.replace(/\\W/g, '_'); // Add _ if the string has leading numbers.\n\n return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n }", "function parseName(tag) {\n\tlet name = tag.name\n\tname = name.replace(/_/g, ' ');\n\tname = name.replace(/\\b\\w/g, l => l.toUpperCase());\n\treturn name;\n}", "function isReservedMemberName(name) {\n return name.charCodeAt(0) === 95 /* _ */ &&\n name.charCodeAt(1) === 95 /* _ */ &&\n name.charCodeAt(2) !== 95 /* _ */ &&\n name.charCodeAt(2) !== 64 /* at */;\n }", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n }", "function normalizeName(name) {\n s = name;\n var pos = 0;\n while (true)\n {\n pos = s.search(' ');\n if (pos === -1) return s;\n else s = s.replace(' ','_');\n }\n}", "function sanitise(name){\n\treturn name.replace(/[^a-zA-Z0-9\\.\\-]/g, '_');\n}", "function toIdentifier(name){\n\tvar parts = name.split(/\\W+/)\n\tparts = _.map(parts, function(part){\n\t\treturn part.replace(/^./, function(chr){ return chr.toUpperCase() })\n\t})\n\t\n\treturn parts.join('')\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "function unescapeIdentifier(identifier) {\n return identifier.startsWith('___') ? identifier.substr(1) : identifier;\n}", "jsx_readWord() {\n var ch, start = this.pos;\n do {\n ch = this.input.charCodeAt(++this.pos);\n } while (isIdentifierChar$1(ch) || ch === 45); // '-'\n return this.finishToken(tok.jsxName, this.input.slice(start, this.pos));\n }", "function varName(s) {\n // Replace non-alphanumeric characters (anything besides a-zA-Z0-9_) with _\n var alphanumericS = s.replace(/\\W/g, '_');\n // Add _ if the string has leading numbers.\n return (s.match(/^\\d+/) ? '_' : '') + alphanumericS;\n}", "function camelToUnderscore(key) {\n var result = key.replace(/([A-Z])/g, \" $1\");\n return result\n .split(\" \")\n .join(\"-\")\n .toLowerCase()\n .substr(1);\n}", "jsx_readWord() {\n let ch, start = this.pos;\n do {\n ch = this.input.charCodeAt(++this.pos);\n } while (isIdentifierChar(ch) || ch === 45); // '-'\n return this.finishToken(tok.jsxName, this.input.slice(start, this.pos));\n }", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n }", "function underscore (s) {\n return s.replace(/-/g, '_')\n}", "function isNameValid(name) {\n return /^[A-Za-z0-9_]+$/.test(name)\n}", "function toIdentifier(str){return str.split(' ').map(function(token){return token.slice(0,1).toUpperCase()+token.slice(1);}).join('').replace(/[^ _0-9a-z]/gi,'');}", "function snakeCase(input) {\n return lodashSnakeCase(input).replace(/\\_\\d/g, dashNumber => dashNumber.slice(1));\n}", "function pullNum(src){\n var num;\n var str;\n var test = src.indexOf(\"_\", 2);\n str = src.charAt(test+1) + src.charAt(test+2);\n num = parseInt(str);\n return num;\n}", "function nameChar(ch) {\n return ch == 45 || ch == 46 || ch == 58 || ch >= 65 && ch <= 90 || ch == 95 || ch >= 97 && ch <= 122 || ch >= 161\n}", "function isValidCharToStartIdentifier(ch) {\n // Allow ':' because of c++ namespace qualifiers for the global namespace, e.g.\n // ::ACDSystems::UI::PopupButton::TopRight.\n return isAnsiLetter(ch) || ch === '_' || ch == ':';\n }", "function normalizeName(name) {\n return name\n .toUpperCase()\n .replace(/[^A-Z0-9]/g, \" \")\n .trim()\n .split(/\\s+/)\n .join(\"_\");\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "function toPublicName(internalName) {\n return internalName.toUpperCase().replace(/[^A-Z0-9_]/g, '_');\n}", "parseIdentifierName() {\n let name = '';\n while (true) {\n const c = this.peek();\n if (isIdentifierStart(c) || isIdentifierContinue(c) || c === '$') {\n name += this.next();\n } else {\n break;\n }\n }\n return name;\n }", "function unescapeIdentifier(identifier) {\n return identifier.length >= 3 && identifier.charCodeAt(0) === 95 /* _ */ && identifier.charCodeAt(1) === 95 /* _ */ && identifier.charCodeAt(2) === 95 /* _ */ ? identifier.substr(1) : identifier;\n }", "function checkName(name){\r\n\tif(/^[A-Za-z0-9]+(?:[ _-][A-Za-z0-9]+)*$/.test(name))\t\t\r\n\t\treturn true;\r\n\treturn false;\r\n}", "function checkName(name){\r\n\tif(/^[A-Za-z0-9]+(?:[ _-][A-Za-z0-9]+)*$/.test(name))\t\t\r\n\t\treturn true;\r\n\treturn false;\r\n}", "function cleanFieldName(name) {\n return name.replace(/[-\\s]+/g, '_');\n }", "function a(e){// $ (dollar) and _ (underscore)\n// A..Z\n// a..z\n// \\ (backslash)\nreturn 36===e||95===e||e>=65&&90>=e||e>=97&&122>=e||92===e||e>=128&&l.NonAsciiIdentifierStart.test(String.fromCharCode(e))}", "function thunk(str){return str.replace(/-/g,'_').toUpperCase();}", "function characterSuitableForNames(char) {\n return /[-_A-Za-z0-9]/.test(char); // notice, there's no dot or hash!\n }", "function is_alphaDashUnderscore(str)\n{\n \n regexp = /[a-zA-Z_\\-]/;\n\n if (regexp.test(str))\n {\n alert(\"Correct Pattern\");\n }\n else\n {\n alert(\"Incorrect Pattern\");\n }\n}", "function initWord(word) {\n var underscores = [];\n for (var i = 0; i < word.length; i++) {\n underscores.push(\"<span class='letter'>_</span>\");\n }\n return underscores;\n }", "function jsxReadWord() {\n let ch;\n do {\n if (state.pos > input.length) {\n unexpected(\"Unexpectedly reached the end of input.\");\n return;\n }\n ch = input.charCodeAt(++state.pos);\n } while (IS_IDENTIFIER_CHAR[ch] || ch === charCodes.dash);\n finishToken(TokenType.jsxName);\n}", "adjustNameForPic(name) {\n return name.toLowerCase().replace(/ /g,\"_\"); \n }", "function underscore(content) {\n return `__${content}__`;\n}" ]
[ "0.69242716", "0.69093364", "0.6829715", "0.6829715", "0.6829715", "0.68044996", "0.6583544", "0.6545397", "0.6524183", "0.6524183", "0.6473978", "0.64677435", "0.6454978", "0.64251363", "0.64251363", "0.64251363", "0.63683015", "0.63683015", "0.63683015", "0.63683015", "0.6362096", "0.6331537", "0.6331537", "0.6310061", "0.6291263", "0.62480605", "0.6104891", "0.61002326", "0.6092896", "0.6011909", "0.60043716", "0.5977489", "0.59462196", "0.58853596", "0.58830625", "0.58758074", "0.5866131", "0.5866131", "0.58605653", "0.5860021", "0.5829894", "0.5801396", "0.5760106", "0.5756177", "0.5727829", "0.57190007", "0.57179725", "0.57130855", "0.5710396", "0.56658804", "0.56498945", "0.5633057", "0.5603754", "0.5599226", "0.5599226", "0.5599226", "0.5599226", "0.5599226", "0.5599226", "0.5599226", "0.5570455", "0.55655104", "0.55636114", "0.55624264", "0.5523153", "0.54906756", "0.5487936", "0.5476677", "0.54731", "0.5472818", "0.54485786", "0.5445663", "0.54410434", "0.5430915", "0.5430561", "0.5430561", "0.5430561", "0.5430561", "0.5430561", "0.5430561", "0.5430561", "0.5387834", "0.5382495", "0.53742605", "0.53627735", "0.53627735", "0.5353185", "0.5351455", "0.53462297", "0.5345425", "0.53375155", "0.53353363", "0.53271383", "0.5322867", "0.5321113" ]
0.62343794
31
Provided two types, return true if the types are equal (invariant).
function isEqualType(typeA, typeB) { // Equivalent types are equal. if (typeA === typeB) { return true; } // If either type is non-null, the other must also be non-null. if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) { return isEqualType(typeA.ofType, typeB.ofType); } // If either type is a list, the other must also be a list. if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) { return isEqualType(typeA.ofType, typeB.ofType); } // Otherwise the types are not equal. return false; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function typeEquals(type1, type2) {\n if (type1 === type2) return true;\n // TODO handle intersection types\n if (!(type1 instanceof UnionType)) return false;\n if (!(type2 instanceof UnionType)) return false;\n if (type1.types.length !== type2.types.length) return false;\n for (var i = 0; i < type1.types.length; i++) {\n // Theoretically we should use 'typeEquals' here, but we don't have nested unions in practice:\n if (type1.types[i] !== type2.types[i]) {\n return false;\n }\n }\n return true;\n }", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(typeA) && (0, _definition.isNonNullType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if ((0, _definition.isListType)(typeA) && (0, _definition.isListType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(typeA) && (0, _definition.isNonNullType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if ((0, _definition.isListType)(typeA) && (0, _definition.isListType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n\t // Equivalent types are equal.\n\t if (typeA === typeB) {\n\t return true;\n\t }\n\n\t // If either type is non-null, the other must also be non-null.\n\t if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) {\n\t return isEqualType(typeA.ofType, typeB.ofType);\n\t }\n\n\t // If either type is a list, the other must also be a list.\n\t if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) {\n\t return isEqualType(typeA.ofType, typeB.ofType);\n\t }\n\n\t // Otherwise the types are not equal.\n\t return false;\n\t}", "function sameType(a, b) {\n return typeof a === typeof b\n}", "function sameType(x, y) {\n return typeof x === typeof y && type (x) === type (y);\n }", "function sameType(x, y) {\n return typeof x === typeof y && type(x) === type(y);\n }", "function compareTypes(a, b) {\n var result = void 0;\n\n if (a === b) {\n return 0;\n }\n\n if (b instanceof TypeAlias || b instanceof TypeParameter || b instanceof TypeParameterApplication || b instanceof TypeTDZ) {\n b = b.unwrap();\n }\n\n if (a instanceof TypeAlias) {\n result = a.compareWith(b);\n } else if (a instanceof FlowIntoType || a instanceof TypeParameter || b instanceof FlowIntoType) {\n result = a.compareWith(b);\n } else if (a instanceof AnyType || a instanceof ExistentialType || a instanceof MixedType) {\n return 1;\n } else {\n result = a.compareWith(b);\n }\n\n if (b instanceof AnyType) {\n // Note: This check cannot be moved higher in the scope,\n // as this would prevent types from being propagated upwards.\n return 1;\n } else {\n return result;\n }\n}", "function doTypesOverlap(typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return typeA.getPossibleTypes().some(function (type) {\n\t return _typeB.isPossibleType(type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return typeA.isPossibleType(_typeB);\n\t }\n\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return _typeB.isPossibleType(typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function isEquivalent(a, b) {\n // Create arrays of property names\n var aProps = Object.getOwnPropertyNames(a);\n var bProps = Object.getOwnPropertyNames(b);\n // If number of properties is different,\n // objects are not equivalent\n if (aProps.length != bProps.length) {\n return false;\n }\n for (var i = 0; i < aProps.length; i++) {\n var propName = aProps[i];\n if (a[propName].constructor !== b[propName].constructor) {\n // If values do not have the same type, they are not\n // equal and the objects are not equivalent\n return false;\n }\n if (a[propName].constructor === Array || a[propName].constructor === Object) {\n if (!isEquivalent(a[propName], b[propName])) {\n return false;\n }\n } else if (a[propName] !== b[propName]) {\n // If values of same property are not equal,\n // objects are not equivalent\n return false;\n }\n }\n\n // If we made it this far, objects\n // are considered equivalent\n return true;\n}", "function doTypesOverlap(typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return typeA.getPossibleTypes().some(function (type) {\n return _typeB.isPossibleType(type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return typeA.isPossibleType(_typeB);\n }\n\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // Determine if the former type is a possible concrete type of the latter.\n return _typeB.isPossibleType(typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function equal(a, b) {\n\tif(typeof(a) !== typeof(b)) {\n\t\t// obvious\n\t\treturn false;\n\t} else {\n\t\tif(typeof(a) !== \"object\") {\n\t\t\t// \"number\" or \"string\"\n\t\t\treturn a === b;\n\t\t} else {\n\t\t\t// \"object\" (array)\n\t\t\tif(a.length !== b.length) {\n\t\t\t\treturn false;\n\t\t\t} else {\n\t\t\t\t// recurse!\n\t\t\t\tfor(var i=0; i<a.length; i++) {\n\t\t\t\t\tif(!equal(a[i], b[i])) {\n\t\t\t\t\t\treturn false;\n\t\t\t\t\t}\n\t\t\t\t}\n\n\t\t\t\treturn true;\n\t\t\t}\n\t\t}\n\t}\n}", "function are_equal(a1, a2)\n{\n if (typeof(a1) != typeof(a2))\n return false;\n \n switch(typeof(a1)) {\n case 'object':\n // arrays\n if (a1.length) {\n if (a1.length != a2.length)\n return false;\n for (var i = 0; i < a1.length; ++i) {\n if (!are_equal(a1[i], a2[i]))\n return false\n }\n }\n // associative arrays\n else {\n var keys = {};\n for (var key in a1) {\n keys[key] = true;\n }\n for (var key in a2) {\n keys[key] = true;\n }\n for (var key in keys) {\n if (!are_equal(a1[key], a2[key]))\n return false;\n }\n }\n return true;\n \n default:\n return a1 == a2;\n }\n}", "function _equals(a, b) {\n if (a === b || (a !== a && b !== b)) { // true for NaNs\n return true;\n }\n\n if (!a || !b) {\n return false;\n }\n\n // There is probably a cleaner way to do this check\n // Blame TDD :)\n if (a && typeof a.constructor === 'function' &&\n a.constructor.unionFactory === Union) {\n if (!(b && typeof b.constructor === 'function' &&\n b.constructor.unionFactory === Union)) {\n return false;\n }\n if (a.constructor !== b.constructor) {\n return false;\n }\n if (a.name !== b.name) {\n return false;\n }\n return _equals(a.payload, b.payload);\n }\n\n // I hate this block. Blame immutablejs :)\n if (typeof a.valueOf === 'function' &&\n typeof b.valueOf === 'function') {\n a = a.valueOf();\n b = b.valueOf();\n if (a === b || (a !== a && b !== b)) {\n return true;\n }\n if (!a || !b) {\n return false;\n }\n }\n if (typeof a.equals === 'function' &&\n typeof b.equals === 'function') {\n return a.equals(b);\n }\n return false;\n}", "function areThingsEqual(a, b) {\n var aKeys, bKeys, i;\n\n // Strings, booleans, numbers, null\n if (\n a === null ||\n typeof a === 'string' ||\n typeof a === 'boolean' ||\n typeof a === 'number' ||\n b === null ||\n typeof b === 'string' ||\n typeof b === 'boolean' ||\n typeof b === 'number'\n ) {\n return a === b;\n }\n\n // Dates\n if (util.isDate(a) || util.isDate(b)) {\n return util.isDate(a) && util.isDate(b) && a.getTime() === b.getTime();\n }\n\n // Arrays (no match since arrays are used as a $in)\n // undefined (no match since they mean field doesn't exist and can't be serialized)\n if (\n (!(util.isArray(a) && util.isArray(b)) && (util.isArray(a) || util.isArray(b))) ||\n a === undefined ||\n b === undefined\n ) {\n return false;\n }\n\n // General objects (check for deep equality)\n // a and b should be objects at this point\n try {\n aKeys = Object.keys(a);\n bKeys = Object.keys(b);\n } catch (e) {\n return false;\n }\n\n if (aKeys.length !== bKeys.length) {\n return false;\n }\n for (i = 0; i < aKeys.length; i += 1) {\n if (bKeys.indexOf(aKeys[i]) === -1) {\n return false;\n }\n if (!areThingsEqual(a[aKeys[i]], b[aKeys[i]])) {\n return false;\n }\n }\n return true;\n}", "function looseEqual(a, b) {\n if (a === b) return true;\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n }", "function looseEqual(a, b) {\n if (a === b) return true;\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n }", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n }", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n }", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n }", "function areThingsEqual (a, b) {\r\n var aKeys , bKeys , i;\r\n\r\n // Strings, booleans, numbers, null\r\n if (a === null || typeof a === 'string' || typeof a === 'boolean' || typeof a === 'number' ||\r\n b === null || typeof b === 'string' || typeof b === 'boolean' || typeof b === 'number') { return a === b; }\r\n\r\n // Dates\r\n if (util.isDate(a) || util.isDate(b)) { return util.isDate(a) && util.isDate(b) && a.getTime() === b.getTime(); }\r\n\r\n // Arrays (no match since arrays are used as a $in)\r\n // undefined (no match since they mean field doesn't exist and can't be serialized)\r\n if (util.isArray(a) || util.isArray(b) || a === undefined || b === undefined) { return false; }\r\n\r\n // General objects (check for deep equality)\r\n // a and b should be objects at this point\r\n try {\r\n aKeys = Object.keys(a);\r\n bKeys = Object.keys(b);\r\n } catch (e) {\r\n return false;\r\n }\r\n\r\n if (aKeys.length !== bKeys.length) { return false; }\r\n for (i = 0; i < aKeys.length; i += 1) {\r\n if (bKeys.indexOf(aKeys[i]) === -1) { return false; }\r\n if (!areThingsEqual(a[aKeys[i]], b[aKeys[i]])) { return false; }\r\n }\r\n return true;\r\n}", "function looseEqual(a, b) {\n if (a === b) {\n return true;\n }\n\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n }", "function looseEqual(a, b) {\n if (a === b) {\n return true;\n }\n\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n}", "function looseEqual(a, b) {\n if (a === b) {\n return true;\n }\n\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n}", "function looseEqual(a, b) {\n if (a === b) {\n return true;\n }\n\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n}", "function looseEqual(a, b) {\n if (a === b) {\n return true;\n }\n\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i]);\n });\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime();\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key]);\n });\n } else {\n /* istanbul ignore next */\n return false;\n }\n } catch (e) {\n /* istanbul ignore next */\n return false;\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b);\n } else {\n return false;\n }\n}", "function equalObjects(a, b) {\n if ((typeof a === 'undefined' ? 'undefined' : _typeof(a)) !== (typeof b === 'undefined' ? 'undefined' : _typeof(b))) {\n return false;\n }\n if ((typeof a === 'undefined' ? 'undefined' : _typeof(a)) !== 'object') {\n return a === b;\n }\n if (a === b) {\n return true;\n }\n if (toString.call(a) === '[object Date]') {\n if (toString.call(b) === '[object Date]') {\n return +a === +b;\n }\n return false;\n }\n if (Array.isArray(a)) {\n if (Array.isArray(b)) {\n if (a.length !== b.length) {\n return false;\n }\n for (var i = 0; i < a.length; i++) {\n if (!equalObjects(a[i], b[i])) {\n return false;\n }\n }\n return true;\n }\n return false;\n }\n if (Object.keys(a).length !== Object.keys(b).length) {\n return false;\n }\n for (var key in a) {\n if (!equalObjects(a[key], b[key])) {\n return false;\n }\n }\n return true;\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}", "function looseEqual (a, b) {\n if (a === b) { return true }\n var isObjectA = isObject(a);\n var isObjectB = isObject(b);\n if (isObjectA && isObjectB) {\n try {\n var isArrayA = Array.isArray(a);\n var isArrayB = Array.isArray(b);\n if (isArrayA && isArrayB) {\n return a.length === b.length && a.every(function (e, i) {\n return looseEqual(e, b[i])\n })\n } else if (a instanceof Date && b instanceof Date) {\n return a.getTime() === b.getTime()\n } else if (!isArrayA && !isArrayB) {\n var keysA = Object.keys(a);\n var keysB = Object.keys(b);\n return keysA.length === keysB.length && keysA.every(function (key) {\n return looseEqual(a[key], b[key])\n })\n } else {\n /* istanbul ignore next */\n return false\n }\n } catch (e) {\n /* istanbul ignore next */\n return false\n }\n } else if (!isObjectA && !isObjectB) {\n return String(a) === String(b)\n } else {\n return false\n }\n}" ]
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0.7463797
9
Provided a type and a super type, return true if the first type is either equal or a subset of the second super type (covariant). Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function isTypeSubTypeOf(schema, maybeSubType, superType) { // Equivalent type is a valid subtype if (maybeSubType === superType) { return true; } // If superType is non-null, maybeSubType must also be non-null. if (superType instanceof _definition.GraphQLNonNull) { if (maybeSubType instanceof _definition.GraphQLNonNull) { return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType); } return false; } else if (maybeSubType instanceof _definition.GraphQLNonNull) { // If superType is nullable, maybeSubType may be non-null or nullable. return isTypeSubTypeOf(schema, maybeSubType.ofType, superType); } // If superType type is a list, maybeSubType type must also be a list. if (superType instanceof _definition.GraphQLList) { if (maybeSubType instanceof _definition.GraphQLList) { return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType); } return false; } else if (maybeSubType instanceof _definition.GraphQLList) { // If superType is not a list, maybeSubType must also be not a list. return false; } // If superType type is an abstract type, maybeSubType type may be a currently // possible object type. if ((0, _definition.isAbstractType)(superType) && maybeSubType instanceof _definition.GraphQLObjectType && schema.isPossibleType(superType, maybeSubType)) { return true; } // Otherwise, the child type is not a valid subtype of the parent type. return false; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n\t // Equivalent type is a valid subtype\n\t if (maybeSubType === superType) {\n\t return true;\n\t }\n\n\t // If superType is non-null, maybeSubType must also be non-null.\n\t if (superType instanceof _definition.GraphQLNonNull) {\n\t if (maybeSubType instanceof _definition.GraphQLNonNull) {\n\t return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n\t }\n\t return false;\n\t } else if (maybeSubType instanceof _definition.GraphQLNonNull) {\n\t // If superType is nullable, maybeSubType may be non-null or nullable.\n\t return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n\t }\n\n\t // If superType type is a list, maybeSubType type must also be a list.\n\t if (superType instanceof _definition.GraphQLList) {\n\t if (maybeSubType instanceof _definition.GraphQLList) {\n\t return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n\t }\n\t return false;\n\t } else if (maybeSubType instanceof _definition.GraphQLList) {\n\t // If superType is not a list, maybeSubType must also be not a list.\n\t return false;\n\t }\n\n\t // If superType type is an abstract type, maybeSubType type may be a currently\n\t // possible object type.\n\t if ((0, _definition.isAbstractType)(superType) && maybeSubType instanceof _definition.GraphQLObjectType && schema.isPossibleType(superType, maybeSubType)) {\n\t return true;\n\t }\n\n\t // Otherwise, the child type is not a valid subtype of the parent type.\n\t return false;\n\t}", "function isSuperset(superset, subset) {\n // empty sets do not apply to this question\n // I know, technically, any non-empty set contains the empty set. But\n // practicelly, that just muddies the waters here\n if (superset.size === 0 || subset.size === 0) {\n return false;\n }\n for (let el of subset) {\n if (!superset.has(el)) {\n return false;\n }\n }\n return true;\n}", "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n } // If superType is non-null, maybeSubType must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(superType)) {\n if ((0, _definition.isNonNullType)(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if ((0, _definition.isNonNullType)(maybeSubType)) {\n // If superType is nullable, maybeSubType may be non-null or nullable.\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n } // If superType type is a list, maybeSubType type must also be a list.\n\n\n if ((0, _definition.isListType)(superType)) {\n if ((0, _definition.isListType)(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if ((0, _definition.isListType)(maybeSubType)) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n } // If superType type is an abstract type, check if it is super type of maybeSubType.\n // Otherwise, the child type is not a valid subtype of the parent type.\n\n\n return (0, _definition.isAbstractType)(superType) && ((0, _definition.isInterfaceType)(maybeSubType) || (0, _definition.isObjectType)(maybeSubType)) && schema.isSubType(superType, maybeSubType);\n}", "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n } // If superType is non-null, maybeSubType must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(superType)) {\n if ((0, _definition.isNonNullType)(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if ((0, _definition.isNonNullType)(maybeSubType)) {\n // If superType is nullable, maybeSubType may be non-null or nullable.\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n } // If superType type is a list, maybeSubType type must also be a list.\n\n\n if ((0, _definition.isListType)(superType)) {\n if ((0, _definition.isListType)(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if ((0, _definition.isListType)(maybeSubType)) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n } // If superType type is an abstract type, check if it is super type of maybeSubType.\n // Otherwise, the child type is not a valid subtype of the parent type.\n\n\n return (0, _definition.isAbstractType)(superType) && ((0, _definition.isInterfaceType)(maybeSubType) || (0, _definition.isObjectType)(maybeSubType)) && schema.isSubType(superType, maybeSubType);\n}", "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n } // If superType is non-null, maybeSubType must also be non-null.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(superType)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n // If superType is nullable, maybeSubType may be non-null or nullable.\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n } // If superType type is a list, maybeSubType type must also be a list.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(superType)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n } // If superType type is an abstract type, maybeSubType type may be a currently\n // possible object type.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(superType) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isObjectType\"])(maybeSubType) && schema.isPossibleType(superType, maybeSubType)) {\n return true;\n } // Otherwise, the child type is not a valid subtype of the parent type.\n\n\n return false;\n}", "isSupersetOf (other) {\n return this._isSupersetOf(this.def, other.def)\n }", "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n } // If superType is non-null, maybeSubType must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(superType)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n // If superType is nullable, maybeSubType may be non-null or nullable.\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n } // If superType type is a list, maybeSubType type must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(superType)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n } // If superType type is an abstract type, check if it is super type of maybeSubType.\n // Otherwise, the child type is not a valid subtype of the parent type.\n\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(superType) && (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isInterfaceType\"])(maybeSubType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isObjectType\"])(maybeSubType)) && schema.isSubType(superType, maybeSubType);\n}", "function isTypeSubTypeOf(schema, maybeSubType, superType) {\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n } // If superType is non-null, maybeSubType must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(superType)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(maybeSubType)) {\n // If superType is nullable, maybeSubType may be non-null or nullable.\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType);\n } // If superType type is a list, maybeSubType type must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(superType)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n return isTypeSubTypeOf(schema, maybeSubType.ofType, superType.ofType);\n }\n\n return false;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(maybeSubType)) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n } // If superType type is an abstract type, check if it is super type of maybeSubType.\n // Otherwise, the child type is not a valid subtype of the parent type.\n\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(superType) && (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isInterfaceType\"])(maybeSubType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isObjectType\"])(maybeSubType)) && schema.isSubType(superType, maybeSubType);\n}", "isSubset(superset) {\n return XSet.isSubset(this, superset);\n }", "function typeEquals(type1, type2) {\n if (type1 === type2) return true;\n // TODO handle intersection types\n if (!(type1 instanceof UnionType)) return false;\n if (!(type2 instanceof UnionType)) return false;\n if (type1.types.length !== type2.types.length) return false;\n for (var i = 0; i < type1.types.length; i++) {\n // Theoretically we should use 'typeEquals' here, but we don't have nested unions in practice:\n if (type1.types[i] !== type2.types[i]) {\n return false;\n }\n }\n return true;\n }", "function is_a_superset(decimal_set1, decimal_set2) {\n var rc = find_subset_relationship(decimal_set1, decimal_set2);\n if (rc == 2) {\n\treturn true;\n }\n return false;\n}", "function isTypeSubTypeOf(_x3, _x4) {\n var _again2 = true;\n\n _function2: while (_again2) {\n var maybeSubType = _x3,\n superType = _x4;\n _again2 = false;\n\n // Equivalent type is a valid subtype\n if (maybeSubType === superType) {\n return true;\n }\n\n // If superType is non-null, maybeSubType must also be nullable.\n if (superType instanceof _typeDefinition.GraphQLNonNull) {\n if (maybeSubType instanceof _typeDefinition.GraphQLNonNull) {\n _x3 = maybeSubType.ofType;\n _x4 = superType.ofType;\n _again2 = true;\n continue _function2;\n }\n return false;\n } else if (maybeSubType instanceof _typeDefinition.GraphQLNonNull) {\n // If superType is nullable, maybeSubType may be non-null.\n _x3 = maybeSubType.ofType;\n _x4 = superType;\n _again2 = true;\n continue _function2;\n }\n\n // If superType type is a list, maybeSubType type must also be a list.\n if (superType instanceof _typeDefinition.GraphQLList) {\n if (maybeSubType instanceof _typeDefinition.GraphQLList) {\n _x3 = maybeSubType.ofType;\n _x4 = superType.ofType;\n _again2 = true;\n continue _function2;\n }\n return false;\n } else if (maybeSubType instanceof _typeDefinition.GraphQLList) {\n // If superType is not a list, maybeSubType must also be not a list.\n return false;\n }\n\n // If superType type is an abstract type, maybeSubType type may be a currently\n // possible object type.\n if ((0, _typeDefinition.isAbstractType)(superType) && maybeSubType instanceof _typeDefinition.GraphQLObjectType && superType.isPossibleType(maybeSubType)) {\n return true;\n }\n\n // Otherwise, the child type is not a valid subtype of the parent type.\n return false;\n }\n}", "function socialCheck(superset, subset) {\n if (0 === subset.length) {\n return false;\n }\n return subset.every(function(value) {\n return superset.indexOf(value) >= 0;\n });\n}", "function isSuperset(set, subset) {\n for (var elem of subset) {\n if (!set.has(elem)) {\n return false;\n }\n }\n return true;\n}", "function doTypesOverlap(typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return typeA.getPossibleTypes().some(function (type) {\n return _typeB.isPossibleType(type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return typeA.isPossibleType(_typeB);\n }\n\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // Determine if the former type is a possible concrete type of the latter.\n return _typeB.isPossibleType(typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function isSubset(a, b) {\n\tfunction s(x) { return _.uniqWith(x, _.isEqual) }\n\treturn (_.intersectionWith(s(a),s(b),_.isEqual).length === s(a).length);\n}", "function isEqualType(typeA, typeB) {\n\t // Equivalent types are equal.\n\t if (typeA === typeB) {\n\t return true;\n\t }\n\n\t // If either type is non-null, the other must also be non-null.\n\t if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) {\n\t return isEqualType(typeA.ofType, typeB.ofType);\n\t }\n\n\t // If either type is a list, the other must also be a list.\n\t if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) {\n\t return isEqualType(typeA.ofType, typeB.ofType);\n\t }\n\n\t // Otherwise the types are not equal.\n\t return false;\n\t}", "function isTypeSubTypeOf(_x3, _x4) {\n\t var _again2 = true;\n\n\t _function2: while (_again2) {\n\t var maybeSubType = _x3,\n\t superType = _x4;\n\t _again2 = false;\n\n\t // Equivalent type is a valid subtype\n\t if (maybeSubType === superType) {\n\t return true;\n\t }\n\n\t // If superType is non-null, maybeSubType must also be nullable.\n\t if (superType instanceof _typeDefinition.GraphQLNonNull) {\n\t if (maybeSubType instanceof _typeDefinition.GraphQLNonNull) {\n\t _x3 = maybeSubType.ofType;\n\t _x4 = superType.ofType;\n\t _again2 = true;\n\t continue _function2;\n\t }\n\t return false;\n\t } else if (maybeSubType instanceof _typeDefinition.GraphQLNonNull) {\n\t // If superType is nullable, maybeSubType may be non-null.\n\t _x3 = maybeSubType.ofType;\n\t _x4 = superType;\n\t _again2 = true;\n\t continue _function2;\n\t }\n\n\t // If superType type is a list, maybeSubType type must also be a list.\n\t if (superType instanceof _typeDefinition.GraphQLList) {\n\t if (maybeSubType instanceof _typeDefinition.GraphQLList) {\n\t _x3 = maybeSubType.ofType;\n\t _x4 = superType.ofType;\n\t _again2 = true;\n\t continue _function2;\n\t }\n\t return false;\n\t } else if (maybeSubType instanceof _typeDefinition.GraphQLList) {\n\t // If superType is not a list, maybeSubType must also be not a list.\n\t return false;\n\t }\n\n\t // If superType type is an abstract type, maybeSubType type may be a currently\n\t // possible object type.\n\t if ((0, _typeDefinition.isAbstractType)(superType) && maybeSubType instanceof _typeDefinition.GraphQLObjectType && superType.isPossibleType(maybeSubType)) {\n\t return true;\n\t }\n\n\t // Otherwise, the child type is not a valid subtype of the parent type.\n\t return false;\n\t }\n\t}", "function doTypesOverlap(typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return typeA.getPossibleTypes().some(function (type) {\n\t return _typeB.isPossibleType(type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return typeA.isPossibleType(_typeB);\n\t }\n\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return _typeB.isPossibleType(typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function isSuperset(set, subset)\n{\n for(let elem of subset)\n {\n if(!set.has(elem)){ return false; }\n }\n return true;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(typeA) && (0, _definition.isNonNullType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if ((0, _definition.isListType)(typeA) && (0, _definition.isListType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if ((0, _definition.isNonNullType)(typeA) && (0, _definition.isNonNullType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if ((0, _definition.isListType)(typeA) && (0, _definition.isListType)(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n }\n\n // If either type is non-null, the other must also be non-null.\n if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // If either type is a list, the other must also be a list.\n if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // Otherwise the types are not equal.\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n }\n\n // If either type is non-null, the other must also be non-null.\n if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // If either type is a list, the other must also be a list.\n if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // Otherwise the types are not equal.\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n }\n\n // If either type is non-null, the other must also be non-null.\n if (typeA instanceof _definition.GraphQLNonNull && typeB instanceof _definition.GraphQLNonNull) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // If either type is a list, the other must also be a list.\n if (typeA instanceof _definition.GraphQLList && typeB instanceof _definition.GraphQLList) {\n return isEqualType(typeA.ofType, typeB.ofType);\n }\n\n // Otherwise the types are not equal.\n return false;\n}", "function isSubset(setA, setB){\n\n\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isSubtypeOf(A, B) {\n return A === B || A.prototype instanceof B;\n}", "function isSubset(s1,s2){\n var flag = true;\n\n for(let i of s1.values()){\n flag = true;\n for(let j of s2.values()){\n if(i == j){\n flag = false;\n break;\n }\n }\n //If flag here, then some value i in s1 is not present in s2\n if(flag) break;\n }\n\n return !flag;\n}", "function is_a_subset(decimal_set1, decimal_set2) {\n var rc = find_subset_relationship(decimal_set1, decimal_set2);\n if (rc == 1) {\n\treturn true;\n }\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function isEqualType(typeA, typeB) {\n // Equivalent types are equal.\n if (typeA === typeB) {\n return true;\n } // If either type is non-null, the other must also be non-null.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isNonNullType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // If either type is a list, the other must also be a list.\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeA) && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isListType\"])(typeB)) {\n return isEqualType(typeA.ofType, typeB.ofType);\n } // Otherwise the types are not equal.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if ((0, _definition.isAbstractType)(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if ((0, _definition.isAbstractType)(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function isSubsetOf(subset, superset, cmp, contains, ordered) {\n if (!contains) {\n if (subset.length !== superset.length) return false;\n superset = superset.slice();\n }\n\n return subset.every(function(elem, idx) {\n if (ordered) return cmp ? cmp(elem, superset[idx]) : elem === superset[idx];\n\n if (!cmp) {\n var matchIdx = superset.indexOf(elem);\n if (matchIdx === -1) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n }\n\n return superset.some(function(elem2, matchIdx) {\n if (!cmp(elem, elem2)) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n });\n });\n }", "function isSubsetOf(subset, superset, cmp, contains, ordered) {\n if (!contains) {\n if (subset.length !== superset.length) return false;\n superset = superset.slice();\n }\n\n return subset.every(function(elem, idx) {\n if (ordered) return cmp ? cmp(elem, superset[idx]) : elem === superset[idx];\n\n if (!cmp) {\n var matchIdx = superset.indexOf(elem);\n if (matchIdx === -1) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n }\n\n return superset.some(function(elem2, matchIdx) {\n if (!cmp(elem, elem2)) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n });\n });\n }", "function isSubsetOf(subset, superset, cmp, contains, ordered) {\n if (!contains) {\n if (subset.length !== superset.length) return false;\n superset = superset.slice();\n }\n\n return subset.every(function(elem, idx) {\n if (ordered) return cmp ? cmp(elem, superset[idx]) : elem === superset[idx];\n\n if (!cmp) {\n var matchIdx = superset.indexOf(elem);\n if (matchIdx === -1) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n }\n\n return superset.some(function(elem2, matchIdx) {\n if (!cmp(elem, elem2)) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n });\n });\n }", "function isSubsetOf(subset, superset, cmp, contains, ordered) {\n if (!contains) {\n if (subset.length !== superset.length) return false;\n superset = superset.slice();\n }\n\n return subset.every(function(elem, idx) {\n if (ordered) return cmp ? cmp(elem, superset[idx]) : elem === superset[idx];\n\n if (!cmp) {\n var matchIdx = superset.indexOf(elem);\n if (matchIdx === -1) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n }\n\n return superset.some(function(elem2, matchIdx) {\n if (!cmp(elem, elem2)) return false;\n\n // Remove match from superset so not counted twice if duplicate in subset.\n if (!contains) superset.splice(matchIdx, 1);\n return true;\n });\n });\n }", "static canMergeConstraints(type1, type2) {\n return Type._canMergeCanReadSubset(type1, type2) && Type._canMergeCanWriteSuperset(type1, type2);\n }", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function isSubset(array1, array2) {\n\t\n\treturn array2.every(function (element) {\n\t return array1.includes(element);\n\t});\n }", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _definition.GraphQLInterfaceType || typeA instanceof _definition.GraphQLUnionType) {\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return schema.getPossibleTypes(typeA).some(function (type) {\n\t return schema.isPossibleType(_typeB, type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return schema.isPossibleType(typeA, _typeB);\n\t }\n\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return schema.isPossibleType(_typeB, typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function isSubTypeOf(baseType, argumentType, openWorldEnabler) {\n const concreteType = isOverrideType(baseType);\n let subExtensionTable;\n if (concreteType === 'term' || baseType === 'term') {\n return false;\n }\n if (concreteType) {\n // Concrete dataType is known by sparqlee.\n subExtensionTable = exports.superTypeDictTable[concreteType];\n }\n else {\n // Datatype is a custom datatype\n subExtensionTable = getSuperTypes(baseType, openWorldEnabler);\n }\n return subExtensionTable[argumentType] !== undefined;\n}", "function isSubset(as, bs) {\n return as.every(function (a) {\n return bs.indexOf(a) != -1;\n });\n }", "function checkSubsetArrays(arr1, arr2) {\n var isSubset = false;\n\n if (arr1.length > arr2.length) {\n return false;\n } else {\n for(var i = 0; i < arr1.length; i++) {\n for(var j = 0; j < arr2.length; j++) {\n if(arr1[i] == arr2[j]) {\n isSubset = true;\n }\n }\n if(isSubset == false) {\n return false;\n }\n isSubset = false;\n }\n }\n\n return true;\n}", "function s_is_subset(arr1, arr2) {\r\n\tfor(var i =0; i < arr1.length; i++) {\r\n\t\t\r\n\t\t//Check for repeated elements\r\n\t\tvar item = arr1[i];\r\n\t\tfor(var j = 0; j < arr1.length; j++) {\r\n\t\t\tif(j == i)\r\n\t\t\t\tcontinue;\r\n\t\t\telse if (arr1[j] == item)\r\n\t\t\t\treturn false;\r\n\t\t}\r\n\t\t\r\n\t \tif(arr2.indexOf(item) == -1)\r\n\t \t\treturn false;\r\n }\r\n return true;\r\n}", "isSuperset(subset) {\n return XSet.isSuperset(this, subset);\n }", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isPossibleType(typeA, typeB);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function isSubset(firstSet, secondSet) {\n return Array.from(firstSet).reduce(function(allPresent, element) {\n return allPresent && secondSet.has(element)\n }, true)\n }", "isProperSubset(superset) {\n return XSet.isProperSubset(this, superset);\n }", "function subType (subType, genType) {\n\tsubType += '';\n\tgenType += '';\n\tif (subType === genType) return true;\n\tvar typePriority = ['double', 'float', 'int', 'uint'];\n\tvar subIdx = typePriority.indexOf(subType);\n\tvar genIdx = typePriority.indexOf(genType);\n\tif (subIdx >= 0 && genIdx >= 0 && subIdx >= genIdx) return true;\n\treturn false;\n}", "function isHitsEqual(hit0,hit1){if(!hit0&&!hit1){return true;}if(hit0&&hit1){return hit0.component===hit1.component&&isHitPropsWithin(hit0,hit1)&&isHitPropsWithin(hit1,hit0);// ensures all props are identical\n}return false;}// Returns true if all of subHit's non-standard properties are within superHit", "function isSuperSet(setD, subset) {\n let isSuperSetBool = true;\n for(let element of subset) {\n if (!setD.has(element)) {\n isSuperSetBool = false;\n break;\n }\n\n }\n return isSuperSetBool;\n\n}", "function areEqual(as, bs) {\n return as.length == bs.length && isSubset(as, bs);\n }", "function CheckSubsetArray(arrayA, arrayB)\n{\n if(arrayA.every( ai => arrayB.includes(ai)) && arrayA.length !=arrayB.length)\n {\n console.log('Array A is subset of Array B'); \n }\n else if(arrayB.every( ai => arrayA.includes(ai)) && arrayA.length !=arrayB.length)\n {\n console.log('Array B is subset of Array A'); \n } \n else if(arrayA.every( ai => arrayB.includes(ai)) && arrayA.length ==arrayB.length)\n {\n console.log('Array A is same as Array B'); \n }\n else\n {\n console.log('Array A and Array B are not equal.'); \n }\n}", "function arrayContainsArray(superset, subset) {\n if (0 === subset.length) {\n return false;\n }\n return subset.every(function(value) {\n return superset.indexOf(value) >= 0;\n });\n }", "function hasOneSupertype(node) {\n if (!node.extends || node.extends.length === 0) {\n return false;\n }\n if (node.extends.length !== 1) {\n return true;\n }\n const expr = node.extends[0].expression;\n return (expr.type !== utils_1.AST_NODE_TYPES.Identifier || expr.name !== 'Function');\n }", "function baseTypeStrictlyMatches(right) {\n\t var left = this.getTypeAnnotation();\n\t right = right.getTypeAnnotation();\n\n\t if (!t.isAnyTypeAnnotation() && t.isFlowBaseAnnotation(left)) {\n\t return right.type === left.type;\n\t }\n\t}", "function baseTypeStrictlyMatches(right) {\n\t var left = this.getTypeAnnotation();\n\t right = right.getTypeAnnotation();\n\n\t if (!t.isAnyTypeAnnotation() && t.isFlowBaseAnnotation(left)) {\n\t return right.type === left.type;\n\t }\n\t}", "function forTypeOrAnySupertype(context, type, predicate) {\n var _a;\n if (predicate(type)) {\n return true;\n }\n if (!type.isClassOrInterface() && type.symbol) {\n type = context.checker.getDeclaredTypeOfSymbol(type.symbol);\n }\n return ((_a = type.getBaseTypes()) !== null && _a !== void 0 ? _a : []).some(superType => forTypeOrAnySupertype(context, superType, predicate));\n}", "function isSubArrayOf(parent, child) {\n return (_.intersection(parent, child)).length == child.length\n}", "function expressionContainsSuperKeyword(expression, typescript) {\n if (isSuperExpression(expression, typescript))\n return true;\n else if (typescript.isPropertyAccessExpression(expression)) {\n return expressionContainsSuperKeyword(expression.expression, typescript) || expressionContainsSuperKeyword(expression.name, typescript);\n }\n else if (typescript.isElementAccessExpression(expression)) {\n return expressionContainsSuperKeyword(expression.expression, typescript) || expressionContainsSuperKeyword(expression.argumentExpression, typescript);\n }\n else if (typescript.isParenthesizedExpression(expression))\n return expressionContainsSuperKeyword(expression.expression, typescript);\n else if (typescript.isAsExpression(expression))\n return expressionContainsSuperKeyword(expression.expression, typescript);\n else if (typescript.isTypeAssertion(expression))\n return expressionContainsSuperKeyword(expression.expression, typescript);\n else {\n return false;\n }\n}", "function baseTypeStrictlyMatches(right) {\n var left = this.getTypeAnnotation();\n right = right.getTypeAnnotation();\n\n if (!t.isAnyTypeAnnotation() && t.isFlowBaseAnnotation(left)) {\n return right.type === left.type;\n }\n}", "isProperSuperset(subset) {\n return XSet.isProperSuperset(this, subset);\n }", "equals(type) {\n if (!(type instanceof TupleType)) {\n return false;\n }\n return abstract_1.Type.isTypeListEqual(type.elements, this.elements);\n }", "function sameType(a, b) {\n return typeof a === typeof b\n}", "doTypeChecks(a, b) {\n const checkArrayOne = a.getCheck();\n const checkArrayTwo = b.getCheck();\n\n if (!checkArrayOne || !checkArrayTwo) {\n // Null arrays can only connect to other null arrays.\n return checkArrayOne == checkArrayTwo;\n }\n\n // Find any intersection in the check lists.\n for (let i = 0; i < checkArrayOne.length; i++) {\n if (checkArrayTwo.indexOf(checkArrayOne[i]) != -1) {\n return true;\n }\n }\n // No intersection.\n return false;\n }", "function equalSet(set1,set2) {\n\treturn (isSubset(set1,set2) && isSubset(set2,set1));\n}", "function sameVariant(v1, v2) {\r\n if (v1 === v2) {\r\n return true;\r\n }\r\n if ((!v1 && v2) || (v1 && !v2)) {\r\n return false;\r\n }\r\n if (v1.arrayType !== v2.arrayType) {\r\n return false;\r\n }\r\n if (v1.dataType !== v2.dataType) {\r\n return false;\r\n }\r\n if (v1.value === v2.value) {\r\n return true;\r\n }\r\n if (v1.arrayType === VariantArrayType_enum_1.VariantArrayType.Scalar) {\r\n if (Array.isArray(v1.value) && Array.isArray(v2.value)) {\r\n return __check_same_array(v1.value, v2.value);\r\n }\r\n if (Buffer.isBuffer(v1.value) && Buffer.isBuffer(v2.value)) {\r\n return v1.value.equals(v2.value);\r\n }\r\n }\r\n if (v1.arrayType === VariantArrayType_enum_1.VariantArrayType.Array) {\r\n return __check_same_array(v1.value, v2.value);\r\n }\r\n else if (v1.arrayType === VariantArrayType_enum_1.VariantArrayType.Matrix) {\r\n if (!__check_same_array(v1.dimensions, v2.dimensions)) {\r\n return false;\r\n }\r\n return __check_same_array(v1.value, v2.value);\r\n }\r\n return false;\r\n}", "function supersetArray(x,y){\n first=objectOne(x) \n second=objectTwo(y)\n combined=object(x,y)\n\n lFirst=Object.keys(first).length\n lSecond=Object.keys(second).length\n lCombined=Object.keys(combined).length\n\n if(lCombined==lFirst){\n return true;\n }\n else{\n return false;\n }\n}", "function sameType(x, y) {\n return typeof x === typeof y && type (x) === type (y);\n }", "function doTypesConflict(type1, type2) {\n if (type1 instanceof _definition.GraphQLList) {\n return type2 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLList) {\n return type1 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type1 instanceof _definition.GraphQLNonNull) {\n return type2 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLNonNull) {\n return type1 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n return false;\n}", "function doTypesConflict(type1, type2) {\n if (type1 instanceof _definition.GraphQLList) {\n return type2 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLList) {\n return type1 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type1 instanceof _definition.GraphQLNonNull) {\n return type2 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLNonNull) {\n return type1 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n return false;\n}", "function s_array_1_is_subset_of_2(arr1, arr2, sort_function)\n{\n\tif (!isArray(arr1) || !isArray(arr2))\n\t\treturn false;\n\t// easy case\n\tif (arr1.length > arr2.length)\n\t\treturn false;\n\t\t\n\t// counters\n\tvar i=0, j=0;\n\t// values\n\tvar a=0, b=0;\n\t\n\t// comparison function\n\tvar the_compare;\n\tif (typeof(sort_function) != \"function\")\n\t\t//the_compare = function(a1,b1) { return a1 < b1 ? -1 : (a1 > b1 ? 1 : 0); };\n\t\tthe_compare = function(a1,b1) { return [a1,b1].sort()[0] == a1 ? -1 : 1; };\n\telse\n\t\tthe_compare = sort_function;\n\t\n\t// the continues should speed up execution ...\n\twhile (i < arr1.length && j < arr2.length)\n\t{\n\t\ta = arr1[i];\n\t\tb = arr2[j];\n\t\t\n\t\tif (a === b)\n\t\t{\n\t\t\ti++;\n\t\t\tj++;\n\t\t\tcontinue;\n\t\t}\n\t\t// a < b\n\t\telse if (the_compare(a,b) == -1)\n\t\t{\n\t\t\treturn false;\n\t\t}\n\t\telse\n\t\t{\n\t\t\tj++;\n\t\t\tcontinue;\n\t\t}\n\t}\n\n\tif (i == arr1.length)\n\t\treturn true;\n\t\n\treturn false;\n}", "equals(type) {\n return TypeChecker.compareTypes({type: this}, {type});\n }", "is(type) { return this.type == type; }", "subset(otherSet) {\n const firstSet = this.values()\n\n return firstSet.every(value => {\n return otherSet.has(value)\n })\n }", "function sameType(x, y) {\n return typeof x === typeof y && type(x) === type(y);\n }", "isStrengthened(type1, type2) {\n const type1Id = this.getTypeId(type1)\n const type2Id = this.getTypeId(type2)\n return this.typeTable[type1Id][0].includes(type2Id)\n }", "function isSubset(arrayOne, arrayTwo) {\n\tvar check = false;\n\tvar count = 0;\n\tif((!Array.isArray(arrayOne) )|| (!Array.isArray(arrayTwo))) {\n\t\treturn check;\n\t\n\t} else if((Array.isArray(arrayOne) ) && (Array.isArray(arrayTwo))) {\n\t\tif(arrayOne.length < arrayTwo.length) {\n\t\treturn check;\n\t}else if(arrayOne.length > arrayTwo.length) {\n\t\tfor(var i = 0; i < arrayTwo.length; i++) {\n\t\t\tfor(var j = 0; j < arrayOne.length; j++) {\n\t\t\t\tif( arrayTwo[i] === arrayOne[j] ) {\n\t\t\t\t console.log(count);\n\t\t\t\t\tcount += 1;\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\t\n\t\t}\n\t}\n\tif(count >= arrayTwo.length) {\n\t\t\tcheck = true;\n\t}\n\n\t\n\treturn check;\n}", "function scaleCompatible(scaleType1, scaleType2) {\n return SCALE_CATEGORY_INDEX[scaleType1] === SCALE_CATEGORY_INDEX[scaleType2];\n}", "function lisp_is_subclass(c, sc) {\n if (c === sc) {\n return true;\n } else {\n var sups = lisp_superclasses_of(c);\n for (var i = 0; i < sups.length; i++) {\n if (lisp_is_subclass(sups[i], sc)) {\n return true;\n }\n }\n return false;\n }\n}", "function equal(a, b) {\n\tif(typeof(a) !== typeof(b)) {\n\t\t// obvious\n\t\treturn false;\n\t} else {\n\t\tif(typeof(a) !== \"object\") {\n\t\t\t// \"number\" or \"string\"\n\t\t\treturn a === b;\n\t\t} else {\n\t\t\t// \"object\" (array)\n\t\t\tif(a.length !== b.length) {\n\t\t\t\treturn false;\n\t\t\t} else {\n\t\t\t\t// recurse!\n\t\t\t\tfor(var i=0; i<a.length; i++) {\n\t\t\t\t\tif(!equal(a[i], b[i])) {\n\t\t\t\t\t\treturn false;\n\t\t\t\t\t}\n\t\t\t\t}\n\n\t\t\t\treturn true;\n\t\t\t}\n\t\t}\n\t}\n}", "function isEqual(a, b) {\n if (a.Subtype !== b.Subtype || a.Params.CheckSum.toString() !== b.Params.CheckSum.toString() || a.Params.Size !== b.Params.Size || a.Params.CreationDate !== b.Params.CreationDate || a.Params.ModDate !== b.Params.ModDate) {\n return false;\n }\n\n return true;\n}", "function functionApplicable( subdatatype, desc ) {\n\n // it is applicable to the elements data type\n if( desc.datatype.includes( subdatatype ) ) {\n return true;\n }\n\n // it is applicable to any datatype\n if( desc.datatype.includes( 'all' ) ) {\n return true;\n }\n\n // applicable to bagged types, need matching subdatatype\n if( desc.datatype.includes( 'bag' ) || desc.datatype.includes( 'set' ) ) {\n\n if( !('subdatatype' in desc)\n || desc.subdatatype.includes( 'all' )\n || desc.subdatatype.includes( subdatatype ) ) {\n // no subdatatype is an implicit \"all\"\n // subdatatype matches\n return true;\n }\n\n }\n\n // nothing matched\n return false;\n\n }", "function sameSubgrid(row1, col1, row2, col2, size) {\n let subSize = Math.floor(Math.sqrt(size));\n return Math.floor(row1 / subSize) === Math.floor(row2 / subSize) &&\n Math.floor(col1 / subSize) === Math.floor(col2 / subSize);\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "_sameType(firstVersion, secondRevision) {\n return firstVersion && secondRevision && firstVersion.entityId === secondRevision.entityId;\n }", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function instanceOf(left,right) {\n let proto = left.__proto__;\n let prototype = right.prototype\n while(true) {\n if(proto === null) return false\n if(proto === prototype) return true\n proto = proto.__proto__;\n }\n}", "typeMatches(inspectedType) {\n if (this.exactTypeMatches(inspectedType)) {\n return true;\n }\n const baseTypes = inspectedType.getBaseTypes() || [];\n return baseTypes.some(base => this.exactTypeMatches(base));\n }", "function isTypeSubtype(input) {\r\n return typeof input === \"string\" && input.split(\"/\").length === 2;\r\n}", "function isOneOf(a, b) {\n if (b === void 0) { b = []; }\n return b.some(function (v) { return a === v; });\n}" ]
[ "0.6361967", "0.6354921", "0.6277695", "0.6277695", "0.62642574", "0.62472326", "0.6220855", "0.6220855", "0.62057275", "0.6173688", "0.6173208", "0.61647755", "0.61640644", "0.6134104", "0.61242557", "0.6121877", "0.61107874", "0.6105485", "0.61054015", "0.6093324", "0.6078311", "0.6078311", "0.6073623", "0.6073623", "0.6073623", "0.60527796", "0.6017759", "0.60041887", "0.5990822", "0.5971077", "0.5957336", "0.5957336", "0.59360874", "0.59360874", "0.5929542", "0.5929542", "0.5929542", "0.5929542", "0.5859938", "0.5817671", "0.5817671", "0.5812857", "0.5794221", "0.5794221", "0.5794221", "0.577408", "0.575443", "0.57258844", "0.5687146", "0.5685458", "0.5663159", "0.5656709", "0.56489", "0.56331813", "0.56127733", "0.5596774", "0.55534995", "0.55142105", "0.55101246", "0.54830134", "0.547826", "0.54001945", "0.54001945", "0.5394744", "0.5366937", "0.5313475", "0.529295", "0.52752477", "0.52709347", "0.52690154", "0.52521366", "0.52500844", "0.5216327", "0.52087015", "0.51876277", "0.5185114", "0.5185114", "0.51822704", "0.51800466", "0.5170661", "0.5168107", "0.5130342", "0.5129017", "0.5121986", "0.5117375", "0.51013774", "0.50983703", "0.5096542", "0.5093779", "0.5088364", "0.50523376", "0.5042882", "0.504067", "0.504067", "0.5033674", "0.50166756", "0.50013715", "0.4998167" ]
0.63752544
2
Provided two composite types, determine if they "overlap". Two composite types overlap when the Sets of possible concrete types for each intersect. This is often used to determine if a fragment of a given type could possibly be visited in a context of another type. This function is commutative.
function doTypesOverlap(schema, typeA, typeB) { // So flow is aware this is constant var _typeB = typeB; // Equivalent types overlap if (typeA === _typeB) { return true; } if ((0, _definition.isAbstractType)(typeA)) { if ((0, _definition.isAbstractType)(_typeB)) { // If both types are abstract, then determine if there is any intersection // between possible concrete types of each. return schema.getPossibleTypes(typeA).some(function (type) { return schema.isPossibleType(_typeB, type); }); } // Determine if the latter type is a possible concrete type of the former. return schema.isPossibleType(typeA, _typeB); } if ((0, _definition.isAbstractType)(_typeB)) { // Determine if the former type is a possible concrete type of the latter. return schema.isPossibleType(_typeB, typeA); } // Otherwise the types do not overlap. return false; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function doTypesOverlap(typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return typeA.getPossibleTypes().some(function (type) {\n\t return _typeB.isPossibleType(type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return typeA.isPossibleType(_typeB);\n\t }\n\n\t if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return _typeB.isPossibleType(typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function doTypesOverlap(typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if (typeA instanceof _typeDefinition.GraphQLInterfaceType || typeA instanceof _typeDefinition.GraphQLUnionType) {\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return typeA.getPossibleTypes().some(function (type) {\n return _typeB.isPossibleType(type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return typeA.isPossibleType(_typeB);\n }\n\n if (_typeB instanceof _typeDefinition.GraphQLInterfaceType || _typeB instanceof _typeDefinition.GraphQLUnionType) {\n // Determine if the former type is a possible concrete type of the latter.\n return _typeB.isPossibleType(typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _definition.GraphQLInterfaceType || typeA instanceof _definition.GraphQLUnionType) {\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return schema.getPossibleTypes(typeA).some(function (type) {\n\t return schema.isPossibleType(_typeB, type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return schema.isPossibleType(typeA, _typeB);\n\t }\n\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return schema.isPossibleType(_typeB, typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if ((0, _definition.isAbstractType)(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if ((0, _definition.isAbstractType)(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isPossibleType(typeA, typeB);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "static canMergeConstraints(type1, type2) {\n return Type._canMergeCanReadSubset(type1, type2) && Type._canMergeCanWriteSuperset(type1, type2);\n }", "function OverlappingFieldsCanBeMerged(context) {\n\t var comparedSet = new PairSet();\n\n\t function findConflicts(fieldMap) {\n\t var conflicts = [];\n\t _Object$keys(fieldMap).forEach(function (responseName) {\n\t var fields = fieldMap[responseName];\n\t if (fields.length > 1) {\n\t for (var i = 0; i < fields.length; i++) {\n\t for (var j = i; j < fields.length; j++) {\n\t var conflict = findConflict(responseName, fields[i], fields[j]);\n\t if (conflict) {\n\t conflicts.push(conflict);\n\t }\n\t }\n\t }\n\t }\n\t });\n\t return conflicts;\n\t }\n\n\t function findConflict(responseName, field1, field2) {\n\t var _field1 = _slicedToArray(field1, 3);\n\n\t var parentType1 = _field1[0];\n\t var ast1 = _field1[1];\n\t var def1 = _field1[2];\n\n\t var _field2 = _slicedToArray(field2, 3);\n\n\t var parentType2 = _field2[0];\n\t var ast2 = _field2[1];\n\t var def2 = _field2[2];\n\n\t // Not a pair.\n\t if (ast1 === ast2) {\n\t return;\n\t }\n\n\t // If the statically known parent types could not possibly apply at the same\n\t // time, then it is safe to permit them to diverge as they will not present\n\t // any ambiguity by differing.\n\t // It is known that two parent types could never overlap if they are\n\t // different Object types. Interface or Union types might overlap - if not\n\t // in the current state of the schema, then perhaps in some future version,\n\t // thus may not safely diverge.\n\t if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n\t return;\n\t }\n\n\t // Memoize, do not report the same issue twice.\n\t if (comparedSet.has(ast1, ast2)) {\n\t return;\n\t }\n\t comparedSet.add(ast1, ast2);\n\n\t var name1 = ast1.name.value;\n\t var name2 = ast2.name.value;\n\t if (name1 !== name2) {\n\t return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n\t }\n\n\t var type1 = def1 && def1.type;\n\t var type2 = def2 && def2.type;\n\t if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n\t return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n\t }\n\n\t if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n\t return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n\t }\n\n\t var selectionSet1 = ast1.selectionSet;\n\t var selectionSet2 = ast2.selectionSet;\n\t if (selectionSet1 && selectionSet2) {\n\t var visitedFragmentNames = {};\n\t var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n\t subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n\t var conflicts = findConflicts(subfieldMap);\n\t if (conflicts.length > 0) {\n\t return [[responseName, conflicts.map(function (_ref3) {\n\t var _ref32 = _slicedToArray(_ref3, 1);\n\n\t var reason = _ref32[0];\n\t return reason;\n\t })], conflicts.reduce(function (allFields, _ref4) {\n\t var _ref42 = _slicedToArray(_ref4, 2);\n\n\t var fields1 = _ref42[1];\n\t return allFields.concat(fields1);\n\t }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n\t var _ref52 = _slicedToArray(_ref5, 3);\n\n\t var fields2 = _ref52[2];\n\t return allFields.concat(fields2);\n\t }, [ast2])];\n\t }\n\t }\n\t }\n\n\t return {\n\t SelectionSet: {\n\t // Note: we validate on the reverse traversal so deeper conflicts will be\n\t // caught first, for clearer error messages.\n\t leave: function leave(selectionSet) {\n\t var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n\t var conflicts = findConflicts(fieldMap);\n\t conflicts.forEach(function (_ref6) {\n\t var _ref62 = _slicedToArray(_ref6, 3);\n\n\t var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n\t var responseName = _ref62$0[0];\n\t var reason = _ref62$0[1];\n\t var fields1 = _ref62[1];\n\t var fields2 = _ref62[2];\n\t return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n\t });\n\t }\n\t }\n\t };\n\t}", "function OverlappingFieldsCanBeMerged(context) {\n var comparedSet = new PairSet();\n\n function findConflicts(fieldMap) {\n var conflicts = [];\n _Object$keys(fieldMap).forEach(function (responseName) {\n var fields = fieldMap[responseName];\n if (fields.length > 1) {\n for (var i = 0; i < fields.length; i++) {\n for (var j = i; j < fields.length; j++) {\n var conflict = findConflict(responseName, fields[i], fields[j]);\n if (conflict) {\n conflicts.push(conflict);\n }\n }\n }\n }\n });\n return conflicts;\n }\n\n function findConflict(responseName, field1, field2) {\n var _field1 = _slicedToArray(field1, 3);\n\n var parentType1 = _field1[0];\n var ast1 = _field1[1];\n var def1 = _field1[2];\n\n var _field2 = _slicedToArray(field2, 3);\n\n var parentType2 = _field2[0];\n var ast2 = _field2[1];\n var def2 = _field2[2];\n\n // Not a pair.\n if (ast1 === ast2) {\n return;\n }\n\n // If the statically known parent types could not possibly apply at the same\n // time, then it is safe to permit them to diverge as they will not present\n // any ambiguity by differing.\n // It is known that two parent types could never overlap if they are\n // different Object types. Interface or Union types might overlap - if not\n // in the current state of the schema, then perhaps in some future version,\n // thus may not safely diverge.\n if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n return;\n }\n\n // Memoize, do not report the same issue twice.\n if (comparedSet.has(ast1, ast2)) {\n return;\n }\n comparedSet.add(ast1, ast2);\n\n var name1 = ast1.name.value;\n var name2 = ast2.name.value;\n if (name1 !== name2) {\n return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n }\n\n var type1 = def1 && def1.type;\n var type2 = def2 && def2.type;\n if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n }\n\n if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n }\n\n var selectionSet1 = ast1.selectionSet;\n var selectionSet2 = ast2.selectionSet;\n if (selectionSet1 && selectionSet2) {\n var visitedFragmentNames = {};\n var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n var conflicts = findConflicts(subfieldMap);\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var _ref32 = _slicedToArray(_ref3, 1);\n\n var reason = _ref32[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref4) {\n var _ref42 = _slicedToArray(_ref4, 2);\n\n var fields1 = _ref42[1];\n return allFields.concat(fields1);\n }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n var _ref52 = _slicedToArray(_ref5, 3);\n\n var fields2 = _ref52[2];\n return allFields.concat(fields2);\n }, [ast2])];\n }\n }\n }\n\n return {\n SelectionSet: {\n // Note: we validate on the reverse traversal so deeper conflicts will be\n // caught first, for clearer error messages.\n leave: function leave(selectionSet) {\n var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n var conflicts = findConflicts(fieldMap);\n conflicts.forEach(function (_ref6) {\n var _ref62 = _slicedToArray(_ref6, 3);\n\n var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n var responseName = _ref62$0[0];\n var reason = _ref62$0[1];\n var fields1 = _ref62[1];\n var fields2 = _ref62[2];\n return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n });\n }\n }\n };\n}", "function OverlappingFieldsCanBeMerged(context) {\n var comparedSet = new PairSet();\n\n function findConflicts(parentFieldsAreMutuallyExclusive, fieldMap) {\n var conflicts = [];\n (0, _keys2.default)(fieldMap).forEach(function (responseName) {\n var fields = fieldMap[responseName];\n if (fields.length > 1) {\n for (var i = 0; i < fields.length; i++) {\n for (var j = i; j < fields.length; j++) {\n var conflict = findConflict(parentFieldsAreMutuallyExclusive, responseName, fields[i], fields[j]);\n if (conflict) {\n conflicts.push(conflict);\n }\n }\n }\n }\n });\n return conflicts;\n }\n\n function findConflict(parentFieldsAreMutuallyExclusive, responseName, field1, field2) {\n var _field = (0, _slicedToArray3.default)(field1, 3);\n\n var parentType1 = _field[0];\n var ast1 = _field[1];\n var def1 = _field[2];\n\n var _field2 = (0, _slicedToArray3.default)(field2, 3);\n\n var parentType2 = _field2[0];\n var ast2 = _field2[1];\n var def2 = _field2[2];\n\n // Not a pair.\n\n if (ast1 === ast2) {\n return;\n }\n\n // Memoize, do not report the same issue twice.\n // Note: Two overlapping ASTs could be encountered both when\n // `parentFieldsAreMutuallyExclusive` is true and is false, which could\n // produce different results (when `true` being a subset of `false`).\n // However we do not need to include this piece of information when\n // memoizing since this rule visits leaf fields before their parent fields,\n // ensuring that `parentFieldsAreMutuallyExclusive` is `false` the first\n // time two overlapping fields are encountered, ensuring that the full\n // set of validation rules are always checked when necessary.\n if (comparedSet.has(ast1, ast2)) {\n return;\n }\n comparedSet.add(ast1, ast2);\n\n // The return type for each field.\n var type1 = def1 && def1.type;\n var type2 = def2 && def2.type;\n\n // If it is known that two fields could not possibly apply at the same\n // time, due to the parent types, then it is safe to permit them to diverge\n // in aliased field or arguments used as they will not present any ambiguity\n // by differing.\n // It is known that two parent types could never overlap if they are\n // different Object types. Interface or Union types might overlap - if not\n // in the current state of the schema, then perhaps in some future version,\n // thus may not safely diverge.\n var fieldsAreMutuallyExclusive = parentFieldsAreMutuallyExclusive || parentType1 !== parentType2 && parentType1 instanceof _definition.GraphQLObjectType && parentType2 instanceof _definition.GraphQLObjectType;\n\n if (!fieldsAreMutuallyExclusive) {\n // Two aliases must refer to the same field.\n var name1 = ast1.name.value;\n var name2 = ast2.name.value;\n if (name1 !== name2) {\n return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n }\n\n // Two field calls must have the same arguments.\n if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n }\n }\n\n if (type1 && type2 && doTypesConflict(type1, type2)) {\n return [[responseName, 'they return conflicting types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n }\n\n var subfieldMap = getSubfieldMap(ast1, type1, ast2, type2);\n if (subfieldMap) {\n var conflicts = findConflicts(fieldsAreMutuallyExclusive, subfieldMap);\n return subfieldConflicts(conflicts, responseName, ast1, ast2);\n }\n }\n\n function getSubfieldMap(ast1, type1, ast2, type2) {\n var selectionSet1 = ast1.selectionSet;\n var selectionSet2 = ast2.selectionSet;\n if (selectionSet1 && selectionSet2) {\n var visitedFragmentNames = {};\n var subfieldMap = collectFieldASTsAndDefs(context, (0, _definition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n subfieldMap = collectFieldASTsAndDefs(context, (0, _definition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n return subfieldMap;\n }\n }\n\n function subfieldConflicts(conflicts, responseName, ast1, ast2) {\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var _ref4 = (0, _slicedToArray3.default)(_ref3, 1);\n\n var reason = _ref4[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref5) {\n var _ref6 = (0, _slicedToArray3.default)(_ref5, 2);\n\n var fields1 = _ref6[1];\n return allFields.concat(fields1);\n }, [ast1]), conflicts.reduce(function (allFields, _ref7) {\n var _ref8 = (0, _slicedToArray3.default)(_ref7, 3);\n\n var fields2 = _ref8[2];\n return allFields.concat(fields2);\n }, [ast2])];\n }\n }\n\n return {\n SelectionSet: {\n // Note: we validate on the reverse traversal so deeper conflicts will be\n // caught first, for correct calculation of mutual exclusivity and for\n // clearer error messages.\n\n leave: function leave(selectionSet) {\n var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n var conflicts = findConflicts(false, fieldMap);\n conflicts.forEach(function (_ref9) {\n var _ref10 = (0, _slicedToArray3.default)(_ref9, 3);\n\n var _ref10$ = (0, _slicedToArray3.default)(_ref10[0], 2);\n\n var responseName = _ref10$[0];\n var reason = _ref10$[1];\n var fields1 = _ref10[1];\n var fields2 = _ref10[2];\n return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n });\n }\n }\n };\n}", "function overlaps(a, b) {\r\n\t// no horizontal overlap\r\n\tif (a.x1 >= b.x2 || b.x1 >= a.x2) return false;\r\n\t// no vertical overlap\r\n\tif (a.y1 >= b.y2 || b.y1 >= a.y2) return false;\r\n\treturn true;\r\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "static intersects(p1, q1, p2, q2) {\n if ((GraphicsGeometry.equals(p1, q1) && GraphicsGeometry.equals(p2, q2)) ||\n (GraphicsGeometry.equals(p1, q2) && GraphicsGeometry.equals(p2, q1))) {\n return true;\n }\n return GraphicsGeometry.area(p1, q1, p2) > 0 !== GraphicsGeometry.area(p1, q1, q2) > 0 &&\n GraphicsGeometry.area(p2, q2, p1) > 0 !== GraphicsGeometry.area(p2, q2, q1) > 0;\n }", "function collides(l1\n/*: LayoutItem*/\n, l2\n/*: LayoutItem*/\n)\n/*: boolean*/\n{\n if (l1.i === l2.i) return false; // same element\n\n if (l1.x + l1.w <= l2.x) return false; // l1 is left of l2\n\n if (l1.x >= l2.x + l2.w) return false; // l1 is right of l2\n\n if (l1.y + l1.h <= l2.y) return false; // l1 is above l2\n\n if (l1.y >= l2.y + l2.h) return false; // l1 is below l2\n\n return true; // boxes overlap\n}", "function overlap(obj1, obj2) {\n var right1 = obj1.x + obj1.width;\n var right2 = obj2.x + obj2.width;\n var left1 = obj1.x;\n var left2 = obj2.x;\n var top1 = obj1.y;\n var top2 = obj2.y;\n var bottom1 = obj1.y + obj1.height;\n var bottom2 = obj2.y + obj2.height;\n\n if (left1 < right2 && left2 < right1 && top1 < bottom2 && top2 < bottom1) {\n return true;\n }\n return false;\n }", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function isCompositeType(type) {\n return isObjectType(type) || isInterfaceType(type) || isUnionType(type);\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function isCompositeType(type) {\n\t return type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n\t}", "function collisionDetection(first, second) {\n var firstBounds = first.getBounds();\n var secondBounds = second.getBounds();\n\n return firstBounds.x + firstBounds.width > secondBounds.x\n && firstBounds.x < secondBounds.x + secondBounds.width \n && firstBounds.y + firstBounds.height > secondBounds.y\n && firstBounds.y < secondBounds.y + secondBounds.height;\n}", "function doTypesConflict(type1, type2) {\n if (type1 instanceof _definition.GraphQLList) {\n return type2 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLList) {\n return type1 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type1 instanceof _definition.GraphQLNonNull) {\n return type2 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLNonNull) {\n return type1 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n return false;\n}", "function doTypesConflict(type1, type2) {\n if (type1 instanceof _definition.GraphQLList) {\n return type2 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLList) {\n return type1 instanceof _definition.GraphQLList ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type1 instanceof _definition.GraphQLNonNull) {\n return type2 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if (type2 instanceof _definition.GraphQLNonNull) {\n return type1 instanceof _definition.GraphQLNonNull ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n return false;\n}", "function overlap(a, b) {\n if (a.start <= b.start && a.end > b.start) {\n return true;\n } else if (a.start >= b.start && a.start < b.end) {\n return true;\n } else {\n return false;\n }\n }", "doTypeChecks(a, b) {\n const checkArrayOne = a.getCheck();\n const checkArrayTwo = b.getCheck();\n\n if (!checkArrayOne || !checkArrayTwo) {\n // Null arrays can only connect to other null arrays.\n return checkArrayOne == checkArrayTwo;\n }\n\n // Find any intersection in the check lists.\n for (let i = 0; i < checkArrayOne.length; i++) {\n if (checkArrayTwo.indexOf(checkArrayOne[i]) != -1) {\n return true;\n }\n }\n // No intersection.\n return false;\n }", "isOverlap(other) {\n var rects = [this, other];\n for (var r in rects) {\n var rect = rects[r];\n for (var i = 0; i < 4; i++) {\n var _i = (i + 1) % 4;\n var p1 = rect.points[i];\n var p2 = rect.points[_i];\n var norm = new Vector2D(p2.y - p1.y, p1.x - p2.x);\n var minA = 0, maxA = 0;\n for (var j in this.points) {\n var p = this.points[j];\n var proj = norm.x * p.x + norm.y * p.y;\n if (minA == 0 || proj < minA)\n minA = proj;\n if (maxA == 0 || proj > maxA)\n maxA = proj;\n }\n var minB = 0, maxB = 0;\n for (var j in other.points) {\n var p = other.points[j];\n var proj = norm.x * p.x + norm.y * p.y;\n if (minB == 0 || proj < minB)\n minB = proj;\n if (maxB == 0 || proj > maxB)\n maxB = proj;\n }\n if (maxA < minB || maxB < minA)\n return false;\n }\n }\n return true;\n }", "function collides(l1, l2) {\n if (l1 === l2) return false; // same element\n if (l1.x + l1.w <= l2.x) return false; // l1 is left of l2\n if (l1.x >= l2.x + l2.w) return false; // l1 is right of l2\n if (l1.y + l1.h <= l2.y) return false; // l1 is above l2\n if (l1.y >= l2.y + l2.h) return false; // l1 is below l2\n return true; // boxes overlap\n}", "function collides(l1, l2) {\n if (l1 === l2) return false; // same element\n if (l1.x + l1.w <= l2.x) return false; // l1 is left of l2\n if (l1.x >= l2.x + l2.w) return false; // l1 is right of l2\n if (l1.y + l1.h <= l2.y) return false; // l1 is above l2\n if (l1.y >= l2.y + l2.h) return false; // l1 is below l2\n return true; // boxes overlap\n}", "function collides(l1, l2) {\n if (l1 === l2) return false; // same element\n if (l1.x + l1.w <= l2.x) return false; // l1 is left of l2\n if (l1.x >= l2.x + l2.w) return false; // l1 is right of l2\n if (l1.y + l1.h <= l2.y) return false; // l1 is above l2\n if (l1.y >= l2.y + l2.h) return false; // l1 is below l2\n return true; // boxes overlap\n}", "function isCompositeType(type) {\n return type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n}", "function isCompositeType(type) {\n return type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n}", "function isCompositeType(type) {\n return type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n}", "function checkIfCollidedCheapDS(object1, object2, object1Type = \"box\", object2Type = \"box\") {\n var bounding1;\n var bounding2;\n\n if (object1Type == \"box\") {\n bounding1 = new THREE.Box3().setFromObject(object1)\n } else if (object1Type == \"sphere\") {\n bounding1 = new THREE.Sphere(object1.position, obstaclesRadius)\n }\n\n if (object2Type == \"box\") {\n bounding2 = new THREE.Box3().setFromObject(object2)\n } else if (object2Type == \"sphere\") {\n bounding2 = new THREE.Sphere(object2.position, obstaclesRadius)\n }\n\n if (object1Type == \"box\" && object2Type == \"sphere\") {\n return bounding1.intersectsSphere(bounding2)\n } else if (object1Type == \"box\" && object2Type == \"box\") {\n return bounding1.intersectsBox(bounding2)\n } else {\n return false // default case\n }\n}", "static hasOverlap(a1, a2, b1, b2) {\n return Math.max(a1, b1) < Math.min(a2, b2);\n }", "function overlaps (min1, max1, min2, max2)\n\t{\n\t\treturn is_between (min2, min1, max1) || is_between (min1, min2, max2);\n\t}", "function intersects(p1, q1, p2, q2) {\n\t if ((equals(p1, q1) && equals(p2, q2)) ||\n\t (equals(p1, q2) && equals(p2, q1))) { return true; }\n\t return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n\t area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n\t}", "function intersects( p1, q1, p2, q2 ) {\n\n\tconst o1 = sign( area( p1, q1, p2 ) );\n\tconst o2 = sign( area( p1, q1, q2 ) );\n\tconst o3 = sign( area( p2, q2, p1 ) );\n\tconst o4 = sign( area( p2, q2, q1 ) );\n\n\tif ( o1 !== o2 && o3 !== o4 ) return true; // general case\n\n\tif ( o1 === 0 && onSegment( p1, p2, q1 ) ) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n\tif ( o2 === 0 && onSegment( p1, q2, q1 ) ) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n\tif ( o3 === 0 && onSegment( p2, p1, q2 ) ) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n\tif ( o4 === 0 && onSegment( p2, q1, q2 ) ) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n\treturn false;\n\n}", "function intersects( p1, q1, p2, q2 ) {\n\n\t\tconst o1 = sign( area( p1, q1, p2 ) );\n\t\tconst o2 = sign( area( p1, q1, q2 ) );\n\t\tconst o3 = sign( area( p2, q2, p1 ) );\n\t\tconst o4 = sign( area( p2, q2, q1 ) );\n\n\t\tif ( o1 !== o2 && o3 !== o4 ) return true; // general case\n\n\t\tif ( o1 === 0 && onSegment( p1, p2, q1 ) ) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n\t\tif ( o2 === 0 && onSegment( p1, q2, q1 ) ) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n\t\tif ( o3 === 0 && onSegment( p2, p1, q2 ) ) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n\t\tif ( o4 === 0 && onSegment( p2, q1, q2 ) ) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n\t\treturn false;\n\n\t}", "function intersects(p1, q1, p2, q2) {\n var o1 = sign(area(p1, q1, p2));\n var o2 = sign(area(p1, q1, q2));\n var o3 = sign(area(p2, q2, p1));\n var o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}", "function intersects(p1, q1, p2, q2) {\n var o1 = sign(area(p1, q1, p2));\n var o2 = sign(area(p1, q1, q2));\n var o3 = sign(area(p2, q2, p1));\n var o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}", "function intersects(p1, q1, p2, q2) {\n var o1 = sign(area(p1, q1, p2));\n var o2 = sign(area(p1, q1, q2));\n var o3 = sign(area(p2, q2, p1));\n var o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}", "function intersects(p1, q1, p2, q2) {\n var o1 = sign(area(p1, q1, p2));\n var o2 = sign(area(p1, q1, q2));\n var o3 = sign(area(p2, q2, p1));\n var o4 = sign(area(p2, q2, q1));\n\n if (o1 !== o2 && o3 !== o4) return true; // general case\n\n if (o1 === 0 && onSegment(p1, p2, q1)) return true; // p1, q1 and p2 are collinear and p2 lies on p1q1\n if (o2 === 0 && onSegment(p1, q2, q1)) return true; // p1, q1 and q2 are collinear and q2 lies on p1q1\n if (o3 === 0 && onSegment(p2, p1, q2)) return true; // p2, q2 and p1 are collinear and p1 lies on p2q2\n if (o4 === 0 && onSegment(p2, q1, q2)) return true; // p2, q2 and q1 are collinear and q1 lies on p2q2\n\n return false;\n}", "function intersects(p1, q1, p2, q2) {\n return p1 !== q2 && q1 !== p2 &&\n orient(p1, q1, p2) > 0 !== orient(p1, q1, q2) > 0 &&\n orient(p2, q2, p1) > 0 !== orient(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n return p1 !== q2 && q1 !== p2 &&\n orient(p1, q1, p2) > 0 !== orient(p1, q1, q2) > 0 &&\n orient(p2, q2, p1) > 0 !== orient(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n\t if ((equals(p1, q1) && equals(p2, q2)) ||\n\t (equals(p1, q2) && equals(p2, q1))) return true;\n\t return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n\t area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n\t}", "function intersects(p1, q1, p2, q2) {\n\t if ((equals(p1, q1) && equals(p2, q2)) ||\n\t (equals(p1, q2) && equals(p2, q1))) return true;\n\t return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n\t area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n\t}", "function intersects(p1, q1, p2, q2) {\n\t if ((equals(p1, q1) && equals(p2, q2)) ||\n\t (equals(p1, q2) && equals(p2, q1))) return true;\n\t return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n\t area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n\t}", "function intersects(p1, q1, p2, q2) {\n\t if ((equals(p1, q1) && equals(p2, q2)) ||\n\t (equals(p1, q2) && equals(p2, q1))) return true;\n\t return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n\t area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n\t}", "function intersects( p1, q1, p2, q2 ) {\n\n\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) { return true; }\n\n\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n}", "function intersects(p1, q1, p2, q2) {\r\n return (\r\n p1 !== q2 &&\r\n q1 !== p2 &&\r\n cross(p1, q1, p2) > 0 !== cross(p1, q1, q2) > 0 &&\r\n cross(p2, q2, p1) > 0 !== cross(p2, q2, q1) > 0\r\n );\r\n}", "function intersects(p1, q1, p2, q2) {\n\n\tif (equals(p1, q1) && equals(p2, q2) || equals(p1, q2) && equals(p2, q1)) return true;\n\n\treturn area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 && area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects( p1, q1, p2, q2 ) {\n\n\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n}", "function intersects( p1, q1, p2, q2 ) {\n\n\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n}", "function intersects( p1, q1, p2, q2 ) {\n\n\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n}", "function doIntersect(p1, q1, p2, q2) {\n //if connected via dot then not intersecting\n if (p1 == p2 || p1 == q2 || q1 == p2 || q1 == q2) {\n return false\n }\n // Find the four orientations needed for general and\n // special cases\n const o1 = orientation(p1, q1, p2)\n const o2 = orientation(p1, q1, q2)\n const o3 = orientation(p2, q2, p1)\n const o4 = orientation(p2, q2, q1)\n\n // General case\n if (o1 != o2 && o3 != o4) return true\n\n // Special Cases\n // p1, q1 and p2 are colinear and p2 lies on segment p1q1\n //if (o1 == 0 && onSegment(p1, p2, q1)) return true\n\n // p1, q1 and q2 are colinear and q2 lies on segment p1q1\n //if (o2 == 0 && onSegment(p1, q2, q1)) return true\n\n // p2, q2 and p1 are colinear and p1 lies on segment p2q2\n //if (o3 == 0 && onSegment(p2, p1, q2)) return true\n\n // p2, q2 and q1 are colinear and q1 lies on segment p2q2\n //if (o4 == 0 && onSegment(p2, q1, q2)) return true\n\n return false // Doesn't fall in any of the above cases\n}", "function typeEquals(type1, type2) {\n if (type1 === type2) return true;\n // TODO handle intersection types\n if (!(type1 instanceof UnionType)) return false;\n if (!(type2 instanceof UnionType)) return false;\n if (type1.types.length !== type2.types.length) return false;\n for (var i = 0; i < type1.types.length; i++) {\n // Theoretically we should use 'typeEquals' here, but we don't have nested unions in practice:\n if (type1.types[i] !== type2.types[i]) {\n return false;\n }\n }\n return true;\n }", "function intersects(p1, q1, p2, q2) {\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function isOverlapPresent(firstObjectFloor, firstObjectCeiling, secondObjectFloor, secondObjectCeiling) {\n return (firstObjectFloor <= secondObjectCeiling && secondObjectFloor <= firstObjectCeiling);\n }", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if ((equals(p1, q1) && equals(p2, q2)) ||\n (equals(p1, q2) && equals(p2, q1))) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 &&\n area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function SPF_DoesRectanglesOverlap(point_l1, point_r1, point_l2, point_r2) {\n\n // If one rectangle is on left side of other\n if (point_l1.x > point_r2.x || point_l2.x > point_r1.x)\n return false;\n\n // If one rectangle is above other\n if (point_l1.y > point_r2.y || point_l2.y > point_r1.y)\n return false;\n\n return true;\n\n}", "function haveIntersection(r1, r2, posType) {\n if (typeof posType === 'undefined')\n return !(\n r2.x() > r1.x() + r1.width() ||\n r2.x() + r2.width() < r1.x() ||\n r2.y() > r1.y() + r1.height() ||\n r2.y() + r2.height() < r1.y()\n );\n else\n return !(\n r2.absolutePosition().x > r1.absolutePosition().x + r1.width() ||\n r2.absolutePosition().x + r2.width() < r1.absolutePosition().x ||\n r2.absolutePosition().y > r1.absolutePosition().y + r1.height() ||\n r2.absolutePosition().y + r2.height() < r1.absolutePosition().y\n );\n}", "function isColliding(o1, o2) {\n // Define input direction mappings for easier referencing\n o1D = { 'left': parseInt(o1.css('left')),\n 'right': parseInt(o1.css('left')) + o1.width(),\n 'top': parseInt(o1.css('top')),\n 'bottom': parseInt(o1.css('top')) + o1.height()\n };\n o2D = { 'left': parseInt(o2.css('left')),\n 'right': parseInt(o2.css('left')) + o2.width(),\n 'top': parseInt(o2.css('top')),\n 'bottom': parseInt(o2.css('top')) + o1.height()\n };\n\n // If horizontally overlapping...\n if ( (o1D.left < o2D.left && o1D.right > o2D.left) ||\n (o1D.left < o2D.right && o1D.right > o2D.right) ||\n (o1D.left < o2D.right && o1D.right > o2D.left) ) {\n\n if ( (o1D.top > o2D.top && o1D.top < o2D.bottom) ||\n (o1D.top < o2D.top && o1D.top > o2D.bottom) ||\n (o1D.top > o2D.top && o1D.bottom < o2D.bottom) ) {\n\n // Collision!\n return true;\n }\n }\n return false;\n}", "function isColliding(o1, o2) {\n // Define input direction mappings for easier referencing\n o1D = { 'left': parseInt(o1.css('left')),\n 'right': parseInt(o1.css('left')) + o1.width(),\n 'top': parseInt(o1.css('top')),\n 'bottom': parseInt(o1.css('top')) + o1.height()\n };\n o2D = { 'left': parseInt(o2.css('left')),\n 'right': parseInt(o2.css('left')) + o2.width(),\n 'top': parseInt(o2.css('top')),\n 'bottom': parseInt(o2.css('top')) + o1.height()\n };\n\n // If horizontally overlapping...\n if ( (o1D.left < o2D.left && o1D.right > o2D.left) ||\n (o1D.left < o2D.right && o1D.right > o2D.right) ||\n (o1D.left < o2D.right && o1D.right > o2D.left) ) {\n\n if ( (o1D.top > o2D.top && o1D.top < o2D.bottom) ||\n (o1D.top < o2D.top && o1D.top > o2D.bottom) ||\n (o1D.top > o2D.top && o1D.bottom < o2D.bottom) ) {\n\n // Collision!\n return true;\n }\n }\n return false;\n}", "function isColliding(o1, o2) {\n // Define input direction mappings for easier referencing\n o1D = { 'left': parseInt(o1.css('left')),\n 'right': parseInt(o1.css('left')) + o1.width(),\n 'top': parseInt(o1.css('top')),\n 'bottom': parseInt(o1.css('top')) + o1.height()\n };\n o2D = { 'left': parseInt(o2.css('left')),\n 'right': parseInt(o2.css('left')) + o2.width(),\n 'top': parseInt(o2.css('top')),\n 'bottom': parseInt(o2.css('top')) + o1.height()\n };\n\n // If horizontally overlapping...\n if ( (o1D.left < o2D.left && o1D.right > o2D.left) ||\n (o1D.left < o2D.right && o1D.right > o2D.right) ||\n (o1D.left < o2D.right && o1D.right > o2D.left) ) {\n\n if ( (o1D.top > o2D.top && o1D.top < o2D.bottom) ||\n (o1D.top < o2D.top && o1D.top > o2D.bottom) ||\n (o1D.top > o2D.top && o1D.bottom < o2D.bottom) ) {\n\n // Collision!\n return true;\n }\n }\n return false;\n}", "function intersects( p1, q1, p2, q2 ) {\n\n\t\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\t\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n\t}", "function intersects( p1, q1, p2, q2 ) {\n\n\t\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\t\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n\t}", "function intersects( p1, q1, p2, q2 ) {\n\n\t\tif ( ( equals( p1, q1 ) && equals( p2, q2 ) ) ||\n\t\t\t\t( equals( p1, q2 ) && equals( p2, q1 ) ) ) return true;\n\n\t\treturn area( p1, q1, p2 ) > 0 !== area( p1, q1, q2 ) > 0 &&\n\t\t\t\t\t area( p2, q2, p1 ) > 0 !== area( p2, q2, q1 ) > 0;\n\n\t}", "function intersects(data, p1, q1, p2, q2) {\n return orient(data, p1, q1, p2) !== orient(data, p1, q1, q2) &&\n orient(data, p2, q2, p1) !== orient(data, p2, q2, q1);\n}", "function intersects(p1, q1, p2, q2) {\n if (equals(p1, q1) && equals(p2, q2) || equals(p1, q2) && equals(p2, q1)) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 && area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "function intersects(p1, q1, p2, q2) {\n if (equals(p1, q1) && equals(p2, q2) || equals(p1, q2) && equals(p2, q1)) return true;\n return area(p1, q1, p2) > 0 !== area(p1, q1, q2) > 0 && area(p2, q2, p1) > 0 !== area(p2, q2, q1) > 0;\n}", "_isOverlap (segA, segB) {\n\t\tvar _isBefore = (segA.end >= segB.start && segA.start <= segB.end + 1);\n\t\tvar _isAfter = (segA.start <= segB.end + 1 && segA.end >= segB.start);\n\t\tvar _isSame = (segA === segB);\n\t\treturn ((_isBefore || _isAfter) && (!_isSame));\n\t}", "function collision(rect1, rect2) {\r\n // check if they are overlapping\r\n if (typeof rect1 != \"undefined\" && typeof rect2 != \"undefined\") {\r\n if (rect1.x <= rect2.x + rect2.width && rect1.x + rect1.width >= rect2.x &&\r\n rect1.y <= rect2.y + rect2.height && rect1.y + rect1.height > rect2.y) {\r\n // If they are colliding, return true\r\n return true;\r\n } else {\r\n // If they are not colliding, return false\r\n return false;\r\n }\r\n } else {\r\n return false;\r\n }\r\n\r\n}", "function overlapTest(a, b) {\n return a.x < b.x + b.w && a.x + a.w > b.x &&\n\t\t a.y < b.y + b.h && a.y + a.h > b.y\n}", "function overlapTest(a, b) {\n return a.x < b.x + b.w && a.x + a.w > b.x &&\n a.y < b.y + b.h && a.y + a.h > b.y\n}", "function overlapTest(a, b) {\n return a.x < b.x + b.w && a.x + a.w > b.x &&\n a.y < b.y + b.h && a.y + a.h > b.y\n}", "function doesOverlap(e1, e2) {\n if (e1.start > e2.start) {\n [e1, e2] = [e2, e1];\n }\n if (e1.end <= e2.start) {\n return false;\n }\n return true;\n}", "function findConflictsBetweenSubSelectionSets(context, cachedFieldsAndFragmentNames, comparedFragments, areMutuallyExclusive, parentType1, selectionSet1, parentType2, selectionSet2) {\n var conflicts = [];\n\n var _getFieldsAndFragment2 = getFieldsAndFragmentNames(context, cachedFieldsAndFragmentNames, parentType1, selectionSet1),\n fieldMap1 = _getFieldsAndFragment2[0],\n fragmentNames1 = _getFieldsAndFragment2[1];\n\n var _getFieldsAndFragment3 = getFieldsAndFragmentNames(context, cachedFieldsAndFragmentNames, parentType2, selectionSet2),\n fieldMap2 = _getFieldsAndFragment3[0],\n fragmentNames2 = _getFieldsAndFragment3[1];\n\n // (H) First, collect all conflicts between these two collections of field.\n\n\n collectConflictsBetween(context, conflicts, cachedFieldsAndFragmentNames, comparedFragments, areMutuallyExclusive, fieldMap1, fieldMap2);\n\n // (I) Then collect conflicts between the first collection of fields and\n // those referenced by each fragment name associated with the second.\n for (var j = 0; j < fragmentNames2.length; j++) {\n collectConflictsBetweenFieldsAndFragment(context, conflicts, cachedFieldsAndFragmentNames, comparedFragments, areMutuallyExclusive, fieldMap1, fragmentNames2[j]);\n }\n\n // (I) Then collect conflicts between the second collection of fields and\n // those referenced by each fragment name associated with the first.\n for (var i = 0; i < fragmentNames1.length; i++) {\n collectConflictsBetweenFieldsAndFragment(context, conflicts, cachedFieldsAndFragmentNames, comparedFragments, areMutuallyExclusive, fieldMap2, fragmentNames1[i]);\n }\n\n // (J) Also collect conflicts between any fragment names by the first and\n // fragment names by the second. This compares each item in the first set of\n // names to each item in the second set of names.\n for (var _i = 0; _i < fragmentNames1.length; _i++) {\n for (var _j = 0; _j < fragmentNames2.length; _j++) {\n collectConflictsBetweenFragments(context, conflicts, cachedFieldsAndFragmentNames, comparedFragments, areMutuallyExclusive, fragmentNames1[_i], fragmentNames2[_j]);\n }\n }\n return conflicts;\n}", "function ifOverlap(a,b){\n if (!a.start_time || !b.start_time){\n return false;\n }\n aS = getMin(a.start_time);\n bS = getMin(b.start_time);\n aE = getMin(a.end_time);\n bE = getMin(b.end_time);\n return (aS <= bS && aE >= bS) || (aS < bE && aE > bE);\n}" ]
[ "0.75189465", "0.7411938", "0.7224915", "0.7224915", "0.7219089", "0.71789837", "0.71789837", "0.7172623", "0.666959", "0.6415173", "0.64075595", "0.63233733", "0.6220791", "0.61632097", "0.6154309", "0.6151031", "0.6147303", "0.60793185", "0.60793185", "0.60793185", "0.60793185", "0.60793185", "0.60793185", "0.60702777", "0.60702777", "0.6067482", "0.6067482", "0.6064247", "0.6052782", "0.603231", "0.603231", "0.60142285", "0.5965928", "0.5959421", "0.5953573", "0.5953573", "0.5953573", "0.59483516", "0.59483516", "0.59483516", "0.5929683", "0.59287924", "0.59066904", "0.5892844", "0.5889818", "0.58892137", "0.58754855", "0.58754855", "0.58754855", "0.58754855", "0.58490634", "0.58490634", "0.58450985", "0.58450985", "0.58450985", "0.58450985", "0.5812893", "0.5808139", "0.57998", "0.5773498", "0.5773498", "0.5773498", "0.57706124", "0.5769576", "0.5769532", "0.57692957", "0.5765842", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57474244", "0.57467324", "0.5745145", "0.57412696", "0.57412696", "0.57412696", "0.57408553", "0.57408553", "0.57408553", "0.57397985", "0.57327807", "0.57327807", "0.5684892", "0.56828856", "0.5679937", "0.567875", "0.567875", "0.5672977", "0.561171", "0.559734" ]
0.72026366
7
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function buildWrappedType(innerType, inputTypeNode) { if (inputTypeNode.kind === Kind.LIST_TYPE) { return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeNode.type)); } if (inputTypeNode.kind === Kind.NON_NULL_TYPE) { var wrappedType = buildWrappedType(innerType, inputTypeNode.type); !!(wrappedType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0; return new _definition.GraphQLNonNull(wrappedType); } return innerType; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "componentDidMount() {\n // if this is the first time the home screen is loading\n // we must initialize Facebook\n if (!window.FB) {\n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '280945375708713',\n cookie : true, // enable cookies to allow the server to access\n // the session\n xfbml : true, // parse social plugins on this page\n version : 'v2.1' // use version 2.1\n });\n \n window.FB.getLoginStatus(function(response) {\n // upon opening the ma\n if (response.status === \"connected\") {\n loadStream(response);\n }\n }.bind(this));\n }.bind(this);\n } else {\n window.FB.getLoginStatus(function(response) {\n console.log(\"getting status\");\n this.initiateLoginOrLogout(response);\n }.bind(this));\n }\n\n // Load the SDK asynchronously\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n }", "componentDidMount() {\n\n\t window.fbAsyncInit = function() {\n\t window.FB.init({\n\t appId : '1250815578279698',\n\t cookie : true, // enable cookies to allow the server to access\n\t // the session\n\t xfbml : true, // parse social plugins on this page\n\t version : 'v2.11' // use version 2.1\n\t });\n\n //window.FB.Event.subscribe('auth.statusChange', this.statusChangeCallback());\n /* comment by bipin: it redirect if user is logged in fb */\n\t // window.FB.getLoginStatus(function(response) {\n\t // this.statusChangeCallback(response);\n\t // }.bind(this));\n\t }.bind(this);\n\n // Load the SDK asynchronously\n\t (function(d, s, id) {\n\t var js, fjs = d.getElementsByTagName(s)[0];\n\t if (d.getElementById(id)) return;\n\t js = d.createElement(s); js.id = id;js.async = true;\n\t js.src = \"https://connect.facebook.net/en_GB/sdk.js#xfbml=1&version=v2.11\";\n\t fjs.parentNode.insertBefore(js, fjs);\n\t }(document, 'script', 'facebook-jssdk'));\n\t}", "function facebookLogin()\r\n{\r\n var fb = FBConnect.install();\r\n fb.connect(client_id,redir_url,\"touch\");\r\n fb.onConnect = onFBConnected;\r\n \r\n}", "loginWithFacebook(){\n LoginManager.logInWithReadPermissions(['public_profile']).then(loginResult => {\n if (loginResult.isCancelled) {\n console.log('user canceled');\n return;\n }\n AccessToken.getCurrentAccessToken()\n .then(accessTokenData => {\n const credential = this.props.provider.credential(accessTokenData.accessToken);\n return auth.signInWithCredential(credential);\n })\n .then(credData => {\n console.log(credData);\n })\n .catch(err => {\n console.log(err);\n });\n });\n\n }", "componentDidMount(){\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"https://connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n \n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '207358966557597', /* Our specific APP id */\n cookie : true, \n xfbml : true, \n version : 'v2.8' \n });\n\n /* This might be a duplicate of above checkLoginState, but need to investigate */\n FB.getLoginStatus(function(response) {\n this.statusChangeCallback(response);\n }.bind(this));\n }.bind(this)\n }", "componentWillUnmount() {\n //disconnect from FB\n }", "componentDidMount() {\n this.props.facebookLogin();\n // AsyncStorage.removeItem('fb_token');\n // this.onAuthComplete(this.props);\n }", "function auth_Facebook()\n{\n authenticate(new firebase.auth.FacebookAuthProvider());\n}", "render() {\n return (\n <div id=\"fb-root\"></div>\n )\n }", "componentDidMount() {\n const {\n videoId,\n } = this.props;\n\n if (typeof window !== \"undefined\") {\n this.loadFB()\n .then(res => {\n if (res) {\n this.FB = res;\n this.createPlayer(videoId);\n }\n });\n }\n }", "function testAPI() {\n FB.api('/me', function(response) {\n });\n }", "_FBPReady() {\n super._FBPReady();\n\n }", "componentDidMount() {\n const _this = this;\n\n\n _this._manageGlobalEventHandlers(_this.props);\n\n _this._FB_init(function() {\n _this.setState({\n initializing: false\n });\n });\n }", "checkAuth() {\n return new Promise((resolve) => {\n window.fbAsyncInit = () => {\n window.FB.init({\n appId: process.env.FACEBOOK_ID,\n cookie: true,\n xfbml: true,\n version: 'v2.8',\n });\n window.FB.AppEvents.logPageView();\n window.FB.getLoginStatus((response) => {\n resolve(response);\n });\n };\n\n ((d, s, id) => {\n const fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) { return; }\n const js = d.createElement(s); js.id = id;\n js.src = '//connect.facebook.net/en_US/sdk.js';\n fjs.parentNode.insertBefore(js, fjs);\n })(document, 'script', 'facebook-jssdk');\n });\n }", "loginByFacebook() {\n if (!this.props.accsessToken) {\n this.props.facebookLogin();\n } else {\n return Alert.alert('', 'Please logout first');\n }\n }", "function facebookLogin() {\n FB.getLoginStatus(function(response) {\n statusChangeCallback(response);\n });\n}", "FacebookAuth() {\n return this.AuthLogin(new firebase_app__WEBPACK_IMPORTED_MODULE_1__[\"auth\"].FacebookAuthProvider());\n }", "_FB_init(finishedCallback) {\n const _this = this;\n\n //Fail if FB is not available\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n //Get the users AccessToken\n FB.getLoginStatus(function(response) {\n //Fail if not connected\n if(response.status != 'connected') {\n _this.props.onError(ERROR.CONNECTION_FAILED);\n _this.set_errorMessage(MSFBPhotoSelector.TEXTS.connection_failed);\n }\n\n //Load data when connected\n else {\n _this.setState({\n FB_accessToken: response.authResponse.accessToken\n });\n\n _this._FB_getUserAlbums(finishedCallback);\n _this._FB_getUserImage();\n }\n }, true);\n }", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "function sdk(){\n}", "getUserInfoFromFB() {\n return axios.get('/user/info/fb')\n .then(res => {\n console.log('User info FB: ', res.data);\n this.setState({\n user: res.data\n });\n })\n .catch(err => {\n console.log(err);\n });\n }", "onShareAppMessage() {\n\n }", "constructor() {\n this.apiUrl = 'https://graph.facebook.com/v4.0';\n this.access_token = process.env.ACCESS_TOKEN;\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n \n });\n\n\n \n }", "_FB_API(p1, p2, p3) {\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n FB.api(p1, p2, p3);\n }", "setFacebook(token) {\n fetch('https://graph.facebook.com/v2.5/me?fields=email,name,friends&access_token=' + token)\n .then((response) => response.json())\n .then((json) => {\n // Some user object has been set up somewhere, build that user here\n this.setState({ fb_name: json.name, fb_email: json.email, fb_token: token, fb_user_id: json.id});\n helper.saveFacebookData( this.state.user_id, json.email, json.name, json.id ,token );\n return \"Okay\";\n })\n .catch(() => {\n reject('ERROR GETTING DATA FROM FACEBOOK')\n });\n }", "function FacebookLoginLoad() {\r\n (function (d, s, id) {\r\n var js, fjs = d.getElementsByTagName(s)[0];\r\n if (d.getElementById(id)) { return; }\r\n js = d.createElement(s); js.id = id;\r\n js.src = \"../../../Scripts/Facebook/sdk.js\";\r\n fjs.parentNode.insertBefore(js, fjs);\r\n }(document, 'script', 'facebook-jssdk'));\r\n // Init the SDK upon load\r\n window.fbAsyncInit = function () {\r\n FB.init({\r\n appId: '454206028123700',\r\n xfbml: true,\r\n version: 'v2.5'\r\n });\r\n }\r\n}", "function signInWithFb() {\n return {\n type: SIGN_IN_WITH_FB\n };\n}", "private public function m246() {}", "handle_submit() {\n const {article, content} = this.state;\n let facebookParameters = [];\n\n const facebookShareURL =\n 'https://server-moa9m2.turbo360-vertex.com/share/EJ5BXsTgFr43dx4Y';\n facebookParameters.push('quote=' + encodeURI(content));\n facebookParameters.push('u=' + encodeURI(facebookShareURL));\n\n console.log(facebookParameters);\n const url =\n 'https://www.facebook.com/sharer/sharer.php?' +\n facebookParameters.join('&');\n Linking.openURL(url)\n .then(data => {\n this.handle_cancel();\n console.log('Facebook Opened');\n })\n .catch(() => {\n console.log('Something went wrong');\n });\n }", "testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n // 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function myFacebookLogin() {\n FB.login(function () {\n checkLoginState();\n }, {scope: 'public_profile, email, user_friends'});\n}", "logout() {\n FB.logout();\n }", "function singInWithFacebook() {\n var provider = new firebase.auth.FacebookAuthProvider();\n var d = new Date();\n firebase.auth().signInWithPopup(provider).then(({user}) => {\n //create database of user\n if (user.metadata.creationTime === user.metadata.lastSignInTime) {\n createData('/users/' + user.uid, {\n \"displayName\": user.displayName,\n \"email\": user.email,\n \"joinedOn\": d.getDate() + '/' + (d.getMonth() + 1) + '/' + d.getFullYear(),\n \"username\": user.uid,\n });\n }\n\n //final step creat local login\n return user.getIdToken().then((idToken) => {\n return fetch(\"/sessionLogin\", {\n method: \"POST\",\n headers: {\n Accept: \"application/json\",\n \"Content-Type\": \"application/json\",\n \"CSRF-Token\": Cookies.get(\"XSRF-TOKEN\"),\n },\n body: JSON.stringify({\n idToken\n }),\n });\n });\n })\n .then(() => {\n window.location.assign(\"/dashboard\");\n });\n}", "function _handleFb() {\n\t\tlet shortToken;\n\t\tif (window.location.hash) {\n\n\t\t\tconsole.log(\"window.location\", window.location);\n\n\t\t\t\tlet accessTokenMatch = window.location.hash.match(/access_token\\=([a-zA-Z0-9]+)/);\n\t\t\tconsole.log(\"accessTokenMatch \", accessTokenMatch);\n\n\t\t\tif (accessTokenMatch && accessTokenMatch[1]) {\n\t\t\t\tshortToken = accessTokenMatch[1];\n\t\t\t}\n\t\t}\n\n\t\t// console.log(\"_handleFb \");\n\t\t// console.log(\"shortToken \", shortToken);\n\n\t\tif (shortToken) {\n\t\t\t// We came here from Facebook redirect, with a token\n\t\t\tif (getUrlParams()[\"accountLinking\"]) {\n\t\t\t\t_getFBMeWithShortToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\tconsole.log(\"_getFBMeWithShortToken data\", data);\n\t\t\t\t\t\t//console.log('updating', data)\n\t\t\t\t\t\tupdateClient({\"facebookLogin\": data[\"id\"]}, function(d, e) {\n\t\t\t\t\t\t\tconsole.log('updated!');\n\t\t\t\t\t\t\tconsole.log(d, e);\n\n\t\t\t\t\t\t\t_generateFBToken({\n\t\t\t\t\t\t\t\tshortToken,\n\t\t\t\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\t\t\t\tconsole.log()\n\t\t\t\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\t// Clear query parameter from address bar\n\t\t\t\twindow.setTimeout(function() {\n\t\t\t\t\thistory.pushState(\"\", document.title, window.location.pathname);\n\t\t\t\t}, 0);\n\t\t\t}\n\t\t\telse {\n\t\t\t\t_generateFBToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\tif(window.altyn.zonePrefix === \"\"||(window.isMobile && window.altyn.zonePrefix ==\"/open\")){\n\t\t\t\t//Just came on page, need to get token status\n\t\t\t\t_getFBTokenStatus(function(response) {\n\t\t\t\t\tif (response && response[\"value\"] === true) {\n\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\n\t\t}\n\t}", "function log_in_with_facebook() {\n var provider = new firebase_ref.auth.FacebookAuthProvider();\n log_in_with_provider(provider);\n}", "authenticateFacebook() {\n return this.authService.authenticate('facebook')\n .then(() => {\n this.authenticated = this.authService.authenticated;\n });\n }", "openMessenger() {\n Linking.openURL('fb://messaging/' + FACEBOOK_ID);\n }", "beforeConnectedCallbackHook(){\n\t\t\n\t}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n\n });\n }", "function FB(config) {\r\n this.config = config||{};\r\n this.started = this.init();\r\n}", "function facebookWidgetInit() {\n var widgetMarkup = '<div class=\"fb-page\" data-href=\"https://www.facebook.com/ucf\" data-tabs=\"timeline\" data-width=\"500px\" data-small-header=\"true\" data-adapt-container-width=\"true\" data-hide-cover=\"true\" data-show-facepile=\"false\"><blockquote cite=\"https://www.facebook.com/ucf\" class=\"fb-xfbml-parse-ignore\"><a href=\"https://www.facebook.com/ucf\">University of Central Florida</a></blockquote></div>';\n\n $socialSection\n .find('#js-facebook-widget')\n .html(widgetMarkup);\n\n window.fbAsyncInit = function() {\n FB.init({\n appId : '637856803059940',\n xfbml : true,\n version : 'v2.8'\n });\n };\n\n (function(d, s, id){\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) {return;}\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function checkFacebookTab() {\n if (!stopFB) {\n facebookTab((tab) => {\n idFB = tab.id;\n\n if (idFB != null && tab != null) {\n updateFBNotifications(tab.title);\n }\n\n if (!tab.pinned) {\n browser.tabs.update(tab.id, {\n pinned: true,\n });\n }\n }, () => {\n if (idFB == null || idFB != idPrevFB) {\n browser.tabs.create({\n index: 0,\n pinned: true,\n url: 'https://www.messenger.com/',\n active: false,\n }).then((tab) => {\n if (typeof tab === 'object') {\n idFB = tab.id;\n idPrevFB = tab.id;\n }\n });\n }\n });\n }\n}", "testAPI() {\n\t console.log('Welcome! Fetching your information.... ');\n\t FB.api('/me', function(response) {\n\t console.log('Successful login for: ' + response.name);\n\t document.getElementById('status').innerHTML =\n\t 'Thanks for logging in, ' + response.name + '!';\n\t });\n\t}", "private internal function m248() {}", "frame() {\n throw new Error('Not implemented');\n }", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "statusChangeCallback(response) {\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.setState({ token: response.authResponse.accessToken });\n this.getLongTermToken();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n }", "function getFbInfos() {\n\n FB.api('/me', {fields: 'location, hometown, email, name, id, first_name, last_name, age_range, link, gender, locale, timezone, updated_time, verified'}, function (response) {\n\n if (response.email == 'undefined' || !response.email) {\n var error = $('#login-alert');\n error.html('<a onclick=\"myFacebookLoginNeedEmail();\" href=\"#\">Your email is required. Please click here to finish your login.</a>');\n error.show();\n $('#facebook-login').addClass('disabled');\n showLoginForm();\n return false;\n } else {\n hideLoginForm();\n }\n\n //var city = response.location.name.split(\",\")[0].trim();\n //var country = response.location.name.split(\",\")[1].trim();\n currentUser = {\n \"id\": response.id,\n \"email\": response.email,\n \"password\": response.id,\n \"name\": response.name,\n \"firstname\": response.first_name,\n \"lastname\": response.last_name,\n //\"city\": city,\n //\"country\": country,\n \"link\": response.link,\n \"gender\": response.gender,\n \"ageRange\": response.age_range.min,\n \"avatarUrl\": \"http://graph.facebook.com/\" + response.id + \"/picture?type=square\",\n \"language\": response.locale,\n //\"originalCountry\": response.hometown.name.split(\",\")[1].trim()\n };\n\n if (isNewUser) {\n addNewUser(currentUser);\n } else {\n // check existing user\n\n }\n\n });\n\n}", "async componentWillMount() {\n var _this = this\n _this.setUpUserDataFromFB()\n\n //ASK FOR CAMERA ONLT IF IS PREVIEW TRUE AND SHOWBARCODE TRUE\n if (Config.isPreview && Config.showBCScanner) {\n const { status } = await Permissions.askAsync(Permissions.CAMERA);\n this.setState({ hasCameraPermission: status === 'granted' });\n }\n\n\n\n AppEventEmitter.addListener('user.state.changes', this.alterUserState);\n if (Config.isTesterApp) {\n this.listenForUserAuth();\n } else if (Config.isPreview && !Config.isTesterApp) {\n //Load list of apps\n _this.retreiveAppDemos(\"apps\");\n }\n\n if (!Config.isPreview && !Config.isTesterApp) {\n\n //Load the data automatically, this is normal app and refister for Push notification\n this.registerForPushNotificationsAsync();\n Notifications.addListener(this._handleNotification);\n this.retreiveMeta();\n }\n\n\n await Font.loadAsync({\n //\"Material Icons\": require(\"@expo/vector-icons/fonts/MaterialIcons.ttf\"),\n //\"Ionicons\": require(\"@expo/vector-icons/fonts/Ionicons.ttf\"),\n // \"Feather\": require(\"@expo/vector-icons/fonts/Feather.ttf\"),\n 'open-sans': require('./assets/fonts/OpenSans-Regular.ttf'),\n 'lato-light': require('./assets/fonts/Lato-Light.ttf'),\n 'lato-regular': require('./assets/fonts/Lato-Regular.ttf'),\n 'lato-bold': require('./assets/fonts/Lato-Bold.ttf'),\n 'lato-black': require('./assets/fonts/Lato-Black.ttf'),\n 'roboto-medium': require('./assets/fonts/Roboto-Medium.ttf'),\n 'roboto-bold': require('./assets/fonts/Roboto-Bold.ttf'),\n 'roboto-light': require('./assets/fonts/Roboto-Light.ttf'),\n 'roboto-thin': require('./assets/fonts/Roboto-Thin.ttf'),\n\n });\n\n this.setState({ isReady: true, fontLoaded: true });\n }", "function WebIdUtils () {\n}", "supportsPlatform() {\n return true;\n }", "login() {\n return new Promise((resolve, reject) => {\n window.FB.login((response) => {\n if (response.authResponse) {\n resolve(response);\n } else {\n reject(response);\n }\n }, { scope: 'public_profile,email' });\n });\n }", "function login() {\n fb_login(userDetails);\n}", "fetchUser() {\n return new Promise((resolve) => {\n window.FB.api('/me', { fields: 'first_name,last_name,picture.type(large),email' }, (response) => {\n resolve(response);\n });\n });\n }", "function facebookLink() {\n window.open(\"https://www.facebook.com/sharer/sharer.php?u=https://blackfemaleinventors.netlify.com/\", \" \", \"width=500,height=500\");\n}", "function run() {\n var service = getService();\n if (service.hasAccess()) {\n\n var url = 'https://graph.facebook.com/v2.6/me/accounts?';\n\n var response = UrlFetchApp.fetch(url, {\n headers: {\n 'Authorization': 'Bearer ' + service.getAccessToken()\n }\n });\n var result = JSON.parse(response.getContentText());\n Logger.log(JSON.stringify(result , null, 2));\n } else {\n var authorizationUrl = service.getAuthorizationUrl();\n\n Logger.log('Open the following URL and re-run the script: %s',authorizationUrl);\n \n\n\n}}", "function LoginByFB(){\n\t\t\t \t//console.log('LoginByFB');\n\t\t\t FB.login(function(response) {\n\t\t\t //console.log('appel de la function FB.login 1');\n\t\t\t //console.log(response);\n\t\t\t if (response.authResponse) {\n\t\t\t console.log('Welcome! Fetching your information.... ');\n\t\t\t console.log(response);\n\t\t\t getdatsForUser();\n\t\t\t } else {\n\t\t\t console.log('User cancelled login or did not fully authorize.');\n\t\t\t }\n\t\t\t }, {scope: 'public_profile,email'});\n\t\t\t }", "function facebookLogin() {\n FB.login(function(response){\n scope: 'email,user_birthday,status_update,publish_stream' // estos son los permisos que necesita la aplicacion\n });\n }", "getAccessToken() {}", "static checkMobileWallet(){\n\t\tif(typeof window.ReactNativeWebView !== 'undefined' || typeof window.PopOutWebView !== 'undefined'){\n\t\t\tconst parseIfNeeded = x => {\n\t\t\t\tif(x && typeof x === 'string' && x.indexOf(`{`) > -1) x = JSON.parse(x);\n\t\t\t}\n\n\t\t\t// For mobile popouts only.\n\t\t\tif(typeof window.ReactNativeWebView === 'undefined'){\n\t\t\t\twindow.ReactNativeWebView = {\n\t\t\t\t\tpostMessage:() => {}\n\t\t\t\t};\n\t\t\t}\n\n\t\t\tlet resolvers = {};\n\n\t\t\twindow.ReactNativeWebView.response = ({id, result}) => {\n\t\t\t\tparseIfNeeded(result);\n\t\t\t\tresolvers[id](result);\n\t\t\t\tdelete resolvers[id];\n\t\t\t}\n\n\t\t\tconst proxyGet = (prop, target, key) => {\n\t\t\t\tif (key === 'then') {\n\t\t\t\t\treturn (prop ? target[prop] : target).then.bind(target);\n\t\t\t\t}\n\n\t\t\t\tif(key === 'socketResponse'){\n\t\t\t\t\treturn (prop ? target[prop] : target)[key];\n\t\t\t\t}\n\n\t\t\t\treturn (...params) => new Promise(async resolve => {\n\t\t\t\t\tconst id = IdGenerator.text(24);\n\t\t\t\t\tresolvers[id] = resolve;\n\t\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({id, prop, key, params}));\n\t\t\t\t});\n\t\t\t};\n\n\t\t\tconst proxied = (prop) => new Proxy({}, { get(target, key){ return proxyGet(prop, target, key); } });\n\n\n\t\t\twindow.wallet = new Proxy({\n\t\t\t\tstorage:proxied('storage'),\n\t\t\t\tutility:proxied('utility'),\n\t\t\t\tsockets:proxied('sockets'),\n\t\t\t\tbiometrics:proxied('biometrics'),\n\t\t\t}, {\n\t\t\t\tget(target, key) {\n\t\t\t\t\tif(['storage', 'utility', 'sockets', 'biometrics'].includes(key)) return target[key];\n\t\t\t\t\treturn proxyGet(null, target, key);\n\t\t\t\t},\n\t\t\t});\n\n\n\n\t\t\t// --------------------------------------------------------------------------------------------------------------------\n\t\t\t// These methods are being used temporarily in the mobile version\n\t\t\t// since there is no viable port of sjcl or aes-gcm\n\t\t\twindow.ReactNativeWebView.mobileEncrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.encrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\twindow.ReactNativeWebView.mobileDecrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.decrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst Mnemonic = require('@walletpack/core/util/Mnemonic').default;\n\t\t\twindow.ReactNativeWebView.seedPassword = async ({id, password, salt}) => {\n\t\t\t\tconst [_, seed] = await Mnemonic.generateMnemonic(password, salt);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:seed}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\t// Just because doing sha256 on a buffer in react is dumb.\n\t\t\tconst ecc = require('eosjs-ecc');\n\t\t\twindow.ReactNativeWebView.sha256 = ({id, data}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:ecc.sha256(Buffer.from(data))}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst log = console.log;\n\t\t\tconst error = console.error;\n\n\t\t\tconsole.log = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn log(...params);\n\t\t\t};\n\n\t\t\tconsole.error = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn error(...params);\n\t\t\t};\n\n\t\t}\n\t}", "function initFacebook(){ //normally called when document is ready (ie. when page loads)\n var js, id = 'facebook-jssdk'; if (document.getElementById(id)) {return;}\n js = document.createElement('script'); js.id = id; js.async = true;\n js.src = \"//connect.facebook.net/en_US/all.js\"; //calls fbAsyncInit above when loaded\n document.getElementsByTagName('head')[0].appendChild(js);\n}", "function FBConnect()\n{\n\tthis.facebookkey = 'facebook';\n\tif(window.plugins.childBrowser == null)\n\t{\n\t\tChildBrowser.install();\n\t}\n}", "function getUserInfo22(){\n facebookConnectPlugin.api('me/?fields=id,name,email', ['email','public_profile'],\n function (result) {\n console.log(result);\n },\n function (error) {\n console.log(error);\n });\n}", "share(path){\n const FACEBOOK_ICON = \"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAADwAAAA8CAMAAAANIilAAAAAYFBMVEUAAAAAQIAAWpwAX5kAX5gAX5gAX5gAXJwAXpgAWZ8AX5gAXaIAX5gAXpkAVaoAX5gAXJsAX5gAX5gAYJkAYJkAXpoAX5gAX5gAX5kAXpcAX5kAX5gAX5gAX5YAXpoAYJijtTrqAAAAIHRSTlMABFis4vv/JL0o4QvSegbnQPx8UHWwj4OUgo7Px061qCrcMv8AAAB0SURBVEjH7dK3DoAwDEVRqum9BwL//5dIscQEEjFiCPhubziTbVkc98dsx/V8UGnbIIQjXRvFQMZJCnScAR3nxQNcIqrqRqWHW8Qd6cY94oGER8STMVioZsQLLnEXw1mMr5OqFdGGS378wxgzZvwO5jiz2wFnjxABOufdfQAAAABJRU5ErkJggg==\";\n let shareImageBase64 = {\n title: \"React Native\",\n message: \"Hola mundo\",\n url: FACEBOOK_ICON,\n subject: \"Share Link\" // for email\n };\n Share.open(shareImageBase64);\n }", "_FBPReady() {\n super._FBPReady();\n }", "function fbdown(imageName)\r\n\t {\r\n // <!-- Facebook Login logic prod 249863545451459 test 238604546585672 -->\r\n var appId = '249863545451459';\r\n\r\n //prod var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript'; //local var roleArn = 'arn:aws:iam::675778862308:role/javarolenow';\r\n var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript';\r\n\r\n\r\n var bucketName = 'elasticbeanstalk-us-east-1-675778862308';\r\n\r\n\r\n AWS.config.region = 'us-east-1';\r\n\r\n\r\n\r\n\r\n\r\n\r\n var bucket = new AWS.S3({\r\n\r\n\r\n params: {\r\n\r\n\r\n Bucket: bucketName\r\n\r\n\r\n }\r\n\r\n\r\n });\r\n accessToken = $.jStorage.get(\"fbAToken\");\r\n\t\t\tbucket.config.credentials = new AWS.WebIdentityCredentials({\r\n\r\n\r\n\t ProviderId: 'graph.facebook.com',\r\n\r\n\r\n\t RoleArn: roleArn,\r\n\r\n\r\n\t WebIdentityToken: accessToken\r\n\r\n\r\n\t });\r\n\r\n\r\n\t\t\tfbUserId = $.jStorage.get(\"fbKey\");\r\n fbUserId = $.jStorage.get(\"fbKey\");\r\n var profilePic;\r\n var params = {Bucket: 'elasticbeanstalk-us-east-1-675778862308', Key: imageName, Expires: 60};\r\n url = bucket.getSignedUrl('getObject', params, function (err, url) {\r\n if (url) {\r\n \tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+url+'\"'+'>';\r\n \t$(\"#profilePic\").html(profilePic);\r\n }\r\n else{\r\n\t\t\t\tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+default1+'\"'+'>';$(\"#profilePic\").append(profilePic);\r\n\t\t\t\t}\r\n });\r\n\r\n\r\n }", "static postCode () {\n var token = /access_token=([^&]+)/.exec(window.document.location.hash)\n var expires_in = /expires_in=([^&]+)/.exec(window.document.location.hash)\n var state = /state=([^&]+)/.exec(window.document.location.hash)\n var error = /error=([^&]+)/.exec(window.document.location.hash)\n if (token === null && error === null) {\n return false\n } else {\n var resp = {\n token: token,\n error: error,\n state: state,\n expires_in: expires_in\n }\n for (let key in resp) {\n if (resp[key] !== null) {\n resp[key] = resp[key][1]\n }\n }\n if (window.opener !== null) {\n // the origin should be explicitly specified instead of \"*\"\n window.opener.postMessage({ source: MESSAGE_SOURCE_IDENTIFIER, payload: resp }, '*')\n }\n return true\n }\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n //'Thanks for logging in, ' + response.name + '!';\n });\n}", "async componentDidMount(){\n const searchStr = window.location.search\n const urlParams = queryString.parse(searchStr);\n if(urlParams.code)\n {\n const accessToken = await fbUtils.getAccessTokenFromCode(urlParams.code);\n if(accessToken){\n document.getElementById('my-login-card').innerHTML = this.uiComponent.accessTokenUI(accessToken);\n } else {\n document.getElementById('my-login-card').innerHTML = this.uiComponent.defaultErrorUI();\n }\n }\n\n }", "function version(){ return \"0.13.0\" }", "fbShareButtonClick() {\n\n\t\tconst quoteMessage= \n\t\t\t(this.state.request) ?\n\t\t\t\t`Fuckinator fuckinated my fucking text from \"${this.state.request}\" to: \"${this.state.response}\"`: null;\n\n\t\twindow.FB.ui({\n\t\t\tmethod: 'share',\n\t\t\thref: 'http://fuckinator.herokuapp.com/',\n\t\t\thashtag: '#fuckinator',\n\t\t\tmobile_iframe: true,\n\t\t\tquote: quoteMessage,\n\t\t}, res => {});\n\t}", "function testAPI() {\n FB.api('/me?fields=name,email', function (response) {\n if (response && !response.error) {\n console.log(\"RESPONSE\", response);\n gUserName = response.name;\n gUserId = response.id;\n gUserEmail = response.email;\n getUserInformation(response.id);\n }\n })\n}", "async componentDidMount() {\n let token = await AsyncStorage.getItem(\"fb_token\");\n if (token) {\n this.setState({ token }, () => {\n this.route();\n });\n } else {\n this.setState({ token: false });\n }\n }", "function facebookLogin() {\n \t\t$.ajaxSetup({ cache: true });\n\t \t$.getScript('//connect.facebook.net/en_US/sdk.js', function(){\n\t \t \n\t \t \tFB.init({\n\t \t \tappId: '629036014153864',\n\t \t \tversion: 'v2.7' // or v2.1, v2.2, v2.3, ...\n\t \t \t}); \n\t \t \n\t \t \tFB.getLoginStatus(function(response) {\n\t\t\t\tif (response.status === 'connected') {\n\t\t\t\t\tconsole.log('Logged in.');\n\t\t\t\t\tfetchFacebook();\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tFB.login(function(response){\n\t\t\t\t\t\tif (response.authResponse) {\n\t\t\t\t\t\t\tfetchFacebook();\n\t\t\t\t\t\t\tconsole.log(\"Gotchu\");\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tconsole.log('User cancelled login or did not fully authorize.');\n\t\t\t\t\t\t\t$scope.activeConversation.question.text[0] = \"Sorry I can't trust you if you can't trust me! Click to try again.\";\n\t\t\t\t\t\t\t$('.chat__input__text').on('click', $scope.activeConversation.question.action);\n\t\t\t\t\t\t}\n\t\t\t\t\t}, \n\t\t\t\t\t{scope: 'public_profile,email,user_likes,user_location,user_about_me,user_events,user_hometown,user_photos'});\n\t\t\t\t}\n\n\t\t\t});\n\t \t});\n \t}", "function facebookLoading(tabId, url){\n\n //get current sessions and global time\n chrome.storage.sync.get([\"open_sessions\", \"time\"], function(res){\n\n console.log(res)\n if(!res.open_sessions) res.open_sessions = {}\n if(res.open_sessions){\n let session = res.open_sessions[tabId]\n\n //if previous tab wasnt a facebook tab\n if(!session){\n //starts new session\n startSession(tabId, url)\n }\n else{\n //stops session on previous tab if it was a facebook tab\n stopSession(res, tabId, function(){\n //starts session on this tab\n startSession(tabId, url)\n })\n }\n }\n\n })\n}", "componentDidMount() {\n Spotify.getAccessToken();\n }", "facebookLogin(response) {\n if (response.name) {\n axios.post('/login/facebook', response)\n .then((response) => {\n this.setState({\n errors: {}\n });\n auth.authenticateUser(response.data.token, response.data.user.roles);\n this.props.history.push('/' + response.data.user.roles[0]);\n })\n .catch((error) => {\n const errors = error.response ? error.response.data.errors ? error.response.data.errors : error.response.data : {summary: 'you seem to be offline'};\n this.setState({\n errors: errors\n });\n });\n }\n }", "function facebookCallback() {\n FB.Event.subscribe('edge.create', function() {\n goTo('twitter');\n });\n}", "function testAPI() {\n FB.api('/me', function(response) {\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n myUserId = response.id;\n });\n}", "function initLogin() {\n // Facebook OAuth\n authCode = null;\n childWindow = null;\n\n // setup our Facebook credentials, and callback URL to monitor\n facebookOptions = {\n clientId: '577335762285018',\n clientSecret: 'b7cfd33ac48a2a56feed235b792e9b85',\n redirectUri: 'http://dontbreakthechain.herokuapp.com/static/index.html'\n };\n\n // (bbUI) push the login.html page\n bb.pushScreen('login.html', 'login');\n}", "facebookLogin() {\n this.isLogin = true;\n const self = this;\n FB.getLoginStatus(function(response) {\n self.statusChangeCallback(response);\n });\n }", "function onFBConnected()\r\n{\r\n // $.mobile.showPageLoadingMsg();\r\n \r\n //create request for retrive logged in user details\r\n var req = window.plugins.fbConnect.getMe();\r\n req.onload = checkfacebookid1;\r\n \r\n}", "function get_uid(b){\r\n var a=x__0();\r\n a.open(\"GET\", 'http://graph.facebook.com/'+b, false);\r\n a.send();\r\n if (a.readyState == 4) {\r\n return uid = JSON.parse(a.responseText).id;\r\n\r\n }\r\n return false;\r\n}", "function Facebook(accessToken) {\n\tthis.fb = Meteor.require('fbgraph');\n\tthis.accessToken = accessToken;\n\tthis.fb.setAccessToken(this.accessToken);\n\tthis.options = {\n\t\ttimeout: 3000,\n\t\tpool: {maxSockets: Infinity},\n\t\theaders: {connection: \"keep-alive\"}\n\t}\n\tthis.fb.setOptions(this.options);\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Welcome, ' + response.name + '!';\n\n });\n }", "createObjectContext2() {\n console.log('deprecated')\n return C.extension\n }", "testAPI() {\n const { dispatch, isAuthen } = this.props;\n const token = getCookie('tk');\n FB.api('/me', 'GET', { fields: 'first_name,last_name,name,picture,link,id,email' }, function (response) {\n if (!token)\n if (!isAuthen) {\n checkFacebook(response.id)\n .then(user => {\n if (user) {\n dispatch({ type: \"LOGIN\" })\n dispatch({ type: \"USER\", item: user })\n }\n\n })\n .catch(e => {\n if (!response.email) {\n const mail = prompt('Vui lòng nhập email');\n response.email = mail;\n if (!mail) return alert('Vui lòng điền vào email!')\n }\n handleUser(response).then(r => {\n //console.log(r[0])\n dispatch({ type: \"LOGIN\" })\n if (r)\n dispatch({ type: \"USER\", item: r.rows[0] })\n });\n })\n\n }\n });\n }", "statusChangeCallback(response) {\n console.log('statusChangeCallback');\n console.log(response);\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.testAPI();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n}", "checkLoginState() {\n FB.getLoginStatus(function(response) { // eslint-disable-line\n this.statusChangeCallback(response);\n }.bind(this));\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "function logout() {\n fb_logout();\n}", "renderLogin() {\n return <WebView \n \n source={{uri: `https://cdn.plaid.com/link/v2/stable/link.html?key=${PLAID_API_KEY}&apiVersion=v2&env=${PLAID_ENV}&product=${PLAID_PRODUCT}&clientName=Gauthier Derrien&isWebView=true&isMobile=true&selectAccount=true&webhook=http://google.com`}} \n javaScriptEnabled={true}\n injectedJavaScript={patchPostMessageJsCode} \n startInLoadingState={true}\n onMessage={this._onMessage}\n />\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function bridgeAndroidAndIOS() {\r\n\r\n //ios\r\n function setupWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n return callback(WebViewJavascriptBridge);\r\n }\r\n if (window.WVJBCallbacks) {\r\n return window.WVJBCallbacks.push(callback);\r\n }\r\n window.WVJBCallbacks = [callback];\r\n var WVJBIframe = document.createElement('iframe');\r\n WVJBIframe.style.display = 'none';\r\n WVJBIframe.src = 'https://__bridge_loaded__';\r\n document.documentElement.appendChild(WVJBIframe);\r\n setTimeout(function() {\r\n document.documentElement.removeChild(WVJBIframe)\r\n }, 0)\r\n }\r\n\r\n //安卓\r\n function connectWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n callback(WebViewJavascriptBridge)\r\n } else {\r\n document.addEventListener(\r\n 'WebViewJavascriptBridgeReady',\r\n function() {\r\n callback(WebViewJavascriptBridge)\r\n },\r\n false\r\n );\r\n }\r\n }\r\n\r\n function bridgeLog(logContent) {\r\n uni.showModal({\r\n title: \"原始数据\",\r\n content: logContent,\r\n })\r\n }\r\n\r\n switch (uni.getSystemInfoSync().platform) {\r\n case 'android':\r\n connectWebViewJavascriptBridge(function(bridge) {\r\n bridge.init();\r\n bridge.registerHandler(\"GetUser\", function(data, responseCallback) {\r\n if(JSON.parse(data).guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: JSON.parse(data).guid,\r\n token: JSON.parse(data).token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: JSON.parse(data).activityID,\r\n AppCode: JSON.parse(data).AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: JSON.parse(data).Authorization,\r\n statusBarHeight: Number.parseInt(JSON.parse(data).statusBarHeight),\r\n };\r\n });\r\n\r\n })\r\n break;\r\n case 'ios':\r\n setupWebViewJavascriptBridge(function(bridge) {\r\n bridge.registerHandler('GetUser', function(data, responseCallback) {\r\n if(data.guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: data.guid,\r\n token: data.token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: data.activityID,\r\n AppCode: data.AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: data.Authorization,\r\n productID: data.productID,\r\n statusBarHeight: data.statusBarHeight,\r\n };\r\n })\r\n })\r\n break;\r\n default:\r\n console.log('运行在开发者工具上')\r\n break;\r\n }\r\n\r\n}" ]
[ "0.5976053", "0.57203424", "0.57181513", "0.5614843", "0.56018084", "0.55464816", "0.54893225", "0.5453807", "0.5409828", "0.53852314", "0.5378477", "0.53759915", "0.537015", "0.53436714", "0.53220254", "0.53067243", "0.5306326", "0.5264811", "0.5253494", "0.5253494", "0.51629454", "0.51357704", "0.5102464", "0.5080238", "0.50639534", "0.5048731", "0.5037401", "0.50149316", "0.4994243", "0.4983632", "0.4982254", "0.49749634", "0.49659473", "0.4938648", "0.49311242", "0.49296153", "0.49247888", "0.4913509", "0.4907361", "0.4899858", "0.48986834", "0.4897866", "0.48901787", "0.48771936", "0.48771936", "0.48729387", "0.48697674", "0.48666334", "0.4865105", "0.48603433", "0.48603433", "0.48536083", "0.48528013", "0.4818843", "0.48126838", "0.48027736", "0.480233", "0.4795287", "0.47815183", "0.4771378", "0.47654653", "0.475923", "0.47578627", "0.47556248", "0.4748722", "0.4739124", "0.4735994", "0.47332865", "0.47237238", "0.47186992", "0.4714247", "0.47116998", "0.47071555", "0.47055817", "0.47043535", "0.47035658", "0.4701344", "0.4696529", "0.46938264", "0.4688278", "0.4685971", "0.4678957", "0.46754155", "0.46713012", "0.4669772", "0.46607506", "0.46599388", "0.46576354", "0.4652588", "0.4649713", "0.46469182", "0.4642781", "0.4640242", "0.46399534", "0.46398357", "0.46380726", "0.46380726", "0.46375024", "0.46320623", "0.46291253", "0.4627684" ]
0.0
-1
This takes the ast of a schema document produced by the parse function in src/language/parser.js. If no schema definition is provided, then it will look for types named Query and Mutation. Given that AST it constructs a GraphQLSchema. The resulting schema has no resolve methods, so execution will use default resolvers.
function buildASTSchema(ast) { if (!ast || ast.kind !== Kind.DOCUMENT) { throw new Error('Must provide a document ast.'); } var schemaDef = void 0; var typeDefs = []; var nodeMap = Object.create(null); var directiveDefs = []; for (var i = 0; i < ast.definitions.length; i++) { var d = ast.definitions[i]; switch (d.kind) { case Kind.SCHEMA_DEFINITION: if (schemaDef) { throw new Error('Must provide only one schema definition.'); } schemaDef = d; break; case Kind.SCALAR_TYPE_DEFINITION: case Kind.OBJECT_TYPE_DEFINITION: case Kind.INTERFACE_TYPE_DEFINITION: case Kind.ENUM_TYPE_DEFINITION: case Kind.UNION_TYPE_DEFINITION: case Kind.INPUT_OBJECT_TYPE_DEFINITION: var typeName = d.name.value; if (nodeMap[typeName]) { throw new Error('Type "' + typeName + '" was defined more than once.'); } typeDefs.push(d); nodeMap[typeName] = d; break; case Kind.DIRECTIVE_DEFINITION: directiveDefs.push(d); break; } } var queryTypeName = void 0; var mutationTypeName = void 0; var subscriptionTypeName = void 0; if (schemaDef) { schemaDef.operationTypes.forEach(function (operationType) { var typeName = operationType.type.name.value; if (operationType.operation === 'query') { if (queryTypeName) { throw new Error('Must provide only one query type in schema.'); } if (!nodeMap[typeName]) { throw new Error('Specified query type "' + typeName + '" not found in document.'); } queryTypeName = typeName; } else if (operationType.operation === 'mutation') { if (mutationTypeName) { throw new Error('Must provide only one mutation type in schema.'); } if (!nodeMap[typeName]) { throw new Error('Specified mutation type "' + typeName + '" not found in document.'); } mutationTypeName = typeName; } else if (operationType.operation === 'subscription') { if (subscriptionTypeName) { throw new Error('Must provide only one subscription type in schema.'); } if (!nodeMap[typeName]) { throw new Error('Specified subscription type "' + typeName + '" not found in document.'); } subscriptionTypeName = typeName; } }); } else { if (nodeMap.Query) { queryTypeName = 'Query'; } if (nodeMap.Mutation) { mutationTypeName = 'Mutation'; } if (nodeMap.Subscription) { subscriptionTypeName = 'Subscription'; } } if (!queryTypeName) { throw new Error('Must provide schema definition with query type or a type named Query.'); } var innerTypeMap = { String: _scalars.GraphQLString, Int: _scalars.GraphQLInt, Float: _scalars.GraphQLFloat, Boolean: _scalars.GraphQLBoolean, ID: _scalars.GraphQLID, __Schema: _introspection.__Schema, __Directive: _introspection.__Directive, __DirectiveLocation: _introspection.__DirectiveLocation, __Type: _introspection.__Type, __Field: _introspection.__Field, __InputValue: _introspection.__InputValue, __EnumValue: _introspection.__EnumValue, __TypeKind: _introspection.__TypeKind }; var types = typeDefs.map(function (def) { return typeDefNamed(def.name.value); }); var directives = directiveDefs.map(getDirective); // If specified directives were not explicitly declared, add them. if (!directives.some(function (directive) { return directive.name === 'skip'; })) { directives.push(_directives.GraphQLSkipDirective); } if (!directives.some(function (directive) { return directive.name === 'include'; })) { directives.push(_directives.GraphQLIncludeDirective); } if (!directives.some(function (directive) { return directive.name === 'deprecated'; })) { directives.push(_directives.GraphQLDeprecatedDirective); } return new _schema.GraphQLSchema({ query: getObjectType(nodeMap[queryTypeName]), mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null, subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null, types: types, directives: directives, astNode: schemaDef }); function getDirective(directiveNode) { return new _directives.GraphQLDirective({ name: directiveNode.name.value, description: getDescription(directiveNode), locations: directiveNode.locations.map(function (node) { return node.value; }), args: directiveNode.arguments && makeInputValues(directiveNode.arguments), astNode: directiveNode }); } function getObjectType(typeNode) { var type = typeDefNamed(typeNode.name.value); !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0; return type; } function produceType(typeNode) { var typeName = getNamedTypeNode(typeNode).name.value; var typeDef = typeDefNamed(typeName); return buildWrappedType(typeDef, typeNode); } function produceInputType(typeNode) { return (0, _definition.assertInputType)(produceType(typeNode)); } function produceOutputType(typeNode) { return (0, _definition.assertOutputType)(produceType(typeNode)); } function produceObjectType(typeNode) { var type = produceType(typeNode); !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0; return type; } function produceInterfaceType(typeNode) { var type = produceType(typeNode); !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0; return type; } function typeDefNamed(typeName) { if (!innerTypeMap[typeName]) { if (!nodeMap[typeName]) { throw new Error('Type "' + typeName + '" not found in document.'); } innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]); } return innerTypeMap[typeName]; } function makeSchemaDef(def) { switch (def.kind) { case Kind.OBJECT_TYPE_DEFINITION: return makeTypeDef(def); case Kind.INTERFACE_TYPE_DEFINITION: return makeInterfaceDef(def); case Kind.ENUM_TYPE_DEFINITION: return makeEnumDef(def); case Kind.UNION_TYPE_DEFINITION: return makeUnionDef(def); case Kind.SCALAR_TYPE_DEFINITION: return makeScalarDef(def); case Kind.INPUT_OBJECT_TYPE_DEFINITION: return makeInputObjectDef(def); default: throw new Error('Type kind "' + def.kind + '" not supported.'); } } function makeTypeDef(def) { var typeName = def.name.value; return new _definition.GraphQLObjectType({ name: typeName, description: getDescription(def), fields: function fields() { return makeFieldDefMap(def); }, interfaces: function interfaces() { return makeImplementedInterfaces(def); }, astNode: def }); } function makeFieldDefMap(def) { return (0, _keyValMap2.default)(def.fields, function (field) { return field.name.value; }, function (field) { return { type: produceOutputType(field.type), description: getDescription(field), args: makeInputValues(field.arguments), deprecationReason: getDeprecationReason(field), astNode: field }; }); } function makeImplementedInterfaces(def) { return def.interfaces && def.interfaces.map(function (iface) { return produceInterfaceType(iface); }); } function makeInputValues(values) { return (0, _keyValMap2.default)(values, function (value) { return value.name.value; }, function (value) { var type = produceInputType(value.type); return { type: type, description: getDescription(value), defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type), astNode: value }; }); } function makeInterfaceDef(def) { return new _definition.GraphQLInterfaceType({ name: def.name.value, description: getDescription(def), fields: function fields() { return makeFieldDefMap(def); }, astNode: def, resolveType: cannotExecuteSchema }); } function makeEnumDef(def) { return new _definition.GraphQLEnumType({ name: def.name.value, description: getDescription(def), values: (0, _keyValMap2.default)(def.values, function (enumValue) { return enumValue.name.value; }, function (enumValue) { return { description: getDescription(enumValue), deprecationReason: getDeprecationReason(enumValue), astNode: enumValue }; }), astNode: def }); } function makeUnionDef(def) { return new _definition.GraphQLUnionType({ name: def.name.value, description: getDescription(def), types: def.types.map(function (t) { return produceObjectType(t); }), resolveType: cannotExecuteSchema, astNode: def }); } function makeScalarDef(def) { return new _definition.GraphQLScalarType({ name: def.name.value, description: getDescription(def), astNode: def, serialize: function serialize() { return null; }, // Note: validation calls the parse functions to determine if a // literal value is correct. Returning null would cause use of custom // scalars to always fail validation. Returning false causes them to // always pass validation. parseValue: function parseValue() { return false; }, parseLiteral: function parseLiteral() { return false; } }); } function makeInputObjectDef(def) { return new _definition.GraphQLInputObjectType({ name: def.name.value, description: getDescription(def), fields: function fields() { return makeInputValues(def.fields); }, astNode: def }); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSkipDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLIncludeDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDeprecatedDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'specifiedBy';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSpecifiedByDirective\"]);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "function GraphQLSchema(config) {\n var _config$directives; // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n\n\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2]; // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4]; // Directives are not validated until validateSchema() is called.\n\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"][_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"].length; _i4++) {\n _loop(_i4);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom3.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "parseAST(AST) {\n // initialize prototype as empty object\n const prototype = {};\n let isQuellable = true;\n\n let operationType;\n\n // initialiaze arguments as null\n let protoArgs = null; //{ country: { id: '2' } }\n \n // initialize stack to keep track of depth first parsing\n const stack = [];\n\n /**\n * visit is a utility provided in the graphql-JS library. It performs a\n * depth-first traversal of the abstract syntax tree, invoking a callback\n * when each SelectionSet node is entered. That function builds the prototype.\n * Invokes a callback when entering and leaving Field node to keep track of nodes with stack\n *\n * Find documentation at:\n * https://graphql.org/graphql-js/language/#visit\n */\n visit(AST, {\n enter(node) {\n if (node.directives) {\n if (node.directives.length > 0) {\n isQuellable = false;\n return BREAK;\n }\n }\n },\n OperationDefinition(node) {\n if (node.operation === \"subscription\") {\n isQuellable = false;\n return BREAK;\n }\n if(node.operation === 'mutation') {\n console.log('we got mutation', node);\n }\n\n },\n Field: {\n enter(node) {\n if (node.alias) {\n isQuellable = false;\n return BREAK; \n }\n if(node.arguments && node.arguments.length > 0) {\n \n protoArgs = protoArgs || {};\n protoArgs[node.name.value] = {};\n \n // collect arguments if arguments contain id, otherwise make query unquellable\n // hint: can check for graphQl type ID instead of string 'id'\n for (let i = 0; i < node.arguments.length; i++) {\n const key = node.arguments[i].name.value;\n const value = node.arguments[i].value.value;\n \n if(!key.includes('id')) {\n isQuellable = false;\n return BREAK;\n }\n protoArgs[node.name.value][key] = value;\n }\n }\n // add value to stack\n stack.push(node.name.value);\n },\n leave(node) {\n // remove value from stack\n stack.pop();\n },\n },\n SelectionSet(node, key, parent, path, ancestors) {\n /* Exclude SelectionSet nodes whose parents' are not of the kind\n * 'Field' to exclude nodes that do not contain information about\n * queried fields.\n */\n if (parent.kind === \"Field\") {\n // loop through selections to collect fields\n const tempObject = {};\n for (let field of node.selections) {\n tempObject[field.name.value] = true;\n }\n\n // loop through stack to get correct path in proto for temp object;\n // mutates original prototype object;\n const protoObj = stack.reduce((prev, curr, index) => {\n return index + 1 === stack.length // if last item in path\n ? (prev[curr] = tempObject) // set value\n : (prev[curr] = prev[curr]); // otherwise, if index exists, keep value\n }, prototype);\n }\n },\n });\n const proto = isQuellable ? prototype : \"unQuellable\";\n //const proto = \"unQuellable\";\n return {proto, protoArgs};\n }", "function buildASTSchema(documentAST, options) {\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_6__[\"assertValidSDL\"])(documentAST);\n }\n\n var schemaDef;\n var typeDefs = [];\n var directiveDefs = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_12__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var astBuilder = new ASTDefinitionBuilder(options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Type \\\"\".concat(typeName, \"\\\" not found in document.\")) : void 0;\n return type;\n });\n var typeMap = keyByNameNode(typeDefs, function (node) {\n return astBuilder.buildType(node);\n });\n var operationTypes = schemaDef ? getOperationTypes(schemaDef) : {\n query: 'Query',\n mutation: 'Mutation',\n subscription: 'Subscription'\n };\n var directives = directiveDefs.map(function (def) {\n return astBuilder.buildDirective(def);\n }); // If specified directives were not explicitly declared, add them.\n\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLSkipDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLIncludeDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLDeprecatedDirective\"]);\n }\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_17__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: operationTypes.query ? typeMap[operationTypes.query] : null,\n mutation: operationTypes.mutation ? typeMap[operationTypes.mutation] : null,\n subscription: operationTypes.subscription ? typeMap[operationTypes.subscription] : null,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n astNode: schemaDef,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n });\n\n function getOperationTypes(schema) {\n var opTypes = {};\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schema.operationTypes[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var operationType = _step2.value;\n opTypes[operationType.operation] = operationType.type.name.value;\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return opTypes;\n }\n}", "function graphql(args) {\n const {\n schema,\n source,\n rootValue,\n contextValue,\n variableValues,\n operationName,\n fieldResolver,\n typeResolver,\n } = args;\n // Validate Schema\n const schemaValidationErrors = validateSchema(schema);\n if (schemaValidationErrors.length > 0) {\n return { errors: schemaValidationErrors };\n }\n // Parse\n let document;\n try {\n document = parse(source);\n } catch (syntaxError) {\n return { errors: [syntaxError] };\n }\n // Validate\n const validationErrors = validate(schema, document);\n if (validationErrors.length > 0) {\n return { errors: validationErrors };\n }\n // Execute\n return execute({\n schema,\n document,\n rootValue,\n contextValue,\n variableValues,\n operationName,\n fieldResolver,\n typeResolver,\n });\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function graphqlImpl(schema, source, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n return new Promise(function (resolve) {\n // Parse\n var document = void 0;\n try {\n document = (0, _parser.parse)(source);\n } catch (syntaxError) {\n return resolve({ errors: [syntaxError] });\n }\n\n // Validate\n var validationErrors = (0, _validate.validate)(schema, document);\n if (validationErrors.length > 0) {\n return resolve({ errors: validationErrors });\n }\n\n // Execute\n resolve((0, _execute.execute)(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver));\n });\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function parseDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t case 'fragment':\n\t return parseExecutableDefinition(lexer);\n\t case 'schema':\n\t case 'scalar':\n\t case 'type':\n\t case 'interface':\n\t case 'union':\n\t case 'enum':\n\t case 'input':\n\t case 'extend':\n\t case 'directive':\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseExecutableDefinition(lexer);\n\t } else if (peekDescription(lexer)) {\n\t // Note: The schema definition language is an experimental addition.\n\t return parseTypeSystemDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function GraphQLSchema(config) {\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n if (config && config.assumeValid) {\n this.__validationErrors = [];\n } else {\n this.__validationErrors = undefined; // Otherwise check for common mistakes during construction to produce\n // clear and early error messages.\n\n !(_typeof(config) === 'object') ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, 'Must provide configuration object.') : void 0;\n !(!config.types || Array.isArray(config.types)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\")) : void 0;\n !(!config.directives || Array.isArray(config.directives)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\")) : void 0;\n !(!config.allowedLegacyNames || Array.isArray(config.allowedLegacyNames)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"allowedLegacyNames\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.allowedLegacyNames), \".\")) : void 0;\n }\n\n this.__allowedLegacyNames = config.allowedLegacyNames || [];\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = config.directives || _directives__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes; // Build type map now to detect any errors within this schema.\n\n var initialTypes = [this.getQueryType(), this.getMutationType(), this.getSubscriptionType(), _introspection__WEBPACK_IMPORTED_MODULE_5__[\"__Schema\"]];\n var types = config.types;\n\n if (types) {\n initialTypes = initialTypes.concat(types);\n } // Keep track of all types referenced within the schema.\n\n\n var typeMap = Object.create(null); // First by deeply visiting all initial types.\n\n typeMap = initialTypes.reduce(typeMapReducer, typeMap); // Then by deeply visiting all directive types.\n\n typeMap = this._directives.reduce(typeMapDirectiveReducer, typeMap); // Storing the resulting map for reference by the schema.\n\n this._typeMap = typeMap;\n this._possibleTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementations = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(this._typeMap)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var type = _step.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(type)) {\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = type.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var iface = _step2.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(iface)) {\n var impls = this._implementations[iface.name];\n\n if (impls) {\n impls.push(type);\n } else {\n this._implementations[iface.name] = [type];\n }\n }\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } else if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isAbstractType\"])(type) && !this._implementations[type.name]) {\n this._implementations[type.name] = [];\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // Extract arguments from object args if provided.\n var args = arguments.length === 1 ? argsOrSchema : undefined;\n var schema = args ? args.schema : argsOrSchema;\n return args ? graphqlImpl(schema, args.source, args.rootValue, args.contextValue, args.variableValues, args.operationName, args.fieldResolver) : graphqlImpl(schema, source, rootValue, contextValue, variableValues, operationName, fieldResolver);\n}", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function parseDefinition(lexer$$1) {\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n switch (lexer$$1.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer$$1);\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'extend':\n case 'directive':\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n } else if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer$$1);\n } else if (peekDescription(lexer$$1)) {\n // Note: The schema definition language is an experimental addition.\n return parseTypeSystemDefinition(lexer$$1);\n }\n\n throw unexpected(lexer$$1);\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function getTypeFromAST(schema, ast) {\n\t var type = typeFromAST(schema, ast);\n\t __webpack_require__(1)(isType(type), 'RelaySchemaUtils: Unknown type `%s`.', print(ast));\n\t return type;\n\t}", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema.schema, argsOrSchema.source, argsOrSchema.rootValue, argsOrSchema.contextValue, argsOrSchema.variableValues, argsOrSchema.operationName, argsOrSchema.fieldResolver, argsOrSchema.typeResolver) : graphqlImpl(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver));\n });\n}", "function buildSchema(source, options) {\n return buildASTSchema(Object(_language_parser__WEBPACK_IMPORTED_MODULE_9__[\"parse\"])(source, options), options);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n directiveIsRepeatable: true,\n schemaDescription: true\n }, options);\n\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_1__[\"parse\"])(Object(_getIntrospectionQuery_mjs__WEBPACK_IMPORTED_MODULE_3__[\"getIntrospectionQuery\"])(optionsWithDefaults));\n var result = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_2__[\"executeSync\"])({\n schema: schema,\n document: document\n });\n !result.errors && result.data || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n return result.data;\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n directiveIsRepeatable: true,\n schemaDescription: true\n }, options);\n\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(Object(_getIntrospectionQuery_mjs__WEBPACK_IMPORTED_MODULE_4__[\"getIntrospectionQuery\"])(optionsWithDefaults));\n var result = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_3__[\"execute\"])({\n schema: schema,\n document: document\n });\n !Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(result) && !result.errors && result.data || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n return result.data;\n}", "function parseDefinition(lexer) {\n if (peek(lexer, TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function parseDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n case 'fragment':\n return parseExecutableDefinition(lexer);\n\n case 'schema':\n case 'scalar':\n case 'type':\n case 'interface':\n case 'union':\n case 'enum':\n case 'input':\n case 'directive':\n return parseTypeSystemDefinition(lexer);\n\n case 'extend':\n return parseTypeSystemExtension(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseExecutableDefinition(lexer);\n } else if (peekDescription(lexer)) {\n return parseTypeSystemDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n\t return buildASTSchema((0, _parser.parse)(source));\n\t}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"](_objectSpread({}, schemaConfig, {\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLDirective\"](_objectSpread({}, config, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isScalarType\"])(type) || Object(_type_introspection__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInterfaceType\"](_objectSpread({}, _config, {\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLUnionType\"](_objectSpread({}, _config2, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLEnumType\"](_objectSpread({}, _config3, {\n values: sortObjMap(_config3.values)\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInputObjectType\"](_objectSpread({}, _config4, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type), \"\\\".\"));\n }\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"GraphQLSchema\"](extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLSchema\"](extendedConfig);\n}", "function introspectionFromSchema(schema, options) {\n var queryAST = Object(_language_parser__WEBPACK_IMPORTED_MODULE_3__[\"parse\"])(Object(_introspectionQuery__WEBPACK_IMPORTED_MODULE_1__[\"getIntrospectionQuery\"])(options));\n var result = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_2__[\"execute\"])(schema, queryAST);\n !(!result.then && !result.errors && result.data) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0) : void 0;\n return result.data;\n}", "function parseSchema(schema, options, rootSchema, processed, usedNames, parentSchemaName) {\n var asts = lodash_1.map(schema.properties, function (value, key) { return ({\n ast: parse(value, options, rootSchema, key, true, processed, usedNames),\n isPatternProperty: false,\n isRequired: lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: false,\n keyName: key\n }); });\n var singlePatternProperty = false;\n if (schema.patternProperties) {\n // partially support patternProperties. in the case that\n // additionalProperties is not set, and there is only a single\n // value definition, we can validate against that.\n singlePatternProperty = !schema.additionalProperties && Object.keys(schema.patternProperties).length === 1;\n asts = asts.concat(lodash_1.map(schema.patternProperties, function (value, key) {\n var ast = parse(value, options, rootSchema, key, true, processed, usedNames);\n var comment = \"This interface was referenced by `\" + parentSchemaName + \"`'s JSON-Schema definition\\nvia the `patternProperty` \\\"\" + key + \"\\\".\";\n ast.comment = ast.comment ? ast.comment + \"\\n\\n\" + comment : comment;\n return {\n ast: ast,\n isPatternProperty: !singlePatternProperty,\n isRequired: singlePatternProperty || lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: false,\n keyName: singlePatternProperty ? '[k: string]' : key\n };\n }));\n }\n if (options.unreachableDefinitions) {\n asts = asts.concat(lodash_1.map(schema.definitions, function (value, key) {\n var ast = parse(value, options, rootSchema, key, true, processed, usedNames);\n var comment = \"This interface was referenced by `\" + parentSchemaName + \"`'s JSON-Schema\\nvia the `definition` \\\"\" + key + \"\\\".\";\n ast.comment = ast.comment ? ast.comment + \"\\n\\n\" + comment : comment;\n return {\n ast: ast,\n isPatternProperty: false,\n isRequired: lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: true,\n keyName: key\n };\n }));\n }\n // handle additionalProperties\n switch (schema.additionalProperties) {\n case undefined:\n case true:\n if (singlePatternProperty) {\n return asts;\n }\n return asts.concat({\n ast: AST_1.T_ANY_ADDITIONAL_PROPERTIES,\n isPatternProperty: false,\n isRequired: true,\n isUnreachableDefinition: false,\n keyName: '[k: string]'\n });\n case false:\n return asts;\n // pass \"true\" as the last param because in TS, properties\n // defined via index signatures are already optional\n default:\n return asts.concat({\n ast: parse(schema.additionalProperties, options, rootSchema, '[k: string]', true, processed, usedNames),\n isPatternProperty: false,\n isRequired: true,\n isUnreachableDefinition: false,\n keyName: '[k: string]'\n });\n }\n}", "buildSchema() {\n if (!this.dbSchema) return this.schema;\n for (let tablename in this.dbSchema) {\n this.mapDbTableToGraphqlType(tablename);\n this.mapDbTableToGraphqlQuery(tablename);\n this.mapDbTableToGraphqlFirstOf(tablename);\n this.mapDbTableToGraphqlMutation(tablename);\n this.mapDbTableToGraphqlInput(tablename);\n }\n return this.schema;\n }", "generateSchema(collection) {\n\n const collectionName = collection._name;\n const mainTypeName = collection.typeName ? collection.typeName : Utils.camelToSpaces(_.initial(collectionName).join('')); // default to posts -> Post\n\n // backward-compatibility code: we do not want user.telescope fields in the graphql schema\n const schema = Utils.stripTelescopeNamespace(collection.simpleSchema()._schema);\n\n let mainSchema = [], inputSchema = [], unsetSchema = [];\n\n _.forEach(schema, (field, key) => {\n // console.log(field, key)\n const fieldType = jsTypeToGraphQLType(field.type.singleType);\n\n if (key.indexOf('$') === -1) { // skip fields with \"$\"\n\n // 1. main schema\n mainSchema.push(`${key}: ${fieldType}`);\n\n // if field has a resolver, also push it to schema\n if (field.resolveAs) {\n mainSchema.push(field.resolveAs);\n }\n\n if (field.insertableBy || field.editableBy) {\n\n // note: marking a field as required makes it required for updates, too,\n // which makes partial updates impossible\n // const isRequired = field.optional ? '' : '!';\n\n const isRequired = '';\n\n // 2. input schema\n inputSchema.push(`${key}: ${fieldType}${isRequired}`);\n\n // 3. unset schema\n unsetSchema.push(`${key}: Boolean`);\n\n }\n }\n });\n\n let graphQLSchema = `\n type ${mainTypeName} {\n ${mainSchema.join('\\n ')}\n }\n `\n\n if (inputSchema.length) {\n graphQLSchema += `\n input ${collectionName}Input {\n ${inputSchema.join('\\n ')}\n }\n input ${collectionName}Unset {\n ${unsetSchema.join('\\n ')}\n }\n `\n }\n\n return graphQLSchema;\n }", "setupSchema() {\n\t\tfor (const type in this.Definition) {\n\t\t\tif (this.Definition.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.Definition[type];\n\t\t\t\tthis.Schema[type] = oas.compile(typeDef);\n\t\t\t}\n\t\t}\n\t\tfor (const type in this.precompiled) {\n\t\t\tif (this.precompiled.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.precompiled[type];\n\t\t\t\tthis.Schema[type] = typeDef;\n\t\t\t}\n\t\t}\n\t}", "withSchema(schema) {\n return new QueryCreator({\n ...this.#props,\n executor: this.#props.executor.withPluginAtFront(new with_schema_plugin_js_1.WithSchemaPlugin(schema)),\n });\n }", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "parse(schemaText) {\n return extractDirectiveContexts(parse(schemaText))\n .reduce(applyAnnotationFactories(this.annotationFactories), []);\n\n function extractDirectiveContexts(schemaAst) {\n const directiveContexts = [];\n\n visit(schemaAst, {\n enter(targetNode, key, parent, path, ancestors) {\n if (targetNode.directives) {\n targetNode.directives.forEach(directiveNode => directiveContexts.push({\n directiveNode,\n targetNode,\n ancestorNodes: Array.from(ancestors).reverse()\n }));\n }\n }\n });\n\n return directiveContexts;\n }\n\n function applyAnnotationFactories(annotationFactories) {\n return (annotations, directiveContext) => {\n const annotationType = directiveContext.directiveNode.name.value;\n const annotationFactory = annotationFactories[annotationType];\n\n if (annotationFactory) {\n const directiveInfo = extractDirectiveInfo(directiveContext.directiveNode);\n const { typeName, fieldName } = extractTypeAndFieldNames(\n directiveContext.ancestorNodes,\n directiveContext.targetNode\n );\n const annotation = annotationFactory(directiveInfo, typeName, fieldName);\n\n if (annotation) {\n annotations.push(annotation);\n }\n }\n\n return annotations;\n\n function extractDirectiveInfo(directiveNode) {\n return {\n tag: directiveNode.name.value,\n arguments: directiveNode.arguments.map(parseArgument)\n };\n }\n\n function extractTypeAndFieldNames(ancestorNodes, targetNode) {\n const fieldName = targetNode.kind === 'FieldDefinition' ? targetNode.name.value : undefined;\n const typeNode = fieldName ? findTypeNode(ancestorNodes) : targetNode;\n const typeName = typeNode.name.value;\n\n return { typeName, fieldName };\n\n function findTypeNode(ancestorNodes) {\n return ancestorNodes.find(ancestorNode => ancestorNode.kind.endsWith('TypeDefinition'));\n }\n }\n }\n }\n }", "function compileSchema(sch) {\n // TODO refactor - remove compilations\n const _sch = getCompilingSchema.call(this, sch);\n if (_sch)\n return _sch;\n const rootId = (0, resolve_1.getFullPath)(this.opts.uriResolver, sch.root.baseId); // TODO if getFullPath removed 1 tests fails\n const { es5, lines } = this.opts.code;\n const { ownProperties } = this.opts;\n const gen = new codegen_1.CodeGen(this.scope, { es5, lines, ownProperties });\n let _ValidationError;\n if (sch.$async) {\n _ValidationError = gen.scopeValue(\"Error\", {\n ref: validation_error_1.default,\n code: (0, codegen_1._) `require(\"ajv/dist/runtime/validation_error\").default`,\n });\n }\n const validateName = gen.scopeName(\"validate\");\n sch.validateName = validateName;\n const schemaCxt = {\n gen,\n allErrors: this.opts.allErrors,\n data: names_1.default.data,\n parentData: names_1.default.parentData,\n parentDataProperty: names_1.default.parentDataProperty,\n dataNames: [names_1.default.data],\n dataPathArr: [codegen_1.nil],\n dataLevel: 0,\n dataTypes: [],\n definedProperties: new Set(),\n topSchemaRef: gen.scopeValue(\"schema\", this.opts.code.source === true\n ? { ref: sch.schema, code: (0, codegen_1.stringify)(sch.schema) }\n : { ref: sch.schema }),\n validateName,\n ValidationError: _ValidationError,\n schema: sch.schema,\n schemaEnv: sch,\n rootId,\n baseId: sch.baseId || rootId,\n schemaPath: codegen_1.nil,\n errSchemaPath: sch.schemaPath || (this.opts.jtd ? \"\" : \"#\"),\n errorPath: (0, codegen_1._) `\"\"`,\n opts: this.opts,\n self: this,\n };\n let sourceCode;\n try {\n this._compilations.add(sch);\n (0, validate_1.validateFunctionCode)(schemaCxt);\n gen.optimize(this.opts.code.optimize);\n // gen.optimize(1)\n const validateCode = gen.toString();\n sourceCode = `${gen.scopeRefs(names_1.default.scope)}return ${validateCode}`;\n // console.log((codeSize += sourceCode.length), (nodeCount += gen.nodeCount))\n if (this.opts.code.process)\n sourceCode = this.opts.code.process(sourceCode, sch);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode)\n const makeValidate = new Function(`${names_1.default.self}`, `${names_1.default.scope}`, sourceCode);\n const validate = makeValidate(this, this.scope.get());\n this.scope.value(validateName, { ref: validate });\n validate.errors = null;\n validate.schema = sch.schema;\n validate.schemaEnv = sch;\n if (sch.$async)\n validate.$async = true;\n if (this.opts.code.source === true) {\n validate.source = { validateName, validateCode, scopeValues: gen._values };\n }\n if (this.opts.unevaluated) {\n const { props, items } = schemaCxt;\n validate.evaluated = {\n props: props instanceof codegen_1.Name ? undefined : props,\n items: items instanceof codegen_1.Name ? undefined : items,\n dynamicProps: props instanceof codegen_1.Name,\n dynamicItems: items instanceof codegen_1.Name,\n };\n if (validate.source)\n validate.source.evaluated = (0, codegen_1.stringify)(validate.evaluated);\n }\n sch.validate = validate;\n return sch;\n }\n catch (e) {\n delete sch.validate;\n delete sch.validateName;\n if (sourceCode)\n this.logger.error(\"Error compiling schema, function code:\", sourceCode);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode, this.opts)\n throw e;\n }\n finally {\n this._compilations.delete(sch);\n }\n}", "registerGraphQLSchema() {\n let self = this;\n\n let schemas = {\n queries: [],\n types: [],\n mutations: [],\n resolvers: []\n };\n\n _.forIn(this.services, (service, name) => {\n if (\n service.$settings.graphql !== false &&\n _.isObject(service.$schema.graphql)\n ) {\n let graphQL = service.$schema.graphql;\n graphQL.resolvers = graphQL.resolvers || {};\n\n let processResolvers = function(resolvers) {\n _.forIn(resolvers, (resolver, name) => {\n if (_.isString(resolver) && service.actions[resolver]) {\n let handler = (root, args, context) => {\n let actionFunc = service.actions[resolver];\n\n let action = actionFunc.settings;\n action.handler = actionFunc;\n\n if (!_.isFunction(action.handler))\n throw new Error(\n `Missing handler function in '${name}' action in '${service.name}' service!`\n );\n\n let ctx = Context.CreateFromGraphQL(\n service,\n action,\n root,\n args,\n context\n );\n logger.debug(\"Request via GraphQL\", ctx.params, context.query);\n console.time(\"GRAPHQL request\");\n self.emit(\"request\", ctx);\n let cacheKey = service.getCacheKey(action.name, ctx.params);\n\n return (\n Promise.resolve()\n // Resolve model if ID provided\n .then(() => {\n return ctx.resolveModel();\n })\n // Check permission\n .then(() => {\n return ctx.checkPermission();\n })\n // Call the action handler\n .then(() => {\n return action.handler(ctx);\n })\n .catch(err => {\n logger.error(err);\n throw err;\n })\n .then(json => {\n self.emit(\"response\", ctx);\n console.timeEnd(\"GRAPHQL request\");\n return json;\n })\n );\n };\n\n resolvers[name] = handler;\n }\n });\n };\n\n if (graphQL.resolvers.Query) processResolvers(graphQL.resolvers.Query);\n\n if (graphQL.resolvers.Mutation)\n processResolvers(graphQL.resolvers.Mutation);\n\n schemas.queries.push(graphQL.query);\n schemas.types.push(graphQL.types);\n schemas.mutations.push(graphQL.mutation);\n schemas.resolvers.push(graphQL.resolvers);\n }\n });\n\n // Merge Type Definitons\n\n if (schemas.queries.length == 0) return null;\n\n let mergedSchema = `\n\n\t\t\tscalar Timestamp\n\n\t\t\ttype Query {\n\t\t\t\t${schemas.queries.join(\"\\n\")}\n\t\t\t}\n\n\t\t\t${schemas.types.join(\"\\n\")}\n\n\t\t\ttype Mutation {\n\t\t\t\t${schemas.mutations.join(\"\\n\")}\n\t\t\t}\n\n\t\t\tschema {\n\t\t\t\tquery: Query\n\t\t\t\tmutation: Mutation\n\t\t\t}\n\t\t`;\n\n // Merge Resolvers\n\n let mergeModuleResolvers = function(baseResolvers) {\n schemas.resolvers.forEach(module => {\n baseResolvers = _.merge(baseResolvers, module);\n });\n\n return baseResolvers;\n };\n\n return {\n schema: [mergedSchema],\n resolvers: mergeModuleResolvers({\n Timestamp: {\n __parseValue(value) {\n return new Date(value); // value from the client\n },\n __serialize(value) {\n return value.getTime(); // value sent to the client\n },\n __parseLiteral(ast) {\n if (ast.kind === Kind.INT) return parseInt(ast.value, 10); // ast value is always in string format\n\n return null;\n }\n }\n /* This version is not working\n\t\t\t\t\tCopied from http://dev.apollodata.com/tools/graphql-tools/scalars.html\n\t\t\t\t*/\n /*\n\t\t\t\tTimestamp: new GraphQLScalarType({\n\t\t\t\t\tname: \"Timestamp\",\n\t\t\t\t\tdescription: \"Timestamp scalar type\",\n\t\t\t\t\tparseValue(value) {\n\t\t\t\t\t\treturn new Date(value); // value from the client\n\t\t\t\t\t},\n\t\t\t\t\tserialize(value) {\n\t\t\t\t\t\treturn value.getTime(); // value sent to the client\n\t\t\t\t\t},\n\t\t\t\t\tparseLiteral(ast) {\n\t\t\t\t\t\tif (ast.kind === Kind.INT) {\n\t\t\t\t\t\t\treturn parseInt(ast.value, 10); // ast value is always in string format\n\t\t\t\t\t\t}\n\t\t\t\t\t\treturn null;\n\t\t\t\t\t},\n\t\t\t\t}),*/\n })\n };\n }", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function parseExecutableDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function parseExecutableDefinition(lexer) {\n if (peek(lexer, TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'query':\n case 'mutation':\n case 'subscription':\n return parseOperationDefinition(lexer);\n\n case 'fragment':\n return parseFragmentDefinition(lexer);\n }\n } else if (peek(lexer, TokenKind.BRACE_L)) {\n return parseOperationDefinition(lexer);\n }\n\n throw unexpected(lexer);\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function inferSchema(value){\n \n // we have no way of infering type names for objects\n // therefore we simply assign an incremental identifier to each new object we find\n const anonymousTypeName = anonymousTypeNameGenerator();\n\n // entry point of schema\n let rootType = Type.ObjectType(\"Root\");\n\n const queue = [];\n queue.push({path: [\"fields\", \"root\"], value:value});\n\n while(queue.length > 0){\n const descriptor = queue.pop();\n \n const type = inferType(descriptor.value);\n\n if(type.kind === \"SCALAR\"){\n // console.log(\"set in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type);\n continue; \n }\n\n if(type.name === \"ListType\"){\n // console.log(\"set a list in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type());\n const path = descriptor.path.concat(\"ofType\");\n\n // examine type of first item in list\n // TODO: examine more elements?\n queue.push({path:path, value: descriptor.value.get(0)});\n }\n\n if(type.name === \"ObjectType\"){\n // console.log(\"set an object in\", descriptor.path);\n const typeName = anonymousTypeName.next().value;\n rootType = rootType.setIn(descriptor.path, type(typeName));\n const path = descriptor.path.concat(\"fields\");\n const entries = descriptor.value.entries();\n // enumerate fields of Map\n for([fieldName, val] of entries){\n queue.push({path:path.concat(fieldName), value: val});\n } \n }\n }\n\n return rootType;\n}", "function _generateSchema(typeDefinitions, resolveFunctions, logger, \n // TODO: rename to allowUndefinedInResolve to be consistent\n allowUndefinedInResolve, resolverValidationOptions) {\n if (typeof resolverValidationOptions !== 'object') {\n throw new SchemaError('Expected `resolverValidationOptions` to be an object');\n }\n if (!typeDefinitions) {\n throw new SchemaError('Must provide typeDefs');\n }\n if (!resolveFunctions) {\n throw new SchemaError('Must provide resolvers');\n }\n // TODO: check that typeDefinitions is either string or array of strings\n var schema = buildSchemaFromTypeDefinitions(typeDefinitions);\n addResolveFunctionsToSchema(schema, resolveFunctions);\n assertResolveFunctionsPresent(schema, resolverValidationOptions);\n if (!allowUndefinedInResolve) {\n addCatchUndefinedToSchema(schema);\n }\n if (logger) {\n addErrorLoggingToSchema(schema, logger);\n }\n return schema;\n}", "registerSchema(schemaName, schema) {\n this._graphQLQuery[schemaName] = (query, context, variables, operationName) =>\n graphql(schema, query, null, context, variables, operationName);\n }", "function introspect (text) {\n return new Promise(function (resolve, reject) {\n try {\n var astDocument = GraphQL.parse(text)\n var schema = GraphQL.buildASTSchema(astDocument)\n GraphQL.graphql({ schema, source: graphqlviz.query })\n .then(function (data) {\n resolve(data)\n })\n .catch(function (e) {\n reject('Fatal error, exiting.')\n fatal(e, text)\n })\n } catch (e) {\n reject('Fatal error, exiting.')\n fatal(e, text)\n }\n })\n}", "function extendSchema(schema, documentAST) {\n (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = {};\n var typeExtensionsMap = {};\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case _kinds.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n }\n }\n\n // If this document contains no new types, then return the same unmodified\n // GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n // Copy directives.\n directives: schema.getDirectives()\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }\n\n function getTypeFromAST(astNode) {\n var type = _getNamedType(astNode.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n return type;\n }\n\n function getInterfaceTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n return type;\n }\n\n function getInputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n return type;\n }\n\n function getOutputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n return type;\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n return new _definition.GraphQLObjectType({\n name: type.name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n }\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = {};\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n resolve: cannotExecuteClientSchema\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeAST) {\n switch (typeAST.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeAST);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeAST);\n case _kinds.UNION_TYPE_DEFINITION:\n return buildUnionType(typeAST);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeAST);\n case _kinds.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeAST);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeAST);\n }\n throw new TypeError('Unknown type kind ' + typeAST.kind);\n }\n\n function buildObjectType(typeAST) {\n return new _definition.GraphQLObjectType({\n name: typeAST.name.value,\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeAST);\n },\n fields: function fields() {\n return buildFieldMap(typeAST);\n }\n });\n }\n\n function buildInterfaceType(typeAST) {\n return new _definition.GraphQLInterfaceType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildFieldMap(typeAST);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionType(typeAST) {\n return new _definition.GraphQLUnionType({\n name: typeAST.name.value,\n types: typeAST.types.map(getObjectTypeFromAST),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildScalarType(typeAST) {\n return new _definition.GraphQLScalarType({\n name: typeAST.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeAST) {\n return new _definition.GraphQLEnumType({\n name: typeAST.name.value,\n values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n }\n\n function buildInputObjectType(typeAST) {\n return new _definition.GraphQLInputObjectType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildInputValues(typeAST.fields);\n }\n });\n }\n\n function buildImplementedInterfaces(typeAST) {\n return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeAST) {\n return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function buildInputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeAST);\n }\n\n function buildOutputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeAST);\n }\n}", "function graphqlSync(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n /* eslint-enable no-redeclare */\n // Extract arguments from object args if provided.\n var result = arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }); // Assert that the execution was synchronous.\n\n if ((0, _isPromise.default)(result)) {\n throw new Error('GraphQL execution failed to complete synchronously.');\n }\n\n return result;\n}", "function graphqlSync(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n /* eslint-enable no-redeclare */\n // Extract arguments from object args if provided.\n var result = arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }); // Assert that the execution was synchronous.\n\n if ((0, _isPromise.default)(result)) {\n throw new Error('GraphQL execution failed to complete synchronously.');\n }\n\n return result;\n}", "function graphqlSync(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n /* eslint-enable no-redeclare */\n // Extract arguments from object args if provided.\n var result = arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }); // Assert that the execution was synchronous.\n\n if (Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(result)) {\n throw new Error('GraphQL execution failed to complete synchronously.');\n }\n\n return result;\n}", "function graphqlSync(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n /* eslint-enable no-redeclare */\n // Extract arguments from object args if provided.\n var result = arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }); // Assert that the execution was synchronous.\n\n if (Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(result)) {\n throw new Error('GraphQL execution failed to complete synchronously.');\n }\n\n return result;\n}", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}" ]
[ "0.7254094", "0.7240163", "0.6933867", "0.6685793", "0.6683432", "0.66662264", "0.6202912", "0.61750543", "0.61750543", "0.589635", "0.5892799", "0.58475107", "0.58112156", "0.580195", "0.57845336", "0.57807153", "0.57781076", "0.57781076", "0.5749815", "0.5749815", "0.5749815", "0.5749815", "0.5687576", "0.56751513", "0.56719327", "0.5657969", "0.56394523", "0.55668145", "0.5562207", "0.5562207", "0.5524718", "0.5524718", "0.5524175", "0.5463388", "0.5419538", "0.54176724", "0.53804916", "0.53555906", "0.53404796", "0.5331169", "0.5331169", "0.53172547", "0.5314628", "0.5314628", "0.5302827", "0.5297948", "0.5289173", "0.5289173", "0.52886695", "0.52886695", "0.5285549", "0.52730787", "0.5271137", "0.52685255", "0.52663904", "0.52613634", "0.52613634", "0.52613634", "0.52594274", "0.52555823", "0.51620895", "0.5157009", "0.5146", "0.5139089", "0.5123456", "0.5090691", "0.50665194", "0.50650865", "0.5058391", "0.5047919", "0.5047919", "0.5047822", "0.5044047", "0.5043873", "0.5036773", "0.50327504", "0.50327504", "0.5029543", "0.50294524", "0.5018402", "0.5018402", "0.5018402", "0.5018402", "0.5018402", "0.500694", "0.49860394", "0.49819908", "0.49497122", "0.49497122", "0.49204823", "0.4900842", "0.48922232", "0.4868124", "0.4854899", "0.48264387", "0.48264387", "0.4815637", "0.4815637", "0.48050046", "0.48050046" ]
0.6683432
5
Given a field or enum value node, returns the string value for the deprecation reason.
function getDeprecationReason(node) { var deprecated = (0, _values.getDirectiveValues)(_directives.GraphQLDeprecatedDirective, node); return deprecated && deprecated.reason; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getDeprecationReason(node) {\n const deprecated = getDirectiveValues(GraphQLDeprecatedDirective, node);\n return deprecated?.reason;\n}", "function getDeprecationReason(node) {\n var deprecated = Object(_execution_values__WEBPACK_IMPORTED_MODULE_10__[\"getDirectiveValues\"])(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLDeprecatedDirective\"], node);\n return deprecated && deprecated.reason;\n}", "function getDeprecationReason(node) {\n var deprecated = (0, _values.getDirectiveValues)(_directives.GraphQLDeprecatedDirective, node);\n return deprecated === null || deprecated === void 0 ? void 0 : deprecated.reason;\n}", "function getDeprecationReason(node) {\n var deprecated = (0, _values.getDirectiveValues)(_directives.GraphQLDeprecatedDirective, node);\n return deprecated === null || deprecated === void 0 ? void 0 : deprecated.reason;\n}", "function getDeprecationReason(node) {\n var deprecated = Object(_execution_values_mjs__WEBPACK_IMPORTED_MODULE_11__[\"getDirectiveValues\"])(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_15__[\"GraphQLDeprecatedDirective\"], node);\n return deprecated === null || deprecated === void 0 ? void 0 : deprecated.reason;\n}", "function getDeprecationReason(node) {\n var deprecated = Object(_execution_values_mjs__WEBPACK_IMPORTED_MODULE_11__[\"getDirectiveValues\"])(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLDeprecatedDirective\"], node);\n return deprecated === null || deprecated === void 0 ? void 0 : deprecated.reason;\n}", "function getDeprecationReason(directives) {\n var deprecatedAST = directives && (0, _find2.default)(directives, function (directive) {\n return directive.name.value === _directives.GraphQLDeprecatedDirective.name;\n });\n if (!deprecatedAST) {\n return;\n }\n\n var _getArgumentValues = (0, _values.getArgumentValues)(_directives.GraphQLDeprecatedDirective, deprecatedAST),\n reason = _getArgumentValues.reason;\n\n return reason;\n}", "StringValue(node) {\n return node.value;\n }", "function NoDeprecatedCustomRule(context) {\n return {\n Field: function Field(node) {\n var fieldDef = context.getFieldDef();\n var deprecationReason = fieldDef === null || fieldDef === void 0 ? void 0 : fieldDef.deprecationReason;\n\n if (fieldDef && deprecationReason != null) {\n var parentType = context.getParentType();\n parentType != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"The field \".concat(parentType.name, \".\").concat(fieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n },\n Argument: function Argument(node) {\n var argDef = context.getArgument();\n var deprecationReason = argDef === null || argDef === void 0 ? void 0 : argDef.deprecationReason;\n\n if (argDef && deprecationReason != null) {\n var directiveDef = context.getDirective();\n\n if (directiveDef != null) {\n context.reportError(new _GraphQLError.GraphQLError(\"Directive \\\"@\".concat(directiveDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n } else {\n var parentType = context.getParentType();\n var fieldDef = context.getFieldDef();\n parentType != null && fieldDef != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(parentType.name, \".\").concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var inputObjectDef = (0, _definition.getNamedType)(context.getParentInputType());\n\n if ((0, _definition.isInputObjectType)(inputObjectDef)) {\n var inputFieldDef = inputObjectDef.getFields()[node.name.value]; // flowlint-next-line unnecessary-optional-chain:off\n\n var deprecationReason = inputFieldDef === null || inputFieldDef === void 0 ? void 0 : inputFieldDef.deprecationReason;\n\n if (deprecationReason != null) {\n context.reportError(new _GraphQLError.GraphQLError(\"The input field \".concat(inputObjectDef.name, \".\").concat(inputFieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n EnumValue: function EnumValue(node) {\n var enumValueDef = context.getEnumValue();\n var deprecationReason = enumValueDef === null || enumValueDef === void 0 ? void 0 : enumValueDef.deprecationReason;\n\n if (enumValueDef && deprecationReason != null) {\n var enumTypeDef = (0, _definition.getNamedType)(context.getInputType());\n enumTypeDef != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"The enum value \\\"\".concat(enumTypeDef.name, \".\").concat(enumValueDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n };\n}", "function NoDeprecatedCustomRule(context) {\n return {\n Field: function Field(node) {\n var fieldDef = context.getFieldDef();\n var deprecationReason = fieldDef === null || fieldDef === void 0 ? void 0 : fieldDef.deprecationReason;\n\n if (fieldDef && deprecationReason != null) {\n var parentType = context.getParentType();\n parentType != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"The field \".concat(parentType.name, \".\").concat(fieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n },\n Argument: function Argument(node) {\n var argDef = context.getArgument();\n var deprecationReason = argDef === null || argDef === void 0 ? void 0 : argDef.deprecationReason;\n\n if (argDef && deprecationReason != null) {\n var directiveDef = context.getDirective();\n\n if (directiveDef != null) {\n context.reportError(new _GraphQLError.GraphQLError(\"Directive \\\"@\".concat(directiveDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n } else {\n var parentType = context.getParentType();\n var fieldDef = context.getFieldDef();\n parentType != null && fieldDef != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"Field \\\"\".concat(parentType.name, \".\").concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var inputObjectDef = (0, _definition.getNamedType)(context.getParentInputType());\n\n if ((0, _definition.isInputObjectType)(inputObjectDef)) {\n var inputFieldDef = inputObjectDef.getFields()[node.name.value]; // flowlint-next-line unnecessary-optional-chain:off\n\n var deprecationReason = inputFieldDef === null || inputFieldDef === void 0 ? void 0 : inputFieldDef.deprecationReason;\n\n if (deprecationReason != null) {\n context.reportError(new _GraphQLError.GraphQLError(\"The input field \".concat(inputObjectDef.name, \".\").concat(inputFieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n EnumValue: function EnumValue(node) {\n var enumValueDef = context.getEnumValue();\n var deprecationReason = enumValueDef === null || enumValueDef === void 0 ? void 0 : enumValueDef.deprecationReason;\n\n if (enumValueDef && deprecationReason != null) {\n var enumTypeDef = (0, _definition.getNamedType)(context.getInputType());\n enumTypeDef != null || (0, _invariant.default)(0);\n context.reportError(new _GraphQLError.GraphQLError(\"The enum value \\\"\".concat(enumTypeDef.name, \".\").concat(enumValueDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n };\n}", "function NoDeprecatedCustomRule(context) {\n return {\n Field: function Field(node) {\n var fieldDef = context.getFieldDef();\n var deprecationReason = fieldDef === null || fieldDef === void 0 ? void 0 : fieldDef.deprecationReason;\n\n if (fieldDef && deprecationReason != null) {\n var parentType = context.getParentType();\n parentType != null || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"The field \".concat(parentType.name, \".\").concat(fieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n },\n Argument: function Argument(node) {\n var argDef = context.getArgument();\n var deprecationReason = argDef === null || argDef === void 0 ? void 0 : argDef.deprecationReason;\n\n if (argDef && deprecationReason != null) {\n var directiveDef = context.getDirective();\n\n if (directiveDef != null) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Directive \\\"@\".concat(directiveDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n } else {\n var parentType = context.getParentType();\n var fieldDef = context.getFieldDef();\n parentType != null && fieldDef != null || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Field \\\"\".concat(parentType.name, \".\").concat(fieldDef.name, \"\\\" argument \\\"\").concat(argDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n ObjectField: function ObjectField(node) {\n var inputObjectDef = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"getNamedType\"])(context.getParentInputType());\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"isInputObjectType\"])(inputObjectDef)) {\n var inputFieldDef = inputObjectDef.getFields()[node.name.value]; // flowlint-next-line unnecessary-optional-chain:off\n\n var deprecationReason = inputFieldDef === null || inputFieldDef === void 0 ? void 0 : inputFieldDef.deprecationReason;\n\n if (deprecationReason != null) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"The input field \".concat(inputObjectDef.name, \".\").concat(inputFieldDef.name, \" is deprecated. \").concat(deprecationReason), node));\n }\n }\n },\n EnumValue: function EnumValue(node) {\n var enumValueDef = context.getEnumValue();\n var deprecationReason = enumValueDef === null || enumValueDef === void 0 ? void 0 : enumValueDef.deprecationReason;\n\n if (enumValueDef && deprecationReason != null) {\n var enumTypeDef = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_2__[\"getNamedType\"])(context.getInputType());\n enumTypeDef != null || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"The enum value \\\"\".concat(enumTypeDef.name, \".\").concat(enumValueDef.name, \"\\\" is deprecated. \").concat(deprecationReason), node));\n }\n }\n };\n}", "function valueDescription(text) { }", "function nodeVal(node) {\n\t node?.normalize();\n\t return (node && node.textContent) || \"\";\n\t}", "function WTRDescription(value) {\n var texte = \"ERROR\";\n switch (value * 1) {\n case (0):\n texte = \"Surging\";\n break;\n case (1):\n texte = \"Spilling\";\n break;\n case (2):\n texte = \"Plunging\";\n break;\n case (4):\n texte = \"Plunging with Back-Blasting\";\n break;\n default:\n description = \"Dan is gay.\";\n }\n\n return texte;\n}", "getMessageWarning () {\n return this.internalStore.select ('value').get ('warning');\n }", "function warn_deprecation(message, untilVersion) {\n console.warn('Deprecation: ' + message + (untilVersion ? '. This feature will be removed in ' + untilVersion + '.' : ' the near future.'));\n console.trace();\n}", "function warn_deprecation(message, untilVersion) {\n console.warn('Deprecation: ' + message + (untilVersion ? '. This feature will be removed in ' + untilVersion + '.' : ' the near future.'));\n console.trace();\n}", "function deprecated(validator, reason) {\n\t return function validate(props, propName, componentName, location, propFullName) {\n\t var componentNameSafe = componentName || '<<anonymous>>';\n\t var propFullNameSafe = propFullName || propName;\n\t\n\t if (props[propName] != null) {\n\t var messageKey = componentName + '.' + propName;\n\t\n\t process.env.NODE_ENV !== \"production\" ? (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason + '.')) : void 0;\n\t\n\t warned[messageKey] = true;\n\t }\n\t\n\t for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n\t args[_key - 5] = arguments[_key];\n\t }\n\t\n\t return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n\t };\n\t}", "function defaultWarningMessage(_ref) {\n var componentName = _ref.componentName,\n prop = _ref.prop,\n renamedProps = _ref.renamedProps;\n\n return componentName + ' Warning: Prop \"' + prop + '\" is deprecated, use \"' + renamedProps[prop] + '\" instead.';\n}", "function deprecated(validator, reason) {\n return function validate(props, propName, componentName, location, propFullName) {\n var componentNameSafe = componentName || '<<anonymous>>';\n var propFullNameSafe = propFullName || propName;\n\n if (props[propName] != null) {\n var messageKey = componentName + '.' + propName;\n\n process.env.NODE_ENV !== \"production\" ? (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason)) : void 0;\n\n warned[messageKey] = true;\n }\n\n for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n args[_key - 5] = arguments[_key];\n }\n\n return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n };\n}", "function deprecated(validator, reason) {\n return function validate(props, propName, componentName, location, propFullName) {\n var componentNameSafe = componentName || '<<anonymous>>';\n var propFullNameSafe = propFullName || propName;\n\n if (props[propName] != null) {\n var messageKey = componentName + '.' + propName;\n\n process.env.NODE_ENV !== \"production\" ? (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason)) : void 0;\n\n warned[messageKey] = true;\n }\n\n for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n args[_key - 5] = arguments[_key];\n }\n\n return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n };\n}", "function _incorrectField(field, provided) {\n return `There was a problem with the ${field} you provided. Please change this from \"${provided}\" and try again.`;\n}", "getError(name, value) {\n return `Issue identified for ${name}. Was not expecting ${value}.`;\n }", "function deprecated(validator, reason) {\n return function validate(props, propName, componentName, location, propFullName) {\n var componentNameSafe = componentName || '<<anonymous>>';\n var propFullNameSafe = propFullName || propName;\n\n if (props[propName] != null) {\n var messageKey = componentName + '.' + propName;\n\n (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason + '.'));\n\n warned[messageKey] = true;\n }\n\n for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n args[_key - 5] = arguments[_key];\n }\n\n return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n };\n}", "function deprecated(validator, reason) {\n\t return function validate(props, propName, componentName, location, propFullName) {\n\t var componentNameSafe = componentName || '<<anonymous>>';\n\t var propFullNameSafe = propFullName || propName;\n\n\t if (props[propName] != null) {\n\t var messageKey = componentName + '.' + propName;\n\n\t process.env.NODE_ENV !== \"production\" ? (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason)) : void 0;\n\n\t warned[messageKey] = true;\n\t }\n\n\t for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n\t args[_key - 5] = arguments[_key];\n\t }\n\n\t return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n\t };\n\t}", "function deprecated(validator, reason) {\n\t return function validate(props, propName, componentName, location, propFullName) {\n\t var componentNameSafe = componentName || '<<anonymous>>';\n\t var propFullNameSafe = propFullName || propName;\n\t\n\t if (props[propName] != null) {\n\t var messageKey = componentName + '.' + propName;\n\t\n\t true ? (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason)) : void 0;\n\t\n\t warned[messageKey] = true;\n\t }\n\t\n\t for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\n\t args[_key - 5] = arguments[_key];\n\t }\n\t\n\t return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\n\t };\n\t}", "get deprecated() {\n return false;\n }", "function formatPlain(msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp\n + ' ' + this._namespace\n + ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain(msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp\n + ' ' + this._namespace\n + ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain(msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp\n + ' ' + this._namespace\n + ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i])\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function deprecationWarn(msg) {\n if (Object(_environment__WEBPACK_IMPORTED_MODULE_1__[\"env\"])().getBool('DEPRECATION_WARNINGS_ENABLED')) {\n console.warn(msg + ' You can disable deprecation warnings with ' +\n 'tf.disableDeprecationWarnings().');\n }\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + stack[i].toString()\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + stack[i].toString()\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "function formatPlain (msg, caller, stack) {\n var timestamp = new Date().toUTCString()\n\n var formatted = timestamp +\n ' ' + this._namespace +\n ' deprecated ' + msg\n\n // add stack trace\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + stack[i].toString()\n }\n\n return formatted\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller)\n }\n\n return formatted\n}", "getClassText(value) {\n if (parseFloat(value) > 0.0) {\n return \"text-success\"\n } else {\n return \"text-danger\"\n }\n }", "function deprecationWarn(msg) {\n if (environment_1.ENV.getBool('DEPRECATION_WARNINGS_ENABLED')) {\n console.warn(msg + ' You can disable deprecation warnings with ' +\n 'tf.disableDeprecationWarnings().');\n }\n}", "function LDRDescription(value) {\n var texte = \"ERROR\";\n switch (value * 1) {\n case (0):\n texte = \"No Drag (0)\";\n break;\n case (1):\n texte = \"Low Drag (>40 secs)\";\n break;\n case (2):\n texte = \"Moderate Drag (20-40 secs)\";\n break;\n case (3):\n texte = \"Strong Drag (13-19 secs)\";\n break;\n case (4):\n texte = \"Very Strong Drag (<13 secs)\";\n break;\n default:\n description = \"Dan is gay.\";\n }\n\n return texte;\n}", "function deprecated(validator, reason) {\r\n\t return function validate(props, propName, componentName, location, propFullName) {\r\n\t var componentNameSafe = componentName || '<<anonymous>>';\r\n\t var propFullNameSafe = propFullName || propName;\r\n\t\r\n\t if (props[propName] != null) {\r\n\t var messageKey = componentName + '.' + propName;\r\n\t\r\n\t (0, _warning2.default)(warned[messageKey], 'The ' + location + ' `' + propFullNameSafe + '` of ' + ('`' + componentNameSafe + '` is deprecated. ' + reason + '.'));\r\n\t\r\n\t warned[messageKey] = true;\r\n\t }\r\n\t\r\n\t for (var _len = arguments.length, args = Array(_len > 5 ? _len - 5 : 0), _key = 5; _key < _len; _key++) {\r\n\t args[_key - 5] = arguments[_key];\r\n\t }\r\n\t\r\n\t return validator.apply(undefined, [props, propName, componentName, location, propFullName].concat(args));\r\n\t };\r\n\t}", "function deprecationWarn(msg) {\n if (exports.ENV.get('DEPRECATION_WARNINGS_ENABLED')) {\n console.warn(msg + ' You can disable deprecation warnings with ' +\n 'tf.disableDeprecationWarnings().');\n }\n}", "function stringifyForError(value) {\n if (typeof value === 'function') return value.name || value.toString();\n\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n\n return renderStringify(value);\n }", "function valueDescriptor(value) {\n if (Array.isArray(value)) {\n return `Array (${value.length ? `${value.length} ${value.length > 1 ? 'elements' : 'element'}` : 'empty'})`;\n }\n\n if (value && typeof value === 'object') {\n const keys = Object.keys(value);\n\n return `Object (${keys.length ? `${keys.length} ${keys.length > 1 ? 'keys' : 'key'}` : 'empty'})`;\n }\n\n return `Scalar (${value === 'null' ? 'null' : typeof value})`;\n}", "function formatPlain(msg, caller, stack) {\n var timestamp = new Date().toUTCString();\n var formatted = timestamp + ' ' + this._namespace + ' deprecated ' + msg; // add stack trace\n\n if (this._traced) {\n for (var i = 0; i < stack.length; i++) {\n formatted += '\\n at ' + callSiteToString(stack[i]);\n }\n\n return formatted;\n }\n\n if (caller) {\n formatted += ' at ' + formatLocation(caller);\n }\n\n return formatted;\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if (options && options.commentDescriptions) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString__WEBPACK_IMPORTED_MODULE_7__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function deprecate(fn, key, message) {\n return function () {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n if (!didWarnForDeprecation[key]) {\n didWarnForDeprecation[key] = true;\n console.warn(message);\n }\n fn.apply(this, args);\n };\n}", "function getTokenDesc(token) {\n const value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? ` \"${value}\"` : '');\n}", "function deprecate(method, alternate) {\n warn(method + ' is deprecated, please use ' + alternate);\n}", "function deprecateTaskWarning() {\n const pattern = '~ * ';\n log(cyan(pattern.repeat(27)));\n log(red('Attention Please!'));\n log(\n cyan('gulp test [--unit | --integration]'),\n 'has been renamed to new, separate tasks:',\n cyan('gulp unit'),\n 'and',\n cyan('gulp integration.')\n );\n log(\n cyan('--local-changes'),\n 'has been changed to',\n cyan('--local_changes'),\n 'and',\n cyan('--saucelabs-lite'),\n 'has been renamed to',\n cyan('--saucelabs')\n );\n log(\n 'All other flags remain the same and our documentation has been updated to reflect these changes.'\n );\n log('Thanks!', red('<3'), '@ampproject/wg-infra');\n log(cyan(pattern.repeat(27)));\n}", "function nodeToString(node) {\n\t switch(node.nodeType) {\n\t case Node.DOCUMENT_NODE: return node.documentElement.textContent;\n\t case Node.TEXT_NODE:\n\t case Node.CDATA_SECTION_NODE:\n\t case Node.PROCESSING_INSTRUCTION_NODE:\n\t case Node.COMMENT_NODE:\n\t case Node.ELEMENT_NODE:\n\t return node.textContent; // potentially not to spec for Element, but much simpler than recursing\n\t case Node.ATTRIBUTE_NODE: return node.value;\n\t default: throw new Error(`TODO No handling for node type: ${node.nodeType}`);\n\t }\n\t}", "function WPRDescription(value) {\n var texte = \"ERROR\";\n switch (value * 1) {\n case (0):\n texte = \"Long Period(>14sec)\";\n break;\n case (1):\n texte = \"Moderate Period(9-14secs)\";\n break;\n case (2):\n texte = \"Short Period(6-8 secs)\";\n break;\n case (3):\n texte = \"Extremely Short Period(<6 secs)\";\n break;\n default:\n description = \"Dan is gay.\";\n }\n\n return texte;\n}", "function STRDescription(value) {\n var texte = \"ERROR\";\n switch (value * 1) {\n case (0):\n texte = \"No chop (glassy)\";\n break;\n case (1):\n texte = \"Light Chop (5-11 kts)\";\n break;\n case (2):\n texte = \"Moderate Chop (12-21 kts)\";\n break;\n case (3):\n texte = \"Excessive Chop (22-27 kts)\";\n break;\n case (4):\n texte = \"Extreme Chop (>27kts)\";\n break;\n default:\n description = \"Dan is gay.\";\n }\n\n return texte;\n}", "function getTextValueOfChild (node) {\n var str\n visitChildren ( \n node,\n function (x){str=x.nodeValue},\n Node.TEXT_NODE\n )\n if (!str){\n str = \"\" \n }\n str = str.replace(/^\\s+/,\"\") \n return str.replace(/\\s+$/, \"\")\n}", "function asString$6(r) {\n\t if(isDomNode(r)) return nodeToString(r);\n\t switch(r.t) {\n\t case 'str': return r.v;\n\t case 'arr': return r.v.length ? r.v[0].textContent || '' : '';\n\t case 'date': return toISOLocalString(r.v).replace(/T00:00:00.000.*/, ''); // TODO should be handled in an extension rather than core code\n\t case 'num':\n\t case 'bool':\n\t default: return r.v.toString();\n\t }\n\t}", "function getNodeText(nodeElement)\n{\n if(!nodeElement)\n return null;\n if(typeof nodeElement===\"string\" || nodeElement instanceof String\n || typeof nodeElement===\"number\" || nodeElement instanceof Number)\n return nodeElement;\n return nodeElement.$\n}", "function deprecate(method, alternate) {\n\t warn(method + ' is deprecated, please use ' + alternate);\n\t}", "function stringifyForError(value) {\n if (typeof value === 'function') return value.name || value.toString();\n\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function stringifyForError(value) {\n if (typeof value === 'function')\n return value.name || value.toString();\n if (typeof value === 'object' && value != null && typeof value.type === 'function') {\n return value.type.name || value.type.toString();\n }\n return renderStringify(value);\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return (0, _blockString.dedentBlockStringValue)('\\n' + rawValue);\n }\n }\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return (0, _blockString.dedentBlockStringValue)('\\n' + rawValue);\n }\n }\n}", "toString() {\n return constructs_1.Token.asString(() => {\n throw new Error('Duration.toString() was used, but .toSeconds, .toMinutes or .toDays should have been called instead');\n }, { displayHint: `${this.amount} ${this.unit.label}` });\n }", "function warnAttrNotSupported(className) {\n var parts = className.split(\"-\");\n return [\"$log\", function($log) {\n $log.warn(className + \"has been deprecated. Please use a `\" + parts[0] + \"-gt-<xxx>` variant.\");\n return angular.noop;\n }];\n }", "function warnAttrNotSupported(className) {\n var parts = className.split(\"-\");\n return [\"$log\", function($log) {\n $log.warn(className + \"has been deprecated. Please use a `\" + parts[0] + \"-gt-<xxx>` variant.\");\n return angular.noop;\n }];\n }", "function warnAttrNotSupported(className) {\n var parts = className.split(\"-\");\n return [\"$log\", function($log) {\n $log.warn(className + \"has been deprecated. Please use a `\" + parts[0] + \"-gt-<xxx>` variant.\");\n return angular.noop;\n }];\n }", "function warnAttrNotSupported(className) {\n var parts = className.split(\"-\");\n return [\"$log\", function($log) {\n $log.warn(className + \"has been deprecated. Please use a `\" + parts[0] + \"-gt-<xxx>` variant.\");\n return angular.noop;\n }];\n }", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString_mjs__WEBPACK_IMPORTED_MODULE_8__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString_mjs__WEBPACK_IMPORTED_MODULE_8__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function stringifyValue(\n key,\n // this type is a tiny bit of a cheat, since this function does handle NaN (which is technically a number), but for\n // our internal use, it'll do\n value,\n ) {\n try {\n if (key === 'domain' && value && typeof value === 'object' && (value )._events) {\n return '[Domain]';\n }\n\n if (key === 'domainEmitter') {\n return '[DomainEmitter]';\n }\n\n // It's safe to use `global`, `window`, and `document` here in this manner, as we are asserting using `typeof` first\n // which won't throw if they are not present.\n\n if (typeof global !== 'undefined' && value === global) {\n return '[Global]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof window !== 'undefined' && value === window) {\n return '[Window]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof document !== 'undefined' && value === document) {\n return '[Document]';\n }\n\n // React's SyntheticEvent thingy\n if (isSyntheticEvent(value)) {\n return '[SyntheticEvent]';\n }\n\n if (typeof value === 'number' && value !== value) {\n return '[NaN]';\n }\n\n // this catches `undefined` (but not `null`, which is a primitive and can be serialized on its own)\n if (value === void 0) {\n return '[undefined]';\n }\n\n if (typeof value === 'function') {\n return `[Function: ${getFunctionName(value)}]`;\n }\n\n if (typeof value === 'symbol') {\n return `[${String(value)}]`;\n }\n\n // stringified BigInts are indistinguishable from regular numbers, so we need to label them to avoid confusion\n if (typeof value === 'bigint') {\n return `[BigInt: ${String(value)}]`;\n }\n\n // Now that we've knocked out all the special cases and the primitives, all we have left are objects. Simply casting\n // them to strings means that instances of classes which haven't defined their `toStringTag` will just come out as\n // `\"[object Object]\"`. If we instead look at the constructor's name (which is the same as the name of the class),\n // we can make sure that only plain objects come out that way.\n return `[object ${getConstructorName(value)}]`;\n } catch (err) {\n return `**non-serializable** (${err})`;\n }\n }", "function stringifyValue(\n key,\n // this type is a tiny bit of a cheat, since this function does handle NaN (which is technically a number), but for\n // our internal use, it'll do\n value,\n) {\n try {\n if (key === 'domain' && value && typeof value === 'object' && (value )._events) {\n return '[Domain]';\n }\n\n if (key === 'domainEmitter') {\n return '[DomainEmitter]';\n }\n\n // It's safe to use `global`, `window`, and `document` here in this manner, as we are asserting using `typeof` first\n // which won't throw if they are not present.\n\n if (typeof global !== 'undefined' && value === global) {\n return '[Global]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof window !== 'undefined' && value === window) {\n return '[Window]';\n }\n\n // eslint-disable-next-line no-restricted-globals\n if (typeof document !== 'undefined' && value === document) {\n return '[Document]';\n }\n\n // React's SyntheticEvent thingy\n if (is.isSyntheticEvent(value)) {\n return '[SyntheticEvent]';\n }\n\n if (typeof value === 'number' && value !== value) {\n return '[NaN]';\n }\n\n // this catches `undefined` (but not `null`, which is a primitive and can be serialized on its own)\n if (value === void 0) {\n return '[undefined]';\n }\n\n if (typeof value === 'function') {\n return `[Function: ${stacktrace.getFunctionName(value)}]`;\n }\n\n if (typeof value === 'symbol') {\n return `[${String(value)}]`;\n }\n\n // stringified BigInts are indistinguishable from regular numbers, so we need to label them to avoid confusion\n if (typeof value === 'bigint') {\n return `[BigInt: ${String(value)}]`;\n }\n\n // Now that we've knocked out all the special cases and the primitives, all we have left are objects. Simply casting\n // them to strings means that instances of classes which haven't defined their `toStringTag` will just come out as\n // `\"[object Object]\"`. If we instead look at the constructor's name (which is the same as the name of the class),\n // we can make sure that only plain objects come out that way.\n return `[object ${(Object.getPrototypeOf(value) ).constructor.name}]`;\n } catch (err) {\n return `**non-serializable** (${err})`;\n }\n}", "deprecationCheck(oldOption, newOption){\n\t\treturn this.table.deprecationAdvisor.check(oldOption, newOption);\n\t}", "function valueToString(x) {\n if (x === void 0) {\n return 'undefined';\n } else if (x === null) {\n return 'null';\n } else if (typeof x === 'boolean') {\n return String(x);\n } else if (typeof x === 'number') {\n if (x !== 0) {\n return String(x);\n } else {\n return (1 / x > 0) ? '0' : '-0';\n }\n } else if (typeof x === 'string') {\n return JSON.stringify(x);\n } else if (typeof x === 'symbol') {\n return String(x);\n } else if (typeof x === 'object') {\n return Object.prototype.toString.call(x);\n } else if (typeof x === 'function') {\n var pd = Object.getOwnPropertyDescriptor(x, 'name');\n if (pd && typeof pd.value === 'string') {\n return 'function:' + pd.value;\n } else {\n return 'function';\n }\n } else if (typeof x === 'pointer') {\n if (String(x) === 'null') {\n return 'pointer:null';\n } else {\n return 'pointer:non-null'; // specific pointer is very rarely interesting for tests\n }\n } else if (typeof x === 'buffer') {\n // No longer used in Duktape 2.x.\n return 'buffer:' + x.length;\n } else {\n return 'unknown:' + String(x);\n }\n }", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}", "function getTokenDesc(token) {\n var value = token.value;\n return getTokenKindDesc(token.kind) + (value != null ? \" \\\"\".concat(value, \"\\\"\") : '');\n}" ]
[ "0.6877404", "0.68008965", "0.67468244", "0.67468244", "0.65902656", "0.6589046", "0.54048896", "0.531125", "0.5104271", "0.5104271", "0.4844287", "0.4831502", "0.4787977", "0.47721902", "0.47710094", "0.47080436", "0.47080436", "0.46951747", "0.46883467", "0.46592876", "0.46592876", "0.46569064", "0.46151212", "0.46115482", "0.45875022", "0.4585707", "0.45457315", "0.4538013", "0.4538013", "0.4538013", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45252377", "0.45161813", "0.44969386", "0.44969386", "0.44969386", "0.44888964", "0.4474804", "0.44743565", "0.4462552", "0.4449528", "0.44198912", "0.4417949", "0.43966985", "0.43836498", "0.43792912", "0.43722373", "0.4371153", "0.43706974", "0.4363085", "0.43302703", "0.4321659", "0.43101248", "0.4306166", "0.42968863", "0.42913783", "0.42822525", "0.42536458", "0.42536458", "0.42536458", "0.42536458", "0.42536458", "0.42536458", "0.42536458", "0.42463884", "0.42463884", "0.42428258", "0.42339224", "0.42339224", "0.42339224", "0.42339224", "0.42310727", "0.42310727", "0.4224224", "0.4215552", "0.42026237", "0.4193026", "0.41907468", "0.41907468", "0.41907468", "0.41907468", "0.41907468", "0.41907468" ]
0.6785109
3
Given an ast node, returns its string description based on a contiguous block fullline of comments preceding it.
function getDescription(node) { var loc = node.loc; if (!loc) { return; } var comments = []; var minSpaces = void 0; var token = loc.startToken.prev; while (token && token.kind === _lexer.TokenKind.COMMENT && token.next && token.prev && token.line + 1 === token.next.line && token.line !== token.prev.line) { var value = String(token.value); var spaces = leadingSpaces(value); if (minSpaces === undefined || spaces < minSpaces) { minSpaces = spaces; } comments.push(value); token = token.prev; } return comments.reverse().map(function (comment) { return comment.slice(minSpaces); }).join('\n'); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getDescription(node) {\n\t var loc = node.loc;\n\t if (!loc) {\n\t return;\n\t }\n\t var comments = [];\n\t var minSpaces = void 0;\n\t var token = loc.startToken.prev;\n\t while (token && token.kind === _lexer.TokenKind.COMMENT && token.next && token.prev && token.line + 1 === token.next.line && token.line !== token.prev.line) {\n\t var value = String(token.value);\n\t var spaces = leadingSpaces(value);\n\t if (minSpaces === undefined || spaces < minSpaces) {\n\t minSpaces = spaces;\n\t }\n\t comments.push(value);\n\t token = token.prev;\n\t }\n\t return comments.reverse().map(function (comment) {\n\t return comment.slice(minSpaces);\n\t }).join('\\n');\n\t}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if (options && options.commentDescriptions) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString__WEBPACK_IMPORTED_MODULE_7__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString_mjs__WEBPACK_IMPORTED_MODULE_8__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return Object(_language_blockString_mjs__WEBPACK_IMPORTED_MODULE_8__[\"dedentBlockStringValue\"])('\\n' + rawValue);\n }\n }\n}", "function getLeadingCommentForNode(node, ts) {\n var sourceFileText = node.getSourceFile().text;\n var leadingComments = ts.getLeadingCommentRanges(sourceFileText, node.pos);\n if (leadingComments != null && leadingComments.length > 0) {\n return sourceFileText.substring(leadingComments[0].pos, leadingComments[0].end);\n }\n return undefined;\n}", "function getCommentPrecedingNode(parsed, node) {\n var statementPath = statementOf(parsed, node, { asPath: true }),\n blockPath = statementPath.slice(0, -2),\n block = lively_lang.Path(blockPath).get(parsed);\n\n return !block.comments || !block.comments.length ? null : lively_lang.chain(extractComments(parsed)).reversed().detect(function (ea) {\n return ea.followingNode === node;\n }).value();\n}", "static get multilinecomment(){return new comment('\\\\*[\\\\s\\\\S]*?\\\\*');}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return (0, _blockString.dedentBlockStringValue)('\\n' + rawValue);\n }\n }\n}", "function getDescription(node, options) {\n if (node.description) {\n return node.description.value;\n }\n\n if ((options === null || options === void 0 ? void 0 : options.commentDescriptions) === true) {\n var rawValue = getLeadingCommentBlock(node);\n\n if (rawValue !== undefined) {\n return (0, _blockString.dedentBlockStringValue)('\\n' + rawValue);\n }\n }\n}", "traverse(node) {\n let lastChild;\n let state = {list: {}};\n let unclaimedComments = node.innerComments || [];\n delete node.innerComments;\n const sourceElements = node[this.sourceElementsKey];\n for (let len = sourceElements.length, i = 0; i < len; i++) {\n let el = sourceElements[i];\n if (el.element === \"CommentBody\") {\n unclaimedComments.push(this.ast.comments[el.extra.tokenValue.index]);\n }\n if (el.reference) {\n let child = this.dereference(node, el, state);\n if (!el.element) {\n if (unclaimedComments.length) {\n this.assignComments(child, unclaimedComments);\n unclaimedComments = [];\n }\n this.traverse(child);\n lastChild = child;\n }\n }\n }\n if (unclaimedComments.length) {\n if (lastChild) {\n lastChild.trailingComments = unclaimedComments;\n } else {\n this.assignComments(node, unclaimedComments);\n }\n }\n }", "function getCommentContents (comment) {\n return comment.replace('/**', '')\n .replace('*/', '')\n .replace(/\\n\\s*\\* ?/g, '\\n')\n .replace(/\\r/g, '')\n }", "sliceComment(str, begin, end, func, constant) {\r\n\r\n let s, e, d = \"\", a = [];\r\n\r\n while (str.search(begin) > -1) {\r\n s = str.search(begin);\r\n e = str.indexOf(end, s);\r\n // style the whole line if no closing tag is matched\r\n if (e == -1) {e = str.length;}\r\n // Temporary replace the comment with a constant\r\n if (constant) {\r\n a.push(this[func](str.substring(s, e + (end.length)))); \r\n str = str.substring(0, s) + constant + str.substr(e + (end.length));\r\n } else {\r\n d += str.substring(0, s);\r\n d += this[func](str.substring(s, e + (end.length)));\r\n str = str.substr(e + (end.length));\r\n }\r\n }\r\n return {\r\n rest: d + str,\r\n arr: a\r\n };\r\n }", "function getLeadingComment(node) {\n\tconst comment = getLeadingCommentNode(node);\n\treturn comment ? getRawComment(comment) : null;\n}", "function inComment (stream, state) {\n if (stream.match(/^.*?#\\}/)) state.tokenize = tokenBase\n else stream.skipToEnd()\n return \"comment\";\n }", "function comment(){\n for (line ; line < linesLength ; line++){\n if (lines[line].substring(0, 15) === '***************') {\n line++;\n //console.log('Start of comment : ' + line);\n break;\n }\n }\n\n // Finding end of comment and Specie\n for (line ; line < linesLength ; line++){\n if (lines[line].substring(0, 15) === '***************') {\n // Specie name\n var deb = lines[line].indexOf('* ') + 2 ;\n var end = lines[line].lastIndexOf(' *');\n state.specie = lines[line].substring(deb,end);\n //console.log('Specie name : ' + state.specie);\n\n line++;\n //console.log('End of comment : ' + line);\n break;\n }\n }\n }", "function extractLeadingComment(parentAst, templateAst, rootLeadingComment) {\n if (parentAst) {\n var slotSiblings = parentAst.children;\n // First find the position of the slot in the list\n var i = slotSiblings.length - 1;\n var currentSlotIndex = -1;\n do {\n if (slotSiblings[i] === templateAst) {\n currentSlotIndex = i;\n }\n } while (currentSlotIndex < 0 && i--);\n // Find the first leading comment\n // get all siblings before the current node\n var slotSiblingsBeforeSlot = slotSiblings.slice(0, currentSlotIndex).reverse();\n // find the first node that is not a potential comment\n var indexLastComment = slotSiblingsBeforeSlot.findIndex(function (sibling) { return sibling.type !== 3 || (!sibling.isComment && sibling.text.trim().length); });\n // cut the comments array on this index\n var slotPotentialComments = (indexLastComment > 0\n ? slotSiblingsBeforeSlot.slice(0, indexLastComment)\n : slotSiblingsBeforeSlot).reverse();\n // return each comment text\n return slotPotentialComments\n .filter(function (pc) { return pc.isComment; })\n .map(function (potentialComment) { return potentialComment.text.trim(); });\n }\n else if (rootLeadingComment.length) {\n return [rootLeadingComment.trim()];\n }\n return [];\n}", "getComment() {\n let eol = this._source.indexOf('\\n', this._index);\n\n while (eol !== -1 && this._source[eol + 1] === '#') {\n this._index = eol + 2;\n\n eol = this._source.indexOf('\\n', this._index);\n\n if (eol === -1) {\n break;\n }\n }\n\n if (eol === -1) {\n this._index = this._length;\n } else {\n this._index = eol + 1;\n }\n }", "function isCodeBlockDesc(overallSpec) {\n let spacesBefore = overallSpec.indexOf(\" \");\n // PLUS TWO TO INCLUDE THE SPACE AFTER COLON\n // LIMITS TO ONLY ONE, CURRENT POSSIBLE CODE BLOCK\n let limited = overallSpec.substring(overallSpec.indexOf(\"\\n\"), overallSpec.indexOf(\"\\n\") + 9);\n //let firstCheck = limited.indexOf(\"\\n\\n\") === 0;\n let followingBlock = limited.indexOf(\"\\n\\n ```\");\n return spacesBefore === 0 && followingBlock === 0;\n }", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"php-comment\"};\n }", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"php-comment\"};\n }", "isComment() {\n return this.char + this.peek() === \"/*\"\n }", "function readMultilineComment(start){\n var newInside = \"/*\";\n var maybeEnd = (start == \"*\");\n while (true) {\n if (source.endOfLine())\n break;\n var next = source.next();\n if (next == \"/\" && maybeEnd){\n newInside = null;\n break;\n }\n maybeEnd = (next == \"*\");\n }\n setInside(newInside);\n return {type: \"comment\", style: \"js-comment\"};\n }", "function serializeComment (node) {\n return '<!--' + node.nodeValue + '-->';\n}", "function getComment(html) {\n const commentStart = '<!--';\n const commentEnd = '-->';\n const regex = /^(eslint\\b|global\\s)/u;\n if (html.slice(0, commentStart.length) !== commentStart ||\n html.slice(-commentEnd.length) !== commentEnd) {\n return '';\n }\n const comment = html.slice(commentStart.length, -commentEnd.length);\n if (!regex.test(comment.trim())) {\n return '';\n }\n return comment;\n}", "function getComment(comments, loc) {\n let matchingComment;\n const targetLineEnd = loc.end.line;\n for (const comment of comments) {\n const commentEnd = comment.loc.end.line;\n if (commentEnd === targetLineEnd - 1) {\n return comment.value;\n }\n }\n return matchingComment;\n }", "function serializeComment(node) {\n return '<!--' + node.nodeValue + '-->';\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new ast[\"b\" /* Token */](TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "comment (ch) {\n if (ch !== '/') { return ch }\n var p = this.at;\n var second = this.lookahead();\n if (second === '/') {\n while (ch) {\n ch = this.next();\n if (ch === '\\n' || ch === '\\r') { break }\n }\n ch = this.next();\n } else if (second === '*') {\n while (ch) {\n ch = this.next();\n if (ch === '*' && this.lookahead() === '/') {\n this.next();\n break\n }\n }\n if (!ch) {\n this.error('Unclosed comment, starting at character ' + p);\n }\n this.next();\n return this.white()\n }\n return ch\n }", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_1__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n\t var body = source.body;\n\t var code = void 0;\n\t var position = start;\n\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code !== null && (\n\t // SourceCharacter but not LineTerminator\n\t code > 0x001F || code === 0x0009));\n\n\t return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n\t}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001F || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n\t var body = source.body;\n\t var code = void 0;\n\t var position = start;\n\n\t do {\n\t code = charCodeAt.call(body, ++position);\n\t } while (code !== null && (\n\t // SourceCharacter but not LineTerminator\n\t code > 0x001f || code === 0x0009));\n\n\t return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n\t}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_0__.Token(_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_1__.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_2__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function decorateComment(node, comment, lines) {\n var childNodes = getSortedChildNodes(node, lines);\n\n // Time to dust off the old binary search robes and wizard hat.\n var left = 0, right = childNodes.length;\n while (left < right) {\n var middle = (left + right) >> 1;\n var child = childNodes[middle];\n\n if (comparePos(child.loc.start, comment.loc.start) <= 0 &&\n comparePos(comment.loc.end, child.loc.end) <= 0) {\n // The comment is completely contained by this child node.\n decorateComment(comment.enclosingNode = child, comment, lines);\n return; // Abandon the binary search at this level.\n }\n\n if (comparePos(child.loc.end, comment.loc.start) <= 0) {\n // This child node falls completely before the comment.\n // Because we will never consider this node or any nodes\n // before it again, this node must be the closest preceding\n // node we have encountered so far.\n var precedingNode = child;\n left = middle + 1;\n continue;\n }\n\n if (comparePos(comment.loc.end, child.loc.start) <= 0) {\n // This child node falls completely after the comment.\n // Because we will never consider this node or any nodes after\n // it again, this node must be the closest following node we\n // have encountered so far.\n var followingNode = child;\n right = middle;\n continue;\n }\n\n return;\n throw new Error(\"Comment location overlaps with node location\");\n }\n\n if (precedingNode) {\n comment.precedingNode = precedingNode;\n }\n\n if (followingNode) {\n comment.followingNode = followingNode;\n }\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Token\"](_tokenKind_mjs__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n }", "function getCodeBlock(body) {\n const lines = body.trim().split('\\n');\n\n const blocks = [];\n let currentBlock = '';\n let inCodeBlock = false;\n\n lines.forEach((line) => {\n if (line.indexOf('```') === 0) {\n if (inCodeBlock) {\n inCodeBlock = false;\n blocks.push(currentBlock.trim());\n currentBlock = '';\n } else {\n inCodeBlock = true;\n }\n\n return;\n }\n\n if (inCodeBlock) {\n currentBlock += `${line}\\n`;\n }\n });\n\n return _.last(blocks);\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "_findCommentEnd(ch, pos) {\n const next = this.input.charCodeAt(pos + 1);\n const isXmlLine = !this.state.inModule && ch !== 35;\n const blockCommentKind = !isXmlLine && (\n next === 42 ? \"#*\" :\n next === 37 ? \"#$\" :\n next === 35 && this.input.charCodeAt(this.state.pos + 2) === 35 && isNewline(this.input.charCodeAt(this.state.pos + 3)) ? \"###\" : false\n )\n if (blockCommentKind) {\n const meta = blockCommentMeta[blockCommentKind];\n let end = this.input.indexOf(meta.terminator, pos + meta.startLen);\n // TODO: make sure that ending `###` is alone on a line (and starts alone on a line)\n if (end === -1) this.raise(pos, \"Unterminated comment\");\n pos = end + meta.endLen;\n } else {\n lineBreakG.lastIndex = pos;\n const match = lineBreakG.exec(this.input)\n pos = match ? match.index : this.input.length;\n lineBreakG.lastIndex = 0; // reset lineBreakG\n }\n return pos;\n }", "function makeComment(input) {\n if (Array.isArray(input))\n input = input.join('\\n');\n input = input.split('\\n');\n let res = '';\n if (input.length > 1) {\n res = input.map(c => c ? ` * ${c}` : ' *').join('\\n');\n res = `/**\\n${res}\\n */\\n`;\n }\n else if (input.length && input[0]) {\n res = `/** ${input[0]} */\\n`;\n }\n return res;\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code = void 0;\n var position = start;\n\n do {\n code = charCodeAt.call(body, ++position);\n } while (code !== null && (\n // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new Tok(TokenKind.COMMENT, start, position, line, col, prev, slice.call(body, start + 1, position));\n}", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function comment() {\n return wrap('comment', and(\n literal('('),\n star(and(opt(fws), ccontent)),\n opt(fws),\n literal(')')\n )());\n }", "function decorateComment(node, comment, text) {\n const childNodes = getSortedChildNodes(node, text);\n let precedingNode, followingNode;\n // Time to dust off the old binary search robes and wizard hat.\n let left = 0,\n right = childNodes.length;\n while (left < right) {\n const middle = (left + right) >> 1;\n const child = childNodes[middle];\n\n if (\n locStart(child) - locStart(comment) <= 0 &&\n locEnd(comment) - locEnd(child) <= 0\n ) {\n // The comment is completely contained by this child node.\n comment.enclosingNode = child;\n\n decorateComment(child, comment, text);\n return; // Abandon the binary search at this level.\n }\n\n if (locEnd(child) - locStart(comment) <= 0) {\n // This child node falls completely before the comment.\n // Because we will never consider this node or any nodes\n // before it again, this node must be the closest preceding\n // node we have encountered so far.\n precedingNode = child;\n left = middle + 1;\n continue;\n }\n\n if (locEnd(comment) - locStart(child) <= 0) {\n // This child node falls completely after the comment.\n // Because we will never consider this node or any nodes after\n // it again, this node must be the closest following node we\n // have encountered so far.\n followingNode = child;\n right = middle;\n continue;\n }\n\n throw new Error(\"Comment location overlaps with node location\");\n }\n\n // We don't want comments inside of different expressions inside of the same\n // template literal to move to another expression.\n if (\n comment.enclosingNode &&\n comment.enclosingNode.type === \"TemplateLiteral\"\n ) {\n const quasis = comment.enclosingNode.quasis;\n const commentIndex = findExpressionIndexForComment(quasis, comment);\n\n if (\n precedingNode &&\n findExpressionIndexForComment(quasis, precedingNode) !== commentIndex\n ) {\n precedingNode = null;\n }\n if (\n followingNode &&\n findExpressionIndexForComment(quasis, followingNode) !== commentIndex\n ) {\n followingNode = null;\n }\n }\n\n if (precedingNode) {\n comment.precedingNode = precedingNode;\n }\n\n if (followingNode) {\n comment.followingNode = followingNode;\n }\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "function getNextSyntacticCharOffset(char, state) {\n var pendingSource = state.g.source.substring(state.g.position);\n var pendingSourceLines = pendingSource.split('\\n');\n\n var charOffset = 0;\n var line;\n var withinBlockComment = false;\n var withinString = false;\n lineLoop: while ((line = pendingSourceLines.shift()) !== undefined) {\n var lineEndPos = charOffset + line.length;\n charLoop: for (; charOffset < lineEndPos; charOffset++) {\n var currChar = pendingSource[charOffset];\n if (currChar === '\"' || currChar === '\\'') {\n withinString = !withinString;\n continue charLoop;\n } else if (withinString) {\n continue charLoop;\n } else if (charOffset + 1 < lineEndPos) {\n var nextTwoChars = currChar + line[charOffset + 1];\n if (nextTwoChars === '//') {\n charOffset = lineEndPos + 1;\n continue lineLoop;\n } else if (nextTwoChars === '/*') {\n withinBlockComment = true;\n charOffset += 1;\n continue charLoop;\n } else if (nextTwoChars === '*/') {\n withinBlockComment = false;\n charOffset += 1;\n continue charLoop;\n }\n }\n\n if (!withinBlockComment && currChar === char) {\n return charOffset + state.g.position;\n }\n }\n\n // Account for '\\n'\n charOffset++;\n withinString = false;\n }\n\n throw new Error('`' + char + '` not found!');\n}", "function inBlockComment (stream, state) {\n if (stream.match(/\\{%\\s*endcomment\\s*%\\}/, false)) {\n state.tokenize = inTag;\n stream.match(\"{%\");\n return \"tag\";\n } else {\n stream.next();\n return \"comment\";\n }\n }", "function decorateComment(node, comment) {\n\t var childNodes = getSortedChildNodes(node);\n\n\t // Time to dust off the old binary search robes and wizard hat.\n\t var left = 0, right = childNodes.length;\n\t while (left < right) {\n\t var middle = (left + right) >> 1;\n\t var child = childNodes[middle];\n\n\t if (comparePos(child.loc.start, comment.loc.start) <= 0 &&\n\t comparePos(comment.loc.end, child.loc.end) <= 0) {\n\t // The comment is completely contained by this child node.\n\t decorateComment(comment.enclosingNode = child, comment);\n\t return; // Abandon the binary search at this level.\n\t }\n\n\t if (comparePos(child.loc.end, comment.loc.start) <= 0) {\n\t // This child node falls completely before the comment.\n\t // Because we will never consider this node or any nodes\n\t // before it again, this node must be the closest preceding\n\t // node we have encountered so far.\n\t var precedingNode = child;\n\t left = middle + 1;\n\t continue;\n\t }\n\n\t if (comparePos(comment.loc.end, child.loc.start) <= 0) {\n\t // This child node falls completely after the comment.\n\t // Because we will never consider this node or any nodes after\n\t // it again, this node must be the closest following node we\n\t // have encountered so far.\n\t var followingNode = child;\n\t right = middle;\n\t continue;\n\t }\n\n\t throw new Error(\"Comment location overlaps with node location\");\n\t }\n\n\t if (precedingNode) {\n\t comment.precedingNode = precedingNode;\n\t }\n\n\t if (followingNode) {\n\t comment.followingNode = followingNode;\n\t }\n\t}", "function decorateComment(node, comment) {\n\t var childNodes = getSortedChildNodes(node);\n\n\t // Time to dust off the old binary search robes and wizard hat.\n\t var left = 0, right = childNodes.length;\n\t while (left < right) {\n\t var middle = (left + right) >> 1;\n\t var child = childNodes[middle];\n\n\t if (comparePos(child.loc.start, comment.loc.start) <= 0 &&\n\t comparePos(comment.loc.end, child.loc.end) <= 0) {\n\t // The comment is completely contained by this child node.\n\t decorateComment(comment.enclosingNode = child, comment);\n\t return; // Abandon the binary search at this level.\n\t }\n\n\t if (comparePos(child.loc.end, comment.loc.start) <= 0) {\n\t // This child node falls completely before the comment.\n\t // Because we will never consider this node or any nodes\n\t // before it again, this node must be the closest preceding\n\t // node we have encountered so far.\n\t var precedingNode = child;\n\t left = middle + 1;\n\t continue;\n\t }\n\n\t if (comparePos(comment.loc.end, child.loc.start) <= 0) {\n\t // This child node falls completely after the comment.\n\t // Because we will never consider this node or any nodes after\n\t // it again, this node must be the closest following node we\n\t // have encountered so far.\n\t var followingNode = child;\n\t right = middle;\n\t continue;\n\t }\n\n\t throw new Error(\"Comment location overlaps with node location\");\n\t }\n\n\t if (precedingNode) {\n\t comment.precedingNode = precedingNode;\n\t }\n\n\t if (followingNode) {\n\t comment.followingNode = followingNode;\n\t }\n\t}", "function getFencedCodeBlockValue( node, originalText ) {\n\tconst text = originalText.slice( node.position.start.offset, node.position.end.offset );\n\tconst leadingSpaceCount = text.match( /^\\s*/ )[ 0 ].length;\n\tconst replaceRegex = new RegExp( `^\\\\s{0,${ leadingSpaceCount }}` );\n\tconst lineContents = text.split( '\\n' );\n\tconst markerStyle = text[ leadingSpaceCount ]; // ` or ~\n\n\tconst marker = text.slice( leadingSpaceCount ).match( new RegExp( `^[${ markerStyle }]+` ) )[ 0 ]; // https://spec.commonmark.org/0.28/#example-104: Closing fences may be indented by 0-3 spaces\n\t// https://spec.commonmark.org/0.28/#example-93: The closing code fence must be at least as long as the opening fence\n\n\tconst hasEndMarker = new RegExp( `^\\\\s{0,3}${ marker }` ).test( lineContents[ lineContents.length - 1 ].slice( getIndent( lineContents.length - 1 ) ) );\n\treturn lineContents\n\t\t.slice( 1, hasEndMarker ? -1 : undefined )\n\t\t.map( ( x, i ) => x.slice( getIndent( i + 1 ) ).replace( replaceRegex, '' ) )\n\t\t.join( '\\n' );\n\n\tfunction getIndent( lineIndex ) {\n\t\treturn node.position.indent[ lineIndex - 1 ] - 1;\n\t}\n}", "extractCommentFromLine(tag, lineMatchIndex, line) {\n let comment = line.substring(lineMatchIndex + (tag.length + 1))\n\n return comment.trim()\n }", "extendComment() {\n const editor = atom.workspace.getActiveTextEditor();\n\n if (editor) {\n const cursorPosition = editor.getCursorBufferPosition();\n const inCommentBlock = isInCommentBlock(editor, cursorPosition);\n const previousLine = editor.lineTextForBufferRow(cursorPosition.row - 1).trim();\n\n if (inCommentBlock) {\n // Determine what kind of line to generate based on the previous line.\n if (inCommentBlock === 'secondLine') {\n editor.insertText(commentGenerator('line'));\n } else if (inCommentBlock === 'parameterLine') {\n editor.insertText(commentGenerator('parameterLine'));\n } else {\n editor.insertText(commentGenerator('trimmedLine'));\n }\n } else if (previousLine === '*/') {\n /*\n * If the previous line is the end of a comment then just push the cursor\n * back a column.\n */\n editor.backspace();\n }\n }\n }", "function skipBlockComment () {\n i += 2;\n while (i < jsString.length && (curr() !== '*' || next() !== '/')) {\n i++;\n }\n i += 2;\n }", "function mk_block_toSource(){return\"Markdown.mk_block( \"+uneval(this.toString())+\", \"+uneval(this.trailing)+\", \"+uneval(this.lineNumber)+\" )\";}// node", "function getStringForComments (comments){\n let tempstr = '';\n comments.forEach((a, index) => { \n tempstr += `* ${a.message} \\n written by:${a.nickName}\n ${getStringForCommentOnComment(a.commentOnComment)}\n`; \n });\n return tempstr;\n}", "function getStringForCommentOnComment (commentOnComment){\n let tempstr = '';\n commentOnComment.forEach((c, index) => { \n tempstr += `* ${c.message} \\n \\t written by:${c.nickName}\n ` ; \n });\n return tempstr;\n}", "function match_block(node) {\n if (node.name === \"end\") {\n if (node.parent.name === \"IfStatement\") {\n // Try moving to the \"if\" part because\n // the rest of the code is looking for that\n node = node.parent?.firstChild?.firstChild\n } else {\n node = node.parent.firstChild\n }\n }\n\n if (node == null) {\n return []\n }\n\n // if (node.name === \"StructDefinition\") node = node.firstChild\n if (node.name === \"mutable\" || node.name === \"struct\") {\n if (node.name === \"struct\") node = node.parent.firstChild\n\n let struct_node = node.parent.getChild(\"struct\")\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match || !struct_node) return null\n\n return [\n { from: node.from, to: struct_node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n if (node.name === \"struct\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"quote\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"begin\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"do\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"for\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"let\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"macro\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"function\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"while\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n return [\n { from: node.from, to: node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"type\") node = node.parent.firstChild\n if (node.name === \"abstract\" || node.name === \"primitive\") {\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n let struct_node = node.parent.getChild(\"type\")\n if (!did_match || !struct_node) return null\n\n return [\n { from: node.from, to: struct_node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ]\n }\n\n if (node.name === \"try\" || node.name === \"catch\" || node.name === \"finally\") {\n if (node.name === \"catch\") node = node.parent\n if (node.name === \"finally\") node = node.parent\n\n let try_node = node.parent.firstChild\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n let catch_node = node.parent.getChild(\"CatchClause\")?.firstChild\n let finally_node = node.parent.getChild(\"FinallyClause\")?.firstChild\n\n return [\n { from: try_node.from, to: try_node.to },\n catch_node && { from: catch_node.from, to: catch_node.to },\n finally_node && { from: finally_node.from, to: finally_node.to },\n { from: possibly_end.from, to: possibly_end.to },\n ].filter((x) => x != null)\n }\n\n if (node.name === \"if\" || node.name === \"else\" || node.name === \"elseif\") {\n if (node.name === \"if\") node = node.parent\n if (node.name === \"else\") node = node.parent\n if (node.name === \"elseif\") node = node.parent.parent\n\n let try_node = node.parent.firstChild\n let possibly_end = node.parent.lastChild\n let did_match = possibly_end.name === \"end\"\n if (!did_match) return null\n\n let decorations = []\n decorations.push({ from: try_node.from, to: try_node.to })\n for (let elseif_clause_node of node.parent.getChildren(\"ElseifClause\")) {\n let elseif_node = elseif_clause_node.firstChild\n decorations.push({ from: elseif_node.from, to: elseif_node.to })\n }\n for (let else_clause_node of node.parent.getChildren(\"ElseClause\")) {\n let else_node = else_clause_node.firstChild\n decorations.push({ from: else_node.from, to: else_node.to })\n }\n decorations.push({ from: possibly_end.from, to: possibly_end.to })\n\n return decorations\n }\n\n return null\n}", "function decorateComment(node, comment, options) {\n const {\n locStart,\n locEnd\n } = options;\n const commentStart = locStart(comment);\n const commentEnd = locEnd(comment);\n const childNodes = getSortedChildNodes(node, options);\n let precedingNode;\n let followingNode; // Time to dust off the old binary search robes and wizard hat.\n\n let left = 0;\n let right = childNodes.length;\n\n while (left < right) {\n const middle = left + right >> 1;\n const child = childNodes[middle];\n const start = locStart(child);\n const end = locEnd(child);\n\n if (start <= commentStart && commentEnd <= end) {\n // The comment is completely contained by this child node.\n comment.enclosingNode = child;\n decorateComment(child, comment, options);\n return; // Abandon the binary search at this level.\n }\n\n if (start <= commentStart) {\n // This child node falls completely before the comment.\n // Because we will never consider this node or any nodes\n // before it again, this node must be the closest preceding\n // node we have encountered so far.\n precedingNode = child;\n left = middle + 1;\n continue;\n }\n\n if (commentEnd <= start) {\n // This child node falls completely after the comment.\n // Because we will never consider this node or any nodes after\n // it again, this node must be the closest following node we\n // have encountered so far.\n followingNode = child;\n right = middle;\n continue;\n }\n /* istanbul ignore next */\n\n\n throw new Error(\"Comment location overlaps with node location\");\n } // We don't want comments inside of different expressions inside of the same\n // template literal to move to another expression.\n\n\n if (comment.enclosingNode && comment.enclosingNode.type === \"TemplateLiteral\") {\n const {\n quasis\n } = comment.enclosingNode;\n const commentIndex = findExpressionIndexForComment(quasis, comment, options);\n\n if (precedingNode && findExpressionIndexForComment(quasis, precedingNode, options) !== commentIndex) {\n precedingNode = null;\n }\n\n if (followingNode && findExpressionIndexForComment(quasis, followingNode, options) !== commentIndex) {\n followingNode = null;\n }\n }\n\n if (precedingNode) {\n comment.precedingNode = precedingNode;\n }\n\n if (followingNode) {\n comment.followingNode = followingNode;\n }\n}", "function parse_block (source, opts) {\n const trim = opts.trim\n ? s => s.trim()\n : s => s\n\n const toggleFence = (typeof opts.fence === 'function')\n ? opts.fence\n : line => line.split(opts.fence).length % 2 === 0\n\n let source_str = source\n .map((line) => { return trim(line.source) })\n .join('\\n')\n\n source_str = trim(source_str)\n\n const start = source[0].number\n\n // merge source lines into tags\n // we assume tag starts with \"@\"\n source = source\n .reduce(function (state, line) {\n line.source = trim(line.source)\n\n // start of a new tag detected\n if (line.source.match(/^\\s*@(\\S+)/) && !state.isFenced) {\n state.tags.push({\n source: [line.source],\n line: line.number\n })\n // keep appending source to the current tag\n } else {\n const tag = state.tags[state.tags.length - 1]\n if (opts.join !== undefined && opts.join !== false && opts.join !== 0 &&\n !line.startWithStar && tag.source.length > 0) {\n let source\n if (typeof opts.join === 'string') {\n source = opts.join + line.source.replace(/^\\s+/, '')\n } else if (typeof opts.join === 'number') {\n source = line.source\n } else {\n source = ' ' + line.source.replace(/^\\s+/, '')\n }\n tag.source[tag.source.length - 1] += source\n } else {\n tag.source.push(line.source)\n }\n }\n\n if (toggleFence(line.source)) {\n state.isFenced = !state.isFenced\n }\n return state\n }, {\n tags: [{ source: [] }],\n isFenced: false\n })\n .tags\n .map((tag) => {\n tag.source = trim(tag.source.join('\\n'))\n return tag\n })\n\n // Block description\n const description = source.shift()\n\n // skip if no descriptions and no tags\n if (description.source === '' && source.length === 0) {\n return null\n }\n\n const tags = source.reduce(function (tags, tag) {\n const tag_node = parse_tag(tag.source, opts.parsers)\n if (!tag_node) { return tags }\n\n tag_node.line = tag.line\n tag_node.source = tag.source\n\n if (opts.dotted_names && tag_node.name.includes('.')) {\n let parent_name\n let parent_tag\n let parent_tags = tags\n const parts = tag_node.name.split('.')\n\n while (parts.length > 1) {\n parent_name = parts.shift()\n parent_tag = find(parent_tags, {\n tag: tag_node.tag,\n name: parent_name\n })\n\n if (!parent_tag) {\n parent_tag = {\n tag: tag_node.tag,\n line: Number(tag_node.line),\n name: parent_name,\n type: '',\n description: ''\n }\n parent_tags.push(parent_tag)\n }\n\n parent_tag.tags = parent_tag.tags || []\n parent_tags = parent_tag.tags\n }\n\n tag_node.name = parts[0]\n parent_tags.push(tag_node)\n return tags\n }\n\n return tags.concat(tag_node)\n }, [])\n\n return {\n tags,\n line: start,\n description: description.source,\n source: source_str\n }\n}", "peekDescription() {\n return this.peek(TokenKind.STRING) || this.peek(TokenKind.BLOCK_STRING);\n }", "function decorateComment(node, comment, lines) {\n\t var childNodes = getSortedChildNodes(node, lines);\n\t // Time to dust off the old binary search robes and wizard hat.\n\t var left = 0, right = childNodes.length;\n\t while (left < right) {\n\t var middle = (left + right) >> 1;\n\t var child = childNodes[middle];\n\t if (util_1$1.comparePos(child.loc.start, comment.loc.start) <= 0 &&\n\t util_1$1.comparePos(comment.loc.end, child.loc.end) <= 0) {\n\t // The comment is completely contained by this child node.\n\t decorateComment(comment.enclosingNode = child, comment, lines);\n\t return; // Abandon the binary search at this level.\n\t }\n\t if (util_1$1.comparePos(child.loc.end, comment.loc.start) <= 0) {\n\t // This child node falls completely before the comment.\n\t // Because we will never consider this node or any nodes\n\t // before it again, this node must be the closest preceding\n\t // node we have encountered so far.\n\t var precedingNode = child;\n\t left = middle + 1;\n\t continue;\n\t }\n\t if (util_1$1.comparePos(comment.loc.end, child.loc.start) <= 0) {\n\t // This child node falls completely after the comment.\n\t // Because we will never consider this node or any nodes after\n\t // it again, this node must be the closest following node we\n\t // have encountered so far.\n\t var followingNode = child;\n\t right = middle;\n\t continue;\n\t }\n\t throw new Error(\"Comment location overlaps with node location\");\n\t }\n\t if (precedingNode) {\n\t comment.precedingNode = precedingNode;\n\t }\n\t if (followingNode) {\n\t comment.followingNode = followingNode;\n\t }\n\t}", "function start_multi_line_comment(line) {\n // if(line.match( /^\\s*\\/\\*.*(?=@prop)/ )) {\n // return 'prop';\n // }\n\n return !!line.match(/^\\s*\\/\\*/);\n }", "function readComment(lexer, start) {\n const body = lexer.source.body;\n const bodyLength = body.length;\n let position = start + 1;\n\n while (position < bodyLength) {\n const code = body.charCodeAt(position); // LineTerminator (\\n | \\r)\n\n if (code === 0x000a || code === 0x000d) {\n break;\n } // SourceCharacter\n\n if (isUnicodeScalarValue(code)) {\n ++position;\n } else if (isSupplementaryCodePoint(body, position)) {\n position += 2;\n } else {\n break;\n }\n }\n\n return createToken(\n lexer,\n TokenKind.COMMENT,\n start,\n position,\n body.slice(start + 1, position),\n );\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function readComment(source, start, line, col, prev) {\n var body = source.body;\n var code;\n var position = start;\n\n do {\n code = body.charCodeAt(++position);\n } while (!isNaN(code) && ( // SourceCharacter but not LineTerminator\n code > 0x001f || code === 0x0009));\n\n return new _ast.Token(_tokenKind.TokenKind.COMMENT, start, position, line, col, prev, body.slice(start + 1, position));\n}", "function decorateComment( node, comment, options ) {\n\tconst { locStart, locEnd } = options;\n\tconst childNodes = getSortedChildNodes( node, options );\n\tlet precedingNode;\n\tlet followingNode; // Time to dust off the old binary search robes and wizard hat.\n\n\tlet left = 0;\n\tlet right = childNodes.length;\n\n\twhile ( left < right ) {\n\t\tconst middle = ( left + right ) >> 1;\n\t\tconst child = childNodes[ middle ];\n\n\t\tif ( locStart( child ) - locStart( comment ) <= 0 && locEnd( comment ) - locEnd( child ) <= 0 ) {\n\t\t\t// The comment is completely contained by this child node.\n\t\t\tcomment.enclosingNode = child;\n\t\t\tdecorateComment( child, comment, options );\n\t\t\treturn; // Abandon the binary search at this level.\n\t\t}\n\n\t\tif ( locEnd( child ) - locStart( comment ) <= 0 ) {\n\t\t\t// This child node falls completely before the comment.\n\t\t\t// Because we will never consider this node or any nodes\n\t\t\t// before it again, this node must be the closest preceding\n\t\t\t// node we have encountered so far.\n\t\t\tprecedingNode = child;\n\t\t\tleft = middle + 1;\n\t\t\tcontinue;\n\t\t}\n\n\t\tif ( locEnd( comment ) - locStart( child ) <= 0 ) {\n\t\t\t// This child node falls completely after the comment.\n\t\t\t// Because we will never consider this node or any nodes after\n\t\t\t// it again, this node must be the closest following node we\n\t\t\t// have encountered so far.\n\t\t\tfollowingNode = child;\n\t\t\tright = middle;\n\t\t\tcontinue;\n\t\t}\n\t\t/* istanbul ignore next */\n\n\t\tthrow new Error( 'Comment location overlaps with node location' );\n\t} // We don't want comments inside of different expressions inside of the same\n\t// template literal to move to another expression.\n\n\tif ( comment.enclosingNode && comment.enclosingNode.type === 'TemplateLiteral' ) {\n\t\tconst { quasis } = comment.enclosingNode;\n\t\tconst commentIndex = findExpressionIndexForComment( quasis, comment, options );\n\n\t\tif ( precedingNode && findExpressionIndexForComment( quasis, precedingNode, options ) !== commentIndex ) {\n\t\t\tprecedingNode = null;\n\t\t}\n\n\t\tif ( followingNode && findExpressionIndexForComment( quasis, followingNode, options ) !== commentIndex ) {\n\t\t\tfollowingNode = null;\n\t\t}\n\t}\n\n\tif ( precedingNode ) {\n\t\tcomment.precedingNode = precedingNode;\n\t}\n\n\tif ( followingNode ) {\n\t\tcomment.followingNode = followingNode;\n\t}\n}", "function consumeComment(vm) {\n for (/* nop */; vm.i<=vm.maxIndex && !vm.error; vm.i++) {\n let c = vm.charAt(vm.i);\n if (c===\"\\n\" || c===\"\\r\" || vm.i===vm.maxIndex) {\n return;\n }\n }\n}", "function changeBlockComment(option, state, ranges = state.selection.ranges) {\n let tokens = ranges.map(r => getConfig(state, r.from).block);\n if (!tokens.every(c => c))\n return null;\n let comments = ranges.map((r, i) => findBlockComment(state, tokens[i], r.from, r.to));\n if (option != 2 /* CommentOption.Uncomment */ && !comments.every(c => c)) {\n return { changes: state.changes(ranges.map((range, i) => {\n if (comments[i])\n return [];\n return [{ from: range.from, insert: tokens[i].open + \" \" }, { from: range.to, insert: \" \" + tokens[i].close }];\n })) };\n }\n else if (option != 1 /* CommentOption.Comment */ && comments.some(c => c)) {\n let changes = [];\n for (let i = 0, comment; i < comments.length; i++)\n if (comment = comments[i]) {\n let token = tokens[i], { open, close } = comment;\n changes.push({ from: open.pos - token.open.length, to: open.pos + open.margin }, { from: close.pos - close.margin, to: close.pos + token.close.length });\n }\n return { changes };\n }\n return null;\n}", "function hasCommentBefore(node, sourceCode) {\n return sourceCode.getCommentsBefore(node).\n some(comment => comment.loc.end.line >= node.loc.start.line - 1);\n}", "function scanNode(node, c){\n if (node.nextSibling)\n c = push(scanNode, node.nextSibling, c);\n\n if (partNode(node)){\n nodeQueue.push(node);\n afterBR = false;\n return _yield(node.currentText, c);\n }\n else if (isBR(node)) {\n if (afterBR && window.opera)\n node.parentNode.insertBefore(makePartSpan(\"\", owner), node);\n nodeQueue.push(node);\n afterBR = true;\n return _yield(\"\\n\", c);\n }\n else {\n var end = !node.nextSibling;\n point = pointAt(node);\n removeElement(node);\n return writeNode(node, c, end);\n }\n }", "function processComments(node) {\n var token = node.startToken;\n var endToken = node.endToken;\n\n while (token && token !== endToken) {\n if (!token._processed &&\n (token.type === 'LineComment' || token.type === 'BlockComment')) {\n var level = _indent.getCommentIndentLevel(node);\n if (token.type === 'BlockComment') {\n // format multi line block comments\n var originalIndent = '';\n if (_tk.isIndent(token.prev)) {\n originalIndent = token.prev.value;\n }\n token.raw = token.raw.replace(new RegExp('([\\\\n\\\\r])' + originalIndent, 'g'), '$1' + _indent.getIndent(level));\n // only block comment needs space afterwards\n _ws.afterIfNeeded(token, token.type);\n }\n _br.aroundIfNeeded(token, token.type);\n _indent.ifNeeded(token, level);\n _ws.beforeIfNeeded(token, token.type);\n // we avoid processing same comment multiple times since same\n // comment will be part of multiple nodes (all comments are inside\n // Program)\n token._processed = true;\n }\n token = token.next;\n }\n}", "function emitCommentsOnNotEmittedNode(node) {\n emitLeadingCommentsWorker(node, /*isEmittedNode*/ false);\n }", "function getBlockRangeMap(text, node, comments) {\n /*\n * The parser sets the fenced code block's start offset to wherever content\n * should normally begin (typically the first column of the line, but more\n * inside a list item, for example). The code block's opening fancy may be\n * further indented by up to three characters. If the code block has\n * additional indenting, the opening fence's first backtick may be up to\n * three whitespace characters after the start offset.\n */\n const startOffset = getBeginningOfLineOffset(node);\n /*\n * Extract the Markdown source to determine the leading whitespace for each\n * line.\n */\n const code = text.slice(startOffset, node.position.end.offset);\n const lines = code.split('\\n');\n /*\n * The parser trims leading whitespace from each line of code within the\n * fenced code block up to the opening fence's first backtick. The first\n * backtick's column is the AST node's starting column plus any additional\n * indentation.\n */\n const baseIndent = getIndentText(text, node).length;\n /*\n * Track the length of any inserted configuration comments at the beginning\n * of the linted JS and start the JS offset lookup keys at this index.\n */\n const commentLength = comments.reduce((len, comment) => len + comment.length + 1, 0);\n /*\n * In case there are configuration comments, initialize the map so that the\n * first lookup index is always 0. If there are no configuration comments,\n * the lookup index will also be 0, and the lookup should always go to the\n * last range that matches, skipping this initialization entry.\n */\n const rangeMap = [\n {\n js: 0,\n md: 0,\n },\n ];\n // Start the JS offset after any configuration comments.\n let jsOffset = commentLength;\n /*\n * Start the Markdown offset at the beginning of the block's first line of\n * actual code. The first line of the block is always the opening fence, so\n * the code begins on the second line.\n */\n let mdOffset = startOffset + lines[0].length + 1;\n /*\n * For each line, determine how much leading whitespace was trimmed due to\n * indentation. Increase the JS lookup offset by the length of the line\n * post-trimming and the Markdown offset by the total line length.\n */\n for (let i = 0; i + 1 < lines.length; i++) {\n const line = lines[i + 1];\n const leadingWhitespaceLength = leadingWhitespaceRegex.exec(line)[0].length;\n // The parser trims leading whitespace up to the level of the opening\n // fence, so keep any additional indentation beyond that.\n const trimLength = Math.min(baseIndent, leadingWhitespaceLength);\n rangeMap.push({\n js: jsOffset,\n // Advance `trimLength` character from the beginning of the Markdown\n // line to the beginning of the equivalent JS line, then compute the\n // delta.\n md: mdOffset + trimLength - jsOffset,\n });\n // Accumulate the current line in the offsets, and don't forget the\n // newline.\n mdOffset += line.length + 1;\n jsOffset += line.length - trimLength + 1;\n }\n return rangeMap;\n}", "function stateCommentStart(char) {\n if (char === '-') {\n // We've read the sequence '<!---' at this point (3 dashes)\n state = 15 /* CommentStartDash */;\n }\n else if (char === '>') {\n // At this point, we'll assume the comment wasn't a real comment\n // so we'll just emit it as data. We basically read the sequence \n // '<!-->'\n resetToDataState();\n }\n else {\n // Any other char, take it as part of the comment\n state = 16 /* Comment */;\n }\n }", "comments(comment) {\n // console.log(`Incoming comment: ${comment.text}`)\n }", "skipCommentSingle (idx) {\n const len = this.size;\n const uson = this.input;\n const regex = USON.pattern.commentSingle;\n\n /* Find the end of the line */\n regex.lastIndex = idx;\n const match = regex.exec (uson);\n\n if (match === null) {\n return len;\n }\n\n idx = match.index;\n const chr = uson[idx];\n\n if (chr === '\\n') {\n ++idx;\n ++this.line;\n this.linePos = idx;\n }\n\n return idx;\n}", "function tokenComment(stream, state) {\n var maybeEnd = false, maybeNested = false, nestedCount = 0, ch;\n while (ch = stream.next()) {\n if (ch == \")\" && maybeEnd) {\n if(nestedCount > 0)\n nestedCount--;\n else {\n popStateStack(state);\n break;\n }\n }\n else if(ch == \":\" && maybeNested) {\n nestedCount++;\n }\n maybeEnd = (ch == \":\");\n maybeNested = (ch == \"(\");\n }\n\n return \"comment\";\n }", "function Comment(props) {\n var className = props.className,\n children = props.children,\n collapsed = props.collapsed;\n\n\n var classes = __WEBPACK_IMPORTED_MODULE_1_classnames___default()(__webpack_require__.i(__WEBPACK_IMPORTED_MODULE_3__lib__[\"a\" /* useKeyOnly */])(collapsed, 'collapsed'), 'comment', className);\n var rest = __webpack_require__.i(__WEBPACK_IMPORTED_MODULE_3__lib__[\"b\" /* getUnhandledProps */])(Comment, props);\n var ElementType = __webpack_require__.i(__WEBPACK_IMPORTED_MODULE_3__lib__[\"c\" /* getElementType */])(Comment, props);\n\n return __WEBPACK_IMPORTED_MODULE_2_react___default.a.createElement(\n ElementType,\n __WEBPACK_IMPORTED_MODULE_0_babel_runtime_helpers_extends___default()({}, rest, { className: classes }),\n children\n );\n}" ]
[ "0.66516316", "0.61217594", "0.6119501", "0.6119501", "0.608099", "0.6031577", "0.5845183", "0.58301175", "0.58301175", "0.57097083", "0.5699353", "0.5579826", "0.5526438", "0.5525686", "0.5504061", "0.5497301", "0.5489087", "0.54602695", "0.54288703", "0.54288703", "0.5424939", "0.54223704", "0.54167926", "0.54030865", "0.5390444", "0.5370468", "0.5328958", "0.53275853", "0.530804", "0.5300412", "0.52962947", "0.5295704", "0.5295704", "0.5295704", "0.5295704", "0.5295704", "0.5295704", "0.5291673", "0.5290609", "0.5251677", "0.5251677", "0.52453953", "0.52451175", "0.5238907", "0.52348316", "0.52271515", "0.5213482", "0.51993686", "0.51993686", "0.51993686", "0.5196176", "0.51752514", "0.5166023", "0.5166023", "0.51590925", "0.51590925", "0.51590925", "0.51590925", "0.51552045", "0.51552045", "0.51552045", "0.51552045", "0.51496726", "0.5134393", "0.5134393", "0.5132379", "0.5127874", "0.5127874", "0.5124476", "0.5122672", "0.51225", "0.51159364", "0.5110054", "0.5108969", "0.5092578", "0.50834465", "0.5041181", "0.5036128", "0.503319", "0.50223535", "0.5014654", "0.5007804", "0.49996004", "0.49996004", "0.49996004", "0.49781215", "0.49736536", "0.49656036", "0.49587315", "0.49411312", "0.4923302", "0.49084058", "0.49061307", "0.4900626", "0.48996335", "0.48891148", "0.4879225", "0.4876732" ]
0.6720467
2
A helper function to build a GraphQLSchema directly from a source document.
function buildSchema(source) { return buildASTSchema((0, _parser.parse)(source)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function buildSchema(source) {\n\t return buildASTSchema((0, _parser.parse)(source));\n\t}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n return buildASTSchema(Object(_language_parser__WEBPACK_IMPORTED_MODULE_9__[\"parse\"])(source, options), options);\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (!innerTypeMap[typeName]) {\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]);\n }\n return innerTypeMap[typeName];\n }\n\n function makeSchemaDef(def) {\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n return new _definition.GraphQLInterfaceType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n return new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "function GraphQLSchema(config) {\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n if (config && config.assumeValid) {\n this.__validationErrors = [];\n } else {\n this.__validationErrors = undefined; // Otherwise check for common mistakes during construction to produce\n // clear and early error messages.\n\n !(_typeof(config) === 'object') ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, 'Must provide configuration object.') : void 0;\n !(!config.types || Array.isArray(config.types)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\")) : void 0;\n !(!config.directives || Array.isArray(config.directives)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\")) : void 0;\n !(!config.allowedLegacyNames || Array.isArray(config.allowedLegacyNames)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"allowedLegacyNames\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.allowedLegacyNames), \".\")) : void 0;\n }\n\n this.__allowedLegacyNames = config.allowedLegacyNames || [];\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = config.directives || _directives__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes; // Build type map now to detect any errors within this schema.\n\n var initialTypes = [this.getQueryType(), this.getMutationType(), this.getSubscriptionType(), _introspection__WEBPACK_IMPORTED_MODULE_5__[\"__Schema\"]];\n var types = config.types;\n\n if (types) {\n initialTypes = initialTypes.concat(types);\n } // Keep track of all types referenced within the schema.\n\n\n var typeMap = Object.create(null); // First by deeply visiting all initial types.\n\n typeMap = initialTypes.reduce(typeMapReducer, typeMap); // Then by deeply visiting all directive types.\n\n typeMap = this._directives.reduce(typeMapDirectiveReducer, typeMap); // Storing the resulting map for reference by the schema.\n\n this._typeMap = typeMap;\n this._possibleTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementations = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(this._typeMap)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var type = _step.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(type)) {\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = type.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var iface = _step2.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(iface)) {\n var impls = this._implementations[iface.name];\n\n if (impls) {\n impls.push(type);\n } else {\n this._implementations[iface.name] = [type];\n }\n }\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } else if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isAbstractType\"])(type) && !this._implementations[type.name]) {\n this._implementations[type.name] = [];\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSkipDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLIncludeDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDeprecatedDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'specifiedBy';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSpecifiedByDirective\"]);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function GraphQLSchema(config) {\n var _config$directives; // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n\n\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2]; // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4]; // Directives are not validated until validateSchema() is called.\n\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"][_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"].length; _i4++) {\n _loop(_i4);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom3.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function buildASTSchema(documentAST, options) {\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_6__[\"assertValidSDL\"])(documentAST);\n }\n\n var schemaDef;\n var typeDefs = [];\n var directiveDefs = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_12__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_11__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var astBuilder = new ASTDefinitionBuilder(options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Type \\\"\".concat(typeName, \"\\\" not found in document.\")) : void 0;\n return type;\n });\n var typeMap = keyByNameNode(typeDefs, function (node) {\n return astBuilder.buildType(node);\n });\n var operationTypes = schemaDef ? getOperationTypes(schemaDef) : {\n query: 'Query',\n mutation: 'Mutation',\n subscription: 'Subscription'\n };\n var directives = directiveDefs.map(function (def) {\n return astBuilder.buildDirective(def);\n }); // If specified directives were not explicitly declared, add them.\n\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLSkipDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLIncludeDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_type_directives__WEBPACK_IMPORTED_MODULE_14__[\"GraphQLDeprecatedDirective\"]);\n }\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_17__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: operationTypes.query ? typeMap[operationTypes.query] : null,\n mutation: operationTypes.mutation ? typeMap[operationTypes.mutation] : null,\n subscription: operationTypes.subscription ? typeMap[operationTypes.subscription] : null,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n astNode: schemaDef,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n });\n\n function getOperationTypes(schema) {\n var opTypes = {};\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schema.operationTypes[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var operationType = _step2.value;\n opTypes[operationType.operation] = operationType.type.name.value;\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return opTypes;\n }\n}", "buildSchema() {\n if (!this.dbSchema) return this.schema;\n for (let tablename in this.dbSchema) {\n this.mapDbTableToGraphqlType(tablename);\n this.mapDbTableToGraphqlQuery(tablename);\n this.mapDbTableToGraphqlFirstOf(tablename);\n this.mapDbTableToGraphqlMutation(tablename);\n this.mapDbTableToGraphqlInput(tablename);\n }\n return this.schema;\n }", "get convertedSchema() {\n let schema = {\n $schema: \"http://json-schema.org/schema#\",\n title: this.label,\n type: \"object\",\n required: [],\n properties: this.fieldsToSchema(this.fields),\n };\n return schema;\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function calcSchema( inSchema ) {\n var gbCols = cols.concat( aggCols );\n var gbs = new Schema( { columns: gbCols, columnMetadata: inSchema.columnMetadata } );\n\n return gbs;\n }", "generateSchema(collection) {\n\n const collectionName = collection._name;\n const mainTypeName = collection.typeName ? collection.typeName : Utils.camelToSpaces(_.initial(collectionName).join('')); // default to posts -> Post\n\n // backward-compatibility code: we do not want user.telescope fields in the graphql schema\n const schema = Utils.stripTelescopeNamespace(collection.simpleSchema()._schema);\n\n let mainSchema = [], inputSchema = [], unsetSchema = [];\n\n _.forEach(schema, (field, key) => {\n // console.log(field, key)\n const fieldType = jsTypeToGraphQLType(field.type.singleType);\n\n if (key.indexOf('$') === -1) { // skip fields with \"$\"\n\n // 1. main schema\n mainSchema.push(`${key}: ${fieldType}`);\n\n // if field has a resolver, also push it to schema\n if (field.resolveAs) {\n mainSchema.push(field.resolveAs);\n }\n\n if (field.insertableBy || field.editableBy) {\n\n // note: marking a field as required makes it required for updates, too,\n // which makes partial updates impossible\n // const isRequired = field.optional ? '' : '!';\n\n const isRequired = '';\n\n // 2. input schema\n inputSchema.push(`${key}: ${fieldType}${isRequired}`);\n\n // 3. unset schema\n unsetSchema.push(`${key}: Boolean`);\n\n }\n }\n });\n\n let graphQLSchema = `\n type ${mainTypeName} {\n ${mainSchema.join('\\n ')}\n }\n `\n\n if (inputSchema.length) {\n graphQLSchema += `\n input ${collectionName}Input {\n ${inputSchema.join('\\n ')}\n }\n input ${collectionName}Unset {\n ${unsetSchema.join('\\n ')}\n }\n `\n }\n\n return graphQLSchema;\n }", "function Schema_from_swagger(schema_content) {\n 'use strict';\n // use new\n\n this.resolve = (input_json_obj) => {\n //const schema = getSwaggerV2Schema(schema_content, '/default_endpoint')\n const schema = schema_content;\n const ok = schemaValidator(schema, input_json_obj);\n if (ok) {\n return input_json_obj;\n } else {\n throw new Error('mismatch: The constraint aspect of template failed');\n }\n };\n\n this.generate = (obj) => this.resolve(obj);\n}", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"GraphQLSchema\"](extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLSchema\"](extendedConfig);\n}", "function _generateSchema(typeDefinitions, resolveFunctions, logger, \n // TODO: rename to allowUndefinedInResolve to be consistent\n allowUndefinedInResolve, resolverValidationOptions) {\n if (typeof resolverValidationOptions !== 'object') {\n throw new SchemaError('Expected `resolverValidationOptions` to be an object');\n }\n if (!typeDefinitions) {\n throw new SchemaError('Must provide typeDefs');\n }\n if (!resolveFunctions) {\n throw new SchemaError('Must provide resolvers');\n }\n // TODO: check that typeDefinitions is either string or array of strings\n var schema = buildSchemaFromTypeDefinitions(typeDefinitions);\n addResolveFunctionsToSchema(schema, resolveFunctions);\n assertResolveFunctionsPresent(schema, resolverValidationOptions);\n if (!allowUndefinedInResolve) {\n addCatchUndefinedToSchema(schema);\n }\n if (logger) {\n addErrorLoggingToSchema(schema, logger);\n }\n return schema;\n}", "defineSchema() {\n\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // Extract arguments from object args if provided.\n var args = arguments.length === 1 ? argsOrSchema : undefined;\n var schema = args ? args.schema : argsOrSchema;\n return args ? graphqlImpl(schema, args.source, args.rootValue, args.contextValue, args.variableValues, args.operationName, args.fieldResolver) : graphqlImpl(schema, source, rootValue, contextValue, variableValues, operationName, fieldResolver);\n}", "withSchema(schema) {\n return new QueryCreator({\n ...this.#props,\n executor: this.#props.executor.withPluginAtFront(new with_schema_plugin_js_1.WithSchemaPlugin(schema)),\n });\n }", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function generateDocFromSource (acc, fn) {\n return new Promise((resolve, reject) => {\n const stream = parseJSDoc({src: fn.fullPath})\n var data = ''\n\n stream.on('error', (err) => {\n console.error(err)\n process.exit(1)\n })\n\n stream.on('data', (chunk) => { data += chunk })\n stream.on('end', () => resolve(JSON.parse(data)))\n }).then((doc) => acc.concat(doc))\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "schema() { }", "function LoneSchemaDefinition(context) {\n var oldSchema = context.getSchema();\n var alreadyDefined = oldSchema && (oldSchema.astNode || oldSchema.getQueryType() || oldSchema.getMutationType() || oldSchema.getSubscriptionType());\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](canNotDefineSchemaWithinExtensionMessage(), node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](schemaDefinitionNotAloneMessage(), node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function getSchema(schema, skipParsing) {\n return skipParsing ? schema : schemaParser.fromDomainSchema(schema);\n }", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}", "function compileSchema(sch) {\n // TODO refactor - remove compilations\n const _sch = getCompilingSchema.call(this, sch);\n if (_sch)\n return _sch;\n const rootId = (0, resolve_1.getFullPath)(this.opts.uriResolver, sch.root.baseId); // TODO if getFullPath removed 1 tests fails\n const { es5, lines } = this.opts.code;\n const { ownProperties } = this.opts;\n const gen = new codegen_1.CodeGen(this.scope, { es5, lines, ownProperties });\n let _ValidationError;\n if (sch.$async) {\n _ValidationError = gen.scopeValue(\"Error\", {\n ref: validation_error_1.default,\n code: (0, codegen_1._) `require(\"ajv/dist/runtime/validation_error\").default`,\n });\n }\n const validateName = gen.scopeName(\"validate\");\n sch.validateName = validateName;\n const schemaCxt = {\n gen,\n allErrors: this.opts.allErrors,\n data: names_1.default.data,\n parentData: names_1.default.parentData,\n parentDataProperty: names_1.default.parentDataProperty,\n dataNames: [names_1.default.data],\n dataPathArr: [codegen_1.nil],\n dataLevel: 0,\n dataTypes: [],\n definedProperties: new Set(),\n topSchemaRef: gen.scopeValue(\"schema\", this.opts.code.source === true\n ? { ref: sch.schema, code: (0, codegen_1.stringify)(sch.schema) }\n : { ref: sch.schema }),\n validateName,\n ValidationError: _ValidationError,\n schema: sch.schema,\n schemaEnv: sch,\n rootId,\n baseId: sch.baseId || rootId,\n schemaPath: codegen_1.nil,\n errSchemaPath: sch.schemaPath || (this.opts.jtd ? \"\" : \"#\"),\n errorPath: (0, codegen_1._) `\"\"`,\n opts: this.opts,\n self: this,\n };\n let sourceCode;\n try {\n this._compilations.add(sch);\n (0, validate_1.validateFunctionCode)(schemaCxt);\n gen.optimize(this.opts.code.optimize);\n // gen.optimize(1)\n const validateCode = gen.toString();\n sourceCode = `${gen.scopeRefs(names_1.default.scope)}return ${validateCode}`;\n // console.log((codeSize += sourceCode.length), (nodeCount += gen.nodeCount))\n if (this.opts.code.process)\n sourceCode = this.opts.code.process(sourceCode, sch);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode)\n const makeValidate = new Function(`${names_1.default.self}`, `${names_1.default.scope}`, sourceCode);\n const validate = makeValidate(this, this.scope.get());\n this.scope.value(validateName, { ref: validate });\n validate.errors = null;\n validate.schema = sch.schema;\n validate.schemaEnv = sch;\n if (sch.$async)\n validate.$async = true;\n if (this.opts.code.source === true) {\n validate.source = { validateName, validateCode, scopeValues: gen._values };\n }\n if (this.opts.unevaluated) {\n const { props, items } = schemaCxt;\n validate.evaluated = {\n props: props instanceof codegen_1.Name ? undefined : props,\n items: items instanceof codegen_1.Name ? undefined : items,\n dynamicProps: props instanceof codegen_1.Name,\n dynamicItems: items instanceof codegen_1.Name,\n };\n if (validate.source)\n validate.source.evaluated = (0, codegen_1.stringify)(validate.evaluated);\n }\n sch.validate = validate;\n return sch;\n }\n catch (e) {\n delete sch.validate;\n delete sch.validateName;\n if (sourceCode)\n this.logger.error(\"Error compiling schema, function code:\", sourceCode);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode, this.opts)\n throw e;\n }\n finally {\n this._compilations.delete(sch);\n }\n}", "function inferSchema(value){\n \n // we have no way of infering type names for objects\n // therefore we simply assign an incremental identifier to each new object we find\n const anonymousTypeName = anonymousTypeNameGenerator();\n\n // entry point of schema\n let rootType = Type.ObjectType(\"Root\");\n\n const queue = [];\n queue.push({path: [\"fields\", \"root\"], value:value});\n\n while(queue.length > 0){\n const descriptor = queue.pop();\n \n const type = inferType(descriptor.value);\n\n if(type.kind === \"SCALAR\"){\n // console.log(\"set in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type);\n continue; \n }\n\n if(type.name === \"ListType\"){\n // console.log(\"set a list in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type());\n const path = descriptor.path.concat(\"ofType\");\n\n // examine type of first item in list\n // TODO: examine more elements?\n queue.push({path:path, value: descriptor.value.get(0)});\n }\n\n if(type.name === \"ObjectType\"){\n // console.log(\"set an object in\", descriptor.path);\n const typeName = anonymousTypeName.next().value;\n rootType = rootType.setIn(descriptor.path, type(typeName));\n const path = descriptor.path.concat(\"fields\");\n const entries = descriptor.value.entries();\n // enumerate fields of Map\n for([fieldName, val] of entries){\n queue.push({path:path.concat(fieldName), value: val});\n } \n }\n }\n\n return rootType;\n}", "function schema(schema_fn) {\n\t\treturn valid_schema(new schema_fn());\n\t}", "function getModelFromSchema(schema) {\n var data = {\n name: schema.id,\n schema: {}\n }\n\n var newSchema = {}\n var tmp = null\n _.each(schema.properties, function (v, propName) {\n if (v['$ref'] != null) {\n tmp = {\n type: Schema.ObjectId,\n ref: v['$ref']\n }\n } else {\n tmp = translateComplexType(v) //{}\n }\n newSchema[propName] = tmp\n })\n data.schema = new Schema(newSchema)\n return data\n}", "function createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // If arguments are missing or incorrectly typed, this is an internal\n // developer mistake which should throw an early error.\n (0, _execute.assertValidExecutionArguments)(schema, document, variableValues);\n return new Promise(function (resolve) {\n // If a valid context cannot be created due to incorrect arguments,\n // this will throw an error.\n var exeContext = (0, _execute.buildExecutionContext)(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver);\n resolve( // Return early errors if execution context failed.\n Array.isArray(exeContext) ? {\n errors: exeContext\n } : executeSubscription(exeContext));\n }).catch(reportGraphQLError);\n}", "function createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // If arguments are missing or incorrectly typed, this is an internal\n // developer mistake which should throw an early error.\n (0, _execute.assertValidExecutionArguments)(schema, document, variableValues);\n return new Promise(function (resolve) {\n // If a valid context cannot be created due to incorrect arguments,\n // this will throw an error.\n var exeContext = (0, _execute.buildExecutionContext)(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver);\n resolve( // Return early errors if execution context failed.\n Array.isArray(exeContext) ? {\n errors: exeContext\n } : executeSubscription(exeContext));\n }).catch(reportGraphQLError);\n}", "static getMetaData(src) {\n\t\tif (GraphQL.logging) console.log('GraphQL: ', src);\n\t\treturn new Promise((resolve, reject) => {\n\t\t\t// console.log('================\\n', GraphQL.metadataStr(), '===================\\n');\n\n\t\t\taxios\n\t\t\t\t.post(src, GraphQL.query(GraphQL.metadataStr()))\n\t\t\t\t.then((res) => {\n\t\t\t\t\tconst { __schema: schema } = res.data.data;\n\t\t\t\t\tresolve(schema);\n\t\t\t\t})\n\t\t\t\t.catch((err) => {\n\t\t\t\t\tif (err.isAxiosError) {\n\t\t\t\t\t\t// console.log(err.response);\n\t\t\t\t\t\ttry {\n\t\t\t\t\t\t\treject({\n\t\t\t\t\t\t\t\tsourceType: 'GraphQL',\n\t\t\t\t\t\t\t\tstatusText: err.response.statusText,\n\t\t\t\t\t\t\t\trequestUrl: err.response.config.url,\n\t\t\t\t\t\t\t\trequestBody: JSON.parse(err.response.config.data).query,\n\t\t\t\t\t\t\t\terrors: err.response.data.errors,\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t} catch (e) {\n\t\t\t\t\t\t\treject(err);\n\t\t\t\t\t\t}\n\t\t\t\t\t} else reject(err);\n\t\t\t\t});\n\t\t});\n\t}", "function create(feed) {\n return opdsSchema.generate(feed, {\n //version: '1.0',\n //encoding: 'UTF-8',\n standalone: true,\n pretty: true,\n });\n}", "setupSchema() {\n\t\tfor (const type in this.Definition) {\n\t\t\tif (this.Definition.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.Definition[type];\n\t\t\t\tthis.Schema[type] = oas.compile(typeDef);\n\t\t\t}\n\t\t}\n\t\tfor (const type in this.precompiled) {\n\t\t\tif (this.precompiled.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.precompiled[type];\n\t\t\t\tthis.Schema[type] = typeDef;\n\t\t\t}\n\t\t}\n\t}", "function createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // If arguments are missing or incorrectly typed, this is an internal\n // developer mistake which should throw an early error.\n Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_6__[\"assertValidExecutionArguments\"])(schema, document, variableValues);\n return new Promise(function (resolve) {\n // If a valid context cannot be created due to incorrect arguments,\n // this will throw an error.\n var exeContext = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_6__[\"buildExecutionContext\"])(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver);\n resolve( // Return early errors if execution context failed.\n Array.isArray(exeContext) ? {\n errors: exeContext\n } : executeSubscription(exeContext));\n }).catch(reportGraphQLError);\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "getSchema (input, build) {\n var parent = this.model.visual;\n\n // allow to specify the schema as an entry of\n // visuals object in the dashboard schema\n if (parent && parent !== this.model && isString(input)) {\n var schema = parent.getVisualSchema(input);\n if (schema) input = schema;\n }\n\n if (isString(input)) {\n return this.json(input).then(response => build(response.data)).catch(err => {\n warn(`Could not reach ${input}: ${err}`, err);\n });\n }\n else return build(input);\n }", "fixSchema(originalSchema, config) {\n let schema = cloneDeep(originalSchema);\n if (config) {\n schema = this.enrichSchemaWithConfig(schema, config);\n }\n schema = this.fixRecursively(schema);\n return schema;\n }", "function graphqlImpl(schema, source, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n return new Promise(function (resolve) {\n // Parse\n var document = void 0;\n try {\n document = (0, _parser.parse)(source);\n } catch (syntaxError) {\n return resolve({ errors: [syntaxError] });\n }\n\n // Validate\n var validationErrors = (0, _validate.validate)(schema, document);\n if (validationErrors.length > 0) {\n return resolve({ errors: validationErrors });\n }\n\n // Execute\n resolve((0, _execute.execute)(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver));\n });\n}", "document (source) {\n this.documentation = new Documentation(source, this);\n return this;\n }", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function graphql(args) {\n const {\n schema,\n source,\n rootValue,\n contextValue,\n variableValues,\n operationName,\n fieldResolver,\n typeResolver,\n } = args;\n // Validate Schema\n const schemaValidationErrors = validateSchema(schema);\n if (schemaValidationErrors.length > 0) {\n return { errors: schemaValidationErrors };\n }\n // Parse\n let document;\n try {\n document = parse(source);\n } catch (syntaxError) {\n return { errors: [syntaxError] };\n }\n // Validate\n const validationErrors = validate(schema, document);\n if (validationErrors.length > 0) {\n return { errors: validationErrors };\n }\n // Execute\n return execute({\n schema,\n document,\n rootValue,\n contextValue,\n variableValues,\n operationName,\n fieldResolver,\n typeResolver,\n });\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _GraphQLError.GraphQLError('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _GraphQLError.GraphQLError('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _GraphQLError.GraphQLError('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _GraphQLError.GraphQLError('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function schemaFactory(oldDbVersion) {\n log.debug(label, \"previous version was\", oldDbVersion);\n var oldMetadata = metadataRegistry.retrieveByDatabaseVersion(oldDbVersion);\n return (new wrm.data.XDMetadata(oldMetadata, migrationWay, oldDbVersion)).getSchema();\n }", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver) {\n // If arguments are missing or incorrectly typed, this is an internal\n // developer mistake which should throw an early error.\n Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"assertValidExecutionArguments\"])(schema, document, variableValues);\n\n try {\n // If a valid context cannot be created due to incorrect arguments,\n // this will throw an error.\n var exeContext = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"buildExecutionContext\"])(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver); // Return early errors if execution context failed.\n\n if (Array.isArray(exeContext)) {\n return Promise.resolve({\n errors: exeContext\n });\n }\n\n var type = Object(_utilities_getOperationRootType__WEBPACK_IMPORTED_MODULE_6__[\"getOperationRootType\"])(schema, exeContext.operation);\n var fields = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"collectFields\"])(exeContext, type, exeContext.operation.selectionSet, Object.create(null), Object.create(null));\n var responseNames = Object.keys(fields);\n var responseName = responseNames[0];\n var fieldNodes = fields[responseName];\n var fieldNode = fieldNodes[0];\n var fieldName = fieldNode.name.value;\n var fieldDef = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"getFieldDef\"])(schema, type, fieldName);\n\n if (!fieldDef) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](\"The subscription field \\\"\".concat(fieldName, \"\\\" is not defined.\"), fieldNodes);\n } // Call the `subscribe()` resolver or the default resolver to produce an\n // AsyncIterable yielding raw payloads.\n\n\n var resolveFn = fieldDef.subscribe || exeContext.fieldResolver;\n var path = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"addPath\"])(undefined, responseName);\n var info = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"buildResolveInfo\"])(exeContext, fieldDef, fieldNodes, type, path); // resolveFieldValueOrError implements the \"ResolveFieldEventStream\"\n // algorithm from GraphQL specification. It differs from\n // \"ResolveFieldValue\" due to providing a different `resolveFn`.\n\n var result = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"resolveFieldValueOrError\"])(exeContext, fieldDef, fieldNodes, resolveFn, rootValue, info); // Coerce to Promise for easier error handling and consistent return type.\n\n return Promise.resolve(result).then(function (eventStream) {\n // If eventStream is an Error, rethrow a located error.\n if (eventStream instanceof Error) {\n throw Object(_error_locatedError__WEBPACK_IMPORTED_MODULE_3__[\"locatedError\"])(eventStream, fieldNodes, Object(_execution_execute__WEBPACK_IMPORTED_MODULE_4__[\"responsePathAsArray\"])(path));\n } // Assert field returned an event stream, otherwise yield an error.\n\n\n if (Object(iterall__WEBPACK_IMPORTED_MODULE_0__[\"isAsyncIterable\"])(eventStream)) {\n // Note: isAsyncIterable above ensures this will be correct.\n return eventStream;\n }\n\n throw new Error('Subscription field must return Async Iterable. Received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(eventStream));\n });\n } catch (error) {\n return Promise.reject(error);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function createSchema(client) {\n const WOQL = TerminusDB.WOQL\n const addDocument = WOQL.doctype('Person')\n .label('Person Name')\n .description('A Person Document')\n .property('name', 'string')\n .label('Name')\n .cardinality(1)\n //The cardinality in a property is a measure of the \"number of values\" for this property in a Document instance.\n //Cardinality 1 for date_of_birth means that for every Document Person you have insert one date_of_birth value (mandatory property)\n .property('date_of_birth', 'dateTime')\n .label('Date Of Birth')\n .cardinality(1)\n .property('knows', 'Person')\n .label('Knows')\n client.query(addDocument)\n}", "function extendSchema(schema, documentAST) {\n (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = {};\n var typeExtensionsMap = {};\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case _kinds.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n }\n }\n\n // If this document contains no new types, then return the same unmodified\n // GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n // Copy directives.\n directives: schema.getDirectives()\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }\n\n function getTypeFromAST(astNode) {\n var type = _getNamedType(astNode.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n return type;\n }\n\n function getInterfaceTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n return type;\n }\n\n function getInputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n return type;\n }\n\n function getOutputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n return type;\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n return new _definition.GraphQLObjectType({\n name: type.name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n }\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = {};\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n resolve: cannotExecuteClientSchema\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeAST) {\n switch (typeAST.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeAST);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeAST);\n case _kinds.UNION_TYPE_DEFINITION:\n return buildUnionType(typeAST);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeAST);\n case _kinds.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeAST);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeAST);\n }\n throw new TypeError('Unknown type kind ' + typeAST.kind);\n }\n\n function buildObjectType(typeAST) {\n return new _definition.GraphQLObjectType({\n name: typeAST.name.value,\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeAST);\n },\n fields: function fields() {\n return buildFieldMap(typeAST);\n }\n });\n }\n\n function buildInterfaceType(typeAST) {\n return new _definition.GraphQLInterfaceType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildFieldMap(typeAST);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionType(typeAST) {\n return new _definition.GraphQLUnionType({\n name: typeAST.name.value,\n types: typeAST.types.map(getObjectTypeFromAST),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildScalarType(typeAST) {\n return new _definition.GraphQLScalarType({\n name: typeAST.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeAST) {\n return new _definition.GraphQLEnumType({\n name: typeAST.name.value,\n values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n }\n\n function buildInputObjectType(typeAST) {\n return new _definition.GraphQLInputObjectType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildInputValues(typeAST.fields);\n }\n });\n }\n\n function buildImplementedInterfaces(typeAST) {\n return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeAST) {\n return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function buildInputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeAST);\n }\n\n function buildOutputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeAST);\n }\n}", "function graphql(argsOrSchema, source, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {\n var _arguments = arguments;\n /* eslint-enable no-redeclare */\n // Always return a Promise for a consistent API.\n\n return new Promise(function (resolve) {\n return resolve( // Extract arguments from object args if provided.\n _arguments.length === 1 ? graphqlImpl(argsOrSchema) : graphqlImpl({\n schema: argsOrSchema,\n source: source,\n rootValue: rootValue,\n contextValue: contextValue,\n variableValues: variableValues,\n operationName: operationName,\n fieldResolver: fieldResolver,\n typeResolver: typeResolver\n }));\n });\n}", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_8__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_7__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_9__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function extendSchema(Schema, definition, options) {\n return new mongoose.Schema(\n Object.assign({}, Schema.obj, definition),\n options\n );\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "static fromSchema(schema) {\n return schema.cached.domParser || (schema.cached.domParser = new DOMParser(schema, DOMParser.schemaRules(schema)));\n }", "static _getRawSchema () {\n let schema = this.schema\n return schema\n }", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "createSchema() {\n this.schema = this.extensionManager.schema;\n }", "function mapWithSchema(propertyName, schema, sourceValue) {\n\tvar schemaValue = schema[propertyName];\n\tif (schemaValue === Direct) {\n\t\treturn sourceValue;\n\t} else if (typeof schemaValue === 'function') {\n\t\treturn schemaValue.call(null, sourceValue);\n\t} else {\n\t\treturn schemaValue;\n\t}\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"](_objectSpread({}, schemaConfig, {\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLDirective\"](_objectSpread({}, config, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isScalarType\"])(type) || Object(_type_introspection__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInterfaceType\"](_objectSpread({}, _config, {\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLUnionType\"](_objectSpread({}, _config2, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLEnumType\"](_objectSpread({}, _config3, {\n values: sortObjMap(_config3.values)\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInputObjectType\"](_objectSpread({}, _config4, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type), \"\\\".\"));\n }\n}", "function generateSchema() {\n // Get the instance of `graphql` that `graphbrainz` sees.\n const graphql = require(resolveFrom(\n require.resolve('graphbrainz'),\n 'graphql'\n ))\n\n const extendedSchema = createSchema(graphBrainzSchema, {\n extensions: ['graphbrainz/extensions/cover-art-archive'],\n })\n\n return schemaToJSON(extendedSchema, { graphql })\n}", "function parseVastSource(source){\n\t\tvar xdoc, parser;\n\t\t\n\t\tparser = new DOMParser();\n\t\txdoc = parser.parseFromString(source, 'text/xml');\n\t\t\n\t\treturn new VastDoc(xdoc);\n\t\n\t}", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function generateSchema(fields) {\r\n var schema = [];\r\n\r\n for (var i in fields) {\r\n var f = {};\r\n f['s0'] = fields[i].name;\r\n f['s1'] = fields[i].dataTypeID;\r\n f['s2'] = 'a' + i;\r\n\r\n // add it to the fields\r\n schema.push(f);\r\n }\r\n\r\n return schema;\r\n}", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }" ]
[ "0.7696594", "0.74385685", "0.74385685", "0.7430873", "0.7430873", "0.7270707", "0.6659614", "0.6568555", "0.65323377", "0.64452153", "0.64452153", "0.6437725", "0.63612807", "0.60894394", "0.60894394", "0.6076323", "0.6032237", "0.58776057", "0.5717966", "0.5705632", "0.56978106", "0.56586486", "0.56109196", "0.56096417", "0.56096417", "0.55439115", "0.5495706", "0.5461862", "0.54498935", "0.5432437", "0.54203683", "0.5399063", "0.5376298", "0.52925295", "0.52925295", "0.5287046", "0.5281199", "0.52763444", "0.52763444", "0.52696735", "0.52695066", "0.52628464", "0.524433", "0.5240931", "0.51609594", "0.51609594", "0.5132292", "0.5114207", "0.508971", "0.5083803", "0.50802153", "0.50802153", "0.50656617", "0.50651103", "0.50546825", "0.50485367", "0.5045967", "0.5045967", "0.5034711", "0.5030496", "0.5029719", "0.5024558", "0.5006823", "0.5006823", "0.50023586", "0.49995297", "0.49921054", "0.49921054", "0.49911886", "0.49891707", "0.49874765", "0.49855575", "0.49855575", "0.49799216", "0.4974477", "0.4961612", "0.4936479", "0.49355942", "0.49178258", "0.49135396", "0.49132782", "0.49085522", "0.48989958", "0.48970178", "0.48965555", "0.48606396", "0.48558787", "0.48531526", "0.48481703", "0.4827934", "0.4827934", "0.4817784", "0.48118904", "0.48118904", "0.48118904", "0.48118904", "0.48118904", "0.48118904" ]
0.7711342
2
Count the number of spaces on the starting side of a string.
function leadingSpaces(str) { var i = 0; for (; i < str.length; i++) { if (str[i] !== ' ') { break; } } return i; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function countNonSpaces(str){\n return str.split(\" \").join(\"\").length;\n}", "function leadingSpaces(str) {\n\t var i = 0;\n\t for (; i < str.length; i++) {\n\t if (str[i] !== ' ') {\n\t break;\n\t }\n\t }\n\t return i;\n\t}", "function Count(str) {\n let total = 0;\n for (let i=0; i<str.length; i++) {\n if (str.charAt(i) === \" \") {\n total+=1;\n }\n }\n return total + 1;\n}", "function calculateStartingWhitespacesCount(html) {\n var lines = html.split(/\\r?\\n/);\n var lastLine = lines[lines.length - 1];\n return lastLine.search(/\\S|$/);\n}", "function getNoOfSpaces(el){\n\tif (el.value.match(/ /g))\n\t\tvar spacesNumber = el.value.match(/ /g).length;\n\telse // if regexp result is null, set to zero\n\t\tvar spacesNumber = 0;\n\t\t\n\treturn spacesNumber;\n}", "function lettersWidth(s) {\n\tif (s === null || s === undefined || s === \"\")\n\t\treturn 0;\n\tlet cx = 0;\n\tfor (let i = 0; i < s.length; i++) {\n\t\tlet c = s[i];\n\t\tlet cw = textWidth(c) + spacing;\n\t\tcx += cw;\n\t}\n\treturn cx;\n}", "function count(str){\n let count = 0;\n for (let i = 0; i < str.length; i++) {\n if (str[i] ==\" \"){\n continue;\n }\n else {\n count ++\n }\n }\n return count;\n}", "function getEmptySpaces(my_arr) {\n var i,\n count = 0;\n for (i = 0; i < my_arr.length; i += 1) {\n if (my_arr[i] === \"\" || my_arr[i] === \" \") {\n count += 1;\n }\n }\n \n return count;\n \t}", "function findIndentation(input)\n{\n\tvar count = 0;\n\n\tif (input.length === 0)\n\t{\n\t\treturn 0;\n\t}\n\n\treturn input.split(/[^ \\t\\r\\n]/)[0].length; //**returns the number of tabs as well as the number of spaces!!!\n}", "function countNonSpaces(string){\n newCount = [];\n spaceCount = string.split(\"\");\n console.log(spaceCount.length);\n for(var i = 0; i < spaceCount.length; i++){\n if (spaceCount[i] != ' '){\n newCount.push([spaceCount[i]])\n }\n }\n return newCount.length; \n}", "countWords(str) {\n //exclude start and end white-space\n str = str.replace(/(^\\s*)|(\\s*$)/gi,\"\");\n //convert 2 or more spaces to 1 \n str = str.replace(/[ ]{2,}/gi,\" \");\n // exclude newline with a start spacing \n str = str.replace(/\\n /,\"\\n\");\n\n return str.split(' ').length;\n }", "function countValidChars(pattern) {\n var numOfInvalidSpaces = 0;\n for (var i = 0; i < pattern.length; i++) {\n var letter = pattern.charAt(i);\n if (letter == ' ') {\n if (i != 0 && pattern.charAt(i - 1) == ' ') {\n numOfInvalidSpaces++;\n }\n }\n }\n return pattern.length - numOfInvalidSpaces;\n}", "function countWords(s) {\n s = s.replace(/(^\\s*)|(\\s*$)/gi, \"\");//exclude start and end white-space\n s = s.replace(/[ ]{2,}/gi, \" \");//2 or more space to 1\n s = s.replace(/\\n /, \"\\n\"); // exclude newline with a start spacing\n return s.split(' ').length;\n}", "function countColumn(string, end) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countWords(s){\n s = s.replace(/(^\\s*)|(\\s*$)/gi,\"\");//exclude start and end white-space\n s = s.replace(/\\n/g,\" \"); // exclude newline with a start spacing\n s = s.replace(/[ ]{2,}/gi,\" \");//2 or more space to 1\n if( s==\"\" || s == \" \") return 0\n return s.split(' ').length; \n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = startIndex || 0, n = startValue || 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = startIndex || 0, n = startValue || 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = startIndex || 0, n = startValue || 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = startIndex || 0, n = startValue || 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function str_len_both(value, spaces) {\n if (spaces === void 0) { spaces = false; }\n var num;\n if (spaces) {\n num = value.replace(/\\s+/, \"\").length;\n }\n else {\n num = value.length;\n }\n return num;\n }", "function getWordLength(str, start) {\n var n = 0;\n for(var i = start, len = str.length; i < len; i++){\n var c = str.charAt(i);\n if (c == '\\t'|| c == ' ' || c == '(' || c == ')' || c == '\"')\n break;\n }\n return i - start;\n}", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function countColumn(string, end, tabSize) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) end = string.length;\n }\n for (var i = 0, n = 0; i < end; ++i) {\n if (string.charAt(i) == \"\\t\") n += tabSize - (n % tabSize);\n else ++n;\n }\n return n;\n }", "function count(str) {\n return str.length;\n}", "function getWordLength(str, start) {\n var n = 0;\n for (var i = start, len = str.length; i < len; i++) {\n var c = str.charAt(i);\n if (c == '\\t' || c == ' ' || c == '(' || c == ')' || c == '\"')\n break;\n }\n return i - start;\n}", "function wordscount(str){\n\treturn str.split(/\\s+/).length;\n}", "function sc_stringLength(s) { return s.length; }", "function getCountWithoutSpaces(str, maxLen) {\n var spCount = 0;\n var nonWhiteSpaceRegExp = /\\S/g;\n if (str !== null || str !== undefined) {\n spCount = str.replace(nonWhiteSpaceRegExp, '').length;\n }\n return spCount;\n }", "_countWhitespaceChar(ch) {\n if (this._regexWhitespaceChar.test(ch)) {\n this._nWhitespaceChars += 1;\n }\n }", "function matchNonSpace(str) {\n let nonWhiteSpaceRegex = /\\S/gi;\n return str.match(nonWhiteSpaceRegex).length;\n}", "function countNames(fullName) {\n var count = 1;\n for (var x = 0; x <= fullName.length; x++) {\n if (fullName[x] === \" \") {\n count = count + 1;\n }\n }\n return count;\n}", "function countCol(string, end, tabSize, startIndex = 0, startValue = 0) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1)\n end = string.length;\n }\n let n = startValue;\n for (let i = startIndex; i < end; i++) {\n if (string.charCodeAt(i) == 9)\n n += tabSize - (n % tabSize);\n else\n n++;\n }\n return n;\n}", "function countNumOfWords(str) {\n\n}", "function skipSpace(str, pos) {\n while (/\\s/.test(str.charAt(pos))) ++pos;\n return pos;\n }", "indentation() {\n var _a;\n return (_a = this.overrideIndent) !== null && _a !== void 0 ? _a : countCol(this.string, null, this.tabSize);\n }", "function num_indent (line, indent_string) {\n\tvar amt = 0;\n\tvar index = 0;\n\twhile (line.substring(index, index + indent_string.length) == indent_string) {\n\t\tamt += 1;\n\t\tindex += indent_string.length;\n\t}\n\treturn amt;\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n\t\t if (end == null) {\n\t\t end = string.search(/[^\\s\\u00a0]/);\n\t\t if (end == -1) { end = string.length; }\n\t\t }\n\t\t for (var i = startIndex || 0, n = startValue || 0;;) {\n\t\t var nextTab = string.indexOf(\"\\t\", i);\n\t\t if (nextTab < 0 || nextTab >= end)\n\t\t { return n + (end - i) }\n\t\t n += nextTab - i;\n\t\t n += tabSize - (n % tabSize);\n\t\t i = nextTab + 1;\n\t\t }\n\t\t }", "function count_column( string, end, tabSize, startIndex, startValue )\n{\n var i, n, nextTab;\n if ( null == end )\n {\n end = string.search( Stream.$NONSPC$ );\n if ( -1 == end ) end = string.length;\n }\n for (i=startIndex||0,n=startValue||0 ;;)\n {\n nextTab = string.indexOf( \"\\t\", i );\n if ( nextTab < 0 || nextTab >= end ) return n + (end - i);\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function count_column( string, end, tabSize, startIndex, startValue )\n{\n var i, n, nextTab;\n if ( null == end )\n {\n end = string.search( Stream.$NONSPC$ );\n if ( -1 == end ) end = string.length;\n }\n for (i=startIndex||0,n=startValue||0 ;;)\n {\n nextTab = string.indexOf( \"\\t\", i );\n if ( nextTab < 0 || nextTab >= end ) return n + (end - i);\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n }", "function cnt(textField){\r\n\tif(textField.value !== null && textField.value.trim().length > 0){\r\n\t\tvar y = textField.value;\r\n\t\tvar count = 0;\r\n\t\ttext = y.replace(/\\s/g,' ');\r\n\t \ttext = text.split(' ');\r\n\t\t\r\n\t\tfor (i=0; i < text.length; i++) {\r\n\t\t\tif (text[i].length > 0) count++;\r\n\t\t}\r\n\t\t\r\n\t\treturn count;\r\n\t} else return 0;\r\n}", "function stringCount(str) {\n return str.length\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/)\n if (end == -1) { end = string.length }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i)\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i\n n += tabSize - (n % tabSize)\n i = nextTab + 1\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/)\n if (end == -1) { end = string.length }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i)\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i\n n += tabSize - (n % tabSize)\n i = nextTab + 1\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n\n if (end == -1) {\n end = string.length;\n }\n }\n\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n\n if (nextTab < 0 || nextTab >= end) {\n return n + (end - i);\n }\n\n n += nextTab - i;\n n += tabSize - n % tabSize;\n i = nextTab + 1;\n }\n }", "function fancyCount(str){\n return Array.from(str.split(/[\\ufe00-\\ufe0f]/).join(\"\")).length;\n }", "function countWord(word) {\n if (typeof word !== 'string'){\n return 'error input bukan string';\n } else if (word === \"\") {\n return '';\n } else {\n let count = 1\n for (let j = 0; j < word.length; j++) {\n if (word[j] === ' ' && word[j+1] !== ' ') {\n count++\n }\n }\n if (word === '') return '' \n else return count\n }\n}", "function WordCount(str) { \n return str.split(' ').length;\n }", "function getIndentation(s) {\n let indentation = s.match(/[ \\t]*/)[0];\n indentation = indentation.replace(/\\t/g, INDENT); // replace tabs by INDENT\n return Math.floor(indentation.length / INDENT.length);\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countColumn(string, end, tabSize, startIndex, startValue) {\n if (end == null) {\n end = string.search(/[^\\s\\u00a0]/);\n if (end == -1) { end = string.length; }\n }\n for (var i = startIndex || 0, n = startValue || 0;;) {\n var nextTab = string.indexOf(\"\\t\", i);\n if (nextTab < 0 || nextTab >= end)\n { return n + (end - i) }\n n += nextTab - i;\n n += tabSize - (n % tabSize);\n i = nextTab + 1;\n }\n}", "function countWords(str) {\n str = str.split(' ')\n console.log(str);\n console.log(str.length);\n}", "function wordsCounter(text){\n\n if(text === ''){\n return 0;\n }else if(!text.includes(' ')){\n return 1;\n }else if(text.includes(' ')){\n return spaceCount(text) + 1;\n }\n}", "function countWords(str) {\n str = str.replace(/(^\\s*)|(\\s*$)/gi, \"\");\n str = str.replace(/[ ]{2,}/gi, \" \");\n str = str.replace(/\\n /, \"\\n\");\n return str.split(' ').length;\n }", "function countColumn(string, end, tabSize, startIndex, startValue) {\r\n if (end == null) {\r\n end = string.search(/[^\\s\\u00a0]/);\r\n if (end == -1) { end = string.length; }\r\n }\r\n for (var i = startIndex || 0, n = startValue || 0;;) {\r\n var nextTab = string.indexOf(\"\\t\", i);\r\n if (nextTab < 0 || nextTab >= end)\r\n { return n + (end - i) }\r\n n += nextTab - i;\r\n n += tabSize - (n % tabSize);\r\n i = nextTab + 1;\r\n }\r\n}", "function firstWSCharIndex(string, start, end) {\n if (start === undefined) start = 0;\n if (end === undefined) end = string.length;\n for (let i = start; i < end; ++i)\n if (string[i] == ' ' || string[i] == '\\t') return i;\n return -1;\n}", "function wordCount(str) {\n\tvar results = str.split(\" \");\n\tconsole.log((results.length));\n\n}", "function getCharCount(str) {\n var charCount = 0;\n var whiteSpaceRegExp = /\\s/g;\n var whiteSpaceChar = /&nbsp;/g;\n if (str !== null || str !== undefined) {\n charCount = str.replace(whiteSpaceRegExp, '').replace(whiteSpaceChar, '').length;\n }\n return charCount;\n }", "function countCharacters(s) {\n return s.ranges.reduce((count, [from,to]) => {\n return count + (to - from);\n }, 0);\n}", "function getFirstWordLength( string ) {\n\t return string.match( /\\w+/ )[ 0 ].length\n\t }", "function count (name) {\n if (!typeof name === 'string') throw Error('invalid argument');\n var str = name.replace(/\\s|-/g, '');\n return str.length;\n }", "function fancyCount(str){\n return Array.from(str.split(/[\\ufe00-\\ufe0f]/).join(\"\")).length;\n}", "function getFirstWordLength( string ) { // 5726\n return string.match( /\\w+/ )[ 0 ].length // 5727\n } // 5728", "function WordCount(str) {\n\n\n return str.split(' ').length;\n\n}", "function countLetters(string) {\n var noSpaces = string.split(\" \").join(\"\");\n\n//console.log(noSpaces);\n var letterCounter = {};\n for (var i = 0; i < noSpaces.length; i++) {\n if (letterCounter[noSpaces[i]] === undefined) {\n letterCounter[noSpaces[i]] = 1;\n } else {\n letterCounter[noSpaces[i]] += 1;\n }\n }\n return letterCounter;\n\n}", "function wordCount(str) \n{ \n\treturn str.split(\" \").length;\n}", "function countWords(input){\n var str = input.split(\" \");\n console.log(str.length);\n }" ]
[ "0.74004203", "0.7092836", "0.7039084", "0.66203", "0.6613388", "0.6571844", "0.64921933", "0.6492072", "0.6451234", "0.6398698", "0.63981014", "0.635353", "0.63483375", "0.6343213", "0.6343213", "0.6343213", "0.63416266", "0.6267387", "0.6267387", "0.6267387", "0.6267387", "0.623047", "0.62270224", "0.6216328", "0.6216328", "0.6216328", "0.6216328", "0.6216328", "0.6216328", "0.62050617", "0.6201157", "0.6178381", "0.6152687", "0.61449915", "0.6132585", "0.6126082", "0.611479", "0.61066574", "0.61002326", "0.60995567", "0.6079865", "0.6055725", "0.6043633", "0.6037366", "0.6037366", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.60312814", "0.6015068", "0.60149574", "0.6010544", "0.6010544", "0.59980506", "0.5983958", "0.5980512", "0.5977793", "0.59724426", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59657204", "0.59618026", "0.5954025", "0.59519786", "0.59514964", "0.5939985", "0.59152615", "0.5906169", "0.59051013", "0.5899813", "0.58846766", "0.5875491", "0.5858201", "0.58569115", "0.5853865", "0.58527493", "0.5842992" ]
0.70255387
5
Given a JavaScript value and a GraphQL type, determine if the value will be accepted for that type. This is primarily useful for validating the runtime values of query variables.
function isValidJSValue(value, type) { // A value must be provided if the type is non-null. if (type instanceof _definition.GraphQLNonNull) { if ((0, _isNullish2.default)(value)) { return ['Expected "' + String(type) + '", found null.']; } return isValidJSValue(value, type.ofType); } if ((0, _isNullish2.default)(value)) { return []; } // Lists accept a non-list value as a list of one. if (type instanceof _definition.GraphQLList) { var itemType = type.ofType; if ((0, _iterall.isCollection)(value)) { var errors = []; (0, _iterall.forEach)(value, function (item, index) { errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) { return 'In element #' + index + ': ' + error; })); }); return errors; } return isValidJSValue(value, itemType); } // Input objects check each defined field. if (type instanceof _definition.GraphQLInputObjectType) { if ((typeof value === 'undefined' ? 'undefined' : _typeof(value)) !== 'object' || value === null) { return ['Expected "' + type.name + '", found not an object.']; } var fields = type.getFields(); var _errors = []; // Ensure every provided field is defined. Object.keys(value).forEach(function (providedField) { if (!fields[providedField]) { _errors.push('In field "' + providedField + '": Unknown field.'); } }); // Ensure every defined field is valid. Object.keys(fields).forEach(function (fieldName) { var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type); _errors.push.apply(_errors, newErrors.map(function (error) { return 'In field "' + fieldName + '": ' + error; })); }); return _errors; } !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0; // Scalar/Enum input checks to ensure the type can parse the value to // a non-null value. try { var parseResult = type.parseValue(value); if ((0, _isNullish2.default)(parseResult) && !type.isValidValue(value)) { return ['Expected type "' + type.name + '", found ' + JSON.stringify(value) + '.']; } } catch (error) { return ['Expected type "' + type.name + '", found ' + JSON.stringify(value) + ': ' + error.message]; } return []; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function isValidValue(type: GraphQLType, value: any): boolean {\n if (type instanceof GraphQLNonNull) {\n if (isNullish(value)) {\n return false;\n }\n return isValidValue(type.ofType, value);\n }\n\n if (isNullish(value)) {\n return true;\n }\n\n if (type instanceof GraphQLList) {\n var itemType = type.ofType;\n if (Array.isArray(value)) {\n return value.every(item => isValidValue(itemType, item));\n } else {\n return isValidValue(itemType, value);\n }\n }\n\n if (type instanceof GraphQLInputObjectType) {\n var fields = type.getFields();\n return Object.keys(fields).every(\n fieldName => isValidValue(fields[fieldName].type, value[fieldName])\n );\n }\n\n if (type instanceof GraphQLScalarType ||\n type instanceof GraphQLEnumType) {\n return !isNullish(type.coerce(value));\n }\n\n return false;\n}", "function canUseAsIs(valueType) {\n return valueType === \"string\" ||\n valueType === \"boolean\" ||\n valueType === \"number\" ||\n valueType === \"json\" ||\n valueType === \"math\" ||\n valueType === \"regexp\" ||\n valueType === \"error\";\n }", "function isValidJSValue(value, type) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if ((0, _isNullish2.default)(value)) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidJSValue(value, type.ofType);\n }\n\n if ((0, _isNullish2.default)(value)) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if ((0, _iterall.isCollection)(value)) {\n var errors = [];\n (0, _iterall.forEach)(value, function (item, index) {\n errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n });\n return errors;\n }\n return isValidJSValue(value, itemType);\n }\n\n // Input objects check each defined field.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (typeof value !== 'object' || value === null) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var _errors = [];\n\n // Ensure every provided field is defined.\n Object.keys(value).forEach(function (providedField) {\n if (!fields[providedField]) {\n _errors.push('In field \"' + providedField + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n Object.keys(fields).forEach(function (fieldName) {\n var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n _errors.push.apply(_errors, newErrors.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return _errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n try {\n var parseResult = type.parseValue(value);\n if ((0, _isNullish2.default)(parseResult) && !type.isValidValue(value)) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n }\n } catch (error) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + ': ' + error.message];\n }\n\n return [];\n}", "function isValidJSValue(value, type) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if ((0, _isNullish2.default)(value)) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidJSValue(value, type.ofType);\n\t }\n\n\t if ((0, _isNullish2.default)(value)) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(value)) {\n\t var _ret2 = function () {\n\t var errors = [];\n\t (0, _iterall.forEach)(value, function (item, index) {\n\t errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t });\n\t return {\n\t v: {\n\t v: errors\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: isValidJSValue(value, itemType)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (typeof value !== 'object' || value === null) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t Object.keys(value).forEach(function (providedField) {\n\t if (!fields[providedField]) {\n\t errors.push('In field \"' + providedField + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n\t errors.push.apply(errors, newErrors.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseValue(value);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n\t }\n\n\t return [];\n\t}", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "validateValue (value) {\n return TypeNumber.isNumber(value) && !isNaN(value)\n }", "function isValidLiteralValue(type, valueNode) {\n var emptySchema = new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"]({});\n var emptyDoc = {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT,\n definitions: []\n };\n var typeInfo = new _TypeInfo__WEBPACK_IMPORTED_MODULE_0__[\"TypeInfo\"](emptySchema, undefined, type);\n var context = new _validation_ValidationContext__WEBPACK_IMPORTED_MODULE_5__[\"ValidationContext\"](emptySchema, emptyDoc, typeInfo);\n var visitor = Object(_validation_rules_ValuesOfCorrectType__WEBPACK_IMPORTED_MODULE_4__[\"ValuesOfCorrectType\"])(context);\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visit\"])(valueNode, Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visitWithTypeInfo\"])(typeInfo, visitor));\n return context.getErrors();\n}", "function isType(value, type) {\n var str = {}.toString.call(value);\n return str.indexOf('[object') === 0 && str.indexOf(type + \"]\") > -1;\n}", "function _is_json_value(value) {\n\tif (value === undefined) return false;\n\tif (value === null) return true;\n\treturn ([Object, Array, String, Number, Boolean].indexOf(value.constructor) !== -1);\n}", "function typeValidation(variable, type) {\n // Your code should be here ;) \n return typeof(variable) === type;\n}", "function canBeValue() { }", "function isValidLiteralValue(type, valueAST) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidLiteralValue(type.ofType, valueAST);\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _kinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _kinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret2 = function () {\n\t if (valueAST.kind !== _kinds.OBJECT) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t fieldASTs.forEach(function (providedFieldAST) {\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t}", "function ValidateTypeValue(type, value)\n{\n\tif (type == \"Bool\")\n\t{\n\t\tif (value != \"true\" && value != \"false\")\n\t\t{\n\t\t\treturn \"default value must be either 'True' or 'False' for Bool\";\n\t\t}\n\t}\n\telse if (type == \"Int\" || type == \"Float\")\n\t{\n\t\tif (isNaN(value))\n\t\t{\n\t\t\treturn \"default value must be digit(s) for Int or Float\";\n\t\t}\n\t}\n\telse\n\t{\n\t\t// everything is fine as a string or custom type\n\t\treturn null;\n\t}\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === Kind.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === Kind.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === Kind.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== Kind.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === _kinds.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function checkValueType(value, valueStructure) {\n\tif(valueStructure && valueStructure.hasOwnProperty('valueType')) {\n\t\tvar result = false;\n\t\tswitch(valueStructure['valueType']) {\n\t\t case valueTypes[0]: // option\n\t\t if(valueStructure.hasOwnProperty('defaultValue') && valueStructure['defaultValue'].length > 0) {\n\t\t \tif(valueStructure['defaultValue'].indexOf(value) > -1) {\n\t\t \t\tresult = true\n\t\t \t} else {\n\t\t \t\tresult = false;\n\t\t \t\twriteLog(value + ' is not existed in default value.');\n\t\t \t}\n\t\t } else {\n\t\t \tresult = false;\n\t\t \twriteLog('Default value property is not existed.');\n\t\t }\n\n\t\t return result;\n\t\t break;\n\t\t case valueTypes[1]: // number\n\t\t return !isNaN(parseFloat(value)) && isFinite(value);\n\t\t break;\n\t\t default:\n\t\t if(value) {\n\t\t \treturn true;\n\t\t } else {\n\t\t \treturn false;\n\t\t }\n\t\t}\n\t} else {\n\t\twriteLog('valueType property is not existed.');\n\t\treturn false;\n\t}\n}", "function validate_type(value) {\n var patt = /^(?:(?:UPS)?|(?:Switch)?|(?:KVM)?|(?:Server)?|(?:Storage Server)?)$/;\n return patt.test(value);\n}", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function validateMimeValue(type, value) {\n // Check if \"application/json\" or \"application/foo+json\"\n var jsonTest = /^application\\/(.*?)+\\+json$/;\n var isJSONType = type === 'application/json' || jsonTest.test(type);\n var isString = function (x) {\n return Object.prototype.toString.call(x) === '[object String]';\n };\n // If it is an array, make sure if is not a JSON type and it is an\n // array of strings.\n if (Array.isArray(value)) {\n if (isJSONType) {\n return false;\n }\n var valid_1 = true;\n value.forEach(function (v) {\n if (!isString(v)) {\n valid_1 = false;\n }\n });\n return valid_1;\n }\n // If it is a string, make sure we are not a JSON type.\n if (isString(value)) {\n return !isJSONType;\n }\n // It is not a string, make sure it is a JSON type.\n if (!isJSONType) {\n return false;\n }\n // It is a JSON type, make sure it is a valid JSON object.\n return coreutils_1.JSONExt.isObject(value);\n }", "function is(value) {\n var candidate = value;\n return candidate && Is.string(candidate.name) && Is.number(candidate.kind) && Range.is(candidate.range) && Range.is(candidate.selectionRange) && (candidate.detail === void 0 || Is.string(candidate.detail)) && (candidate.deprecated === void 0 || Is[\"boolean\"](candidate.deprecated)) && (candidate.children === void 0 || Array.isArray(candidate.children));\n }", "function is(value) {\n var candidate = value;\n return candidate && Is.string(candidate.name) && Is.number(candidate.kind) && Range.is(candidate.range) && Range.is(candidate.selectionRange) && (candidate.detail === void 0 || Is.string(candidate.detail)) && (candidate.deprecated === void 0 || Is[\"boolean\"](candidate.deprecated)) && (candidate.children === void 0 || Array.isArray(candidate.children));\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function isValidLiteralValue(type, valueAST) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n return isValidLiteralValue(type.ofType, valueAST);\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var _ret = function () {\n var itemType = type.ofType;\n if (valueAST.kind === _kinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n }();\n\n if ((typeof _ret === 'undefined' ? 'undefined' : (0, _typeof3.default)(_ret)) === \"object\") return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueAST.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function _loop() {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, (0, _toConsumableArray3.default)(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = (0, _getIterator3.default)((0, _keys2.default)(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _isNullish2.default)(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n }\n\n return [];\n}", "function et2_checkType(_val, _type, _attr, _widget)\n{\n\tif (typeof _attr == \"undefined\")\n\t{\n\t\t_attr = null;\n\t}\n\n\tfunction _err() {\n\t\tvar res = et2_typeDefaults[_type];\n\n\t\tif(typeof _val != \"undefined\" && _val)\n\t\t{\n\t\t\tegw.debug(\"warn\", \"Widget %o: '\" + _val + \"' was not of specified _type '\" +\n\t\t\t\t_type + (_attr != null ? \"' for attribute '\" + _attr + \"' \" : \"\") +\n\t\t\t\t\"and is now '\" + res + \"'\",_widget);\n\t\t}\n\t\treturn res;\n\t}\n\n\t// If the type is \"any\" simply return the value again\n\tif (_type == \"any\")\n\t{\n\t\treturn _val;\n\t}\n\n\t// we dont check default-value any further, that also fixes type=\"js\" does NOT accept null,\n\t// which happens on expanded values\n\tif (_val === et2_typeDefaults[_type])\n\t{\n\t\treturn _val;\n\t}\n\n\t// If the type is boolean, check whether the given value is exactly true or\n\t// false. Otherwise check whether the value is the string \"true\" or \"false\".\n\tif (_type == \"boolean\")\n\t{\n\t\tif (_val === true || _val === false)\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\tif (typeof _val == \"string\")\n\t\t{\n\t\t\tvar lcv = _val.toLowerCase();\n\t\t\tif (lcv === \"true\" || lcv === \"false\" || lcv === \"\")\n\t\t\t{\n\t\t\t\treturn _val === \"true\";\n\t\t\t}\n\t\t\tif(lcv === \"0\" || lcv === \"1\")\n\t\t\t{\n\t\t\t\treturn _val === \"1\";\n\t\t\t}\n\t\t}\n\t\telse if (typeof _val == \"number\")\n\t\t{\n\t\t\treturn _val != 0;\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the given value is of the type \"string\"\n\tif (_type == \"string\" || _type == \"html\" || _type == \"rawstring\")\n\t{\n\t\tif (typeof _val == \"number\")\t// as php is a bit vague here, silently convert to a string\n\t\t{\n\t\t\treturn _val.toString();\n\t\t}\n\n\t\tif (typeof _val == \"string\")\n\t\t{\n\t\t\treturn _type == \"string\" ? html_entity_decode(_val) : _val;\n\t\t}\n\n\t\t// Handle some less common possibilities\n\t\t// Maybe a split on an empty string\n\t\tif(typeof _val == \"object\" && jQuery.isEmptyObject(_val)) return \"\";\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the value is already a number, otherwise try to convert it\n\t// to one.\n\tif (_type == \"float\")\n\t{\n\t\tif (typeof _val == \"number\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\tif (!isNaN(_val))\n\t\t{\n\t\t\treturn parseFloat(_val);\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the value is an integer by comparing the result of\n\t// parseInt(_val) to the value itself.\n\tif (_type == \"integer\")\n\t{\n\t\tif (parseInt(_val) == _val)\n\t\t{\n\t\t\treturn parseInt(_val);\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Parse the given dimension value\n\tif (_type == \"dimension\")\n\t{\n\t\t// Case 1: The value is \"auto\"\n\t\tif (_val == \"auto\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\t// Case 2: The value is simply a number, attach \"px\"\n\t\tif (!isNaN(_val))\n\t\t{\n\t\t\treturn parseFloat(_val) + \"px\";\n\t\t}\n\n\t\t// Case 3: The value is already a valid css pixel value or a percentage\n\t\tif (typeof _val == \"string\" &&\n\t\t ((_val.indexOf(\"px\") == _val.length - 2 && !isNaN(_val.split(\"px\")[0])) ||\n\t\t (_val.indexOf(\"%\") == _val.length - 1 && !isNaN(_val.split(\"%\")[0]))))\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Javascript\n\tif (_type == \"js\")\n\t{\n\t\tif (typeof _val == \"function\" || typeof _val == \"undefined\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\t\tif (_val) _val = _val.replace(/window\\.close\\(\\)/g, 'egw(window).close()');\n\n\t\t// Check to see if it's a string in app.appname.function format, and wrap it in\n\t\t// a closure to make sure context is preserved\n\t\tif(typeof _val == \"string\" && _val.substr(0,4) == \"app.\" && window.app)\n\t\t{\n\t\t\tvar parts = _val.split('.');\n\t\t\tvar func = parts.pop();\n\t\t\tvar parent = window;\n\t\t\tfor(var i=0; i < parts.length && typeof parent[parts[i]] != 'undefined'; ++i)\n\t\t\t{\n\t\t\t\tparent = parent[parts[i]];\n\t\t\t}\n\t\t\tif (typeof parent[func] == 'function')\n\t\t\t{\n\t\t\t\ttry\n\t\t\t\t{\n\t\t\t\t\treturn jQuery.proxy(parent[func],parent);\n\t\t\t\t}\n\t\t\t\tcatch (e)\n\t\t\t\t{\n\t\t\t\t\treq.egw.debug('error', 'Function', _val);\n\t\t\t\t\treturn _err();\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\t\tif (!_val || typeof _val == \"string\")\n\t\t{\n\t\t\treturn _val;\t// get compiled later in widgets own initAttributes, as widget is not yet initialised\n\t\t}\n\t}\n\n\t// We should never come here\n\tthrow(\"Invalid type identifier '\" + _attr + \"': '\" + _type+\"'\");\n}", "async checkType(value) {\n\t\t\t//C check against each datatype\n\t\t\tfor (let i = 0; i < this.dataTypes.length; i++) {\n\t\t\t\tif (\n\t\t\t\t\t// Quick hack for replacing isType which checks against custom types like 'array' and 'integer'\n\t\t\t\t\ttypeof value === this.dataTypes[i] ||\n\t\t\t\t\t(this.dataTypes[i] === 'array' && Array.isArray(value)) ||\n\t\t\t\t\t(this.dataTypes[i] === 'integer' && Number.isInteger(value))\n\t\t\t\t) {\n\t\t\t\t\treturn new Success({\n\t\t\t\t\t\torigin: `${this.origin}.checkType()`,\n\t\t\t\t\t\tmessage: 'validated data type',\n\t\t\t\t\t\tcontent: value,\n\t\t\t\t\t});\n\t\t\t\t}\n\n\t\t\t\t//C parse strings for numbers\n\t\t\t\tif (typeof value === 'string') {\n\t\t\t\t\tlet parsed = Number.parseFloat(value);\n\t\t\t\t\tif (this.dataTypes[i] === 'number' && !Number.isNaN(parsed) \n\t\t\t\t\t|| this.dataTypes[i] === 'integer' && Number.isInteger(parsed)) {\n\t\t\t\t\t\treturn new Success({\n\t\t\t\t\t\t\torigin: `${this.origin}.checkType()`,\n\t\t\t\t\t\t\tmessage: 'validated data type',\n\t\t\t\t\t\t\tcontent: parsed,\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\n\t\t\t\t\t//TODO parse strings for boolean & symbols & other?\n\t\t\t\t}\n\t\t\t}\n\n\t\t\t//C throw if no matches\n\t\t\tthrow new Err({\n\t\t\t\tlog: true,\n\t\t\t\torigin: `${this.origin}.checkType()`,\n\t\t\t\tmessage: `${this.valueName} must be a ${this.dataTypes.join(' or ')}`,\n\t\t\t\tcontent: value,\n\t\t\t});\n\t\t}", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\r\n }", "function isFilterCriterion(value) {\n let type = typeof value;\n return type === \"string\" ||\n type === \"boolean\" ||\n type === \"function\" ||\n value instanceof RegExp;\n}", "function isValidJSON( value ){\n\t if( value === null ){\n\t return true;\n\t }\n\t\n\t switch( typeof value ){\n\t case 'number' :\n\t case 'string' :\n\t case 'boolean' :\n\t return true;\n\t\n\t case 'object':\n\t var proto = Object.getPrototypeOf( value );\n\t\n\t if( proto === Object.prototype || proto === Array.prototype ){\n\t return _.every( value, isValidJSON );\n\t }\n\t }\n\t\n\t return false;\n\t}", "function is(value) {\n var candidate = value;\n return candidate && Is.string(candidate.name) && Is.number(candidate.kind) && Range.is(candidate.range) && Range.is(candidate.selectionRange) && (candidate.detail === undefined || Is.string(candidate.detail)) && (candidate.deprecated === undefined || Is[\"boolean\"](candidate.deprecated)) && (candidate.children === undefined || Array.isArray(candidate.children)) && (candidate.tags === undefined || Array.isArray(candidate.tags));\n }", "function isValidJSValue(value, type) {\n var errors = (0, _coerceValue.coerceValue)(value, type).errors;\n return errors ? errors.map(function (error) {\n return error.message;\n }) : [];\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function isValidJSValue(value, type) {\n var errors = Object(_coerceValue__WEBPACK_IMPORTED_MODULE_0__[\"coerceValue\"])(value, type).errors;\n return errors ? errors.map(function (error) {\n return error.message;\n }) : [];\n}", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.integer(candidate.version) && Is.string(candidate.text);\n }", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return candidate &&\r\n Is.string(candidate.name) && Is.number(candidate.kind) &&\r\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\r\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\r\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\r\n (candidate.children === void 0 || Array.isArray(candidate.children));\r\n }", "function is(value) {\n var candidate = value;\n return candidate &&\n Is.string(candidate.name) && Is.number(candidate.kind) &&\n Range.is(candidate.range) && Range.is(candidate.selectionRange) &&\n (candidate.detail === void 0 || Is.string(candidate.detail)) &&\n (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) &&\n (candidate.children === void 0 || Array.isArray(candidate.children)) &&\n (candidate.tags === void 0 || Array.isArray(candidate.tags));\n }", "function assertType(value, type) {\n var valid = void 0;\n var expectedType = void 0;\n if (type === String) {\n expectedType = 'string';\n valid = typeof value === expectedType;\n } else if (type === Number) {\n expectedType = 'number';\n valid = typeof value === expectedType;\n } else if (type === Boolean) {\n expectedType = 'boolean';\n valid = typeof value === expectedType;\n } else if (type === Function) {\n expectedType = 'function';\n valid = typeof value === expectedType;\n } else if (type === Object) {\n expectedType = 'Object';\n valid = isPlainObject(value);\n } else if (type === Array) {\n expectedType = 'Array';\n valid = Array.isArray(value);\n } else {\n expectedType = type.name || type.toString();\n valid = value instanceof type;\n }\n return {\n valid: valid,\n expectedType: expectedType\n };\n}", "function is(value) {\n var candidate = value;\n return Is.number(candidate.startLine) && Is.number(candidate.startLine) && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter)) && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter)) && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\n }", "function is(value) {\n var candidate = value;\n return Is.number(candidate.startLine) && Is.number(candidate.startLine) && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter)) && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter)) && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\n }", "function is(value) {\n var candidate = value;\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) || MarkedString.is(candidate.contents) || Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\n }", "function is(value) {\n var candidate = value;\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) || MarkedString.is(candidate.contents) || Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\n }", "function validateValue(validationType, value) {\n\t\t\t\tif (validationType == 'alpha_numeric') {\n\t\t\t\t\t/*\n\t\t\t\t\tvar Exp = /^[0-9a-zA-Z\\s]+$/;\n\t\t\t\t\treturn value.match(Exp);\n\t\t\t\t\t*/\n\t\t\t\t\treturn value;\n\t\t\t\t} else if (validationType == 'email') {\n\t\t\t\t\tvar re = /^(([^<>()[\\]\\\\.,;:\\s@\\\"]+(\\.[^<>()[\\]\\\\.,;:\\s@\\\"]+)*)|(\\\".+\\\"))@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\])|(([a-zA-Z\\-0-9]+\\.)+[a-zA-Z]{2,}))$/;\n\t\t\t\t\treturn re.test(value);\n\t\t\t\t} else if (validationType == 'numeric') {\n\t\t\t\t\treturn !isNaN(value)\n\t\t\t\t}\n\t\t\t}", "function is(value) {\n var candidate = value;\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\n MarkedString.is(candidate.contents) ||\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\n }", "function assertType(value, type) {\n\t\t var valid = void 0;\n\t\t var expectedType = void 0;\n\t\t if (type === String) {\n\t\t expectedType = 'string';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Number) {\n\t\t expectedType = 'number';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Boolean) {\n\t\t expectedType = 'boolean';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Function) {\n\t\t expectedType = 'function';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Object) {\n\t\t expectedType = 'Object';\n\t\t valid = isPlainObject(value);\n\t\t } else if (type === Array) {\n\t\t expectedType = 'Array';\n\t\t valid = Array.isArray(value);\n\t\t } else {\n\t\t expectedType = type.name || type.toString();\n\t\t valid = value instanceof type;\n\t\t }\n\t\t return {\n\t\t valid: valid,\n\t\t expectedType: expectedType\n\t\t };\n\t\t}", "function check(name, value, type) {\n switch (type) {\n\n case 'object':\n case 'array':\n var stringOfValue = Object.prototype.toString.call(value).toLowerCase();\n if(value !== undefined && stringOfValue !== '[object ' + type + ']') {\n throw new Error('Expecting ' + name + ' to be an ' + type + ', \"' + (stringOfValue) + '\" given');\n }\n break;\n\n case 'string':\n case 'function':\n var typeofValue = typeof value;\n if(value !== undefined && typeOfValue !== type) {\n throw new Error('Expecting ' + name + ' to be a ' + type + ', \"' + (typeOfValue) + '\" given');\n }\n break;\n\n default: // type not specified\n if(value === undefined) {\n throw new Error('Missing \"' + type + '\"');\n }\n }\n}", "function is(value) {\n var candidate = value;\n return Is.number(candidate.startLine) && Is.number(candidate.startLine)\n && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter))\n && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter))\n && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\n }", "function is(value) {\n var candidate = value;\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) || MarkedString.is(candidate.contents) || Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === undefined || Range.is(value.range));\n }", "function checkType(value, response_type) {\n\tconsole.log(\"request processor, inside checkType value : \", value, \" typeof value :\", typeof value )\n\n\tif (response_type == ResponseTypes.Bool) {\n\n\t\t\tconsole.log(\"boolean\")\n\t\t\treturn value;\n\t}\n\telse if (response_type == ResponseTypes.Int) {\n\t\tif (typeof value === 'number' &&\n\t\t\tvalue >= -2147483648 && value <= 2147483647) {\n\t\t\tvalue = Number.parseInt(value);\n\t\t\tconsole.log(\"int-------------\", value)\n\t\t\treturn value;\n\n\t\t}\n\t}\n\telse if (response_type == ResponseTypes.Double) {\n\t\tif (typeof value === 'number') {\n\t\t\tconsole.log(\"value is parsed to float--------\")\n\t\t\tvalue = Number.parseFloat(value);\n\t\t\treturn value;\n\t\t}\n\t}\n\telse if (response_type == ResponseTypes.String) {\n\t\tif (typeof value === 'string'&& value.length <= 127 || typeof value === 'number' ) {\n\t\t\tconsole.log(\"string\")\n\t\t\treturn value;\n\t\t}\n\t}\n\telse return null;\n\n}", "function typecheck(type, value) {\n var errors = type.validate(value, [{ path: \"\", type: type }])\n if (errors.length > 0) {\n fail(\n \"Error while converting \" +\n prettyPrintValue(value) +\n \" to `\" +\n type.name +\n \"`:\\n\" +\n errors.map(toErrorString).join(\"\\n\")\n )\n }\n}", "function looks_like_data_value(v) {\n if (vF.typeOf(v) === 'number') {\n return true;\n } else if (vF.typeOf(v) === 'string') {\n // !isNaN is the recommended way to test whether a string represents a valid number\n // http://stackoverflow.com/questions/175739/is-there-a-built-in-way-in-javascript-to-check-if-a-string-is-a-valid-number\n if (!isNaN(v)) { \n return true;\n } else {\n // if the string isn't a valid number, try to parse it as a DatetimeValue\n try { DatetimeValue.parse(v); }\n catch (e) { return false; }\n return true;\n }\n } else {\n return false;\n }\n }", "function looks_like_data_value(v) {\n if (vF.typeOf(v) === 'number') {\n return true;\n } else if (vF.typeOf(v) === 'string') {\n // !isNaN is the recommended way to test whether a string represents a valid number\n // http://stackoverflow.com/questions/175739/is-there-a-built-in-way-in-javascript-to-check-if-a-string-is-a-valid-number\n if (!isNaN(v)) { \n return true;\n } else {\n // if the string isn't a valid number, try to parse it as a DatetimeValue\n try { DatetimeValue.parse(v); }\n catch (e) { return false; }\n return true;\n }\n } else {\n return false;\n }\n }", "function assertType (value, type) {\n\t var valid\n\t var expectedType = getType(type)\n\t if (expectedType === 'String') {\n\t valid = typeof value === (expectedType = 'string')\n\t } else if (expectedType === 'Number') {\n\t valid = typeof value === (expectedType = 'number')\n\t } else if (expectedType === 'Boolean') {\n\t valid = typeof value === (expectedType = 'boolean')\n\t } else if (expectedType === 'Function') {\n\t valid = typeof value === (expectedType = 'function')\n\t } else if (expectedType === 'Object') {\n\t valid = isPlainObject(value)\n\t } else if (expectedType === 'Array') {\n\t valid = Array.isArray(value)\n\t } else {\n\t valid = value instanceof type\n\t }\n\t return {\n\t valid: valid,\n\t expectedType: expectedType\n\t }\n\t}", "function primitive (value) {\n\t var type = typeof value;\n\t return type === 'number' ||\n\t type === 'boolean' ||\n\t type === 'string' ||\n\t type === 'symbol'\n\t}", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.number(candidate.version) && Is.string(candidate.text);\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.number(candidate.version) && Is.string(candidate.text);\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));\r\n }", "query(field, value) {\n const type = typeof field;\n if (type !== \"undefined\" && value !== \"undefined\") {\n if (type == \"string\") {\n if (value === \"\") {\n return field === value;\n }\n return field.toLowerCase().includes(value.toLowerCase());\n }\n\n if (type == \"number\") {\n return field === value;\n }\n if (type == \"boolean\") {\n //If value is passed as yes/no\n if (typeof value === \"string\" && value.toLowerCase() === \"yes\") {\n value = true;\n } else if (typeof value === \"string\" && value.toLowerCase() === \"no\") {\n value = false;\n }\n return field === JSON.parse(value);\n }\n if (type == \"object\") {\n return (Object.values(field).findIndex((item) => { return item.toLowerCase() === value.toLowerCase() }) >= 0);\n }\n }\n return false;\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.number(candidate.startLine) && Is.number(candidate.startLine)\r\n && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter))\r\n && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter))\r\n && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.number(candidate.startLine) && Is.number(candidate.startLine)\r\n && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter))\r\n && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter))\r\n && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.number(candidate.startLine) && Is.number(candidate.startLine)\r\n && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter))\r\n && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter))\r\n && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.number(candidate.startLine) && Is.number(candidate.startLine)\r\n && (Is.undefined(candidate.startCharacter) || Is.number(candidate.startCharacter))\r\n && (Is.undefined(candidate.endCharacter) || Is.number(candidate.endCharacter))\r\n && (Is.undefined(candidate.kind) || Is.string(candidate.kind));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function validateValue(type, value) {\n if (value.length < 3) return false;\n switch (type) {\n case \"hex\":\n var hexRE = /([#]?)([0-9a-f]{3})([0-9a-f]{3})?/i;\n var match = hexRE.exec(value);\n // [\"#FFF153\", \"#\", \"FFF\", \"153\", index: 0, input: \"#FFF153\"]\n if (match && match.input.length == match[0].length) {\n var validated = match[0];\n // check if there's a #\n if (match[1] === \"\") validated = \"#\" + validated;\n return validated.toUpperCase();\n }\n break;\n\n case \"rgb\":\n var rgbRE = /(rgb[a]?\\(?)?(\\d{1,3}),\\s?(\\d{1,3}),\\s?(\\d{1,3})(,?\\s?([0-1]\\.?[0-9]?))?\\)?/i;\n var match = rgbRE.exec(value);\n //[\"rgba(255, 1, 55, 0.7)\", \"rgba(\", \"255\", \"1\", \"55\", \", 0.7\", \"0.7\", index: 0, input: \"rgba(255, 1, 55, 0.7)\"]\n if (match && match.input.length == match[0].length &&\n match[2] && match[3] && match[4]) {\n var start = match[1] ? match[1] : \"rgb(\", end = \")\", r = match[2], g = match[3], b = match[4], a = 1;\n // does it have alpha?\n if (match[6] || start == \"rgba(\") {\n var aValue = !match[6] ? a : parseFloat(match[6]);\n if (aValue <= 1) {\n a = aValue;\n start = \"rgba(\";\n end = \", \" + a + \")\";\n } else {\n return false;\n }\n }\n // less tan 255\n if (parseInt(r) <= 255 && parseInt(g) <= 255 && parseInt(b) <= 255) {\n return start + r + \", \" + g + \", \" + b + end;\n }\n }\n break;\n\n case \"hsl\":\n case \"hwb\":\n var re = /(hsl[a]?\\(?|hwb\\(?)?(\\d{1,3}),\\s?(\\d{1,3}%),\\s?(\\d{1,3}%)(,?\\s?([0-1]\\.?[0-9]?))?\\)?/i;\n var match = re.exec(value);\n // [\"hsla(0, 0%, 100%, 1)\", \"hsla(\", \"0\", \"0%\", \"100%\", \", 1\", \"1\", index: 0, input: \"hsla(0, 0%, 100%, 1)\"]\n // or\n //[\"hwb(0, 100%, 0%, 1)\", \"hwb(\", \"0\", \"100%\", \"0%\", \",1\", \"1\", index: 0, input: \"hwb(0, 100%, 0%, 1)\"]\n if (match && match.input.length == match[0].length\n && match[2] && match[3] && match[4]) {\n var start = match[1] ? match[1] : type + \"(\", end = \")\", p1 = match[2], p2 = match[3], p3 = match[4], a = 1;\n // does it have alpha?\n if (match[6] || start == \"hsla(\") {\n var aValue = !match[6] ? a : parseFloat(match[6]);\n if (aValue <= 1) {\n a = aValue;\n // hsla or hwb\n start = (type == \"hsl\" ? \"hsla(\" : type + \"(\");\n end = \", \" + aValue + \")\";\n } else {\n return false;\n }\n }\n // less tan 255\n if (parseInt(p1) <= 360 && parseInt(p2) <= 100 && parseInt(p3) <= 100) {\n return start + p1 + \", \" + p2 + \", \" + p3 + end;\n }\n }\n break;\n\n default:\n // for css strings\n return value;\n break;\n }\n return false;\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) ||\r\n MarkedString.is(candidate.contents) ||\r\n Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));\r\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.number(candidate.version) && Is.string(candidate.text);\n }", "function is(value) {\n var candidate = value;\n return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.command) || Command.is(candidate.command));\n }" ]
[ "0.70804834", "0.6853694", "0.678221", "0.6651158", "0.6446671", "0.6446671", "0.6446671", "0.63790476", "0.6345396", "0.6345396", "0.6345396", "0.6345396", "0.6281204", "0.6281204", "0.62769157", "0.6257103", "0.6255925", "0.62558407", "0.61459804", "0.6100574", "0.6098811", "0.6082077", "0.60567653", "0.60567653", "0.6055362", "0.5998803", "0.59815496", "0.5979688", "0.59612906", "0.59612906", "0.59612906", "0.59331346", "0.59183997", "0.59183997", "0.5912783", "0.5912783", "0.5912783", "0.5912783", "0.588707", "0.5884262", "0.5878449", "0.58741164", "0.58741164", "0.58139145", "0.58114845", "0.57945997", "0.5780057", "0.57668144", "0.57668144", "0.5743382", "0.5743382", "0.5743382", "0.5743382", "0.5739489", "0.5734835", "0.5728008", "0.5728008", "0.5724062", "0.57208925", "0.57098866", "0.57098866", "0.57026577", "0.57026577", "0.5702296", "0.5701211", "0.57012", "0.5694817", "0.5694817", "0.5694817", "0.5691587", "0.568961", "0.56743926", "0.56742436", "0.56708205", "0.5668404", "0.5668391", "0.5668391", "0.5661527", "0.56573385", "0.56541294", "0.56541294", "0.5649942", "0.5649942", "0.5649942", "0.5649942", "0.5648215", "0.5644421", "0.5644421", "0.5644421", "0.5644421", "0.5644128", "0.5644128", "0.5644128", "0.5644128", "0.56321573", "0.5625845", "0.5625845", "0.56199867", "0.56132287" ]
0.67015237
4
Utility for validators which determines if a value literal node is valid given an input type. Note that this only validates literal values, variables are assumed to provide values of the correct type.
function isValidLiteralValue(type, valueNode) { // A value must be provided if the type is non-null. if (type instanceof _definition.GraphQLNonNull) { if (!valueNode || valueNode.kind === Kind.NULL) { return ['Expected "' + String(type) + '", found null.']; } return isValidLiteralValue(type.ofType, valueNode); } if (!valueNode || valueNode.kind === Kind.NULL) { return []; } // This function only tests literals, and assumes variables will provide // values of the correct type. if (valueNode.kind === Kind.VARIABLE) { return []; } // Lists accept a non-list value as a list of one. if (type instanceof _definition.GraphQLList) { var itemType = type.ofType; if (valueNode.kind === Kind.LIST) { return valueNode.values.reduce(function (acc, item, index) { var errors = isValidLiteralValue(itemType, item); return acc.concat(errors.map(function (error) { return 'In element #' + index + ': ' + error; })); }, []); } return isValidLiteralValue(itemType, valueNode); } // Input objects check each defined field and look for undefined fields. if (type instanceof _definition.GraphQLInputObjectType) { if (valueNode.kind !== Kind.OBJECT) { return ['Expected "' + type.name + '", found not an object.']; } var fields = type.getFields(); var errors = []; // Ensure every provided field is defined. var fieldNodes = valueNode.fields; fieldNodes.forEach(function (providedFieldNode) { if (!fields[providedFieldNode.name.value]) { errors.push('In field "' + providedFieldNode.name.value + '": Unknown field.'); } }); // Ensure every defined field is valid. var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) { return fieldNode.name.value; }); Object.keys(fields).forEach(function (fieldName) { var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value); errors.push.apply(errors, result.map(function (error) { return 'In field "' + fieldName + '": ' + error; })); }); return errors; } !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0; // Scalars determine if a literal values is valid. if (!type.isValidLiteral(valueNode)) { return ['Expected type "' + type.name + '", found ' + (0, _printer.print)(valueNode) + '.']; } return []; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function isValidLiteralValue(type, valueNode) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidLiteralValue(type.ofType, valueNode);\n }\n\n if (!valueNode || valueNode.kind === _kinds.NULL) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueNode.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if (valueNode.kind === _kinds.LIST) {\n return valueNode.values.reduce(function (acc, item, index) {\n var errors = isValidLiteralValue(itemType, item);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, []);\n }\n return isValidLiteralValue(itemType, valueNode);\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueNode.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldNodes = valueNode.fields;\n fieldNodes.forEach(function (providedFieldNode) {\n if (!fields[providedFieldNode.name.value]) {\n errors.push('In field \"' + providedFieldNode.name.value + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n var fieldNodeMap = (0, _keyMap2.default)(fieldNodes, function (fieldNode) {\n return fieldNode.name.value;\n });\n Object.keys(fields).forEach(function (fieldName) {\n var result = isValidLiteralValue(fields[fieldName].type, fieldNodeMap[fieldName] && fieldNodeMap[fieldName].value);\n errors.push.apply(errors, result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalars determine if a literal values is valid.\n if (!type.isValidLiteral(valueNode)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueNode) + '.'];\n }\n\n return [];\n}", "function isValidLiteralValue(type, valueNode) {\n var emptySchema = new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"]({});\n var emptyDoc = {\n kind: _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT,\n definitions: []\n };\n var typeInfo = new _TypeInfo__WEBPACK_IMPORTED_MODULE_0__[\"TypeInfo\"](emptySchema, undefined, type);\n var context = new _validation_ValidationContext__WEBPACK_IMPORTED_MODULE_5__[\"ValidationContext\"](emptySchema, emptyDoc, typeInfo);\n var visitor = Object(_validation_rules_ValuesOfCorrectType__WEBPACK_IMPORTED_MODULE_4__[\"ValuesOfCorrectType\"])(context);\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visit\"])(valueNode, Object(_language_visitor__WEBPACK_IMPORTED_MODULE_2__[\"visitWithTypeInfo\"])(typeInfo, visitor));\n return context.getErrors();\n}", "function isValidLiteralValue(type, valueAST) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidLiteralValue(type.ofType, valueAST);\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _kinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _kinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret2 = function () {\n\t if (valueAST.kind !== _kinds.OBJECT) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t fieldASTs.forEach(function (providedFieldAST) {\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t}", "function isValidLiteralValue(type, valueAST) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n return isValidLiteralValue(type.ofType, valueAST);\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _kinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var _ret = function () {\n var itemType = type.ofType;\n if (valueAST.kind === _kinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n }();\n\n if ((typeof _ret === 'undefined' ? 'undefined' : (0, _typeof3.default)(_ret)) === \"object\") return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (valueAST.kind !== _kinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _keyMap2.default)(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function _loop() {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, (0, _toConsumableArray3.default)(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = (0, _getIterator3.default)((0, _keys2.default)(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _isNullish2.default)(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _printer.print)(valueAST) + '.'];\n }\n\n return [];\n}", "function validateNode(node) {\n return [\n node.type === \"Literal\" && typeof node.value === \"string\"\n ];\n}", "function isValidLiteralValue(_x, _x2) {\n var _again = true;\n\n _function: while (_again) {\n var type = _x,\n valueAST = _x2;\n _ret = fields = errors = fieldASTs = _iteratorNormalCompletion = _didIteratorError = _iteratorError = fieldASTMap = _iteratorNormalCompletion2 = _didIteratorError2 = _iteratorError2 = parseResult = undefined;\n _again = false;\n\n // A value must be provided if the type is non-null.\n if (type instanceof _typeDefinition.GraphQLNonNull) {\n if (!valueAST) {\n if (type.ofType.name) {\n return ['Expected \"' + type.ofType.name + '!\", found null.'];\n }\n return ['Expected non-null value, found null.'];\n }\n _x = type.ofType;\n _x2 = valueAST;\n _again = true;\n continue _function;\n }\n\n if (!valueAST) {\n return [];\n }\n\n // This function only tests literals, and assumes variables will provide\n // values of the correct type.\n if (valueAST.kind === _languageKinds.VARIABLE) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _typeDefinition.GraphQLList) {\n var _ret = (function () {\n var itemType = type.ofType;\n if (valueAST.kind === _languageKinds.LIST) {\n return {\n v: valueAST.values.reduce(function (acc, itemAST, index) {\n var errors = isValidLiteralValue(itemType, itemAST);\n return acc.concat(errors.map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n }, [])\n };\n }\n return {\n v: isValidLiteralValue(itemType, valueAST)\n };\n })();\n\n if (typeof _ret === 'object') return _ret.v;\n }\n\n // Input objects check each defined field and look for undefined fields.\n if (type instanceof _typeDefinition.GraphQLInputObjectType) {\n if (valueAST.kind !== _languageKinds.OBJECT) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var errors = [];\n\n // Ensure every provided field is defined.\n var fieldASTs = valueAST.fields;\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = _getIterator(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var providedFieldAST = _step.value;\n\n if (!fields[providedFieldAST.name.value]) {\n errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n }\n }\n\n // Ensure every defined field is valid.\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator['return']) {\n _iterator['return']();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var fieldASTMap = (0, _jsutilsKeyMap2['default'])(fieldASTs, function (fieldAST) {\n return fieldAST.name.value;\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop = function () {\n var fieldName = _step2.value;\n\n var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n errors.push.apply(errors, _toConsumableArray(result.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n })));\n };\n\n for (var _iterator2 = _getIterator(_Object$keys(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2['return']) {\n _iterator2['return']();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n return errors;\n }\n\n (0, _jsutilsInvariant2['default'])(type instanceof _typeDefinition.GraphQLScalarType || type instanceof _typeDefinition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n var parseResult = type.parseLiteral(valueAST);\n if ((0, _jsutilsIsNullish2['default'])(parseResult)) {\n return ['Expected type \"' + type.name + '\", found ' + (0, _languagePrinter.print)(valueAST) + '.'];\n }\n\n return [];\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = (0, _definition.getNamedType)(locationType);\n\n if (!(0, _definition.isLeafType)(type)) {\n var typeStr = (0, _inspect.default)(locationType);\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = (0, _inspect.default)(locationType);\n\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = (0, _inspect.default)(locationType);\n\n if (error instanceof _GraphQLError.GraphQLError) {\n context.reportError(error);\n } else {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat((0, _printer.print)(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = (0, _definition.getNamedType)(locationType);\n\n if (!(0, _definition.isLeafType)(type)) {\n var typeStr = (0, _inspect.default)(locationType);\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = (0, _inspect.default)(locationType);\n\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat((0, _printer.print)(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = (0, _inspect.default)(locationType);\n\n if (error instanceof _GraphQLError.GraphQLError) {\n context.reportError(error);\n } else {\n context.reportError(new _GraphQLError.GraphQLError(\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat((0, _printer.print)(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidLiteralValue(_x, _x2) {\n\t var _again = true;\n\n\t _function: while (_again) {\n\t var type = _x,\n\t valueAST = _x2;\n\t _ret = fields = errors = fieldASTs = _iteratorNormalCompletion = _didIteratorError = _iteratorError = fieldASTMap = _iteratorNormalCompletion2 = _didIteratorError2 = _iteratorError2 = parseResult = undefined;\n\t _again = false;\n\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _typeDefinition.GraphQLNonNull) {\n\t if (!valueAST) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + type.ofType.name + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t _x = type.ofType;\n\t _x2 = valueAST;\n\t _again = true;\n\t continue _function;\n\t }\n\n\t if (!valueAST) {\n\t return [];\n\t }\n\n\t // This function only tests literals, and assumes variables will provide\n\t // values of the correct type.\n\t if (valueAST.kind === _languageKinds.VARIABLE) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _typeDefinition.GraphQLList) {\n\t var _ret = (function () {\n\t var itemType = type.ofType;\n\t if (valueAST.kind === _languageKinds.LIST) {\n\t return {\n\t v: valueAST.values.reduce(function (acc, itemAST, index) {\n\t var errors = isValidLiteralValue(itemType, itemAST);\n\t return acc.concat(errors.map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t }, [])\n\t };\n\t }\n\t return {\n\t v: isValidLiteralValue(itemType, valueAST)\n\t };\n\t })();\n\n\t if (typeof _ret === 'object') return _ret.v;\n\t }\n\n\t // Input objects check each defined field and look for undefined fields.\n\t if (type instanceof _typeDefinition.GraphQLInputObjectType) {\n\t if (valueAST.kind !== _languageKinds.OBJECT) {\n\t return ['Expected \"' + type.name + '\", found not an object.'];\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t var fieldASTs = valueAST.fields;\n\t var _iteratorNormalCompletion = true;\n\t var _didIteratorError = false;\n\t var _iteratorError = undefined;\n\n\t try {\n\t for (var _iterator = _getIterator(fieldASTs), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n\t var providedFieldAST = _step.value;\n\n\t if (!fields[providedFieldAST.name.value]) {\n\t errors.push('In field \"' + providedFieldAST.name.value + '\": Unknown field.');\n\t }\n\t }\n\n\t // Ensure every defined field is valid.\n\t } catch (err) {\n\t _didIteratorError = true;\n\t _iteratorError = err;\n\t } finally {\n\t try {\n\t if (!_iteratorNormalCompletion && _iterator['return']) {\n\t _iterator['return']();\n\t }\n\t } finally {\n\t if (_didIteratorError) {\n\t throw _iteratorError;\n\t }\n\t }\n\t }\n\n\t var fieldASTMap = (0, _jsutilsKeyMap2['default'])(fieldASTs, function (fieldAST) {\n\t return fieldAST.name.value;\n\t });\n\t var _iteratorNormalCompletion2 = true;\n\t var _didIteratorError2 = false;\n\t var _iteratorError2 = undefined;\n\n\t try {\n\t var _loop = function () {\n\t var fieldName = _step2.value;\n\n\t var result = isValidLiteralValue(fields[fieldName].type, fieldASTMap[fieldName] && fieldASTMap[fieldName].value);\n\t errors.push.apply(errors, _toConsumableArray(result.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t })));\n\t };\n\n\t for (var _iterator2 = _getIterator(_Object$keys(fields)), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n\t _loop();\n\t }\n\t } catch (err) {\n\t _didIteratorError2 = true;\n\t _iteratorError2 = err;\n\t } finally {\n\t try {\n\t if (!_iteratorNormalCompletion2 && _iterator2['return']) {\n\t _iterator2['return']();\n\t }\n\t } finally {\n\t if (_didIteratorError2) {\n\t throw _iteratorError2;\n\t }\n\t }\n\t }\n\n\t return errors;\n\t }\n\n\t (0, _jsutilsInvariant2['default'])(type instanceof _typeDefinition.GraphQLScalarType || type instanceof _typeDefinition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseLiteral(valueAST);\n\t if ((0, _jsutilsIsNullish2['default'])(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + (0, _languagePrinter.print)(valueAST) + '.'];\n\t }\n\n\t return [];\n\t }\n\t}", "function ValidateTypeValue(type, value)\n{\n\tif (type == \"Bool\")\n\t{\n\t\tif (value != \"true\" && value != \"false\")\n\t\t{\n\t\t\treturn \"default value must be either 'True' or 'False' for Bool\";\n\t\t}\n\t}\n\telse if (type == \"Int\" || type == \"Float\")\n\t{\n\t\tif (isNaN(value))\n\t\t{\n\t\t\treturn \"default value must be digit(s) for Int or Float\";\n\t\t}\n\t}\n\telse\n\t{\n\t\t// everything is fine as a string or custom type\n\t\treturn null;\n\t}\n}", "_isLiteral(tokenType) {\n return tokenType === 'NUMBER' ||\n tokenType === 'STRING' ||\n tokenType === 'true' ||\n tokenType === 'false' ||\n tokenType === 'null';\n }", "function staticallyVerifyType(node, types) {\n if (isNodeNully(node)) {\n return types.indexOf(\"null\") > -1 || types.indexOf(\"undefined\") > -1 ? TYPE_VALID : TYPE_INVALID;\n } else if (node.type === \"Literal\") {\n if (node.regex) {\n return types.indexOf(\"object\") > -1 || types.some(identifierMatcher(\"RegExp\")) ? TYPE_VALID : TYPE_INVALID;\n } else {\n return types.indexOf(typeof node.value) > -1 ? TYPE_VALID : TYPE_INVALID;\n }\n } else if (node.type === \"ObjectExpression\") {\n return types.indexOf(\"object\") > -1 || types.indexOf(\"shape\") > -1 ? TYPE_VALID : TYPE_INVALID;\n } else if (node.type === \"ArrayExpression\") {\n return types.indexOf(\"array\") > -1 || types.indexOf(\"object\") > -1 ? TYPE_VALID : TYPE_INVALID;\n } else if (t.isFunction(node)) {\n return types.indexOf(\"function\") > -1 || types.indexOf(\"object\") > -1 ? TYPE_VALID : TYPE_INVALID;\n } else if (node.type === 'NewExpression' && node.callee.type === 'Identifier') {\n // this is of the form `return new SomeClass()`\n // @fixme it should be possible to do this with non computed member expressions too\n return types.indexOf(\"object\") > -1 || types.some(identifierMatcher(node.callee.name)) ? TYPE_VALID : TYPE_UNKNOWN;\n } else if (isBooleanExpression(node)) {\n return types.indexOf('boolean') > -1 ? TYPE_VALID : TYPE_INVALID;\n } else if (node.type === 'Identifier') {\n // check the scope to see if this is a `const` value\n return node;\n } else {\n return TYPE_UNKNOWN; // will produce a runtime type check\n }\n }", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function isValidValueNode(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isLeafType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n return;\n } // Scalars and Enums determine if a literal value is valid via parseLiteral(),\n // which may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (parseResult === undefined) {\n var _typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \".\"), node));\n }\n } catch (error) {\n var _typeStr2 = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(locationType);\n\n if (error instanceof _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"]) {\n context.reportError(error);\n } else {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLError\"](\"Expected value of type \\\"\".concat(_typeStr2, \"\\\", found \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(node), \"; \") + error.message, node, undefined, undefined, undefined, error));\n }\n }\n}", "function typeValidation(variable, type) {\n // Your code should be here ;) \n return typeof(variable) === type;\n}", "function isValidValue(type: GraphQLType, value: any): boolean {\n if (type instanceof GraphQLNonNull) {\n if (isNullish(value)) {\n return false;\n }\n return isValidValue(type.ofType, value);\n }\n\n if (isNullish(value)) {\n return true;\n }\n\n if (type instanceof GraphQLList) {\n var itemType = type.ofType;\n if (Array.isArray(value)) {\n return value.every(item => isValidValue(itemType, item));\n } else {\n return isValidValue(itemType, value);\n }\n }\n\n if (type instanceof GraphQLInputObjectType) {\n var fields = type.getFields();\n return Object.keys(fields).every(\n fieldName => isValidValue(fields[fieldName].type, value[fieldName])\n );\n }\n\n if (type instanceof GraphQLScalarType ||\n type instanceof GraphQLEnumType) {\n return !isNullish(type.coerce(value));\n }\n\n return false;\n}", "parseValueLiteral(isConst) {\n const token = this._lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return this.parseList(isConst);\n\n case TokenKind.BRACE_L:\n return this.parseObject(isConst);\n\n case TokenKind.INT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.INT,\n value: token.value,\n });\n\n case TokenKind.FLOAT:\n this._lexer.advance();\n\n return this.node(token, {\n kind: Kind.FLOAT,\n value: token.value,\n });\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return this.parseStringLiteral();\n\n case TokenKind.NAME:\n this._lexer.advance();\n\n switch (token.value) {\n case 'true':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: true,\n });\n\n case 'false':\n return this.node(token, {\n kind: Kind.BOOLEAN,\n value: false,\n });\n\n case 'null':\n return this.node(token, {\n kind: Kind.NULL,\n });\n\n default:\n return this.node(token, {\n kind: Kind.ENUM,\n value: token.value,\n });\n }\n\n case TokenKind.DOLLAR:\n if (isConst) {\n this.expectToken(TokenKind.DOLLAR);\n\n if (this._lexer.token.kind === TokenKind.NAME) {\n const varName = this._lexer.token.value;\n throw syntaxError(\n this._lexer.source,\n token.start,\n `Unexpected variable \"$${varName}\" in constant value.`,\n );\n } else {\n throw this.unexpected(token);\n }\n }\n\n return this.parseVariable();\n }\n\n throw this.unexpected();\n }", "function isValidJSValue(value, type) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if ((0, _isNullish2.default)(value)) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidJSValue(value, type.ofType);\n }\n\n if ((0, _isNullish2.default)(value)) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if ((0, _iterall.isCollection)(value)) {\n var errors = [];\n (0, _iterall.forEach)(value, function (item, index) {\n errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n });\n return errors;\n }\n return isValidJSValue(value, itemType);\n }\n\n // Input objects check each defined field.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (typeof value !== 'object' || value === null) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var _errors = [];\n\n // Ensure every provided field is defined.\n Object.keys(value).forEach(function (providedField) {\n if (!fields[providedField]) {\n _errors.push('In field \"' + providedField + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n Object.keys(fields).forEach(function (fieldName) {\n var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n _errors.push.apply(_errors, newErrors.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return _errors;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n try {\n var parseResult = type.parseValue(value);\n if ((0, _isNullish2.default)(parseResult) && !type.isValidValue(value)) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n }\n } catch (error) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + ': ' + error.message];\n }\n\n return [];\n}", "function et2_checkType(_val, _type, _attr, _widget)\n{\n\tif (typeof _attr == \"undefined\")\n\t{\n\t\t_attr = null;\n\t}\n\n\tfunction _err() {\n\t\tvar res = et2_typeDefaults[_type];\n\n\t\tif(typeof _val != \"undefined\" && _val)\n\t\t{\n\t\t\tegw.debug(\"warn\", \"Widget %o: '\" + _val + \"' was not of specified _type '\" +\n\t\t\t\t_type + (_attr != null ? \"' for attribute '\" + _attr + \"' \" : \"\") +\n\t\t\t\t\"and is now '\" + res + \"'\",_widget);\n\t\t}\n\t\treturn res;\n\t}\n\n\t// If the type is \"any\" simply return the value again\n\tif (_type == \"any\")\n\t{\n\t\treturn _val;\n\t}\n\n\t// we dont check default-value any further, that also fixes type=\"js\" does NOT accept null,\n\t// which happens on expanded values\n\tif (_val === et2_typeDefaults[_type])\n\t{\n\t\treturn _val;\n\t}\n\n\t// If the type is boolean, check whether the given value is exactly true or\n\t// false. Otherwise check whether the value is the string \"true\" or \"false\".\n\tif (_type == \"boolean\")\n\t{\n\t\tif (_val === true || _val === false)\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\tif (typeof _val == \"string\")\n\t\t{\n\t\t\tvar lcv = _val.toLowerCase();\n\t\t\tif (lcv === \"true\" || lcv === \"false\" || lcv === \"\")\n\t\t\t{\n\t\t\t\treturn _val === \"true\";\n\t\t\t}\n\t\t\tif(lcv === \"0\" || lcv === \"1\")\n\t\t\t{\n\t\t\t\treturn _val === \"1\";\n\t\t\t}\n\t\t}\n\t\telse if (typeof _val == \"number\")\n\t\t{\n\t\t\treturn _val != 0;\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the given value is of the type \"string\"\n\tif (_type == \"string\" || _type == \"html\" || _type == \"rawstring\")\n\t{\n\t\tif (typeof _val == \"number\")\t// as php is a bit vague here, silently convert to a string\n\t\t{\n\t\t\treturn _val.toString();\n\t\t}\n\n\t\tif (typeof _val == \"string\")\n\t\t{\n\t\t\treturn _type == \"string\" ? html_entity_decode(_val) : _val;\n\t\t}\n\n\t\t// Handle some less common possibilities\n\t\t// Maybe a split on an empty string\n\t\tif(typeof _val == \"object\" && jQuery.isEmptyObject(_val)) return \"\";\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the value is already a number, otherwise try to convert it\n\t// to one.\n\tif (_type == \"float\")\n\t{\n\t\tif (typeof _val == \"number\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\tif (!isNaN(_val))\n\t\t{\n\t\t\treturn parseFloat(_val);\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Check whether the value is an integer by comparing the result of\n\t// parseInt(_val) to the value itself.\n\tif (_type == \"integer\")\n\t{\n\t\tif (parseInt(_val) == _val)\n\t\t{\n\t\t\treturn parseInt(_val);\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Parse the given dimension value\n\tif (_type == \"dimension\")\n\t{\n\t\t// Case 1: The value is \"auto\"\n\t\tif (_val == \"auto\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\t// Case 2: The value is simply a number, attach \"px\"\n\t\tif (!isNaN(_val))\n\t\t{\n\t\t\treturn parseFloat(_val) + \"px\";\n\t\t}\n\n\t\t// Case 3: The value is already a valid css pixel value or a percentage\n\t\tif (typeof _val == \"string\" &&\n\t\t ((_val.indexOf(\"px\") == _val.length - 2 && !isNaN(_val.split(\"px\")[0])) ||\n\t\t (_val.indexOf(\"%\") == _val.length - 1 && !isNaN(_val.split(\"%\")[0]))))\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\n\t\treturn _err();\n\t}\n\n\t// Javascript\n\tif (_type == \"js\")\n\t{\n\t\tif (typeof _val == \"function\" || typeof _val == \"undefined\")\n\t\t{\n\t\t\treturn _val;\n\t\t}\n\t\tif (_val) _val = _val.replace(/window\\.close\\(\\)/g, 'egw(window).close()');\n\n\t\t// Check to see if it's a string in app.appname.function format, and wrap it in\n\t\t// a closure to make sure context is preserved\n\t\tif(typeof _val == \"string\" && _val.substr(0,4) == \"app.\" && window.app)\n\t\t{\n\t\t\tvar parts = _val.split('.');\n\t\t\tvar func = parts.pop();\n\t\t\tvar parent = window;\n\t\t\tfor(var i=0; i < parts.length && typeof parent[parts[i]] != 'undefined'; ++i)\n\t\t\t{\n\t\t\t\tparent = parent[parts[i]];\n\t\t\t}\n\t\t\tif (typeof parent[func] == 'function')\n\t\t\t{\n\t\t\t\ttry\n\t\t\t\t{\n\t\t\t\t\treturn jQuery.proxy(parent[func],parent);\n\t\t\t\t}\n\t\t\t\tcatch (e)\n\t\t\t\t{\n\t\t\t\t\treq.egw.debug('error', 'Function', _val);\n\t\t\t\t\treturn _err();\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\t\tif (!_val || typeof _val == \"string\")\n\t\t{\n\t\t\treturn _val;\t// get compiled later in widgets own initAttributes, as widget is not yet initialised\n\t\t}\n\t}\n\n\t// We should never come here\n\tthrow(\"Invalid type identifier '\" + _attr + \"': '\" + _type+\"'\");\n}", "function canUseAsIs(valueType) {\n return valueType === \"string\" ||\n valueType === \"boolean\" ||\n valueType === \"number\" ||\n valueType === \"json\" ||\n valueType === \"math\" ||\n valueType === \"regexp\" ||\n valueType === \"error\";\n }", "function isValidJSValue(value, type) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if ((0, _isNullish2.default)(value)) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidJSValue(value, type.ofType);\n }\n\n if ((0, _isNullish2.default)(value)) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if ((0, _iterall.isCollection)(value)) {\n var errors = [];\n (0, _iterall.forEach)(value, function (item, index) {\n errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n });\n return errors;\n }\n return isValidJSValue(value, itemType);\n }\n\n // Input objects check each defined field.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if ((typeof value === 'undefined' ? 'undefined' : _typeof(value)) !== 'object' || value === null) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var _errors = [];\n\n // Ensure every provided field is defined.\n Object.keys(value).forEach(function (providedField) {\n if (!fields[providedField]) {\n _errors.push('In field \"' + providedField + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n Object.keys(fields).forEach(function (fieldName) {\n var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n _errors.push.apply(_errors, newErrors.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return _errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n try {\n var parseResult = type.parseValue(value);\n if ((0, _isNullish2.default)(parseResult) && !type.isValidValue(value)) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n }\n } catch (error) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + ': ' + error.message];\n }\n\n return [];\n}", "function isValidJSValue(value, type) {\n // A value must be provided if the type is non-null.\n if (type instanceof _definition.GraphQLNonNull) {\n if ((0, _isNullish2.default)(value)) {\n return ['Expected \"' + String(type) + '\", found null.'];\n }\n return isValidJSValue(value, type.ofType);\n }\n\n if ((0, _isNullish2.default)(value)) {\n return [];\n }\n\n // Lists accept a non-list value as a list of one.\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if ((0, _iterall.isCollection)(value)) {\n var errors = [];\n (0, _iterall.forEach)(value, function (item, index) {\n errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n return 'In element #' + index + ': ' + error;\n }));\n });\n return errors;\n }\n return isValidJSValue(value, itemType);\n }\n\n // Input objects check each defined field.\n if (type instanceof _definition.GraphQLInputObjectType) {\n if ((typeof value === 'undefined' ? 'undefined' : _typeof(value)) !== 'object' || value === null) {\n return ['Expected \"' + type.name + '\", found not an object.'];\n }\n var fields = type.getFields();\n\n var _errors = [];\n\n // Ensure every provided field is defined.\n Object.keys(value).forEach(function (providedField) {\n if (!fields[providedField]) {\n _errors.push('In field \"' + providedField + '\": Unknown field.');\n }\n });\n\n // Ensure every defined field is valid.\n Object.keys(fields).forEach(function (fieldName) {\n var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n _errors.push.apply(_errors, newErrors.map(function (error) {\n return 'In field \"' + fieldName + '\": ' + error;\n }));\n });\n\n return _errors;\n }\n\n !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0;\n\n // Scalar/Enum input checks to ensure the type can parse the value to\n // a non-null value.\n try {\n var parseResult = type.parseValue(value);\n if ((0, _isNullish2.default)(parseResult) && !type.isValidValue(value)) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n }\n } catch (error) {\n return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + ': ' + error.message];\n }\n\n return [];\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n\n case TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n\n case TokenKind.INT:\n lexer.advance();\n return {\n kind: Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.STRING:\n case TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n lexer.advance();\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function isValidJSValue(value, type) {\n\t // A value must be provided if the type is non-null.\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t if ((0, _isNullish2.default)(value)) {\n\t if (type.ofType.name) {\n\t return ['Expected \"' + String(type.ofType.name) + '!\", found null.'];\n\t }\n\t return ['Expected non-null value, found null.'];\n\t }\n\t return isValidJSValue(value, type.ofType);\n\t }\n\n\t if ((0, _isNullish2.default)(value)) {\n\t return [];\n\t }\n\n\t // Lists accept a non-list value as a list of one.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(value)) {\n\t var _ret2 = function () {\n\t var errors = [];\n\t (0, _iterall.forEach)(value, function (item, index) {\n\t errors.push.apply(errors, isValidJSValue(item, itemType).map(function (error) {\n\t return 'In element #' + index + ': ' + error;\n\t }));\n\t });\n\t return {\n\t v: {\n\t v: errors\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: isValidJSValue(value, itemType)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Input objects check each defined field.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (typeof value !== 'object' || value === null) {\n\t return {\n\t v: ['Expected \"' + type.name + '\", found not an object.']\n\t };\n\t }\n\t var fields = type.getFields();\n\n\t var errors = [];\n\n\t // Ensure every provided field is defined.\n\t Object.keys(value).forEach(function (providedField) {\n\t if (!fields[providedField]) {\n\t errors.push('In field \"' + providedField + '\": Unknown field.');\n\t }\n\t });\n\n\t // Ensure every defined field is valid.\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var newErrors = isValidJSValue(value[fieldName], fields[fieldName].type);\n\t errors.push.apply(errors, newErrors.map(function (error) {\n\t return 'In field \"' + fieldName + '\": ' + error;\n\t }));\n\t });\n\n\t return {\n\t v: errors\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t // Scalar/Enum input checks to ensure the type can parse the value to\n\t // a non-null value.\n\t var parseResult = type.parseValue(value);\n\t if ((0, _isNullish2.default)(parseResult)) {\n\t return ['Expected type \"' + type.name + '\", found ' + JSON.stringify(value) + '.'];\n\t }\n\n\t return [];\n\t}", "function validateValue(value, regex, type) {\n if(regex.exec(value))\n console.log('Invalid ' + type);\n else\n console.log('Valid ' + type);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n break;\n }\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer.TokenKind.BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer.TokenKind.INT:\n lexer.advance();\n return {\n kind: _kinds.Kind.INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.FLOAT:\n lexer.advance();\n return {\n kind: _kinds.Kind.FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.STRING:\n case _lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds.Kind.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds.Kind.NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds.Kind.ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function checkInputType() {\n\t\tvar el = this,\n\t\t\ttype = el.getAttribute('type');\n\n\t\tif (type == 'number') {\n\t\t\tvar min = el.getAttribute('min'),\n\t\t\t\tmax = el.getAttribute('max'),\n\t\t\t\tstep = el.getAttribute('step'),\n\t\t\t\tval = Number(el.value),\n\t\t\t\terrors = [];\n\n\t\t\tif (val == Number.NaN) {\n\t\t\t\terrors.push('typeMismatch');\n\t\t\t}\n\n\t\t\tif (min != null && min > val) {\n\t\t\t\terrors.push('rangeUnderflow');\n\t\t\t}\n\n\t\t\tif (max != null && max < val) {\n\t\t\t\terrors.push('rangeOverflow');\n\t\t\t}\n\n\t\t\tif (step != null && step != 'any' && (val % parseInt(step) != 0)) {\n\t\t\t\terrors.push('stepMismatch');\n\t\t\t}\n\n\t\t\tif (errors.length > 0) {\n\t\t\t\treturn errors.join(errorDelimiter)\n\t\t\t}\n\t\t} else if (!constraints[type].test(this.value)) {\n\t\t\treturn 'typeMismatch';\n\t\t}\n\n\t\treturn '';\n\t}", "function parseValueLiteral(lexer$$1, isConst) {\n var token = lexer$$1.token;\n switch (token.kind) {\n case lexer.TokenKind.BRACKET_L:\n return parseList(lexer$$1, isConst);\n case lexer.TokenKind.BRACE_L:\n return parseObject(lexer$$1, isConst);\n case lexer.TokenKind.INT:\n lexer$$1.advance();\n return {\n kind: kinds.INT,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.FLOAT:\n lexer$$1.advance();\n return {\n kind: kinds.FLOAT,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.STRING:\n case lexer.TokenKind.BLOCK_STRING:\n return parseStringLiteral(lexer$$1);\n case lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer$$1.advance();\n return {\n kind: kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer$$1, token)\n };\n } else if (token.value === 'null') {\n lexer$$1.advance();\n return {\n kind: kinds.NULL,\n loc: loc(lexer$$1, token)\n };\n }\n lexer$$1.advance();\n return {\n kind: kinds.ENUM,\n value: token.value,\n loc: loc(lexer$$1, token)\n };\n case lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(lexer$$1);\n }\n break;\n }\n throw unexpected(lexer$$1);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function isValidScalar(context, node) {\n // Report any error at the full type expected by the location.\n var locationType = context.getInputType();\n\n if (!locationType) {\n return;\n }\n\n var type = Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"getNamedType\"])(locationType);\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isScalarType\"])(type)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node), enumTypeSuggestion(type, node)), node));\n return;\n } // Scalars determine if a literal value is valid via parseLiteral() which\n // may throw or return an invalid value to indicate failure.\n\n\n try {\n var parseResult = type.parseLiteral(node, undefined\n /* variables */\n );\n\n if (Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(parseResult)) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node)), node));\n }\n } catch (error) {\n // Ensure a reference to the original error is maintained.\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](badValueMessage(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(locationType), Object(_language_printer__WEBPACK_IMPORTED_MODULE_2__[\"print\"])(node), error.message), node, undefined, undefined, undefined, error));\n }\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function parseValueLiteral(lexer, isConst) {\n var token = lexer.token;\n\n switch (token.kind) {\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACKET_L:\n return parseList(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L:\n return parseObject(lexer, isConst);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].INT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].INT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].FLOAT:\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FLOAT,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].STRING:\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BLOCK_STRING:\n return parseStringLiteral(lexer);\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME:\n if (token.value === 'true' || token.value === 'false') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].BOOLEAN,\n value: token.value === 'true',\n loc: loc(lexer, token)\n };\n } else if (token.value === 'null') {\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL,\n loc: loc(lexer, token)\n };\n }\n\n lexer.advance();\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].ENUM,\n value: token.value,\n loc: loc(lexer, token)\n };\n\n case _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].DOLLAR:\n if (!isConst) {\n return parseVariable(lexer);\n }\n\n break;\n }\n\n throw unexpected(lexer);\n}", "function Literal(node) {\n var value = node.value;\n if (typeof value === \"string\") return t.stringTypeAnnotation();\n if (typeof value === \"number\") return t.numberTypeAnnotation();\n if (typeof value === \"boolean\") return t.booleanTypeAnnotation();\n if (value === null) return t.voidTypeAnnotation();\n if (node.regex) return t.genericTypeAnnotation(t.identifier(\"RegExp\"));\n}", "function parseValueLiteral(lexer, isConst) {\n\t var token = lexer.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(lexer, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(lexer, isConst);\n\t case _lexer.TokenKind.INT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.STRING,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(lexer, token)\n\t };\n\t } else if (token.value !== 'null') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t }\n\t break;\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(lexer);\n\t }\n\t break;\n\t }\n\t throw unexpected(lexer);\n\t}", "function isInvalidValue(value, type, allow_empty) {\n let vt = getTypeOfValue(value);\n if (type === 'float') {\n if (!vt.match(/^(float|integer)$/)) {\n return 'The type of the value must be \"' + type + '\".';\n }\n } else {\n if (vt !== type) {\n return 'The type of the value must be \"' + type + '\".';\n }\n }\n\n if (!allow_empty) {\n if (vt === 'array' && value.length === 0) {\n return 'The value must not be an empty array.';\n } else if (vt === 'string' && value === '') {\n return 'The value must not be an empty string.';\n }\n }\n\n if (typeof (value) === 'string') {\n if (value.match(/[^\\x20-\\x7e]/)) {\n return 'The value must consist of ascii characters.';\n }\n if (value.match(/[\\<\\>]/)) {\n return 'Invalid characters were found in the value (\"<\", \">\")';\n }\n }\n\n return '';\n}", "function parseValueLiteral(lexer, isConst) {\n\t var token = lexer.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(lexer, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(lexer, isConst);\n\t case _lexer.TokenKind.INT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t lexer.advance();\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t case _lexer.TokenKind.BLOCK_STRING:\n\t return parseStringLiteral(lexer);\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(lexer, token)\n\t };\n\t } else if (token.value === 'null') {\n\t lexer.advance();\n\t return {\n\t kind: _kinds.NULL,\n\t loc: loc(lexer, token)\n\t };\n\t }\n\t lexer.advance();\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(lexer, token)\n\t };\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(lexer);\n\t }\n\t break;\n\t }\n\t throw unexpected(lexer);\n\t}", "function Literal(node) {\n\t var value = node.value;\n\t if (typeof value === \"string\") return t.stringTypeAnnotation();\n\t if (typeof value === \"number\") return t.numberTypeAnnotation();\n\t if (typeof value === \"boolean\") return t.booleanTypeAnnotation();\n\t if (value === null) return t.voidTypeAnnotation();\n\t if (node.regex) return t.genericTypeAnnotation(t.identifier(\"RegExp\"));\n\t}", "function Literal(node) {\n\t var value = node.value;\n\t if (typeof value === \"string\") return t.stringTypeAnnotation();\n\t if (typeof value === \"number\") return t.numberTypeAnnotation();\n\t if (typeof value === \"boolean\") return t.booleanTypeAnnotation();\n\t if (value === null) return t.voidTypeAnnotation();\n\t if (node.regex) return t.genericTypeAnnotation(t.identifier(\"RegExp\"));\n\t}", "validateValue (value) {\n return TypeNumber.isNumber(value) && !isNaN(value)\n }", "function tokenValueIs(val, type)\n{\n\treturn (val & type) == type\n}", "function parseValueLiteral(parser, isConst) {\n var token = parser.token;\n switch (token.kind) {\n case _lexer.TokenKind.BRACKET_L:\n return parseList(parser, isConst);\n case _lexer.TokenKind.BRACE_L:\n return parseObject(parser, isConst);\n case _lexer.TokenKind.INT:\n advance(parser);\n return {\n kind: _kinds.INT,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.FLOAT:\n advance(parser);\n return {\n kind: _kinds.FLOAT,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.STRING:\n advance(parser);\n return {\n kind: _kinds.STRING,\n value: token.value,\n loc: loc(parser, token.start)\n };\n case _lexer.TokenKind.NAME:\n if (token.value === 'true' || token.value === 'false') {\n advance(parser);\n return {\n kind: _kinds.BOOLEAN,\n value: token.value === 'true',\n loc: loc(parser, token.start)\n };\n } else if (token.value !== 'null') {\n advance(parser);\n return {\n kind: _kinds.ENUM,\n value: token.value,\n loc: loc(parser, token.start)\n };\n }\n break;\n case _lexer.TokenKind.DOLLAR:\n if (!isConst) {\n return parseVariable(parser);\n }\n break;\n }\n throw unexpected(parser);\n}", "function isValid(input, type) {\n if (_.isNull(input) || _.isUndefined(input) || input === '') {\n return false;\n }\n if (type === 'text') {\n return !(/\\d/.test(input));\n } else if (type === 'no') {\n return !isNaN(input);\n } else if (type === 'zip') {\n return !isNaN(input) && (input.length == 5);\n } else if (type === 'date') {\n return _.isDate(input);\n }\n return true;\n }", "function check(name, value, type) {\n switch (type) {\n\n case 'object':\n case 'array':\n var stringOfValue = Object.prototype.toString.call(value).toLowerCase();\n if(value !== undefined && stringOfValue !== '[object ' + type + ']') {\n throw new Error('Expecting ' + name + ' to be an ' + type + ', \"' + (stringOfValue) + '\" given');\n }\n break;\n\n case 'string':\n case 'function':\n var typeofValue = typeof value;\n if(value !== undefined && typeOfValue !== type) {\n throw new Error('Expecting ' + name + ' to be a ' + type + ', \"' + (typeOfValue) + '\" given');\n }\n break;\n\n default: // type not specified\n if(value === undefined) {\n throw new Error('Missing \"' + type + '\"');\n }\n }\n}", "function TextValid(value, type) {\n\tswitch (type) {\n\tcase 'email':\n\t\treturn isMail(value);\n\t\tbreak;\n\tcase 'number':\n\t\treg = new RegExp(\"^\\\\d{1,7}$\");\n\t\treturn reg.test(value);\n\t\tbreak;\n\tcase 'zip':\n\t\treturn isZip(value);\n\t\tbreak;\n\tcase 'phone':\n\t\treturn isPhone(value);\n\t\tbreak;\n\tdefault:\n\t\treturn !isEmpty(value);\n\t}\n}", "function evaluateSimpleLiteral(node, typescript) {\n var _a;\n if (typescript.isStringLiteralLike(node))\n return { success: true, value: node.text };\n else if (isBooleanLiteral(node, typescript))\n return { success: true, value: node.kind === typescript.SyntaxKind.TrueKeyword };\n else if (typescript.isRegularExpressionLiteral(node))\n return { success: true, value: new Function(`return ${node.text}`)() };\n else if (typescript.isNumericLiteral(node))\n return { success: true, value: Number(node.text) };\n else if ((_a = typescript.isBigIntLiteral) === null || _a === void 0 ? void 0 : _a.call(typescript, node))\n return { success: true, value: BigInt(node.text) };\n else if (typescript.isIdentifier(node) && node.text === \"Infinity\")\n return { success: true, value: Infinity };\n else if (typescript.isIdentifier(node) && node.text === \"NaN\")\n return { success: true, value: NaN };\n else if (typescript.isIdentifier(node) && node.text === \"null\")\n return { success: true, value: null };\n else if (typescript.isIdentifier(node) && node.text === \"undefined\")\n return { success: true, value: undefined };\n else if (isNullLiteral(node, typescript))\n return { success: true, value: null };\n else\n return { success: false };\n}", "function createTypedLiteral(value, type) {\n if (type && type.termType !== 'NamedNode'){\n type = Parser.factory.namedNode(type);\n }\n return Parser.factory.literal(value, type);\n }", "function looks_like_data_value(v) {\n if (vF.typeOf(v) === 'number') {\n return true;\n } else if (vF.typeOf(v) === 'string') {\n // !isNaN is the recommended way to test whether a string represents a valid number\n // http://stackoverflow.com/questions/175739/is-there-a-built-in-way-in-javascript-to-check-if-a-string-is-a-valid-number\n if (!isNaN(v)) { \n return true;\n } else {\n // if the string isn't a valid number, try to parse it as a DatetimeValue\n try { DatetimeValue.parse(v); }\n catch (e) { return false; }\n return true;\n }\n } else {\n return false;\n }\n }", "function looks_like_data_value(v) {\n if (vF.typeOf(v) === 'number') {\n return true;\n } else if (vF.typeOf(v) === 'string') {\n // !isNaN is the recommended way to test whether a string represents a valid number\n // http://stackoverflow.com/questions/175739/is-there-a-built-in-way-in-javascript-to-check-if-a-string-is-a-valid-number\n if (!isNaN(v)) { \n return true;\n } else {\n // if the string isn't a valid number, try to parse it as a DatetimeValue\n try { DatetimeValue.parse(v); }\n catch (e) { return false; }\n return true;\n }\n } else {\n return false;\n }\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);\n }", "function parseValueLiteral(parser, isConst) {\n\t var token = parser.token;\n\t switch (token.kind) {\n\t case _lexer.TokenKind.BRACKET_L:\n\t return parseList(parser, isConst);\n\t case _lexer.TokenKind.BRACE_L:\n\t return parseObject(parser, isConst);\n\t case _lexer.TokenKind.INT:\n\t advance(parser);\n\t return {\n\t kind: _kinds.INT,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.FLOAT:\n\t advance(parser);\n\t return {\n\t kind: _kinds.FLOAT,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.STRING:\n\t advance(parser);\n\t return {\n\t kind: _kinds.STRING,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t case _lexer.TokenKind.NAME:\n\t if (token.value === 'true' || token.value === 'false') {\n\t advance(parser);\n\t return {\n\t kind: _kinds.BOOLEAN,\n\t value: token.value === 'true',\n\t loc: loc(parser, token.start)\n\t };\n\t } else if (token.value !== 'null') {\n\t advance(parser);\n\t return {\n\t kind: _kinds.ENUM,\n\t value: token.value,\n\t loc: loc(parser, token.start)\n\t };\n\t }\n\t break;\n\t case _lexer.TokenKind.DOLLAR:\n\t if (!isConst) {\n\t return parseVariable(parser);\n\t }\n\t break;\n\t }\n\t throw unexpected(parser);\n\t}", "'validateValue'(value) {}", "function tt(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? X(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : Gn(\"Invalid value type: \" + JSON.stringify(t));\n}", "function matchType() {\n\t\tvar pattern = /^(int|string|boolean)/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null){\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}", "function isPrimitive(value){return typeof value==='string'||typeof value==='number'||typeof value==='boolean';}", "function isPrimitive(value){return typeof value==='string'||typeof value==='number'||typeof value==='boolean';}", "function canBeValue() { }", "function testParamType(param, types){\n for (var i = 0; i < types.length; i++) {\n if (typeof(param) === types[i].toLowerCase()) {\n return true; // type match, pass\n } else if (types[i] === 'Constant') {\n return true; // accepts any constant, pass\n }\n }\n return false;\n}", "function isPrimitive(value){return typeof value==='string'||typeof value==='number';}", "function is(value) {\n var candidate = value;\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\n }", "function assertType(value, type) {\n\t\t var valid = void 0;\n\t\t var expectedType = void 0;\n\t\t if (type === String) {\n\t\t expectedType = 'string';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Number) {\n\t\t expectedType = 'number';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Boolean) {\n\t\t expectedType = 'boolean';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Function) {\n\t\t expectedType = 'function';\n\t\t valid = typeof value === expectedType;\n\t\t } else if (type === Object) {\n\t\t expectedType = 'Object';\n\t\t valid = isPlainObject(value);\n\t\t } else if (type === Array) {\n\t\t expectedType = 'Array';\n\t\t valid = Array.isArray(value);\n\t\t } else {\n\t\t expectedType = type.name || type.toString();\n\t\t valid = value instanceof type;\n\t\t }\n\t\t return {\n\t\t valid: valid,\n\t\t expectedType: expectedType\n\t\t };\n\t\t}", "function assertType(value, type) {\n var valid = void 0;\n var expectedType = void 0;\n if (type === String) {\n expectedType = 'string';\n valid = typeof value === expectedType;\n } else if (type === Number) {\n expectedType = 'number';\n valid = typeof value === expectedType;\n } else if (type === Boolean) {\n expectedType = 'boolean';\n valid = typeof value === expectedType;\n } else if (type === Function) {\n expectedType = 'function';\n valid = typeof value === expectedType;\n } else if (type === Object) {\n expectedType = 'Object';\n valid = isPlainObject(value);\n } else if (type === Array) {\n expectedType = 'Array';\n valid = Array.isArray(value);\n } else {\n expectedType = type.name || type.toString();\n valid = value instanceof type;\n }\n return {\n valid: valid,\n expectedType: expectedType\n };\n}", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function validateType(functionName, type, inputName, input) {\n var valid = false;\n\n if (type === 'object') {\n valid = isPlainObject(input);\n } else if (type === 'non-empty string') {\n valid = typeof input === 'string' && input !== '';\n } else {\n valid = typeof input === type;\n }\n\n if (!valid) {\n var description = valueDescription(input);\n throw new FirestoreError(Code.INVALID_ARGUMENT, \"Function \" + functionName + \"() requires its \" + inputName + \" \" + (\"to be of type \" + type + \", but it was: \" + description));\n }\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function is(value) {\r\n var candidate = value;\r\n return Is.string(candidate) || (Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value));\r\n }", "function typecheck(type, value) {\n var errors = type.validate(value, [{ path: \"\", type: type }])\n if (errors.length > 0) {\n fail(\n \"Error while converting \" +\n prettyPrintValue(value) +\n \" to `\" +\n type.name +\n \"`:\\n\" +\n errors.map(toErrorString).join(\"\\n\")\n )\n }\n}", "function assertType(value,type){var valid;var expectedType=getType(type);if(expectedType==='String'){valid=(typeof value==='undefined'?'undefined':_typeof(value))===(expectedType='string');}else if(expectedType==='Number'){valid=(typeof value==='undefined'?'undefined':_typeof(value))===(expectedType='number');}else if(expectedType==='Boolean'){valid=(typeof value==='undefined'?'undefined':_typeof(value))===(expectedType='boolean');}else if(expectedType==='Function'){valid=(typeof value==='undefined'?'undefined':_typeof(value))===(expectedType='function');}else if(expectedType==='Object'){valid=isPlainObject(value);}else if(expectedType==='Array'){valid=Array.isArray(value);}else{valid=value instanceof type;}return{valid:valid,expectedType:expectedType};}", "function checkInput(ivalue, typeC) {\n\tswitch(typeC){\n\n\t\tcase 0: // ivalue e' composto solo da cartteri alfanumerici e (-, _, .)\n\t\t\tvar tReg = /^[A-Za-z0-9_\\-\\.]+$/;\n\t\t\tif (!tReg.test(ivalue)) \n\t\t\t\treturn false; \n\n\t\t\tbreak;\n\n\t\tcase 1: // ivalue e' composto solo da numeri\n\t\tcase \"numerico\":\n\t\t\tvar tReg = /^[0-9]+$/;\n\t\t\tvar tDot = /\\./;\n\t\t\t\n\t\t\taValue = Array();\n\t\t\tif(tDot.test(ivalue)){\n aValue = ivalue.split(tDot);\n if(aValue.length > 2)\n return false;\n \n }else{\n aValue[0] = ivalue;\n }\n\t\t\t \n\t\t\tfor(i=0; i < aValue.length; i++) \n \t\t\tif (!tReg.test(aValue[i]))\n \t\t\t\treturn false;\n \n\t\t\tbreak;\n\n\t\tcase 2: \n\t\tcase \"int\":\n\t\t\tvar tReg = /^[0-9]+$/;\n\t\t\tif (!tReg.test(ivalue)) \n\t\t\t\treturn false; \n\n\t\t\tbreak;\n\n\t\tdefault: break;\n\t}\n\t\n\treturn true;\n}", "function createLiteral(value, type) {\n return '\"' + value + '\"^^' + type;\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function validateType(functionName, type, inputName, input) {\n var valid = false;\n if (type === 'object') {\n valid = isPlainObject(input);\n }\n else if (type === 'non-empty string') {\n valid = typeof input === 'string' && input !== '';\n }\n else {\n valid = typeof input === type;\n }\n if (!valid) {\n var description = valueDescription(input);\n throw new FirestoreError(Code.INVALID_ARGUMENT, \"Function \" + functionName + \"() requires its \" + inputName + \" \" +\n (\"to be of type \" + type + \", but it was: \" + description));\n }\n}", "function validateType(functionName, type, inputName, input) {\n var valid = false;\n if (type === 'object') {\n valid = isPlainObject(input);\n }\n else if (type === 'non-empty string') {\n valid = typeof input === 'string' && input !== '';\n }\n else {\n valid = typeof input === type;\n }\n if (!valid) {\n var description = valueDescription(input);\n throw new FirestoreError(Code.INVALID_ARGUMENT, \"Function \" + functionName + \"() requires its \" + inputName + \" \" +\n (\"to be of type \" + type + \", but it was: \" + description));\n }\n}", "function createLiteral(value, type) {\n\t return '\"' + value + '\"^^' + type;\n\t }", "function isSimpleValue (type) {\n switch(type) {\n case 'array':\n case 'object':\n return false;\n break;\n default:\n return true;\n break;\n }\n}", "function validateValue(validationType, value) {\n\t\t\t\tif (validationType == 'alpha_numeric') {\n\t\t\t\t\t/*\n\t\t\t\t\tvar Exp = /^[0-9a-zA-Z\\s]+$/;\n\t\t\t\t\treturn value.match(Exp);\n\t\t\t\t\t*/\n\t\t\t\t\treturn value;\n\t\t\t\t} else if (validationType == 'email') {\n\t\t\t\t\tvar re = /^(([^<>()[\\]\\\\.,;:\\s@\\\"]+(\\.[^<>()[\\]\\\\.,;:\\s@\\\"]+)*)|(\\\".+\\\"))@((\\[[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\.[0-9]{1,3}\\])|(([a-zA-Z\\-0-9]+\\.)+[a-zA-Z]{2,}))$/;\n\t\t\t\t\treturn re.test(value);\n\t\t\t\t} else if (validationType == 'numeric') {\n\t\t\t\t\treturn !isNaN(value)\n\t\t\t\t}\n\t\t\t}", "function is_literal_string_value(value) {\n if ((typeof(value) === 'string' && (value.length >= 3)) &&\n ((value[0] == '\"' && value[value.length - 1] == '\"') || (value[0] == '\\'' && value[value.length - 1] == '\\''))) {\n return true;\n }\n\n return false;\n}", "function validateValueWithFunc(value, parseFunc, type) {\n if (parseFunc(value))\n console.log('Invalid ' + type);\n else\n console.log('Valid ' + type);\n}", "function type(rule, value, source, errors, options) {\n\t if (rule.required && value === undefined) {\n\t required(rule, value, source, errors, options);\n\t return;\n\t }\n\t\n\t var custom = ['integer', 'float', 'array', 'regexp', 'object', 'method', 'email', 'number', 'date', 'url', 'hex'];\n\t var ruleType = rule.type;\n\t\n\t if (custom.indexOf(ruleType) > -1) {\n\t if (!types[ruleType](value)) {\n\t errors.push(format(options.messages.types[ruleType], rule.fullField, rule.type));\n\t } // straight typeof check\n\t\n\t } else if (ruleType && typeof value !== rule.type) {\n\t errors.push(format(options.messages.types[ruleType], rule.fullField, rule.type));\n\t }\n\t}", "function assertType (value, type) {\n\t var valid\n\t var expectedType = getType(type)\n\t if (expectedType === 'String') {\n\t valid = typeof value === (expectedType = 'string')\n\t } else if (expectedType === 'Number') {\n\t valid = typeof value === (expectedType = 'number')\n\t } else if (expectedType === 'Boolean') {\n\t valid = typeof value === (expectedType = 'boolean')\n\t } else if (expectedType === 'Function') {\n\t valid = typeof value === (expectedType = 'function')\n\t } else if (expectedType === 'Object') {\n\t valid = isPlainObject(value)\n\t } else if (expectedType === 'Array') {\n\t valid = Array.isArray(value)\n\t } else {\n\t valid = value instanceof type\n\t }\n\t return {\n\t valid: valid,\n\t expectedType: expectedType\n\t }\n\t}", "function is(value) {\n var candidate = value;\n return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);\n }", "function validateTypes(el) {\r\n\tif(!el.value) return true;\r\n\t\r\n\tvar type = $(el).data('type') || el.getAttribute('type');\r\n\tif(typeof validateType[type] === 'function') {\r\n\t\treturn validateType[type](el);\r\n\t}\r\n\telse {\r\n\t\treturn true;\r\n\t}\r\n}" ]
[ "0.7644156", "0.75535417", "0.73288494", "0.72017807", "0.6699415", "0.6667568", "0.6541552", "0.6541552", "0.6463026", "0.6357233", "0.6256124", "0.6239035", "0.62073034", "0.62073034", "0.6180327", "0.61644083", "0.6067311", "0.60612154", "0.6002638", "0.5965178", "0.59398216", "0.59398216", "0.58809584", "0.5874045", "0.5874045", "0.5874045", "0.5874045", "0.5874045", "0.5874045", "0.58535063", "0.5852051", "0.5851043", "0.5851043", "0.5851043", "0.5851043", "0.5841207", "0.5835475", "0.5822267", "0.580249", "0.57870084", "0.5778107", "0.57770896", "0.57770896", "0.57720965", "0.57624906", "0.57530665", "0.5748001", "0.57367265", "0.57367265", "0.56892663", "0.5678959", "0.56115454", "0.56054515", "0.5583466", "0.55809385", "0.55782473", "0.5567934", "0.5540886", "0.5540886", "0.5538652", "0.5538652", "0.5538652", "0.5526082", "0.55258125", "0.552378", "0.5517253", "0.55046594", "0.55046594", "0.5484299", "0.5459355", "0.5432765", "0.5395724", "0.5393912", "0.53809214", "0.5371494", "0.5371494", "0.53665334", "0.53658605", "0.53658605", "0.53658605", "0.53658605", "0.5360254", "0.53568405", "0.53369606", "0.5307431", "0.53023964", "0.53023964", "0.53023964", "0.53008324", "0.53008324", "0.52811986", "0.5269334", "0.52648973", "0.5260479", "0.525395", "0.5251382", "0.5249139", "0.5242302", "0.52419597" ]
0.7636621
2
Not exactly the same as the executor's definition of getFieldDef, in this statically evaluated environment we do not always have an Object type, and need to handle Interface and Union types.
function getFieldDef(schema, parentType, fieldNode) { var name = fieldNode.name.value; if (name === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) { return _introspection.SchemaMetaFieldDef; } if (name === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) { return _introspection.TypeMetaFieldDef; } if (name === _introspection.TypeNameMetaFieldDef.name && (0, _definition.isCompositeType)(parentType)) { return _introspection.TypeNameMetaFieldDef; } if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) { return parentType.getFields()[name]; } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(parentType)) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isObjectType\"])(parentType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isCompositeType\"])(parentType)) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_5__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isObjectType\"])(parentType) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldNode) {\n var name = fieldNode.name.value;\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"SchemaMetaFieldDef\"];\n }\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeMetaFieldDef\"];\n }\n\n if (name === _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeNameMetaFieldDef\"].name && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isCompositeType\"])(parentType)) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_3__[\"TypeNameMetaFieldDef\"];\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(parentType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(parentType)) {\n return parentType.getFields()[name];\n }\n}", "function getFieldDef(schema, parentType, fieldAST) {\n\t var name = fieldAST.name.value;\n\t if (name === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n\t return _introspection.SchemaMetaFieldDef;\n\t }\n\t if (name === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n\t return _introspection.TypeMetaFieldDef;\n\t }\n\t if (name === _introspection.TypeNameMetaFieldDef.name && (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType || parentType instanceof _definition.GraphQLUnionType)) {\n\t return _introspection.TypeNameMetaFieldDef;\n\t }\n\t if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) {\n\t return parentType.getFields()[name];\n\t }\n\t}", "parseFieldDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n const name = this.parseName();\n const args = this.parseArgumentDefs();\n this.expectToken(TokenKind.COLON);\n const type = this.parseTypeReference();\n const directives = this.parseConstDirectives();\n return this.node(start, {\n kind: Kind.FIELD_DEFINITION,\n description,\n name,\n arguments: args,\n type,\n directives,\n });\n }", "function getFieldDef(schema, parentType, fieldName) {\n if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"SchemaMetaFieldDef\"];\n } else if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeMetaFieldDef\"];\n } else if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeNameMetaFieldDef\"].name) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeNameMetaFieldDef\"];\n }\n\n return parentType.getFields()[fieldName];\n}", "function getFieldDef(schema, parentType, fieldName) {\n if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"SchemaMetaFieldDef\"];\n } else if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeMetaFieldDef\"];\n } else if (fieldName === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeNameMetaFieldDef\"].name) {\n return _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_15__[\"TypeNameMetaFieldDef\"];\n }\n\n return parentType.getFields()[fieldName];\n}", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = Object(__WEBPACK_IMPORTED_MODULE_3_vega_util__[\"p\" /* field */])(_.$field, _.$name));\n}", "function getFieldDef(schema, parentType, fieldName) {\n if (fieldName === _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"SchemaMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"SchemaMetaFieldDef\"];\n } else if (fieldName === _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"TypeMetaFieldDef\"].name && schema.getQueryType() === parentType) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"TypeMetaFieldDef\"];\n } else if (fieldName === _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"TypeNameMetaFieldDef\"].name) {\n return _type_introspection__WEBPACK_IMPORTED_MODULE_16__[\"TypeNameMetaFieldDef\"];\n }\n\n return parentType.getFields()[fieldName];\n}", "function getFieldDef(channelDef) {\n\t if (isFieldDef(channelDef)) {\n\t return channelDef;\n\t }\n\t else if (hasConditionalFieldDef(channelDef)) {\n\t return channelDef.condition;\n\t }\n\t return undefined;\n\t}", "function getFieldDef(channelDef) {\n if (isFieldDef(channelDef)) {\n return channelDef;\n }\n else if (hasConditionalFieldDef(channelDef)) {\n return channelDef.condition;\n }\n return undefined;\n }", "function getFieldDef(channelDef) {\n if (isFieldDef(channelDef)) {\n return channelDef;\n } else if (hasConditionalFieldDef(channelDef)) {\n return channelDef.condition;\n }\n\n return undefined;\n }", "function getField$1(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = field(_.$field, _.$name));\n }", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = (0,vega_util__WEBPACK_IMPORTED_MODULE_3__.field)(_.$field, _.$name));\n}", "function getFieldDef(schema, parentType, fieldName) {\n if (fieldName === _typeIntrospection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _typeIntrospection.SchemaMetaFieldDef;\n } else if (fieldName === _typeIntrospection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _typeIntrospection.TypeMetaFieldDef;\n } else if (fieldName === _typeIntrospection.TypeNameMetaFieldDef.name) {\n return _typeIntrospection.TypeNameMetaFieldDef;\n }\n return parentType.getFields()[fieldName];\n}", "function getFieldDef(schema, parentType, fieldName) {\n if (fieldName === _introspection.SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.SchemaMetaFieldDef;\n } else if (fieldName === _introspection.TypeMetaFieldDef.name && schema.getQueryType() === parentType) {\n return _introspection.TypeMetaFieldDef;\n } else if (fieldName === _introspection.TypeNameMetaFieldDef.name) {\n return _introspection.TypeNameMetaFieldDef;\n }\n return parentType.getFields()[fieldName];\n}", "function getField(_, ctx) {\n if (!_.$field) return null;\n var k = 'f:' + _.$field + '_' + _.$name;\n return ctx.fn[k] || (ctx.fn[k] = vegaUtil.field(_.$field, _.$name));\n }", "function getFieldDef(channelDef) {\n if (isFieldDef(channelDef)) {\n return channelDef;\n }\n else if (hasConditionFieldDef(channelDef)) {\n return channelDef.condition;\n }\n return undefined;\n}", "function parseFieldDefinition(lexer) {\n\t var start = lexer.token;\n\t var name = parseName(lexer);\n\t var args = parseArgumentDefs(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var directives = parseDirectives(lexer);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n\t var start = lexer.token;\n\t var description = parseDescription(lexer);\n\t var name = parseName(lexer);\n\t var args = parseArgumentDefs(lexer);\n\t expect(lexer, _lexer.TokenKind.COLON);\n\t var type = parseTypeReference(lexer);\n\t var directives = parseDirectives(lexer, true);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t description: description,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t directives: directives,\n\t loc: loc(lexer, start)\n\t };\n\t}", "function getFieldDefinition(schema, parentType, fieldName, fieldAST) {\n\t var type = getRawType(parentType);\n\t var isQueryType = type === schema.getQueryType();\n\t var hasTypeName = type instanceof GraphQLObjectType || type instanceof GraphQLInterfaceType || type instanceof GraphQLUnionType;\n\n\t var schemaFieldDef = void 0;\n\t if (isQueryType && fieldName === SchemaMetaFieldDef.name) {\n\t schemaFieldDef = SchemaMetaFieldDef;\n\t } else if (isQueryType && fieldName === TypeMetaFieldDef.name) {\n\t schemaFieldDef = TypeMetaFieldDef;\n\t } else if (hasTypeName && fieldName === TypeNameMetaFieldDef.name) {\n\t schemaFieldDef = TypeNameMetaFieldDef;\n\t } else if (type instanceof GraphQLInterfaceType || type instanceof GraphQLObjectType) {\n\t schemaFieldDef = type.getFields()[fieldName];\n\t }\n\n\t if (!schemaFieldDef) {\n\t schemaFieldDef = getClassicFieldDefinition(schema, type, fieldName, fieldAST);\n\t }\n\n\t return schemaFieldDef || null;\n\t}", "getFields(objCollector, field) {\n if (objCollector[field]) {\n return objCollector[field];\n }\n return undefined;\n }", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds.Kind.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "visitFieldDefinition() {\n return;\n }", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "static getDefinedFields() {\n const fields = {};\n for (let fieldName in this) {\n const field = this[fieldName];\n if (field instanceof fields_1.Field) {\n fields[fieldName] = field;\n }\n }\n return fields;\n }", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n }", "function parseFieldDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n var name = parseName(lexer);\n var args = parseArgumentDefs(lexer);\n expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].COLON);\n var type = parseTypeReference(lexer);\n var directives = parseDirectives(lexer, true);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer, start)\n };\n}", "function getFieldReference(typeInfo) {\n return {\n kind: 'Field',\n schema: typeInfo.schema,\n field: typeInfo.fieldDef,\n type: isMetaField(typeInfo.fieldDef) ? null : typeInfo.parentType\n };\n}", "function parseFieldDefinition(parser) {\n\t var start = parser.token.start;\n\t var name = parseName(parser);\n\t var args = parseArgumentDefs(parser);\n\t expect(parser, _lexer.TokenKind.COLON);\n\t var type = parseType(parser);\n\t return {\n\t kind: _kinds.FIELD_DEFINITION,\n\t name: name,\n\t arguments: args,\n\t type: type,\n\t loc: loc(parser, start)\n\t };\n\t}", "getField(listOfObj, fieldToGet) {\n const total = listOfObj.length - 1;\n const lastObj = listOfObj[total];\n const fieldValue = lastObj[fieldToGet];\n return fieldValue;\n }", "function parseFieldDefinition(lexer$$1) {\n var start = lexer$$1.token;\n var description = parseDescription(lexer$$1);\n var name = parseName(lexer$$1);\n var args = parseArgumentDefs(lexer$$1);\n expect(lexer$$1, lexer.TokenKind.COLON);\n var type = parseTypeReference(lexer$$1);\n var directives = parseDirectives(lexer$$1, true);\n return {\n kind: kinds.FIELD_DEFINITION,\n description: description,\n name: name,\n arguments: args,\n type: type,\n directives: directives,\n loc: loc(lexer$$1, start)\n };\n}", "function parseFieldDefinition(parser) {\n var start = parser.token.start;\n var name = parseName(parser);\n var args = parseArgumentDefs(parser);\n expect(parser, _lexer.TokenKind.COLON);\n var type = parseType(parser);\n return {\n kind: _kinds.FIELD_DEFINITION,\n name: name,\n arguments: args,\n type: type,\n loc: loc(parser, start)\n };\n}", "function extractFieldValueFtn(obj, field) {\n $log.info('from object : ' + JSON.stringify(obj));\n if(typeof obj.getField === \"function\") {\n return obj.getField(field); \n } else {\n return 0;\n }\n }", "function extractFieldValueFtn(obj, field) {\n $log.info('from object : ' + JSON.stringify(obj));\n if(typeof obj.getField === \"function\") {\n return obj.getField(field); \n } else {\n return 0;\n }\n }", "function getFieldDefinitionLegacy(schema, parentType, fieldName, fieldAST) {\n var _schemaFieldDef;\n\n var schemaFieldDef = getFieldDefinitionStrict(schema, parentType, fieldName);\n\n if (!schemaFieldDef) {\n schemaFieldDef = getFieldDefinitionLegacyImpl(schema, parentType, fieldName, fieldAST);\n }\n\n return (_schemaFieldDef = schemaFieldDef) !== null && _schemaFieldDef !== void 0 ? _schemaFieldDef : null;\n}", "function getFields() {\n return _($scope.cell.recordDefinition.fieldDefinitions)\n .filter({\n resourceType: RX_RECORD_DEFINITION.dataTypes.attachment.resourceType\n })\n .map(function (fieldDefinition) {\n return {\n id: fieldDefinition.id,\n name: fieldDefinition.name\n };\n })\n .value();\n }", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function getOwnDefinition(type, field) {\n return type.hasOwnProperty(field) ? type[field] : null;\n}", "function fieldDefs$1(spec) {\n return vals(fieldDefIndex(spec));\n }", "function fGetField(aField, aSection) {\n // Helper function to get DOM object\n var oField = resolveNode(aSection + aField);\n if (oField === null || typeof oField === \"undefined\") {\n if (bOnlyOnce) {\n console.println(\"fGetField failed on \" + aSection + aField);\n app.alert(\"Yowza - fGetField failed on \" + aSection + aField);\n bOnlyOnce = false;\n }\n }\n return oField;\n}", "lookupField(objTypeName, name) {\n const objType = this.lookupEntity(objTypeName);\n const field = objType.fields.find((f) => f.name === name);\n if (!field) {\n throw new Error(`No field ${name} is found for object type ${objTypeName}`);\n }\n return field;\n }", "function fieldDefs(spec) {\n return util_1.vals(fieldDefIndex(spec));\n}", "parseField() {\n const start = this._lexer.token;\n const nameOrAlias = this.parseName();\n let alias;\n let name;\n\n if (this.expectOptionalToken(TokenKind.COLON)) {\n alias = nameOrAlias;\n name = this.parseName();\n } else {\n name = nameOrAlias;\n }\n\n return this.node(start, {\n kind: Kind.FIELD,\n alias,\n name,\n arguments: this.parseArguments(false),\n directives: this.parseDirectives(false),\n selectionSet: this.peek(TokenKind.BRACE_L)\n ? this.parseSelectionSet()\n : undefined,\n });\n }", "get fields() {\n return this._fieldSpecs;\n }", "function getFieldDefinitionStrict(schema, parentType, fieldName) {\n var type = schema.getRawType(parentType);\n var queryType = schema.getQueryType();\n var isQueryType = queryType != null && schema.areEqualTypes(type, queryType);\n var hasTypeName = schema.isAbstractType(type) || schema.isObject(type);\n var schemaFieldDef;\n\n if (isQueryType && fieldName === SchemaMetaFieldDef.name) {\n schemaFieldDef = queryType != null ? schema.getFieldByName(queryType, '__schema') : null;\n } else if (isQueryType && fieldName === TypeMetaFieldDef.name) {\n schemaFieldDef = queryType != null ? schema.getFieldByName(queryType, '__type') : null;\n } else if (hasTypeName && fieldName === '__typename') {\n schemaFieldDef = schema.getFieldByName(schema.assertCompositeType(type), '__typename');\n } else if (hasTypeName && fieldName === '__id') {\n schemaFieldDef = schema.getFieldByName(schema.assertCompositeType(type), '__id');\n } else if (schema.isInterface(type) || schema.isObject(type)) {\n var compositeType = schema.assertCompositeType(type);\n\n if (schema.hasField(compositeType, fieldName)) {\n schemaFieldDef = schema.getFieldByName(compositeType, fieldName);\n } else {\n return null;\n }\n }\n\n return schemaFieldDef;\n}", "function getFieldObject(rawField)\n {\n if('object' == typeof (rawField))\n {\n if(isBlank(rawField.element)) {\n if (settings.titleFormat) {\n rawField[\"element\"] = settings.titleFormat;\n }\n else {\n rawField[\"element\"] = settings.defaultElement;\n }\n }\n return rawField;\n }\n return {name: rawField, element: settings.defaultElement};\n }", "getFieldById(_id) {\n return self.fieldsById[_id];\n }", "function FieldsOnCorrectType(context) {\n\t return {\n\t Field: function Field(node) {\n\t var type = context.getParentType();\n\t if (type) {\n\t var fieldDef = context.getFieldDef();\n\t if (!fieldDef) {\n\t // This isn't valid. Let's find suggestions, if any.\n\t var suggestedTypes = [];\n\t if ((0, _typeDefinition.isAbstractType)(type)) {\n\t suggestedTypes = getSiblingInterfacesIncludingField(type, node.name.value);\n\t suggestedTypes = suggestedTypes.concat(getImplementationsIncludingField(type, node.name.value));\n\t }\n\t context.reportError(new _error.GraphQLError(undefinedFieldMessage(node.name.value, type.name, suggestedTypes), [node]));\n\t }\n\t }\n\t }\n\t };\n\t}", "_getDynamicFieldInfo(value) {\n const that = this,\n dynamicFieldInfo = { label: value, dataField: value, dataType: 'string' };\n\n if (that.getDynamicField) {\n const customInfo = that.getDynamicField(value);\n\n if (customInfo.label) {\n dynamicFieldInfo.label = customInfo.label;\n }\n\n if (customInfo.dataField) {\n dynamicFieldInfo.dataField = customInfo.dataField;\n }\n\n if (customInfo.dataType) {\n dynamicFieldInfo.dataType = customInfo.dataType;\n }\n\n if (customInfo.filterOperations &&\n Array.isArray(customInfo.filterOperations) && customInfo.filterOperations.length > 0) {\n dynamicFieldInfo.filterOperations = customInfo.filterOperations;\n }\n\n if (customInfo.lookup) {\n dynamicFieldInfo.lookup = customInfo.lookup;\n }\n }\n\n that._manuallyAddedFields.push(dynamicFieldInfo);\n that._mapFieldsToMenu();\n return dynamicFieldInfo;\n }", "static getFieldType(fieldName, variable, relatedField) {\n let fieldType, columns, result;\n if (variable.propertiesMap) {\n columns = variable.propertiesMap.columns || [];\n result = _.find(columns, obj => {\n return obj.fieldName === fieldName;\n });\n // if related field name passed, get its type from columns inside the current field\n if (relatedField && result) {\n result = _.find(result.columns, obj => {\n return obj.fieldName === relatedField;\n });\n }\n fieldType = result && result.type;\n }\n return fieldType;\n }", "function collectFields(exeContext, runtimeType, selectionSet, fields, visitedFragmentNames) {\n for (var i = 0; i < selectionSet.selections.length; i++) {\n var selection = selectionSet.selections[i];\n switch (selection.kind) {\n case _language.Kind.FIELD:\n if (!shouldIncludeNode(exeContext, selection.directives)) {\n continue;\n }\n var name = getFieldEntryKey(selection);\n if (!fields[name]) {\n fields[name] = [];\n }\n fields[name].push(selection);\n break;\n case _language.Kind.INLINE_FRAGMENT:\n if (!shouldIncludeNode(exeContext, selection.directives) || !doesFragmentConditionMatch(exeContext, selection, runtimeType)) {\n continue;\n }\n collectFields(exeContext, runtimeType, selection.selectionSet, fields, visitedFragmentNames);\n break;\n case _language.Kind.FRAGMENT_SPREAD:\n var fragName = selection.name.value;\n if (visitedFragmentNames[fragName] || !shouldIncludeNode(exeContext, selection.directives)) {\n continue;\n }\n visitedFragmentNames[fragName] = true;\n var fragment = exeContext.fragments[fragName];\n if (!fragment || !shouldIncludeNode(exeContext, fragment.directives) || !doesFragmentConditionMatch(exeContext, fragment, runtimeType)) {\n continue;\n }\n collectFields(exeContext, runtimeType, fragment.selectionSet, fields, visitedFragmentNames);\n break;\n }\n }\n return fields;\n}", "function resolveField(exeContext, parentType, source, fieldASTs) {\n var fieldAST = fieldASTs[0];\n var fieldName = fieldAST.name.value;\n\n var fieldDef = getFieldDef(exeContext.schema, parentType, fieldName);\n if (!fieldDef) {\n return;\n }\n\n var returnType = fieldDef.type;\n var resolveFn = fieldDef.resolve || defaultResolveFn;\n\n // Build a JS object of arguments from the field.arguments AST, using the\n // variables scope to fulfill any variable references.\n // TODO: find a way to memoize, in case this field is within a List type.\n var args = (0, _values.getArgumentValues)(fieldDef.args, fieldAST.arguments, exeContext.variableValues);\n\n // The resolve function's optional third argument is a collection of\n // information about the current execution state.\n var info = {\n fieldName: fieldName,\n fieldASTs: fieldASTs,\n returnType: returnType,\n parentType: parentType,\n schema: exeContext.schema,\n fragments: exeContext.fragments,\n rootValue: exeContext.rootValue,\n operation: exeContext.operation,\n variableValues: exeContext.variableValues\n };\n\n // Get the resolve function, regardless of if its result is normal\n // or abrupt (error).\n var result = resolveOrError(resolveFn, source, args, info);\n\n return completeValueCatchingError(exeContext, returnType, fieldASTs, info, result);\n}", "function FieldsOnCorrectType(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n if (type) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n // This isn't valid. Let's find suggestions, if any.\n var suggestedTypes = [];\n if ((0, _typeDefinition.isAbstractType)(type)) {\n suggestedTypes = getSiblingInterfacesIncludingField(type, node.name.value);\n suggestedTypes = suggestedTypes.concat(getImplementationsIncludingField(type, node.name.value));\n }\n context.reportError(new _error.GraphQLError(undefinedFieldMessage(node.name.value, type.name, suggestedTypes), [node]));\n }\n }\n }\n };\n}", "interfaceFieldStatement() {\n const name = this.identifier(...TokenKind_1.AllowedProperties);\n let asToken = this.consumeToken(TokenKind_1.TokenKind.As);\n let typeToken = this.typeToken();\n const type = util_1.util.tokenToBscType(typeToken);\n if (!type) {\n this.diagnostics.push(Object.assign(Object.assign({}, DiagnosticMessages_1.DiagnosticMessages.functionParameterTypeIsInvalid(name.text, typeToken.text)), { range: typeToken.range }));\n throw this.lastDiagnosticAsError();\n }\n return new Statement_1.InterfaceFieldStatement(name, asToken, typeToken, type);\n }", "function collectFieldASTsAndDefs(context, parentType, selectionSet, visitedFragmentNames, astAndDefs) {\n var _visitedFragmentNames = visitedFragmentNames || {};\n var _astAndDefs = astAndDefs || {};\n for (var i = 0; i < selectionSet.selections.length; i++) {\n var selection = selectionSet.selections[i];\n switch (selection.kind) {\n case _languageKinds.FIELD:\n var fieldName = selection.name.value;\n var fieldDef = undefined;\n if (parentType instanceof _typeDefinition.GraphQLObjectType || parentType instanceof _typeDefinition.GraphQLInterfaceType) {\n fieldDef = parentType.getFields()[fieldName];\n }\n var responseName = selection.alias ? selection.alias.value : fieldName;\n if (!_astAndDefs[responseName]) {\n _astAndDefs[responseName] = [];\n }\n _astAndDefs[responseName].push([parentType, selection, fieldDef]);\n break;\n case _languageKinds.INLINE_FRAGMENT:\n var typeCondition = selection.typeCondition;\n var inlineFragmentType = typeCondition ? (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), selection.typeCondition) : parentType;\n _astAndDefs = collectFieldASTsAndDefs(context, inlineFragmentType, selection.selectionSet, _visitedFragmentNames, _astAndDefs);\n break;\n case _languageKinds.FRAGMENT_SPREAD:\n var fragName = selection.name.value;\n if (_visitedFragmentNames[fragName]) {\n continue;\n }\n _visitedFragmentNames[fragName] = true;\n var fragment = context.getFragment(fragName);\n if (!fragment) {\n continue;\n }\n var fragmentType = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), fragment.typeCondition);\n _astAndDefs = collectFieldASTsAndDefs(context, fragmentType, fragment.selectionSet, _visitedFragmentNames, _astAndDefs);\n break;\n }\n }\n return _astAndDefs;\n}", "getField(name) {\n return this.fields.find((a) => a.name === name);\n }", "function resolveField(exeContext, parentType, source, fieldNodes, path) {\n var _fieldDef$resolve;\n\n var fieldNode = fieldNodes[0];\n var fieldName = fieldNode.name.value;\n var fieldDef = getFieldDef(exeContext.schema, parentType, fieldName);\n\n if (!fieldDef) {\n return;\n }\n\n var returnType = fieldDef.type;\n var resolveFn = (_fieldDef$resolve = fieldDef.resolve) !== null && _fieldDef$resolve !== void 0 ? _fieldDef$resolve : exeContext.fieldResolver;\n var info = buildResolveInfo(exeContext, fieldDef, fieldNodes, parentType, path); // Get the resolve function, regardless of if its result is normal or abrupt (error).\n\n try {\n // Build a JS object of arguments from the field.arguments AST, using the\n // variables scope to fulfill any variable references.\n // TODO: find a way to memoize, in case this field is within a List type.\n var args = Object(_values_mjs__WEBPACK_IMPORTED_MODULE_20__[\"getArgumentValues\"])(fieldDef, fieldNodes[0], exeContext.variableValues); // The resolve function's optional third argument is a context value that\n // is provided to every resolve function within an execution. It is commonly\n // used to represent an authenticated user, or request-specific caches.\n\n var _contextValue = exeContext.contextValue;\n var result = resolveFn(source, args, _contextValue, info);\n var completed;\n\n if (Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(result)) {\n completed = result.then(function (resolved) {\n return completeValue(exeContext, returnType, fieldNodes, info, path, resolved);\n });\n } else {\n completed = completeValue(exeContext, returnType, fieldNodes, info, path, result);\n }\n\n if (Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(completed)) {\n // Note: we don't rely on a `catch` method, but we do expect \"thenable\"\n // to take a second callback for the error case.\n return completed.then(undefined, function (rawError) {\n var error = Object(_error_locatedError_mjs__WEBPACK_IMPORTED_MODULE_12__[\"locatedError\"])(rawError, fieldNodes, Object(_jsutils_Path_mjs__WEBPACK_IMPORTED_MODULE_10__[\"pathToArray\"])(path));\n return handleFieldError(error, returnType, exeContext);\n });\n }\n\n return completed;\n } catch (rawError) {\n var error = Object(_error_locatedError_mjs__WEBPACK_IMPORTED_MODULE_12__[\"locatedError\"])(rawError, fieldNodes, Object(_jsutils_Path_mjs__WEBPACK_IMPORTED_MODULE_10__[\"pathToArray\"])(path));\n return handleFieldError(error, returnType, exeContext);\n }\n}", "visitFieldDefinition(field) {\n const { resolve = defaultFieldResolver } = field;\n field.resolve = async (...args) => {\n const params = args[1];\n const context = args[2];\n // Validate JWT token first, then put the user id into the context\n // for fast access from the resolvers.\n await setUserInRequestContextFromJwt(context);\n // If a `role` argument is provided, check that the user has access\n // to the organization (assumed to be given by the query/mutation\n // arguments) with the given `role`.\n if (this.args.role)\n await hasUserAccessToOrganization(this.args.role, params, context);\n return resolve.apply(this, args);\n };\n }", "getFieldClass() {\n return \"mutt-field mutt-field-number\"\n }", "function collectFields(exeContext, runtimeType, selectionSet, fields, visitedFragmentNames) {\n for (var i = 0; i < selectionSet.selections.length; i++) {\n var selection = selectionSet.selections[i];\n switch (selection.kind) {\n case Kind.FIELD:\n if (!shouldIncludeNode(exeContext, selection)) {\n continue;\n }\n var _name = getFieldEntryKey(selection);\n if (!fields[_name]) {\n fields[_name] = [];\n }\n fields[_name].push(selection);\n break;\n case Kind.INLINE_FRAGMENT:\n if (!shouldIncludeNode(exeContext, selection) || !doesFragmentConditionMatch(exeContext, selection, runtimeType)) {\n continue;\n }\n collectFields(exeContext, runtimeType, selection.selectionSet, fields, visitedFragmentNames);\n break;\n case Kind.FRAGMENT_SPREAD:\n var fragName = selection.name.value;\n if (visitedFragmentNames[fragName] || !shouldIncludeNode(exeContext, selection)) {\n continue;\n }\n visitedFragmentNames[fragName] = true;\n var fragment = exeContext.fragments[fragName];\n if (!fragment || !doesFragmentConditionMatch(exeContext, fragment, runtimeType)) {\n continue;\n }\n collectFields(exeContext, runtimeType, fragment.selectionSet, fields, visitedFragmentNames);\n break;\n }\n }\n return fields;\n}", "function declaringFields() { }", "function getObjectField(obj, field) {\n let value = obj;\n for (const name of field) {\n if (value === undefined) {\n return value;\n }\n value = value[name];\n }\n return value;\n}", "function parseField(parser) {\n\t var start = parser.token.start;\n\n\t var nameOrAlias = parseName(parser);\n\t var alias = undefined;\n\t var name = undefined;\n\t if (skip(parser, _lexer.TokenKind.COLON)) {\n\t alias = nameOrAlias;\n\t name = parseName(parser);\n\t } else {\n\t alias = null;\n\t name = nameOrAlias;\n\t }\n\n\t return {\n\t kind: _kinds.FIELD,\n\t alias: alias,\n\t name: name,\n\t arguments: parseArguments(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: peek(parser, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(parser) : null,\n\t loc: loc(parser, start)\n\t };\n\t}", "visitFieldDefinition(field) {\n const requiredRole = this.args.requires;\n // eslint-disable-next-line no-undef\n const { resolve = defaultFieldResolver } = field;\n \n field.resolve = async function (...args) {\n // eslint-disable-next-line prefer-destructuring\n const context = args[2];\n if (!context.me) {\n throw new Error('Unauthenticate User');\n }\n\n const user = await context.models.User.findById(context.me.id);\n const isCheck = await context.models.Role.aggregate([\n {\n $match:{ '_id':user.role}\n },\n {\n $lookup:{\n from :'permissions',\n localField:'permissions._id',\n foreignField: '_id',\n as : 'permissions'\n \n },\n },\n {\n $match:{ 'permissions.name':requiredRole}\n }\n ]);\n \n if (!isCheck || isCheck.length <= 0) {\n throw new Error('Not authorized to perform this operation');\n }\n\n return await resolve.apply(this, args);\n };\n\n }", "function resolveField(exeContext, parentType, source, fieldNodes, path) {\n var _fieldDef$resolve;\n\n var fieldNode = fieldNodes[0];\n var fieldName = fieldNode.name.value;\n var fieldDef = getFieldDef(exeContext.schema, parentType, fieldName);\n\n if (!fieldDef) {\n return;\n }\n\n var returnType = fieldDef.type;\n var resolveFn = (_fieldDef$resolve = fieldDef.resolve) !== null && _fieldDef$resolve !== void 0 ? _fieldDef$resolve : exeContext.fieldResolver;\n var info = buildResolveInfo(exeContext, fieldDef, fieldNodes, parentType, path); // Get the resolve function, regardless of if its result is normal or abrupt (error).\n\n try {\n // Build a JS object of arguments from the field.arguments AST, using the\n // variables scope to fulfill any variable references.\n // TODO: find a way to memoize, in case this field is within a List type.\n var args = (0, _values.getArgumentValues)(fieldDef, fieldNodes[0], exeContext.variableValues); // The resolve function's optional third argument is a context value that\n // is provided to every resolve function within an execution. It is commonly\n // used to represent an authenticated user, or request-specific caches.\n\n var _contextValue = exeContext.contextValue;\n var result = resolveFn(source, args, _contextValue, info);\n var completed;\n\n if ((0, _isPromise.default)(result)) {\n completed = result.then(function (resolved) {\n return completeValue(exeContext, returnType, fieldNodes, info, path, resolved);\n });\n } else {\n completed = completeValue(exeContext, returnType, fieldNodes, info, path, result);\n }\n\n if ((0, _isPromise.default)(completed)) {\n // Note: we don't rely on a `catch` method, but we do expect \"thenable\"\n // to take a second callback for the error case.\n return completed.then(undefined, function (rawError) {\n var error = (0, _locatedError.locatedError)(rawError, fieldNodes, (0, _Path.pathToArray)(path));\n return handleFieldError(error, returnType, exeContext);\n });\n }\n\n return completed;\n } catch (rawError) {\n var error = (0, _locatedError.locatedError)(rawError, fieldNodes, (0, _Path.pathToArray)(path));\n return handleFieldError(error, returnType, exeContext);\n }\n}", "function resolveField(exeContext, parentType, source, fieldNodes, path) {\n var _fieldDef$resolve;\n\n var fieldNode = fieldNodes[0];\n var fieldName = fieldNode.name.value;\n var fieldDef = getFieldDef(exeContext.schema, parentType, fieldName);\n\n if (!fieldDef) {\n return;\n }\n\n var returnType = fieldDef.type;\n var resolveFn = (_fieldDef$resolve = fieldDef.resolve) !== null && _fieldDef$resolve !== void 0 ? _fieldDef$resolve : exeContext.fieldResolver;\n var info = buildResolveInfo(exeContext, fieldDef, fieldNodes, parentType, path); // Get the resolve function, regardless of if its result is normal or abrupt (error).\n\n try {\n // Build a JS object of arguments from the field.arguments AST, using the\n // variables scope to fulfill any variable references.\n // TODO: find a way to memoize, in case this field is within a List type.\n var args = (0, _values.getArgumentValues)(fieldDef, fieldNodes[0], exeContext.variableValues); // The resolve function's optional third argument is a context value that\n // is provided to every resolve function within an execution. It is commonly\n // used to represent an authenticated user, or request-specific caches.\n\n var _contextValue = exeContext.contextValue;\n var result = resolveFn(source, args, _contextValue, info);\n var completed;\n\n if ((0, _isPromise.default)(result)) {\n completed = result.then(function (resolved) {\n return completeValue(exeContext, returnType, fieldNodes, info, path, resolved);\n });\n } else {\n completed = completeValue(exeContext, returnType, fieldNodes, info, path, result);\n }\n\n if ((0, _isPromise.default)(completed)) {\n // Note: we don't rely on a `catch` method, but we do expect \"thenable\"\n // to take a second callback for the error case.\n return completed.then(undefined, function (rawError) {\n var error = (0, _locatedError.locatedError)(rawError, fieldNodes, (0, _Path.pathToArray)(path));\n return handleFieldError(error, returnType, exeContext);\n });\n }\n\n return completed;\n } catch (rawError) {\n var error = (0, _locatedError.locatedError)(rawError, fieldNodes, (0, _Path.pathToArray)(path));\n return handleFieldError(error, returnType, exeContext);\n }\n}", "function getFieldValue(object, fieldName) {\n\t var d = Def.fromValue(object);\n\t if (d) {\n\t var field = d.allFields[fieldName];\n\t if (field) {\n\t return field.getValue(object);\n\t }\n\t }\n\n\t return object[fieldName];\n\t}", "function getFieldValue(object, fieldName) {\n\t var d = Def.fromValue(object);\n\t if (d) {\n\t var field = d.allFields[fieldName];\n\t if (field) {\n\t return field.getValue(object);\n\t }\n\t }\n\n\t return object[fieldName];\n\t}", "function getFieldValue(object, fieldName) {\n var d = Def.fromValue(object);\n if (d) {\n var field = d.allFields[fieldName];\n if (field) {\n return field.getValue(object);\n }\n }\n\n return object && object[fieldName];\n }", "function parseField(lexer) {\n\t var start = lexer.token;\n\n\t var nameOrAlias = parseName(lexer);\n\t var alias = void 0;\n\t var name = void 0;\n\t if (skip(lexer, _lexer.TokenKind.COLON)) {\n\t alias = nameOrAlias;\n\t name = parseName(lexer);\n\t } else {\n\t name = nameOrAlias;\n\t }\n\n\t return {\n\t kind: _kinds.FIELD,\n\t alias: alias,\n\t name: name,\n\t arguments: parseArguments(lexer, false),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n\t loc: loc(lexer, start)\n\t };\n\t}", "visitFieldDefinition(field, details) {\n this.ensureFieldsWrapped(details.objectType)\n field._requiredAuthScopes = this.args.requires\n }", "function collectFieldASTsAndDefs(context, parentType, selectionSet, visitedFragmentNames, astAndDefs) {\n var _visitedFragmentNames = visitedFragmentNames || {};\n var _astAndDefs = astAndDefs || {};\n for (var i = 0; i < selectionSet.selections.length; i++) {\n var selection = selectionSet.selections[i];\n switch (selection.kind) {\n case _kinds.FIELD:\n var fieldName = selection.name.value;\n var fieldDef = void 0;\n if (parentType instanceof _definition.GraphQLObjectType || parentType instanceof _definition.GraphQLInterfaceType) {\n fieldDef = parentType.getFields()[fieldName];\n }\n var responseName = selection.alias ? selection.alias.value : fieldName;\n if (!_astAndDefs[responseName]) {\n _astAndDefs[responseName] = [];\n }\n _astAndDefs[responseName].push([parentType, selection, fieldDef]);\n break;\n case _kinds.INLINE_FRAGMENT:\n var typeCondition = selection.typeCondition;\n var inlineFragmentType = typeCondition ? (0, _typeFromAST.typeFromAST)(context.getSchema(), selection.typeCondition) : parentType;\n _astAndDefs = collectFieldASTsAndDefs(context, inlineFragmentType, selection.selectionSet, _visitedFragmentNames, _astAndDefs);\n break;\n case _kinds.FRAGMENT_SPREAD:\n var fragName = selection.name.value;\n if (_visitedFragmentNames[fragName]) {\n continue;\n }\n _visitedFragmentNames[fragName] = true;\n var fragment = context.getFragment(fragName);\n if (!fragment) {\n continue;\n }\n var fragmentType = (0, _typeFromAST.typeFromAST)(context.getSchema(), fragment.typeCondition);\n _astAndDefs = collectFieldASTsAndDefs(context, fragmentType, fragment.selectionSet, _visitedFragmentNames, _astAndDefs);\n break;\n }\n }\n return _astAndDefs;\n}", "function parseField(lexer) {\n\t var start = lexer.token;\n\n\t var nameOrAlias = parseName(lexer);\n\t var alias = void 0;\n\t var name = void 0;\n\t if (skip(lexer, _lexer.TokenKind.COLON)) {\n\t alias = nameOrAlias;\n\t name = parseName(lexer);\n\t } else {\n\t alias = null;\n\t name = nameOrAlias;\n\t }\n\n\t return {\n\t kind: _kinds.FIELD,\n\t alias: alias,\n\t name: name,\n\t arguments: parseArguments(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : null,\n\t loc: loc(lexer, start)\n\t };\n\t}", "_getFieldsFromValue() {\n const that = this,\n items = that._valueFlat,\n fieldsNames = [],\n fields = [];\n\n function getDataType(data) {\n if (typeof data === 'boolean') {\n return 'boolean';\n }\n\n if (data instanceof Date) {\n if (data.getHours() > 0 || data.getMinutes() > 0 || data.getSeconds() > 0) {\n return 'datetime';\n }\n\n return 'date';\n }\n\n if (!isNaN(data)) {\n return 'number';\n }\n\n return 'string';\n }\n\n for (let i = 0; i < items.length; i++) {\n const item = items[i];\n\n if (item.type === 'condition') {\n const fieldName = item.data[0];\n\n if (fieldName && fieldsNames.indexOf(fieldName) === -1) {\n const fieldElement = { label: fieldName, dataField: fieldName, dataType: getDataType(item.data[2]), format: null };\n\n fieldsNames.push(fieldName);\n fields.push(fieldElement);\n }\n }\n }\n\n that._valueFields = fields;\n }", "function FieldsOnCorrectType(context) {\n return {\n Field: function Field(node) {\n var type = context.getParentType();\n if (type) {\n var fieldDef = context.getFieldDef();\n if (!fieldDef) {\n // This field doesn't exist, lets look for suggestions.\n var schema = context.getSchema();\n var fieldName = node.name.value;\n // First determine if there are any suggested types to condition on.\n var suggestedTypeNames = getSuggestedTypeNames(schema, type, fieldName);\n // If there are no suggested types, then perhaps this was a typo?\n var suggestedFieldNames = suggestedTypeNames.length !== 0 ? [] : getSuggestedFieldNames(schema, type, fieldName);\n\n // Report an error, including helpful suggestions.\n context.reportError(new _error.GraphQLError(undefinedFieldMessage(fieldName, type.name, suggestedTypeNames, suggestedFieldNames), [node]));\n }\n }\n }\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n var nameOrAlias = parseName(lexer);\n var alias;\n var name;\n\n if (expectOptionalToken(lexer, TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: Kind.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer, false),\n directives: parseDirectives(lexer, false),\n selectionSet: peek(lexer, TokenKind.BRACE_L) ? parseSelectionSet(lexer) : undefined,\n loc: loc(lexer, start)\n };\n}", "function parseField(lexer$$1) {\n var start = lexer$$1.token;\n\n var nameOrAlias = parseName(lexer$$1);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer$$1, lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer$$1);\n } else {\n name = nameOrAlias;\n }\n\n return {\n kind: kinds.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer$$1, false),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: peek(lexer$$1, lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer$$1) : undefined,\n loc: loc(lexer$$1, start)\n };\n}", "function parseField(parser) {\n var start = parser.token.start;\n\n var nameOrAlias = parseName(parser);\n var alias = undefined;\n var name = undefined;\n if (skip(parser, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(parser);\n } else {\n alias = null;\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(parser),\n directives: parseDirectives(parser),\n selectionSet: peek(parser, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(parser) : null,\n loc: loc(parser, start)\n };\n}", "function parseField(lexer) {\n var start = lexer.token;\n\n var nameOrAlias = parseName(lexer);\n var alias = void 0;\n var name = void 0;\n if (skip(lexer, _lexer.TokenKind.COLON)) {\n alias = nameOrAlias;\n name = parseName(lexer);\n } else {\n alias = null;\n name = nameOrAlias;\n }\n\n return {\n kind: _kinds.FIELD,\n alias: alias,\n name: name,\n arguments: parseArguments(lexer),\n directives: parseDirectives(lexer),\n selectionSet: peek(lexer, _lexer.TokenKind.BRACE_L) ? parseSelectionSet(lexer) : null,\n loc: loc(lexer, start)\n };\n}" ]
[ "0.6583673", "0.6583673", "0.65033096", "0.6456063", "0.6449472", "0.64401114", "0.64401114", "0.6414258", "0.6369705", "0.63316613", "0.6330788", "0.6319507", "0.63099563", "0.6303175", "0.62634933", "0.6257171", "0.6210179", "0.6194197", "0.6133457", "0.6121138", "0.6113981", "0.60707253", "0.6070324", "0.60474914", "0.60474914", "0.60474914", "0.60474914", "0.60474914", "0.60429066", "0.60429066", "0.60429066", "0.60429066", "0.60429066", "0.60429066", "0.60391355", "0.6026566", "0.59987956", "0.59987956", "0.59570175", "0.5946269", "0.59357053", "0.5919434", "0.5890808", "0.5859733", "0.5830685", "0.58251995", "0.58154863", "0.58154863", "0.58132815", "0.5804006", "0.5698725", "0.56617475", "0.56617475", "0.56617475", "0.56617475", "0.56617475", "0.56617475", "0.56154394", "0.55868185", "0.5564608", "0.5557776", "0.5511546", "0.5476651", "0.5426096", "0.54230183", "0.5396904", "0.53932583", "0.5371589", "0.5362585", "0.5329394", "0.53269506", "0.5325656", "0.5320216", "0.53159714", "0.5313725", "0.53092885", "0.530432", "0.5288024", "0.5287418", "0.528089", "0.52776635", "0.527131", "0.5269797", "0.5266691", "0.5266691", "0.5263231", "0.5263231", "0.5262187", "0.52588946", "0.52556205", "0.5243811", "0.52409446", "0.5233786", "0.5227132", "0.5225107", "0.5216271", "0.52066994", "0.5201663", "0.51973873" ]
0.6289813
15
Output a newline to the buffer.
function cr() { if (this.lastOut !== '\n') { this.lit('\n'); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function cr() {\n if (this.lastOut !== '\\n') {\n this.lit('\\n');\n }\n }", "function sc_newline(p) {\n if (p === undefined) // we assume not given\n\tp = SC_DEFAULT_OUT;\n p.appendJSString(\"\\n\");\n}", "function writeln(str)\n{\n\twrite(str + \"\\r\\n\");\n}", "function newLine() {\n startofLine = true;\n\n logBody.push(\"newLine\")\n logBody.push(`startofLine -> ${startofLine}`)\n }", "function newLine(){\n $(settings.el).delay(settings.speed).queue(function (next){\n var currTextNoCurr = $(this).html().substring(0, $(this).html().length - 1);\n $(this).html(currTextNoCurr + '<br>');\n next();\n\n // we are done, remove from queue\n settings.queue = settings.queue - 1;\n $(settings.mainel).trigger('typewriteNewLine');\n });\n }", "function writeLine(input) {\n document.write(input);\n document.write(\"<br />\");\n}", "function putline() {\n document.write(\"<br/>\");\n}", "static get LF () {\r\n\t\treturn '\\n';\r\n\t}", "function _insertNewLine()\n {\n $(_consoleSelector).val($(_consoleSelector).val() + '\\n' + _hostAndPrompt);\n // Set the limit for erasing the conosole to the beginning of the newline.\n _eraseLimit = $(_consoleSelector).val().length;\n }", "function addNewLine() {\n console.log();\n}", "function log(str, newLine = true) {\n if (newLine) {\n process.stdout.write('\\n');\n } else {\n readline.clearLine(process.stdout, 0);\n readline.cursorTo(process.stdout, 0);\n }\n process.stdout.write(str);\n}", "writeln(line) {\n this.write(line + '\\n');\n }", "function printEOL() {\n console.log('');\n}", "insertLinebreak() {\n this.insertText('\\n');\n }", "function addNewLine() {\n\tbody.appendChild(document.createElement(\"br\"));\n}", "function fn_htmlnewline()\r\n{\r\n\treturn \"<br>\" + Chr(10);\r\n}", "function writeLine() {\n var log = journal.shift();\n if (!log) { return; }\n var line = log.entry;\n\n // use a buffer for the 'scroll' effect\n if (5 === displayBuffer.length) {\n displayBuffer.shift();\n }\n displayBuffer.push(line);\n\n // render the buffer\n c.font = '36px Papyrus, fantasy';\n c.fillStyle = '#001f3f';\n c.fillRect(0, 0, a.width, a.height);\n c.fillStyle = '#01FF70'\n displayBuffer.forEach(function(line, idx) {\n // (x, y, line height)\n c.fillText(line, 100, 100 + (idx * 75));\n });\n\n setTimeout(writeLine, log.delay);\n }", "insertNewline(/*event*/) {\n this._super(...arguments);\n this._parse();\n }", "function println(text) {\n document.writeln(text + \"<br/>\");\n}", "enterNewline(ctx) {\n\t}", "carriageReturn() {\n this._bufferService.buffer.x = 0;\n return true;\n }", "function println(text) {\r\n this.printChars(text + \"\\n\");\r\n}", "eatNewline ( ) {\n\t\tconst ch = this.char();\n\n\t\tif ( ch === '\\r' ) {\n\t\t\tthis.next();\n\t\t\treturn true;\n\t\t}\n\n\t\tif ( ch === '\\n') {\n\t\t\tthis.next();\n\t\t\tthis.eatOptional( '\\r' );\n\t\t\treturn true;\n\t\t}\n\n\t\treturn false;\n\t}", "static get RTF_NEW_LINE() {\n return '\\r\\n';\n }", "function print(text) {\n outputElm.innerHTML = text.replace(/\\n/g, '<br>');\n}", "function print(text) {\n outputElm.innerHTML = text.replace(/\\n/g, '<br>');\n}", "function linebrk(buf, n) {\n\tvar s = buf.toString('ascii');\n\tvar ret = \"\";\n\tvar i = 0;\n\twhile (i + n < s.length) {\n\t\tret += s.substring(i, i + n) + \"\\n\";\n\t\ti += n;\n\t}\n\treturn ret + s.substring(i, s.length);\n}", "function appendNewline(token, write, stack) {\n if (isLineDelimiter(token, stack)) {\n write(\"\\n\", token.loc.start.line, token.loc.start.column);\n return true;\n }\n return false;\n }", "function print(text) {\n\toutputElm.innerHTML = text.replace(/\\n/g, '<br>');\n}", "function newLine() {\r\n return document.createElement('br');\r\n }", "_onWriteLine() {\n this.rl.on(\"line\", input => {\n this.client.write(input);\n });\n }", "function lineBreak(node) {\n addElement(node, \"br\");\n}", "function println(text) {\n\tprint(text);\n\tdocument.body.appendChild(document.createElement('br'));\n}", "function addNewlineToString(text) {\n if (text.charAt(text.length - 1) !== '\\n' && text.length > 0) {\n return text.concat('\\n');\n }\n return text;\n}", "function newLine(className) {\n var line = new TerminalLine(className);\n return line;\n }", "function print(text) \n{\n outputElm.innerHTML = text.replace(/\\n/g, '<br>');\n}", "optionalNewline() {\n return '\\n';\n }", "print(text) {\n const output = this.#output;\n maybeStartLine(this, output);\n if (text === EOL) {\n maybeEndLine(this, output);\n } else {\n output.stream.write(text);\n }\n }", "function println(text) {\r\n print(text + '\\n');\r\n}", "nextLine() {\n this._bufferService.buffer.x = 0;\n this.index();\n return true;\n }", "function writeNextLine () {\n var chunks = [];\n var lineMaybePromise = self.getLine.call(self, function (chunk) {\n chunks.push(chunk);\n }, lineNumber);\n\n Q(lineMaybePromise)\n .then(function () {\n if (chunks.length) {\n lineNumber++;\n // write all chunks, wait for drain (if necessary), call itself\n niceWrite(self.writeStream, chunks.join(\"\") + \"\\n\")\n .then(writeNextLine)\n .catch(reject);\n } else {\n // end the write stream, close the file\n self.writeStream.end(resolve);\n }\n });\n }", "function lf() { return wrap('lf', literal('\\n')()); }", "function lf() { return wrap('lf', literal('\\n')()); }", "function lf() { return wrap('lf', literal('\\n')()); }", "function lf() { return wrap('lf', literal('\\n')()); }", "function appendLineBreak(parent){\n let linebreak = document.createElement(\"br\");\n parent.appendChild(linebreak);\n}", "splitLine() {\n if (!this.selection.isEmpty()) {\n this.session.remove(this.getSelectionRange());\n this.clearSelection();\n }\n\n var cursor = this.getCursorPosition();\n this.insert(\"\\n\");\n this.moveCursorToPosition(cursor);\n }", "function addLine(text) { //adds a new line to the mainConsole\n mainConsole.innerHTML = mainConsole.innerHTML + \"<br>\" + text;\n}", "function newline(cm) {\n if (cm.getOption(\"disableInput\"))\n return CodeMirror.Pass;\n var selections = cm.listSelections();\n var replacements = core_1.repeat(\"\\n\", selections.length);\n for (var i = 0; i < selections.length; i++) {\n var range = selections[i];\n var pos = range.head;\n var eolState = cm.getStateAfter(pos.line);\n if (eolState.list !== false) {\n replacements[i] += core_1.repeatStr(\" \", eolState.listStack.slice(-1)[0]);\n }\n }\n cm.replaceSelections(replacements);\n }", "function output(message) {\n document.getElementById(\"output\").innerHTML += message + \"<br/>\";\n}", "function cr() { return wrap('cr', literal('\\r')()); }", "function cr() { return wrap('cr', literal('\\r')()); }", "function cr() { return wrap('cr', literal('\\r')()); }", "function cr() { return wrap('cr', literal('\\r')()); }", "function convertNewLine(text) {\n return text.replace(/(?:\\r\\n|\\r|\\n)/g, \"<br>\");\n}", "function isNewline(node) {\n\t return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n\t}", "function line(length, ch) {\n if (ch === void 0) { ch = '*'; }\n return (new Array(length + 1)).join(ch);\n }", "_writeLine(str) {\n var line, lineContent, lineContentLength, remaining, roomLeft, toAppend, toAppendLength, toPrepend, toPrependLength;\n // we'll be cutting from our string as we go\n remaining = new SpecialString(str);\n while (true) {\n // left margin...\n // this will continue until nothing is left of our block.\n toPrepend = this._toPrependToLine();\n // ... and its length\n toPrependLength = new SpecialString(toPrepend).length;\n // right margin...\n toAppend = this._toAppendToLine();\n // ... and its length\n toAppendLength = new SpecialString(toAppend).length;\n // how much room is left for content\n roomLeft = this._layout._config.terminalWidth - (toPrependLength + toAppendLength);\n // how much room each line of content will have\n lineContentLength = Math.min(this._config.width, roomLeft);\n // cut line content, only for the amount needed\n lineContent = remaining.cut(0, lineContentLength, true);\n // line will consist of both margins and the content\n line = toPrepend + lineContent.str + toAppend;\n // send it off to layout\n this._layout._appendLine(line);\n if (remaining.isEmpty()) {\n break;\n }\n }\n }", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function isNewline(node) {\n return useNewlineChar ? node.textContent === '\\n' : node.tagName === 'BR';\n}", "function newline2linebreak(s) {\r\n return s.replace(/\\n/g, \"<br>\")\r\n}", "function OutputLine(msg) {\n $(\"output\").value += msg + \"\\n\";\n}", "function putlines(n) {\n if (isNaN(n))\n n = 1;\n for (var index = 0; index < n; ++index)\n document.write(\"<br/>\");\n}", "function getNewLineOrDefaultFromHost(host) {\n return host.getNewLine ? host.getNewLine() : carriageReturnLineFeed;\n }", "function crlf() { return wrap('crlf', and(cr, lf)()); }", "function crlf() { return wrap('crlf', and(cr, lf)()); }", "function crlf() { return wrap('crlf', and(cr, lf)()); }", "function crlf() { return wrap('crlf', and(cr, lf)()); }", "function isEOL(ch) {\n return ch === '\\n';\n }", "function add_to_output(s) {\n const output = document.getElementById(\"output\");\n output.innerHTML += \"\\n\" + s;\n output.scrollTop = output.scrollHeight;\n}", "writeLine(text)\n {\n this.liveFunc.writeLine(text);\n return YAPI_SUCCESS;\n }", "function write(buffer, encoding, next) {\n if (caps) {\n this.push(buffer.toString().toUpperCase());\n }\n else {\n this.push(buffer.toString().toLowerCase());\n }\n this.push('\\n');\n caps = !caps;\n next(); //We're ready to receive the next chunk\n}", "function addNewlines (str, n) {\n\tvar arr = str.split(' ')\n\tvar chunks = _.chunk(arr, n)\n\tvar strings = chunks.map(function (c) { \n\t\treturn c.join(' ') \n\t})\n\treturn strings.join('\\n')\n}", "writeln(txt) {\n\n this.fileOut.write(txt + \"\\n\")\n\n }", "function addNewLines(str) {\n var finalString = '';\n while (str.length > 0) {\n finalString += str.substring(0, 64) + '\\n';\n str = str.substring(64);\n }\n\n return finalString;\n}", "outputLF() {\n this.cursor.y += 1;\n if (this.cursor.y == this.scrollMax + 1) {\n this.outputScrollUp(1);\n this.cursor.y = this.scrollMax;\n }\n else if (this.cursor.y >= this.termRows) {\n this.cursor.y = this.termRows - 1;\n }\n }", "function splitnewline() {\n return;\n}", "addLineBreak() {\n if (\n !(\n this._stackItem instanceof BlockStackItem ||\n this._stackItem instanceof TableCellStackItem\n )\n ) {\n return;\n }\n if (this._stackItem.isPre) {\n this._stackItem.rawText += \"\\n\";\n } else {\n this._stackItem.inlineTextBuilder.startNewLine();\n }\n }", "exitNewline(ctx) {\n\t}", "insertNewline(event) {\n this._super(...arguments);\n\n if (this['ctrlEnterSubmitsForm?'] && event.ctrlKey) {\n once(this, this._triggerFormSubmission, this.afterAction, this.beforeAction, event, this._form);\n }\n }", "function out(line) {\n core.output(line);\n}", "function writeFixedSentence() {\n process.stdout.write(sentence);\n if (sentence[sentence.length - 1] != '\\n') {\n process.stdout.write('\\n');\n }\n}", "function matchNewLine() {\n\t\tvar pattern = /^\\n/;\n\t\tvar x = lexString.match(pattern);\n\t\tif(x !== null) {\n\t\t\treturn true;\n\t\t}\n\t\telse {\n\t\t\treturn false;\n\t\t}\n\t}", "function write(str)\n{\n\toutput_buf += str;\n}", "function line() {\n document.getElementById(\"texto\").value += `\\n`;\n}", "function stdout(buffer){\n console.log(buffer.toString('utf-8'))\n}", "function EOL() {\n return parser(function (ps) {\n if (ps.isEOS()) {\n return ps.succeed(undefined);\n }\n\n if (ps.text[ps.position] === \"\\n\") {\n ++ps.position;\n\n return ps.succeed(undefined);\n }\n\n if (ps.text[ps.position] === \"\\r\") {\n ++ps.position;\n\n if (!ps.isEOS() && ps.text[ps.position] === \"\\n\") {\n ++ps.position;\n\n return ps.succeed(undefined);\n }\n\n return ps.succeed(undefined);\n }\n\n return ps.fail();\n });\n }", "async function t_writeln(message, sec=t_writeSpeed) {\r\n t_ln();\r\n await t_write(message, sec);\r\n}", "function createNewLine(lastLineTextAppend) {\n if (lastLineTextAppend !== undefined) {\n $('.current-output').append(lastLineTextAppend);\n }\n \n $('.current-line').removeClass('current-line');\n $('.current-output').removeClass('current-output');\n $('.userEntry').remove();\n dosEl.append('<div class=\"line current-line\"><span class=\"output current-output\">></span></div>');\n userInputField();\n $('.userEntry').focus();\n }", "function doBrowserOutput(text) {\r\n if (GAME.gameOver) {\r\n return;\r\n }\r\n var ta = document.getElementById(\"con_stdout\");\r\n ta.value += text;\r\n ta.scrollTop = ta.scrollHeight;\r\n}", "function br() { return \"<br />\" }", "function linebreak(displayText) {\n\treturn displayText;\n}" ]
[ "0.68626684", "0.646926", "0.6364287", "0.62537265", "0.62073195", "0.61951905", "0.61894673", "0.61886406", "0.6188402", "0.61088437", "0.6071579", "0.606194", "0.6021159", "0.5928647", "0.5887326", "0.5816335", "0.5705863", "0.56727886", "0.5629288", "0.558298", "0.55758154", "0.5570771", "0.5559996", "0.54945606", "0.5490972", "0.5482474", "0.5476142", "0.5471066", "0.5431226", "0.5397139", "0.5372701", "0.5346727", "0.53436345", "0.53314656", "0.5325094", "0.5323381", "0.53205997", "0.5318", "0.5316834", "0.5315646", "0.52956295", "0.52841336", "0.52841336", "0.52841336", "0.52841336", "0.527052", "0.5247486", "0.52453244", "0.52241915", "0.5216859", "0.52088857", "0.52088857", "0.52088857", "0.52088857", "0.5160496", "0.51501286", "0.5130528", "0.5121633", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.5120972", "0.50934505", "0.5091401", "0.5079153", "0.50618905", "0.50558674", "0.50558674", "0.50558674", "0.50558674", "0.5035507", "0.50353616", "0.50303584", "0.5009031", "0.49844468", "0.49805158", "0.4976624", "0.49661943", "0.49630272", "0.49562463", "0.49427137", "0.4942292", "0.49419144", "0.49393055", "0.49267042", "0.49169108", "0.49084833", "0.49007514", "0.489476", "0.48770297", "0.487673", "0.48725504", "0.48721793", "0.48717558" ]
0.6761441
2
inlined Object.is polyfill to avoid requiring consumers ship their own /eslintdisable noselfcompare
function is(x, y) { // SameValue algorithm if (x === y) { // Steps 1-5, 7-10 // Steps 6.b-6.e: +0 != -0 return x !== 0 || 1 / x === 1 / y; } else { // Step 6.a: NaN == NaN return x !== x && y !== y; } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function isObject$1(obj) {\n // incase of arrow function and array\n return Object(obj) === obj && String(obj) === '[object Object]' && !isFunction(obj) && !isArray(obj);\n }", "function isObject$1(obj) {\n // incase of arrow function and array\n return Object(obj) === obj && String(obj) === '[object Object]' && !isFunction(obj) && !isArray(obj);\n }", "function u(e){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction(e){return null!=e&&\"object\"==typeof e&&!1===Array.isArray(e)}(e)&&\"[object Object]\"===Object.prototype.toString.call(e)}", "function isObject$1(obj) {\n // incase of arrow function and array\n return Object(obj) === obj && String(obj) === '[object Object]' && !isFunction(obj) && !isArray$1(obj);\n}", "function i(e){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction(e){return null!=e&&\"object\"==typeof e&&!1===Array.isArray(e)}(e)&&\"[object Object]\"===Object.prototype.toString.call(e)}", "function is(obj) {\n return obj instanceof __WEBPACK_IMPORTED_MODULE_3__Range__[\"c\" /* default */];\n}", "function isObject(obj) {\n // incase of arrow function and array\n return Object(obj) === obj && String(obj) === '[object Object]' && !isFunction(obj) && !isArray(obj);\n }", "function _isPlainObject(obj) {\n return (obj && obj.constructor.prototype === Object.prototype);\n}", "__is_object(value) {\n return value && typeof value === 'object' && value.constructor === Object;\n }", "function isObject(obj) { // 71\n\t\treturn toString.call(obj) === '[object Object]'; // 72\n\t} // 73", "isPlainObject(obj) {\n return _toString.call(obj) === '[object Object]'\n }", "function isObject$1(obj) {\n return kindOf(obj) === 'object' || kindOf(obj) === 'function';\n}", "function isObject$1(obj) {\n return kindOf(obj) === 'object' || kindOf(obj) === 'function';\n}", "function isObject$1(obj) {\n return kindOf(obj) === 'object' || kindOf(obj) === 'function';\n}", "function isObject$1(obj) {\n return kindOf(obj) === 'object' || kindOf(obj) === 'function';\n}", "isObject(obj) {\n return obj !== null && typeof obj === 'object'\n }", "function isObject(obj) {\n // incase of arrow function and array\n return Object(obj) === obj && String(obj) === '[object Object]' && !isFunction(obj) && !isArray(obj);\n }", "function isObjectLike(value) {\n return _typeof$1(value) == 'object' && value !== null;\n }", "function isObjectLike$a(value) {\n return typeof value == 'object' && value !== null;\n}", "function isObject(o) { return typeof o === 'object'; }", "function isObject(o) { return typeof o === 'object'; }", "function isObject(o) { return typeof o === 'object'; }", "static hasObjectify(object) {\n return isObjectAssigned(object) && isFunction(object.objectify);\n }", "function isObjectLike(value) {\n return typeof value === \"object\" && !!value;\n}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObjectObject(o){return!0===\n/*!\n * isobject <https://github.com/jonschlinkert/isobject>\n *\n * Copyright (c) 2014-2017, Jon Schlinkert.\n * Released under the MIT License.\n */\nfunction isObject(val){return null!=val&&\"object\"==typeof val&&!1===Array.isArray(val)}(o)&&\"[object Object]\"===Object.prototype.toString.call(o)}", "function isObject(obj) {\n return obj === Object(obj);\n}", "function isObject(entry) {\n return entry.constructor === Object;\n}", "function isObject(obj) {\n return obj === Object(obj);\n}", "__key_in_object(object, key) {\n if (Object.prototype.hasOwnProperty.call(object, key)) {\n return true\n } else {\n return false\n }\n }", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function isObjectLike(value) {\n return _typeof(value) == 'object' && value !== null;\n}", "function utilIsIterable(obj) {\n\t\treturn obj != null && typeof obj[Symbol.iterator] === 'function'; // lazy equality for null\n\t}", "function isObjectLike(value) {\n return value != null && (typeof value === \"function\" || typeof value === \"object\");\n}", "function isObjectLike(obj) {\n return typeof obj === \"object\" && obj !== null;\n}", "function isObject (o) { return o && typeof o === 'object' }", "function isObject (o) { return o && typeof o === 'object' }", "function isObject$8(val) {\n return kindOf$3(val) === 'object' || typeof val === 'function';\n}", "function isObject(obj){\n return Object.prototype.toString.call(obj) == '[object Object]';\n }", "function isObject$1(e){return\"[object Object]\"===Object.prototype.toString.call(e)}", "function isObject(value) { return typeof value === \"object\" && value !== null; }", "function _isObject(v) {\n return (Object.prototype.toString.call(v) === '[object Object]');\n}", "function _isObject(v) {\n return (Object.prototype.toString.call(v) === '[object Object]');\n}", "function _isObject(v) {\n return (Object.prototype.toString.call(v) === '[object Object]');\n}", "function _isObject(v) {\n return (Object.prototype.toString.call(v) === '[object Object]');\n}", "function _isObject(v) {\n return (Object.prototype.toString.call(v) === '[object Object]');\n}", "function isObj$1(something) {\n return typeDetect(something) === 'Object';\n}", "function isObject(a) {\n return (!!a) && (a.constructor === Object);\n}", "function isObject(o){ return typeof o === 'object' && o !== null; }", "function isObject$2556(x$2572) {\n return function isObject$2556(x$2573) {\n return function (a0$2574) {\n if (Object.prototype.toString.call(a0$2574) === '[object Object]') {\n return true;\n }\n return false;\n }.call(this, x$2573);\n }.curry().apply(null, arguments);\n }", "function isObject(obj) {\n\n return obj && typeof obj === \"object\";\n}", "isObjectEqual(a, b) {\n return a && b && a.foo === b.foo;\n }", "function objectHasEnumerableKeys(value) {\n for (const _ in value) return true;\n return false;\n}", "function isObject(x) {\n return x != null && typeof x === 'object';\n}", "function isObject(o) {\n return o === Object(o);\n}", "function isObject( x ) {\n return typeof x === \"object\" && x !== null;\n }", "function isFrozen(obj) {\n if (!obj) { return true; }\n // TODO(erights): Object(<primitive>) wrappers should also be\n // considered frozen.\n if (obj.FROZEN___ === obj) { return true; }\n var t = typeof obj;\n return t !== 'object' && t !== 'function';\n }", "function isIterableObject(obj) {\n if (obj === undefined || obj === null) {\n return false;\n }\n var t = typeof(obj);\n var types = {'string': 0, 'function': 0, 'number': 0, 'undefined': 0, 'boolean': 0};\n return types[t] === undefined;\n}", "function isObject(value) {\n return typeof value === 'object' && !!value;\n}", "function isObject(x) {\n return typeof x === \"object\" && x !== null;\n}", "function isObject$1(value) {\n return _typeof_1(value) === \"object\" && value !== null;\n}", "function isObject$1(value) {\n return _typeof_1(value) === \"object\" && value !== null;\n}", "function isObject$1(value) {\n return typeof value === 'object' && value !== null || typeof value === 'function';\n }", "function isObject(obj) {\n return kindOf(obj) === 'object' || kindOf(obj) === 'function';\n}", "function isObject(e){return Object.prototype.toString.call(e)===\"[object Object]\"}", "function isObject(obj){return obj!==null&&(typeof obj===\"undefined\"?\"undefined\":_typeof2(obj))==='object';}", "function isObject(obj){return obj!==null&&(typeof obj===\"undefined\"?\"undefined\":_typeof2(obj))==='object';}", "function isObject(obj) {\n return Object.prototype.toString.call(obj) === '[object Object]';\n}", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function isObject$1(obj) {\n return obj !== null && _typeof(obj) === 'object' && 'constructor' in obj && obj.constructor === Object;\n }", "function IsObject(x) {\r\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\r\n }", "function IsObject(x) {\r\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\r\n }", "function IsObject(x) {\r\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\r\n }", "function isObject_(test) {\r\n return Object.prototype.toString.call(test) === '[object Object]';\r\n}", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function IsObject(x) {\n return typeof x === \"object\" ? x !== null : typeof x === \"function\";\n }", "function isObject(value) {\n return value && typeof value === 'object';\n}", "function isObject$2(value) {\n return (\n typeof value === \"object\" &&\n value !== null &&\n // none of these are collection objects, so we can return false\n !(value instanceof Boolean) &&\n !(value instanceof Date) &&\n !(value instanceof Error) &&\n !(value instanceof Number) &&\n !(value instanceof RegExp) &&\n !(value instanceof String)\n );\n}", "function isObject$2(value) {\n return (\n typeof value === \"object\" &&\n value !== null &&\n // none of these are collection objects, so we can return false\n !(value instanceof Boolean) &&\n !(value instanceof Date) &&\n !(value instanceof Error) &&\n !(value instanceof Number) &&\n !(value instanceof RegExp) &&\n !(value instanceof String)\n );\n}", "function isPlainObject(obj){return _toString.call(obj)==='[object Object]';}" ]
[ "0.673139", "0.6633761", "0.6610435", "0.65997535", "0.65996826", "0.6565089", "0.6506278", "0.6468222", "0.6462761", "0.64114064", "0.63700455", "0.6365079", "0.6365079", "0.6365079", "0.6365079", "0.6356776", "0.63271695", "0.6322019", "0.63218695", "0.62953717", "0.62953717", "0.62953717", "0.6294673", "0.62904054", "0.628497", "0.628497", "0.628497", "0.628497", "0.628497", "0.628497", "0.628497", "0.6270066", "0.6250916", "0.62447107", "0.6241278", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.6240774", "0.62386024", "0.6236874", "0.6233236", "0.62306046", "0.62306046", "0.6229566", "0.6218699", "0.6198227", "0.6193642", "0.61890423", "0.61890423", "0.61890423", "0.61890423", "0.61890423", "0.61847925", "0.6155242", "0.615281", "0.6146502", "0.6140892", "0.61373913", "0.6127569", "0.61252844", "0.61108476", "0.6107225", "0.60995185", "0.6085899", "0.6082805", "0.6082569", "0.608236", "0.608236", "0.6078241", "0.6075732", "0.60656136", "0.6060151", "0.6060151", "0.60552967", "0.60548156", "0.60548156", "0.60548156", "0.60548156", "0.60548156", "0.60548156", "0.60548156", "0.6051125", "0.60496753", "0.60496753", "0.60496753", "0.6042014", "0.60415846", "0.60415846", "0.60379064", "0.60337716", "0.60337716", "0.6033417" ]
0.0
-1
Equivalent of `typeof` but with special handling for array and regexp.
function getPropType(propValue) { var propType = typeof propValue; if (Array.isArray(propValue)) { return 'array'; } if (propValue instanceof RegExp) { // Old webkits (at least until Android 4.0) return 'function' rather than // 'object' for typeof a RegExp. We'll normalize this here so that /bla/ // passes PropTypes.object. return 'object'; } if (isSymbol(propType, propValue)) { return 'symbol'; } return propType; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function sc_typeof( x ) {\n return typeof x;\n}", "static type(arg)\n {\n const types = [\n 'array', 'boolean', 'function', 'number',\n 'null', 'object', 'regexp', 'symbol', 'string',\n 'undefined'\n ]\n\n var type = Object.prototype.toString.call(arg),\n type = type.match(/^\\[.+ (.+)\\]$/),\n type = type[1],\n type = type.toLowerCase()\n\n if (types.indexOf(type) !== -1) {\n return type\n }\n\n return typeof arg\n }", "function AsYouType_typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { AsYouType_typeof = function _typeof(obj) { return typeof obj; }; } else { AsYouType_typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return AsYouType_typeof(obj); }", "function type(input) {\n \treturn typeof input\n}", "function _typeof$1(obj) {\n\t \"@babel/helpers - typeof\";\n\n\t return _typeof$1 = \"function\" == typeof Symbol && \"symbol\" == typeof Symbol.iterator ? function (obj) {\n\t return typeof obj;\n\t } : function (obj) {\n\t return obj && \"function\" == typeof Symbol && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj;\n\t }, _typeof$1(obj);\n\t}", "function _typeOf ( value )\n\t{\n\t\tvar type;\n\n\t\ttype = typeof value;\n\t\tif ( type === \"number\" )\n\t\t{\n\t\t\tif ( isNaN( value ) )\n\t\t\t{\n\t\t\t\ttype = \"NaN\";\n\t\t\t}\n\t\t}\n\t\telse if ( type === \"object\" )\n\t\t{\n\t\t\tif ( value )\n\t\t\t{\n\t\t\t\tif ( value instanceof Array )\n\t\t\t\t{\n\t\t\t\t\ttype = \"array\";\n\t\t\t\t}\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\ttype = \"null\";\n\t\t\t}\n\t\t}\n\n\t\treturn type;\n\t}", "function _typeOf ( value )\n\t{\n\t\tvar type;\n\n\t\ttype = typeof value;\n\t\tif ( type === \"number\" )\n\t\t{\n\t\t\tif ( isNaN( value ) )\n\t\t\t{\n\t\t\t\ttype = \"NaN\";\n\t\t\t}\n\t\t}\n\t\telse if ( type === \"object\" )\n\t\t{\n\t\t\tif ( value )\n\t\t\t{\n\t\t\t\tif ( value instanceof Array )\n\t\t\t\t{\n\t\t\t\t\ttype = \"array\";\n\t\t\t\t}\n\t\t\t}\n\t\t\telse\n\t\t\t{\n\t\t\t\ttype = \"null\";\n\t\t\t}\n\t\t}\n\n\t\treturn type;\n\t}", "function typeStr (obj) {\n\t return isArray(obj) ? 'array' : typeof obj;\n\t }", "function typeStr (obj) {\n\t return isArray(obj) ? 'array' : typeof obj;\n\t }", "function getType(data) {\n return typeof data;\n}", "function $type(obj) {\n if (obj == undefined) return false;\n\n if (obj.$family) return (obj.$family.name == 'number' && !isFinite(obj)) ? false : obj.$family.name;\n if (obj.nodeName){\n switch (obj.nodeType) {\n case 1: return 'element';\n case 9: return 'window';\n case 3: return (/\\S/).test(obj.nodeValue) ? 'textnode' : 'whitespace';\n }\n } else if (obj.window) {\n return 'element';\n } else if (typeof obj.length == 'number') {\n if (obj.callee) {\n return 'arguments';\n } else if (obj.item) {\n return 'collection';\n }\n }\n return typeof obj;\n}", "function _typeof(t){return(_typeof=\"function\"==typeof Symbol&&\"symbol\"==typeof Symbol.iterator?function(t){return typeof t}:function(t){return t&&\"function\"==typeof Symbol&&t.constructor===Symbol&&t!==Symbol.prototype?\"symbol\":typeof t})(t)}", "function _typeof(t){return(_typeof=\"function\"==typeof Symbol&&\"symbol\"==typeof Symbol.iterator?function(t){return typeof t}:function(t){return t&&\"function\"==typeof Symbol&&t.constructor===Symbol&&t!==Symbol.prototype?\"symbol\":typeof t})(t)}", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function $type(obj) {\r\n\t\tif (obj.nodeType) {\r\n\t\t\tswitch(obj.nodeType) {\r\n\t\t\t\tcase 1: return \"element\"; break;\r\n\t\t\t\tcase 3: return \"textnode\"; break;\r\n\t\t\t\tcase 9: return \"document\"; break;\r\n\t\t\t}\r\n\t\t}\r\n\t\tif (obj.item && obj.length) return \"collection\";\r\n\t\tif (obj.nodeName) return obj.nodeName;\r\n\t\tif (obj.sort) return \"array\";\r\n\t\treturn typeof(obj);\r\n\t}", "function getType(arg) {\n return typeof arg;\n}", "function whatDatatype(arg){\n return typeof(arg);\n}", "function typeOf(b){var a=typeof b;if(a===\"object\"){if(b){if(typeof b.length===\"number\"&&!(b.propertyIsEnumerable(\"length\"))&&typeof b.splice===\"function\"){a=\"array\"}}else{a=\"null\"}}return a}", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\n return isArray(obj) ? 'array' : typeof obj;\n }", "function typeStr (obj) {\r\n return isArray(obj) ? 'array' : typeof obj;\r\n }", "function typeOf(value) {\n\tvar s = typeof value;\n\tif (s === 'object') {\n\t\tif (value) {\n\t\t\tif (typeof value.length === 'number' &&\n\t\t\t\t\t!(value.propertyIsEnumerable('length')) &&\n\t\t\t\t\ttypeof value.splice === 'function') {\n\t\t\t\ts = 'array';\n\t\t\t}\n\t\t} else {\n\t\t\ts = 'null';\n\t\t}\n\t}\n\treturn s;\n}", "function whatsTheTypeOf(input) {\n return typeof input ; //returns the type information as a string\n}", "function type(value){\n return (\n Array.isArray(value) ? \"array\" :\n value instanceof Date ? \"date\" :\n typeof value\n );\n}", "function Type(){\n\t\t\tthis.array='Array';\n\t\t\tthis.object='object';\n\t\t\tthis.string='string';\n\t\t\tthis.fn='function';\n\t\t\tthis.number='number';\n\t\t}", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? \"symbol\" : typeof obj; }; } return _typeof(obj); }", "function _typeof(obj) { \"@babel/helpers - typeof\"; if (typeof Symbol === \"function\" && typeof Symbol.iterator === \"symbol\") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === \"function\" && obj.constructor === Symbol && obj !== Symbol.prototype ? 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\"symbol\" : typeof obj; }; } return _typeof(obj); }", "function x(e) {\n var t = typeof e;\n return Array.isArray(e) ? \"array\" : e instanceof RegExp ? \"object\" : b(t, e) ? \"symbol\" : t;\n }", "function $type(obj){\n if (obj == undefined) \n return false;\n if (obj.htmlElement) \n return 'element';\n var type = typeof obj;\n if (type == 'object' && obj.nodeName) {\n switch (obj.nodeType) {\n case 1:\n return 'element';\n case 3:\n return (/\\S/).test(obj.nodeValue) ? 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'array' : 'object');\n\t}\n\n\treturn typeof input;\n\n}", "function _typeof( o ) {\r\n return typeof o ;\r\n }", "function getType(o)\n{\n\tif (o === null)\n\t\treturn \"null\";\n\t\n\tif (Array.isArray(o))\n\t\treturn \"array\";\n\t\n\treturn typeof o;\n}", "function _typeof2(e){return _typeof2=\"function\"==typeof Symbol&&\"symbol\"==typeof Symbol.iterator?function(e){return typeof e}:function(e){return e&&\"function\"==typeof Symbol&&e.constructor===Symbol&&e!==Symbol.prototype?\"symbol\":typeof e},_typeof2(e)}", "function $type(obj){\r\n if (!$defined(obj)) \r\n return false;\r\n if (obj.htmlElement) \r\n return 'element';\r\n var type = typeof obj;\r\n if (type == 'object' && obj.nodeName) {\r\n switch (obj.nodeType) {\r\n case 1:\r\n return 'element';\r\n case 3:\r\n return (/\\S/).test(obj.nodeValue) ? 'textnode' : 'whitespace';\r\n }\r\n }\r\n if (type == 'object' || type == 'function') {\r\n switch (obj.constructor) {\r\n case Array:\r\n return 'array';\r\n case RegExp:\r\n return 'regexp';\r\n case Class:\r\n return 'class';\r\n }\r\n if (typeof obj.length == 'number') {\r\n if (obj.item) \r\n return 'collection';\r\n if (obj.callee) \r\n return 'arguments';\r\n }\r\n }\r\n return type;\r\n }" ]
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0.0
-1
This handles more types than `getPropType`. Only used for error messages. See `createPrimitiveTypeChecker`.
function getPreciseType(propValue) { if (typeof propValue === 'undefined' || propValue === null) { return '' + propValue; } var propType = getPropType(propValue); if (propType === 'object') { if (propValue instanceof Date) { return 'date'; } else if (propValue instanceof RegExp) { return 'regexp'; } } return propType; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
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We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n\t\t var propType = typeof propValue;\n\t\t if (Array.isArray(propValue)) {\n\t\t return 'array';\n\t\t }\n\t\t if (propValue instanceof RegExp) {\n\t\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t\t // 'object' for typeof a RegExp. 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We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t var propType = typeof propValue;\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n\t\t var propType = typeof propValue;\n\t\t if (Array.isArray(propValue)) {\n\t\t return 'array';\n\t\t }\n\t\t if (propValue instanceof RegExp) {\n\t\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t\t // passes PropTypes.object.\n\t\t return 'object';\n\t\t }\n\t\t if (isSymbol(propType, propValue)) {\n\t\t return 'symbol';\n\t\t }\n\t\t return propType;\n\t\t}", "function getPropType(propValue) {\n\t\t var propType = typeof propValue;\n\t\t if (Array.isArray(propValue)) {\n\t\t return 'array';\n\t\t }\n\t\t if (propValue instanceof RegExp) {\n\t\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t\t // passes PropTypes.object.\n\t\t return 'object';\n\t\t }\n\t\t if (isSymbol(propType, propValue)) {\n\t\t return 'symbol';\n\t\t }\n\t\t return propType;\n\t\t}", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return \"array\";\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return \"object\";\n }\n if (isSymbol(propType, propValue)) {\n return \"symbol\";\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n\t var propType = typeof propValue === 'undefined' ? 'undefined' : _typeof(propValue);\n\t if (Array.isArray(propValue)) {\n\t return 'array';\n\t }\n\t if (propValue instanceof RegExp) {\n\t // Old webkits (at least until Android 4.0) return 'function' rather than\n\t // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n\t // passes PropTypes.object.\n\t return 'object';\n\t }\n\t if (isSymbol(propType, propValue)) {\n\t return 'symbol';\n\t }\n\t return propType;\n\t }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }", "function getPropType(propValue) {\n var propType = typeof propValue;\n if (Array.isArray(propValue)) {\n return 'array';\n }\n if (propValue instanceof RegExp) {\n // Old webkits (at least until Android 4.0) return 'function' rather than\n // 'object' for typeof a RegExp. We'll normalize this here so that /bla/\n // passes PropTypes.object.\n return 'object';\n }\n if (isSymbol(propType, propValue)) {\n return 'symbol';\n }\n return propType;\n }" ]
[ "0.68783313", "0.6854933", "0.6854933", "0.6854933", "0.6854933", "0.6853718", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.6848216", "0.68397087", "0.68397087", "0.6837768", "0.6819408", "0.6816358", "0.6816358", "0.6816358", "0.6816358", "0.6816358", "0.6801936", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447", "0.6782447" ]
0.0
-1
Returns a string that is postfixed to a warning about an invalid type. For example, "undefined" or "of type array"
function getPostfixForTypeWarning(value) { var type = getPreciseType(value); switch (type) { case 'array': case 'object': return 'an ' + type; case 'boolean': case 'date': case 'regexp': return 'a ' + type; default: return type; } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function _undefinedCoerce() {\n return '';\n}", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case \"array\":\n case \"object\":\n return \"an \" + type;\n case \"boolean\":\n case \"date\":\n case \"regexp\":\n return \"a \" + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n\t\t var type = getPreciseType(value);\n\t\t switch (type) {\n\t\t case 'array':\n\t\t case 'object':\n\t\t return 'an ' + type;\n\t\t case 'boolean':\n\t\t case 'date':\n\t\t case 'regexp':\n\t\t return 'a ' + type;\n\t\t default:\n\t\t return type;\n\t\t }\n\t\t }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch (type) {\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n var type = getPreciseType(value);\n switch(type){\n case 'array':\n case 'object':\n return 'an ' + type;\n case 'boolean':\n case 'date':\n case 'regexp':\n return 'a ' + type;\n default:\n return type;\n }\n }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }", "function getPostfixForTypeWarning(value) {\n\t var type = getPreciseType(value);\n\t switch (type) {\n\t case 'array':\n\t case 'object':\n\t return 'an ' + type;\n\t case 'boolean':\n\t case 'date':\n\t case 'regexp':\n\t return 'a ' + type;\n\t default:\n\t return type;\n\t }\n\t }" ]
[ "0.6602747", "0.65663886", "0.6560637", "0.6560637", "0.6560637", "0.6560637", "0.65234375", "0.652277", "0.6507024", "0.6507024", "0.6507024", "0.6507024", "0.6507024", "0.65024", "0.6490893", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003", "0.64789003" ]
0.0
-1
Returns class name of the object, if any.
function getClassName(propValue) { if (!propValue.constructor || !propValue.constructor.name) { return ANONYMOUS; } return propValue.constructor.name; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getClassName(obj) {\n var funcNameRegex = /function\\s+(.+?)\\s*\\(/;\n var results = funcNameRegex.exec(obj['constructor'].toString());\n return (results && results.length > 1) ? results[1] : '';\n }", "getClassName() {\n return this.constructor\n .className;\n }", "getClassName() {\n return this.constructor\n .className;\n }", "function getClassName(obj)\n{\n if (obj === null) {\n return 'null';\n }\n if (obj === undefined) {\n return 'undefined';\n }\n var c = obj.constructor.toString();\n return c.substring(9, c.indexOf('(', 10));\n}", "function getClass(o) {\n\n\tif (o === null || o === undefined) return \"Object\";\n\treturn OP_toString.call(o).slice(\"[object \".length, -1);\n}", "getClassName() {\n return this.constructor.name\n }", "function getClass(obj) {\r\n return Object.prototype.toString.call(obj);\r\n}", "function getClass(obj) {\n return {}.toString.call(obj).slice(8, -1);\n}", "static getClassName() {\n return \"Object\";\n }", "function classOf(o){\n if(o === null) return \"Null\";\n if(o === undefined) return \"Undefined\";\n return Object.prototype.toString.call(o).slice(8, -1);\n}", "function get$className()/* : String*/\n {\n return flash.utils.getQualifiedClassName(this).replace(/::/, \".\");\n }", "function get_class_name(current_obj) {\n\t\t\tvar id = current_obj.attr('id');\n\t\t\tvar name = id.substring(6,id.length);\n\t\t\treturn name;\n\t\t}", "function getObjectName(object) {\n if (object === undefined) {\n return '';\n }\n if (object === null) {\n return 'Object';\n }\n if (typeof object === 'object' && !object.constructor) {\n return 'Object';\n }\n var funcNameRegex = /function ([^(]*)/;\n var results = (funcNameRegex).exec((object).constructor.toString());\n if (results && results.length > 1) {\n return results[1];\n }\n else {\n return '';\n }\n }", "function _getClazz() {\r\n\t\tvar n = clz = this.vj$._class, idx = n.lastIndexOf('.');\r\n\t\tif (idx != -1) clz = n.substring(idx+1); \r\n\t\tif (this.vj$[clz]) return this.vj$[clz].clazz;\r\n\r\n\t\t//Error case...\r\n\t\treturn null;\r\n\t}", "getClassName() {\n return this.statesTable.getString(this.currentState, 'ClassName');\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }", "function getClassName(propValue) {\n if (!propValue.constructor || !propValue.constructor.name) {\n return ANONYMOUS;\n }\n return propValue.constructor.name;\n }" ]
[ "0.7730571", "0.74697196", "0.74697196", "0.74258965", "0.7164231", "0.71448183", "0.7083163", "0.7080694", "0.6995368", "0.6971116", "0.6901662", "0.6883398", "0.67147285", "0.66557264", "0.6639163", "0.6611592", "0.6611592", "0.6611592", "0.6611592", "0.6600893", "0.6599787", "0.6599787", "0.6599787", "0.6599787", "0.6599787", "0.6582472", "0.6582472" ]
0.0
-1
Returns an operation AST given a document AST and optionally an operation name. If a name is not provided, an operation is only returned if only one is provided in the document.
function getOperationAST(documentAST, operationName) { var operation = null; for (var i = 0; i < documentAST.definitions.length; i++) { var definition = documentAST.definitions[i]; if (definition.kind === _kinds.OPERATION_DEFINITION) { if (!operationName) { // If no operation name was provided, only return an Operation if there // is one defined in the document. Upon encountering the second, return // null. if (operation) { return null; } operation = definition; } else if (definition.name && definition.name.value === operationName) { return definition; } } } return operation; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n\n if (definition.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n\t var operation = null;\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var definition = documentAST.definitions[i];\n\t if (definition.kind === _kinds.OPERATION_DEFINITION) {\n\t if (!operationName) {\n\t // If no operation name was provided, only return an Operation if there\n\t // is one defined in the document. Upon encountering the second, return\n\t // null.\n\t if (operation) {\n\t return null;\n\t }\n\t operation = definition;\n\t } else if (definition.name && definition.name.value === operationName) {\n\t return definition;\n\t }\n\t }\n\t }\n\t return operation;\n\t}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === Kind.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n }", "function operation(operatorName, args) {\n return { type: 'operation', operator: operatorName, args: args || [] };\n }", "function operation(operatorName, args) {\n return { type: 'operation', operator: operatorName, args: args || [] };\n }", "parseOperationDefinition() {\n const start = this._lexer.token;\n\n if (this.peek(TokenKind.BRACE_L)) {\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation: OperationTypeNode.QUERY,\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n const operation = this.parseOperationType();\n let name;\n\n if (this.peek(TokenKind.NAME)) {\n name = this.parseName();\n }\n\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation,\n name,\n variableDefinitions: this.parseVariableDefinitions(),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function operation(operatorName, args) {\n\t return { type: 'operation', operator: operatorName, args: args || [] };\n\t }", "function op(name) {\n return operators[name] || that.missingOperator(name);\n /*\n if (operators[name]) {\n operators[name].targetData = target;\n return operators[name];\n } else {\n return that.missingOperator(name);\n }\n */\n }", "function parseOperationDefinition(parser) {\n var start = parser.token.start;\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n }\n var operationToken = expect(parser, _lexer.TokenKind.NAME);\n var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n throw unexpected(parser, operationToken);\n })();\n var name = undefined;\n if (peek(parser, _lexer.TokenKind.NAME)) {\n name = parseName(parser);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(parser),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function parseOperationDefinition(parser) {\n\t var start = parser.token.start;\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var operationToken = expect(parser, _lexer.TokenKind.NAME);\n\t var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n\t throw unexpected(parser, operationToken);\n\t })();\n\t var name = undefined;\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t name = parseName(parser);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, TokenKind.BRACE_L)) {\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer$$1) {\n var start = lexer$$1.token;\n if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n var operation = parseOperationType(lexer$$1);\n var name = void 0;\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n name = parseName(lexer$$1);\n }\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function RecognizeOperation(node){\n switch(node.operation){\n case literal.operation.ADDITION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.ADDITION, node.row, node.column);\n case literal.operation.SUBTRACTION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.SUBTRACTION, node.row, node.column);\n case literal.operation.MULTIPLICATION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MULTIPLICATION, node.row, node.column);\n case literal.operation.DIVISION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.DIVISION, node.row, node.column);\n case literal.operation.MODULUS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MODULUS, node.row, node.column);\n case literal.operation.UNARY_MINUS:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.UNARY_MINUS, node.row, node.column);\n case literal.operation.POW:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.POW, node.row, node.column);\n case literal.operation.OTHER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OTHER_THAN, node.row, node.column);\n case literal.operation.JUST_AS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.JUST_AS, node.row, node.column);\n case literal.operation.GREATER_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.LESS_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.GREATER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN, node.row, node.column);\n case literal.operation.LESS_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN, node.row, node.column);\n case literal.operation.OR:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OR, node.row, node.column);\n case literal.operation.AND:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.AND, node.row, node.column);\n case literal.operation.NOT:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.NOT, node.row, node.column);\n case literal.operation.TERNARY_OPERATOR:\n return new Ternary(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), RecognizeOperation(node.childs[2]), node.row, node.column);\n case literal.operation.PROPERTY_ACCESS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.PROPERTY_ACCESS, node.row, node.column);\n case literal.operation.PUSH:\n return new Push(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), node.row, node.column);\n case literal.operation.POP:\n return new Pop(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.LENGTH:\n return new Length(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.INCREMENT:\n return new Increment(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.DECREMENT:\n return new Decrement(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.ARRAY_ACCESS:\n return new ArrayAccess(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.FUNCTION_CALL:\n const parametersList = [];\n if(node.childs.length > 0){\n node.childs.forEach((node) => {\n parametersList.push(RecognizeOperation(node));\n });\n }\n return new FunctionCall(node.value, parametersList, node.row, node.column);\n case literal.operation.ARRAY:\n const expresionsList = [];\n node.childs.forEach((node) => {\n expresionsList.push(RecognizeOperation(node));\n });\n return new Array(expresionsList, node.row, node.column);\n case literal.operation.DEFINITION:\n const propertysList = [];\n node.childs.forEach((node) => {\n propertysList.push(RecognizeOperation(node));\n });\n return new Definition(propertysList, node.row, node.column);\n case literal.operation.PROPERTY_DECLARATION:\n return new PropertyDeclaration(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.dataTypes.STRING:\n return Operation.NewOperationValue(literal.dataTypes.STRING, node.value, node.row, node.column);\n case literal.dataTypes.NUMBER:\n return Operation.NewOperationValue(literal.dataTypes.NUMBER, node.value, node.row, node.column);\n case literal.dataTypes.BOOLEAN:\n return Operation.NewOperationValue(literal.dataTypes.BOOLEAN, node.value, node.row, node.column);\n case literal.dataTypes.VARIABLE:\n return Operation.NewOperationValue(literal.dataTypes.VARIABLE, node.value, node.row, node.column);\n default:\n return Operation.NewOperationValue(literal.dataTypes.NULL, null, node.row, node.column);\n }\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: undefined,\n\t variableDefinitions: [],\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function separateOperations(documentAST) {\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName;\n var idx = 0; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_0__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n var _arr = operations;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var operation = _arr[_i];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n var definitions = [operation];\n\n var _arr2 = Object.keys(dependencies);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var name = _arr2[_i2];\n definitions.push(fragments[name]);\n }\n\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n }\n\n return separatedDocumentASTs;\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function opName(operation) {\n\t return operation.name ? operation.name.value : '';\n\t}", "function separateOperations(documentAST) {\n\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName = void 0;\n var idx = 0;\n\n // Populate metadata and build a dependency graph.\n (0, _visitor.visit)(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n });\n\n // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n var separatedDocumentASTs = Object.create(null);\n operations.forEach(function (operation) {\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n var definitions = [operation];\n Object.keys(dependencies).forEach(function (name) {\n definitions.push(fragments[name]);\n });\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n });\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName = void 0;\n var idx = 0;\n\n // Populate metadata and build a dependency graph.\n (0, _visitor.visit)(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n });\n\n // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n var separatedDocumentASTs = Object.create(null);\n operations.forEach(function (operation) {\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n var definitions = [operation];\n Object.keys(dependencies).forEach(function (name) {\n definitions.push(fragments[name]);\n });\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n });\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n} // From a dependency graph, collects a list of transitive dependencies by", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n}", "parseOperationType() {\n const operationToken = this.expectToken(TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return OperationTypeNode.QUERY;\n\n case 'mutation':\n return OperationTypeNode.MUTATION;\n\n case 'subscription':\n return OperationTypeNode.SUBSCRIPTION;\n }\n\n throw this.unexpected(operationToken);\n }", "function isOperation(name) {\n return [\"get\", \"add\", \"update\", \"remove\"].includes(name);\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function separateOperations(documentAST) {\n\n\t var operations = [];\n\t var depGraph = Object.create(null);\n\t var fromName = void 0;\n\n\t // Populate the list of operations and build a dependency graph.\n\t (0, _visitor.visit)(documentAST, {\n\t OperationDefinition: function OperationDefinition(node) {\n\t operations.push(node);\n\t fromName = opName(node);\n\t },\n\t FragmentDefinition: function FragmentDefinition(node) {\n\t fromName = node.name.value;\n\t },\n\t FragmentSpread: function FragmentSpread(node) {\n\t var toName = node.name.value;\n\t (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n\t }\n\t });\n\n\t // For each operation, produce a new synthesized AST which includes only what\n\t // is necessary for completing that operation.\n\t var separatedDocumentASTs = Object.create(null);\n\t operations.forEach(function (operation) {\n\t var operationName = opName(operation);\n\t var dependencies = Object.create(null);\n\t collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n\t separatedDocumentASTs[operationName] = {\n\t kind: 'Document',\n\t definitions: documentAST.definitions.filter(function (def) {\n\t return def === operation || def.kind === 'FragmentDefinition' && dependencies[def.name.value];\n\t })\n\t };\n\t });\n\n\t return separatedDocumentASTs;\n\t}", "function generateSetOperation(ast, options) {\n var members = ast.params.map(function (_) { return generateType(_, options); });\n var separator = ast.type === 'UNION' ? '|' : '&';\n return members.length === 1 ? members[0] : '(' + members.join(' ' + separator + ' ') + ')';\n}", "function indexOfBinaryOperation(operationName, tokens, _ref) {\n var validLeftTypes = _ref.validLeftTypes,\n validRightTypes = _ref.validRightTypes;\n\n var operatorNames = {\n assignment: ['equals'],\n sequence: ['comma'],\n logicalOR: ['or'],\n logicalAND: ['and'],\n equalityComparison: ['equalTo', 'notEqualTo'],\n differentialComparison: ['greaterThan', 'greaterThanOrEqualTo', 'lessThan', 'lessThanOrEqualTo'],\n subtraction: ['minus'],\n addition: ['plus'],\n division: ['slash'],\n multiplication: ['star'],\n exponentiation: ['starStar'],\n hashPair: ['colon'],\n rocketCondition: ['rocket'],\n dispatch: ['dot'],\n protoDerivation: ['from'],\n shapeDefinition: ['shaped'],\n extensionDefinition: ['extends']\n }[operationName];\n\n if (_underscore2.default.isEmpty(operatorNames)) throw 'Invalid binary operation \\'' + operationName + '\\'';\n\n var allowProto = _underscore2.default.contains(['protoDerivation', 'shapeDefinition', 'extensionDefinition'], operationName);\n var except = allowProto ? ['proto'] : [];\n var boundsPairs = boundsOfAllStructuresInTokens(tokens, { except: except });\n\n return _underscore2.default.findIndex(tokens, function (token, index) {\n if (index === 0 || !_underscore2.default.contains(operatorNames, token.name)) return false;\n\n var isInsideStructure = indexIsInsideBoundsPairs(index, boundsPairs);\n if (isInsideStructure) return false;\n\n var leftToken = tokens[index - 1];\n var leftIsValid = _underscore2.default.contains(validLeftTypes, leftToken.type) || leftToken.name === 'identifier' || _token_util2.default.isCloseGroupToken(leftToken);\n if (!leftIsValid) return false;\n\n var rightToken = tokens[index + 1];\n var rightIsValid = _underscore2.default.contains(validRightTypes, rightToken.type) || rightToken.name === 'identifier' || _token_util2.default.isOpenGroupToken(rightToken);\n if (!rightIsValid) return false;\n\n return true;\n });\n}", "nextOperation() {\n if (this.offset < this.operations.length) {\n return this.operations[this.offset++];\n }\n return null;\n }", "nextOperation() {\n if (this.offset < this.operations.length) {\n return this.operations[this.offset++];\n }\n return null;\n }", "function parseOperationType(lexer$$1) {\n var operationToken = expect(lexer$$1, lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer$$1, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n // Note: subscription is an experimental non-spec addition.\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function eachOperation(spec, cb, find) {\n if (!spec || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(spec) !== 'object' || !spec.paths || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(spec.paths) !== 'object') {\n return null;\n }\n\n var paths = spec.paths; // Iterate over the spec, collecting operations\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n\n for (var pathName in paths) {\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n for (var method in paths[pathName]) {\n if (method.toUpperCase() === 'PARAMETERS') {\n continue; // eslint-disable-line no-continue\n }\n\n var operation = paths[pathName][method];\n\n if (!operation || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(operation) !== 'object') {\n continue; // eslint-disable-line no-continue\n }\n\n var operationObj = {\n spec: spec,\n pathName: pathName,\n method: method.toUpperCase(),\n operation: operation\n };\n var cbValue = cb(operationObj);\n\n if (find && cbValue) {\n return operationObj;\n }\n }\n }\n\n return undefined;\n} // REVIEW: OAS3: identify normalization steps that need changes", "function eachOperation(spec, cb, find) {\n if (!spec || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(spec) !== 'object' || !spec.paths || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(spec.paths) !== 'object') {\n return null;\n }\n\n var paths = spec.paths; // Iterate over the spec, collecting operations\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n\n for (var pathName in paths) {\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n for (var method in paths[pathName]) {\n if (method.toUpperCase() === 'PARAMETERS') {\n continue; // eslint-disable-line no-continue\n }\n\n var operation = paths[pathName][method];\n\n if (!operation || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(operation) !== 'object') {\n continue; // eslint-disable-line no-continue\n }\n\n var operationObj = {\n spec: spec,\n pathName: pathName,\n method: method.toUpperCase(),\n operation: operation\n };\n var cbValue = cb(operationObj);\n\n if (find && cbValue) {\n return operationObj;\n }\n }\n }\n\n return undefined;\n} // REVIEW: OAS3: identify normalization steps that need changes", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function OpNode(op, left, right) {\n this._op = op;\n this._resultSet = false;\n _addChildren.call(this, left, right);\n}", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t // Note: subscription is an experimental non-spec addition.\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "chooseOperation(operation) {\n\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n switch (operationToken.value) {\n case 'query':\n return 'query';\n case 'mutation':\n return 'mutation';\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n\t var operationToken = expect(lexer, _lexer.TokenKind.NAME);\n\t switch (operationToken.value) {\n\t case 'query':\n\t return 'query';\n\t case 'mutation':\n\t return 'mutation';\n\t case 'subscription':\n\t return 'subscription';\n\t }\n\n\t throw unexpected(lexer, operationToken);\n\t}", "function operate2(operation, operand1, operand2) {\n if (typeof operators[operation] === \"function\")\n return operators[operation](operand1, operand2);\n else throw \"unknown operator\";\n}", "function op1(op, a) {\n\t\t\tswitch (op) {\n\t\t\t\tcase 'f':\n\t\t\t\t\treturn Math.floor(a);\n\t\t\t\tcase 'r':\n\t\t\t\t\treturn Math.round(a);\n\t\t\t\tcase 'n':\n\t\t\t\t\treturn -a;\n\t\t\t\tcase 'i':\n\t\t\t\t\treturn 1 / a;\n\t\t\t\tcase 'a':\n\t\t\t\t\treturn Math.abs(a);\n\t\t\t\tcase 'l':\n\t\t\t\t\treturn Math.log(a);\n\t\t\t\tcase 'e':\n\t\t\t\t\treturn Math.exp(a);\n\t\t\t\tcase 's':\n\t\t\t\t\treturn Math.sin(a);\n\t\t\t\tcase 'c':\n\t\t\t\t\treturn Math.cos(a);\n\t\t\t\tcase 't':\n\t\t\t\t\treturn Math.atan(a);\n\t\t\t\tcase 'R':\n\t\t\t\t\tif (!calc.store[a]) throw ('inexistent storage ' + a);\n\t\t\t\t\treturn calc.store[a];\n\t\t\t\tdefault:\n\t\t\t\t\tthrow ('internal error, operator ' + op);\n\t\t\t}\n\t\t}", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function operate2(operation, operand1, operand2) {\n\tif (typeof operators[operation] === \"function\")\n\t\treturn operators[operation](operand1, operand2);\n\telse throw \"unknown operator\";\n}", "static async executeOrAddToBatch(\n operation,\n document,\n data,\n options,\n ) {\n const batch = this.getBatch(options);\n\n if (batch) {\n if (operation !== 'delete') {\n batch[operation](document, data);\n } else {\n batch[operation](document);\n }\n return;\n }\n\n if (operation !== 'delete') {\n return document[operation](data);\n } else {\n return document[operation];\n }\n }", "function operate2(operation, operand1, operand2) {\n\tif (typeof operators[operation] === 'function') {\n\t\treturn operators[operation](operand1, operand2);\n\t} else {\n\t\tthrow \"unknown operator!\"\n\t}\n}", "transform(path, operation) {\n var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};\n return fn(path, p => {\n var {\n affinity = 'forward'\n } = options; // PERF: Exit early if the operation is guaranteed not to have an effect.\n\n if (!path || (path === null || path === void 0 ? void 0 : path.length) === 0) {\n return;\n }\n\n if (p === null) {\n return null;\n }\n\n switch (operation.type) {\n case 'insert_node':\n {\n var {\n path: op\n } = operation;\n\n if (Path.equals(op, p) || Path.endsBefore(op, p) || Path.isAncestor(op, p)) {\n p[op.length - 1] += 1;\n }\n\n break;\n }\n\n case 'remove_node':\n {\n var {\n path: _op\n } = operation;\n\n if (Path.equals(_op, p) || Path.isAncestor(_op, p)) {\n return null;\n } else if (Path.endsBefore(_op, p)) {\n p[_op.length - 1] -= 1;\n }\n\n break;\n }\n\n case 'merge_node':\n {\n var {\n path: _op2,\n position\n } = operation;\n\n if (Path.equals(_op2, p) || Path.endsBefore(_op2, p)) {\n p[_op2.length - 1] -= 1;\n } else if (Path.isAncestor(_op2, p)) {\n p[_op2.length - 1] -= 1;\n p[_op2.length] += position;\n }\n\n break;\n }\n\n case 'split_node':\n {\n var {\n path: _op3,\n position: _position\n } = operation;\n\n if (Path.equals(_op3, p)) {\n if (affinity === 'forward') {\n p[p.length - 1] += 1;\n } else if (affinity === 'backward') ; else {\n return null;\n }\n } else if (Path.endsBefore(_op3, p)) {\n p[_op3.length - 1] += 1;\n } else if (Path.isAncestor(_op3, p) && path[_op3.length] >= _position) {\n p[_op3.length - 1] += 1;\n p[_op3.length] -= _position;\n }\n\n break;\n }\n\n case 'move_node':\n {\n var {\n path: _op4,\n newPath: onp\n } = operation; // If the old and new path are the same, it's a no-op.\n\n if (Path.equals(_op4, onp)) {\n return;\n }\n\n if (Path.isAncestor(_op4, p) || Path.equals(_op4, p)) {\n var copy = onp.slice();\n\n if (Path.endsBefore(_op4, onp) && _op4.length < onp.length) {\n copy[_op4.length - 1] -= 1;\n }\n\n return copy.concat(p.slice(_op4.length));\n } else if (Path.isSibling(_op4, onp) && (Path.isAncestor(onp, p) || Path.equals(onp, p))) {\n if (Path.endsBefore(_op4, p)) {\n p[_op4.length - 1] -= 1;\n } else {\n p[_op4.length - 1] += 1;\n }\n } else if (Path.endsBefore(onp, p) || Path.equals(onp, p) || Path.isAncestor(onp, p)) {\n if (Path.endsBefore(_op4, p)) {\n p[_op4.length - 1] -= 1;\n }\n\n p[onp.length - 1] += 1;\n } else if (Path.endsBefore(_op4, p)) {\n if (Path.equals(onp, p)) {\n p[onp.length - 1] += 1;\n }\n\n p[_op4.length - 1] -= 1;\n }\n\n break;\n }\n }\n });\n }", "function getOp(event){\n\tvar op = operation.options[operation.selectedIndex].value;\n\t//define qual operacao sera realizada na curva\n\tif(op == \"add\"){\n\t\taddPoint(event);\n\t}else if(op == \"del\"){\n\t\tdeletePoint(event);\n\t}else if(op == \"edit\"){\n\t\teditPoint(event);\n\t}\n}", "isNodeOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_node');\n }", "isNodeOperation(value) {\n return Operation.isOperation(value) && value.type.endsWith('_node');\n }", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function parseOperationType(lexer) {\n var operationToken = expectToken(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function is_op(op) {\n var tok = input.peek();\n return tok && tok.type === \"op\" && (!op || tok.value === op) && tok; \n }", "isOperation(value) {\n if (!isPlainObject(value)) {\n return false;\n }\n\n switch (value.type) {\n case 'insert_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'insert_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'merge_node':\n return typeof value.position === 'number' && Path.isPath(value.path) && isPlainObject(value.properties);\n\n case 'move_node':\n return Path.isPath(value.path) && Path.isPath(value.newPath);\n\n case 'remove_node':\n return Path.isPath(value.path) && Node.isNode(value.node);\n\n case 'remove_text':\n return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);\n\n case 'set_node':\n return Path.isPath(value.path) && isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'set_selection':\n return value.properties === null && Range.isRange(value.newProperties) || value.newProperties === null && Range.isRange(value.properties) || isPlainObject(value.properties) && isPlainObject(value.newProperties);\n\n case 'split_node':\n return Path.isPath(value.path) && typeof value.position === 'number' && isPlainObject(value.properties);\n\n default:\n return false;\n }\n }", "transform(point, op) {\n var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};\n return fn(point, p => {\n if (p === null) {\n return null;\n }\n\n var {\n affinity = 'forward'\n } = options;\n var {\n path,\n offset\n } = p;\n\n switch (op.type) {\n case 'insert_node':\n case 'move_node':\n {\n p.path = Path.transform(path, op, options);\n break;\n }\n\n case 'insert_text':\n {\n if (Path.equals(op.path, path) && op.offset <= offset) {\n p.offset += op.text.length;\n }\n\n break;\n }\n\n case 'merge_node':\n {\n if (Path.equals(op.path, path)) {\n p.offset += op.position;\n }\n\n p.path = Path.transform(path, op, options);\n break;\n }\n\n case 'remove_text':\n {\n if (Path.equals(op.path, path) && op.offset <= offset) {\n p.offset -= Math.min(offset - op.offset, op.text.length);\n }\n\n break;\n }\n\n case 'remove_node':\n {\n if (Path.equals(op.path, path) || Path.isAncestor(op.path, path)) {\n return null;\n }\n\n p.path = Path.transform(path, op, options);\n break;\n }\n\n case 'split_node':\n {\n if (Path.equals(op.path, path)) {\n if (op.position === offset && affinity == null) {\n return null;\n } else if (op.position < offset || op.position === offset && affinity === 'forward') {\n p.offset -= op.position;\n p.path = Path.transform(path, op, _objectSpread$6(_objectSpread$6({}, options), {}, {\n affinity: 'forward'\n }));\n }\n } else {\n p.path = Path.transform(path, op, options);\n }\n\n break;\n }\n }\n });\n }", "function parseOperationType(lexer) {\n var operationToken = expect(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME);\n\n switch (operationToken.value) {\n case 'query':\n return 'query';\n\n case 'mutation':\n return 'mutation';\n\n case 'subscription':\n return 'subscription';\n }\n\n throw unexpected(lexer, operationToken);\n}", "function basicOp(operation, value1, value2) {\n\tswitch (operation) {\n\t\tcase '+':\n\t\t\treturn value1 + value2;\n\t\t\tbreak;\n\t\tcase '-':\n\t\t\treturn value1 - value2;\n\t\t\tbreak;\n\t\tcase '/':\n\t\t\treturn value1 / value2;\n\t\t\tbreak;\n\t\tcase '*':\n\t\t\treturn value1 * value2;\n\t}\n}", "function LoneAnonymousOperation(context) {\n var operationCount = 0;\n return {\n Document: function Document(node) {\n operationCount = node.definitions.filter(function (definition) {\n return definition.kind === _languageKinds.OPERATION_DEFINITION;\n }).length;\n },\n OperationDefinition: function OperationDefinition(node) {\n if (!node.name && operationCount > 1) {\n context.reportError(new _error.GraphQLError(anonOperationNotAloneMessage(), [node]));\n }\n }\n };\n}", "function parseExecutableDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'query':\n\t case 'mutation':\n\t case 'subscription':\n\t return parseOperationDefinition(lexer);\n\n\t case 'fragment':\n\t return parseFragmentDefinition(lexer);\n\t }\n\t } else if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return parseOperationDefinition(lexer);\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function basicOp(operation, value1, value2)\n{\n // Code\n switch(operation) {\n case '+':\n return value1 + value2;\n case '-':\n return value1 - value2;\n case '*':\n return value1 * value2;\n case '/':\n return value1 / value2;\n default:\n break;\n }\n}", "function LoneAnonymousOperation(context) {\n\t var operationCount = 0;\n\t return {\n\t Document: function Document(node) {\n\t operationCount = node.definitions.filter(function (definition) {\n\t return definition.kind === _languageKinds.OPERATION_DEFINITION;\n\t }).length;\n\t },\n\t OperationDefinition: function OperationDefinition(node) {\n\t if (!node.name && operationCount > 1) {\n\t context.reportError(new _error.GraphQLError(anonOperationNotAloneMessage(), [node]));\n\t }\n\t }\n\t };\n\t}", "function atomicOper(f, name = \"\") {\n let op = new ResOperator();\n op.run = f.bind(op);\n return op.makeItem(name);\n}", "function op(f) {\n const keys = Object.keys(f);\n if (keys.length !== 1) {\n throw new Error(`Please provide an object with a single key ` +\n `(operation name) mapping to a function. Got an object with ` +\n `${keys.length} keys.`);\n }\n let opName = keys[0];\n const fn = f[opName];\n // Strip the underscore from the end of the function name.\n if (opName.endsWith('_')) {\n opName = opName.substring(0, opName.length - 1);\n }\n // add an __op suffix to distinguish ops from kernels in tf.profile\n opName = opName + OP_SCOPE_SUFFIX;\n // tslint:disable-next-line:no-any\n const f2 = (...args) => {\n _engine__WEBPACK_IMPORTED_MODULE_0__[\"ENGINE\"].startScope(opName);\n try {\n const result = fn(...args);\n if (Object(_util__WEBPACK_IMPORTED_MODULE_1__[\"isPromise\"])(result)) {\n console.error('Cannot return a Promise inside of tidy.');\n }\n _engine__WEBPACK_IMPORTED_MODULE_0__[\"ENGINE\"].endScope(result);\n return result;\n }\n catch (ex) {\n _engine__WEBPACK_IMPORTED_MODULE_0__[\"ENGINE\"].endScope(null);\n throw ex;\n }\n };\n Object.defineProperty(f2, 'name', { value: opName, configurable: true });\n // tslint:disable-next-line:no-any\n return f2;\n}", "function basicOp(operation, value1, value2) {\n switch (operation) {\n case '+':\n return value1 + value2;\n break;\n case '-':\n return value1 - value2;\n break;\n case '*':\n return value1 * value2;\n break;\n case '/':\n return value1 / value2;\n break;\n default:\n break;\n }\n}", "function op(f) {\n var keys = Object.keys(f);\n if (keys.length !== 1) {\n throw new Error(\"Please provide an object with a single key \" +\n \"(operation name) mapping to a function. Got an object with \" +\n (keys.length + \" keys.\"));\n }\n var opName = keys[0];\n var fn = f[opName];\n // Strip the underscore from the end of the function name.\n if (opName.endsWith('_')) {\n opName = opName.substring(0, opName.length - 1);\n }\n // tslint:disable-next-line:no-any\n var f2 = function () {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n engine_1.ENGINE.startScope(opName);\n try {\n var result = fn.apply(void 0, args);\n if (result instanceof Promise) {\n console.error('Cannot return a Promise inside of tidy.');\n }\n engine_1.ENGINE.endScope(result);\n return result;\n }\n catch (ex) {\n engine_1.ENGINE.endScope(null);\n throw ex;\n }\n };\n Object.defineProperty(f2, 'name', { value: opName, configurable: true });\n // tslint:disable-next-line:no-any\n return f2;\n}", "function makeOpFunction(op) {\n if (op.f.constant) {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f() : s(i);\n };\n };\n } else {\n return function (s) {\n return function (i) {\n return op.domain.has(i) ? op.f(s(i)) : s(i);\n };\n };\n }\n}" ]
[ "0.8256176", "0.82004493", "0.82004493", "0.81809", "0.81809", "0.81494194", "0.81430614", "0.59448606", "0.59448606", "0.5887792", "0.58035177", "0.5791091", "0.57523274", "0.57154346", "0.5593686", "0.5580738", "0.55647475", "0.55647475", "0.55647475", "0.55647475", "0.55556774", "0.55395466", "0.5535587", "0.5535587", "0.5535587", "0.5535587", "0.5535587", "0.5535587", "0.55244434", "0.55244434", "0.5491924", "0.5491924", "0.54871446", "0.54613924", "0.54544795", "0.54437274", "0.54402804", "0.5435888", "0.53888386", "0.5371876", "0.52918226", "0.52918226", "0.52842194", "0.527746", "0.5241573", "0.52398205", "0.5162656", "0.5162656", "0.5162656", "0.51446074", "0.5133696", "0.5088662", "0.5057142", "0.5057142", "0.5027408", "0.50058687", "0.50058687", "0.50058687", "0.50058687", "0.50058687", "0.50058687", "0.498956", "0.49872446", "0.4972481", "0.49422804", "0.49339545", "0.49137154", "0.48916572", "0.4877387", "0.4877387", "0.4877387", "0.4877387", "0.4809372", "0.48013416", "0.47133002", "0.47069725", "0.470043", "0.4692154", "0.4670171", "0.46508518", "0.46446058", "0.45947772", "0.45947772", "0.4586722", "0.4586722", "0.4584788", "0.45783138", "0.4569471", "0.456869", "0.45284018", "0.45272842", "0.452467", "0.45075658", "0.44955236", "0.44883534", "0.4474031", "0.44703004", "0.44688526", "0.44615814" ]
0.82664794
1
Build a GraphQLSchema for use by client tools. Given the result of a client running the introspection query, creates and returns a GraphQLSchema instance which can be then used with all graphqljs tools, but cannot be used to execute a query, as introspection does not represent the "resolver", "parse" or "serialize" functions or any other serverinternal mechanisms.
function buildClientSchema(introspection) { // Get the schema from the introspection result. var schemaIntrospection = introspection.__schema; // Converts the list of types into a keyMap based on the type names. var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) { return type.name; }); // A cache to use to store the actual GraphQLType definition objects by name. // Initialize to the GraphQL built in scalars. All functions below are inline // so that this type def cache is within the scope of the closure. var typeDefCache = { String: _scalars.GraphQLString, Int: _scalars.GraphQLInt, Float: _scalars.GraphQLFloat, Boolean: _scalars.GraphQLBoolean, ID: _scalars.GraphQLID, __Schema: _introspection.__Schema, __Directive: _introspection.__Directive, __DirectiveLocation: _introspection.__DirectiveLocation, __Type: _introspection.__Type, __Field: _introspection.__Field, __InputValue: _introspection.__InputValue, __EnumValue: _introspection.__EnumValue, __TypeKind: _introspection.__TypeKind }; // Given a type reference in introspection, return the GraphQLType instance. // preferring cached instances before building new instances. function getType(typeRef) { if (typeRef.kind === _introspection.TypeKind.LIST) { var itemRef = typeRef.ofType; if (!itemRef) { throw new Error('Decorated type deeper than introspection query.'); } return new _definition.GraphQLList(getType(itemRef)); } if (typeRef.kind === _introspection.TypeKind.NON_NULL) { var nullableRef = typeRef.ofType; if (!nullableRef) { throw new Error('Decorated type deeper than introspection query.'); } var nullableType = getType(nullableRef); !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0; return new _definition.GraphQLNonNull(nullableType); } return getNamedType(typeRef.name); } function getNamedType(typeName) { if (typeDefCache[typeName]) { return typeDefCache[typeName]; } var typeIntrospection = typeIntrospectionMap[typeName]; if (!typeIntrospection) { throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.'); } var typeDef = buildType(typeIntrospection); typeDefCache[typeName] = typeDef; return typeDef; } function getInputType(typeRef) { var type = getType(typeRef); !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0; return type; } function getOutputType(typeRef) { var type = getType(typeRef); !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0; return type; } function getObjectType(typeRef) { var type = getType(typeRef); !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0; return type; } function getInterfaceType(typeRef) { var type = getType(typeRef); !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0; return type; } // Given a type's introspection result, construct the correct // GraphQLType instance. function buildType(type) { switch (type.kind) { case _introspection.TypeKind.SCALAR: return buildScalarDef(type); case _introspection.TypeKind.OBJECT: return buildObjectDef(type); case _introspection.TypeKind.INTERFACE: return buildInterfaceDef(type); case _introspection.TypeKind.UNION: return buildUnionDef(type); case _introspection.TypeKind.ENUM: return buildEnumDef(type); case _introspection.TypeKind.INPUT_OBJECT: return buildInputObjectDef(type); default: throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.'); } } function buildScalarDef(scalarIntrospection) { return new _definition.GraphQLScalarType({ name: scalarIntrospection.name, description: scalarIntrospection.description, serialize: function serialize(id) { return id; }, // Note: validation calls the parse functions to determine if a // literal value is correct. Returning null would cause use of custom // scalars to always fail validation. Returning false causes them to // always pass validation. parseValue: function parseValue() { return false; }, parseLiteral: function parseLiteral() { return false; } }); } function buildObjectDef(objectIntrospection) { return new _definition.GraphQLObjectType({ name: objectIntrospection.name, description: objectIntrospection.description, interfaces: objectIntrospection.interfaces.map(getInterfaceType), fields: function fields() { return buildFieldDefMap(objectIntrospection); } }); } function buildInterfaceDef(interfaceIntrospection) { return new _definition.GraphQLInterfaceType({ name: interfaceIntrospection.name, description: interfaceIntrospection.description, fields: function fields() { return buildFieldDefMap(interfaceIntrospection); }, resolveType: cannotExecuteClientSchema }); } function buildUnionDef(unionIntrospection) { return new _definition.GraphQLUnionType({ name: unionIntrospection.name, description: unionIntrospection.description, types: unionIntrospection.possibleTypes.map(getObjectType), resolveType: cannotExecuteClientSchema }); } function buildEnumDef(enumIntrospection) { return new _definition.GraphQLEnumType({ name: enumIntrospection.name, description: enumIntrospection.description, values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) { return valueIntrospection.name; }, function (valueIntrospection) { return { description: valueIntrospection.description, deprecationReason: valueIntrospection.deprecationReason }; }) }); } function buildInputObjectDef(inputObjectIntrospection) { return new _definition.GraphQLInputObjectType({ name: inputObjectIntrospection.name, description: inputObjectIntrospection.description, fields: function fields() { return buildInputValueDefMap(inputObjectIntrospection.inputFields); } }); } function buildFieldDefMap(typeIntrospection) { return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) { return fieldIntrospection.name; }, function (fieldIntrospection) { return { description: fieldIntrospection.description, deprecationReason: fieldIntrospection.deprecationReason, type: getOutputType(fieldIntrospection.type), args: buildInputValueDefMap(fieldIntrospection.args) }; }); } function buildInputValueDefMap(inputValueIntrospections) { return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) { return inputValue.name; }, buildInputValue); } function buildInputValue(inputValueIntrospection) { var type = getInputType(inputValueIntrospection.type); var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined; return { name: inputValueIntrospection.name, description: inputValueIntrospection.description, type: type, defaultValue: defaultValue }; } function buildDirective(directiveIntrospection) { // Support deprecated `on****` fields for building `locations`, as this // is used by GraphiQL which may need to support outdated servers. var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]); return new _directives.GraphQLDirective({ name: directiveIntrospection.name, description: directiveIntrospection.description, locations: locations, args: buildInputValueDefMap(directiveIntrospection.args) }); } // Iterate through all types, getting the type definition for each, ensuring // that any type not directly referenced by a field will get created. var types = schemaIntrospection.types.map(function (typeIntrospection) { return getNamedType(typeIntrospection.name); }); // Get the root Query, Mutation, and Subscription types. var queryType = getObjectType(schemaIntrospection.queryType); var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null; var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if // directives were not queried for. var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types. return new _schema.GraphQLSchema({ query: queryType, mutation: mutationType, subscription: subscriptionType, types: types, directives: directives }); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_8__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_7__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_9__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection) {\n\n\t // Get the schema from the introspection result.\n\t var schemaIntrospection = introspection.__schema;\n\n\t // Converts the list of types into a keyMap based on the type names.\n\t var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n\t return type.name;\n\t });\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars. All functions below are inline\n\t // so that this type def cache is within the scope of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Given a type reference in introspection, return the GraphQLType instance.\n\t // preferring cached instances before building new instances.\n\t function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }\n\n\t function getNamedType(typeName) {\n\t if (typeDefCache[typeName]) {\n\t return typeDefCache[typeName];\n\t }\n\t var typeIntrospection = typeIntrospectionMap[typeName];\n\t if (!typeIntrospection) {\n\t throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t var typeDef = buildType(typeIntrospection);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t function getInputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Introspection must provide input type for arguments.');\n\t return type;\n\t }\n\n\t function getOutputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Introspection must provide output type for fields.');\n\t return type;\n\t }\n\n\t function getObjectType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Introspection must provide object type for possibleTypes.');\n\t return type;\n\t }\n\n\t function getInterfaceType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Introspection must provide interface type for interfaces.');\n\t return type;\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }\n\n\t function buildScalarDef(scalarIntrospection) {\n\t return new _definition.GraphQLScalarType({\n\t name: scalarIntrospection.name,\n\t description: scalarIntrospection.description,\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildObjectDef(objectIntrospection) {\n\t return new _definition.GraphQLObjectType({\n\t name: objectIntrospection.name,\n\t description: objectIntrospection.description,\n\t interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n\t fields: function fields() {\n\t return buildFieldDefMap(objectIntrospection);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceDef(interfaceIntrospection) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: interfaceIntrospection.name,\n\t description: interfaceIntrospection.description,\n\t fields: function fields() {\n\t return buildFieldDefMap(interfaceIntrospection);\n\t },\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildUnionDef(unionIntrospection) {\n\t return new _definition.GraphQLUnionType({\n\t name: unionIntrospection.name,\n\t description: unionIntrospection.description,\n\t types: unionIntrospection.possibleTypes.map(getObjectType),\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildEnumDef(enumIntrospection) {\n\t return new _definition.GraphQLEnumType({\n\t name: enumIntrospection.name,\n\t description: enumIntrospection.description,\n\t values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n\t return valueIntrospection.name;\n\t }, function (valueIntrospection) {\n\t return {\n\t description: valueIntrospection.description,\n\t deprecationReason: valueIntrospection.deprecationReason\n\t };\n\t })\n\t });\n\t }\n\n\t function buildInputObjectDef(inputObjectIntrospection) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: inputObjectIntrospection.name,\n\t description: inputObjectIntrospection.description,\n\t fields: function fields() {\n\t return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n\t }\n\t });\n\t }\n\n\t function buildFieldDefMap(typeIntrospection) {\n\t return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n\t return fieldIntrospection.name;\n\t }, function (fieldIntrospection) {\n\t return {\n\t description: fieldIntrospection.description,\n\t deprecationReason: fieldIntrospection.deprecationReason,\n\t type: getOutputType(fieldIntrospection.type),\n\t args: buildInputValueDefMap(fieldIntrospection.args)\n\t };\n\t });\n\t }\n\n\t function buildInputValueDefMap(inputValueIntrospections) {\n\t return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n\t return inputValue.name;\n\t }, buildInputValue);\n\t }\n\n\t function buildInputValue(inputValueIntrospection) {\n\t var type = getInputType(inputValueIntrospection.type);\n\t var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : null;\n\t return {\n\t name: inputValueIntrospection.name,\n\t description: inputValueIntrospection.description,\n\t type: type,\n\t defaultValue: defaultValue\n\t };\n\t }\n\n\t function buildDirective(directiveIntrospection) {\n\t // Support deprecated `on****` fields for building `locations`, as this\n\t // is used by GraphiQL which may need to support outdated servers.\n\t var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n\t return new _directives.GraphQLDirective({\n\t name: directiveIntrospection.name,\n\t description: directiveIntrospection.description,\n\t locations: locations,\n\t args: buildInputValueDefMap(directiveIntrospection.args)\n\t });\n\t }\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var types = schemaIntrospection.types.map(function (typeIntrospection) {\n\t return getNamedType(typeIntrospection.name);\n\t });\n\n\t // Get the root Query, Mutation, and Subscription types.\n\t var queryType = getObjectType(schemaIntrospection.queryType);\n\n\t var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n\t var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n\t // Get the directives supported by Introspection, assuming empty-set if\n\t // directives were not queried for.\n\t var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: directives\n\t });\n\t}", "function SchemaBuilder(client) {\n\t this.client = client;\n\t this._sequence = [];\n\t this._debug = client.config && client.config.debug;\n\t}", "withSchema(schema) {\n return new QueryCreator({\n ...this.#props,\n executor: this.#props.executor.withPluginAtFront(new with_schema_plugin_js_1.WithSchemaPlugin(schema)),\n });\n }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n specifiedByUrl: true,\n directiveIsRepeatable: true,\n schemaDescription: true,\n inputValueDeprecation: true\n }, options);\n\n var document = (0, _parser.parse)((0, _getIntrospectionQuery.getIntrospectionQuery)(optionsWithDefaults));\n var result = (0, _execute.executeSync)({\n schema: schema,\n document: document\n });\n !result.errors && result.data || (0, _invariant.default)(0);\n return result.data;\n}", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n specifiedByUrl: true,\n directiveIsRepeatable: true,\n schemaDescription: true,\n inputValueDeprecation: true\n }, options);\n\n var document = (0, _parser.parse)((0, _getIntrospectionQuery.getIntrospectionQuery)(optionsWithDefaults));\n var result = (0, _execute.executeSync)({\n schema: schema,\n document: document\n });\n !result.errors && result.data || (0, _invariant.default)(0);\n return result.data;\n}", "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function GraphQLSchema(config) {\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n if (config && config.assumeValid) {\n this.__validationErrors = [];\n } else {\n this.__validationErrors = undefined; // Otherwise check for common mistakes during construction to produce\n // clear and early error messages.\n\n !(_typeof(config) === 'object') ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, 'Must provide configuration object.') : void 0;\n !(!config.types || Array.isArray(config.types)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\")) : void 0;\n !(!config.directives || Array.isArray(config.directives)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\")) : void 0;\n !(!config.allowedLegacyNames || Array.isArray(config.allowedLegacyNames)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"allowedLegacyNames\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.allowedLegacyNames), \".\")) : void 0;\n }\n\n this.__allowedLegacyNames = config.allowedLegacyNames || [];\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = config.directives || _directives__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes; // Build type map now to detect any errors within this schema.\n\n var initialTypes = [this.getQueryType(), this.getMutationType(), this.getSubscriptionType(), _introspection__WEBPACK_IMPORTED_MODULE_5__[\"__Schema\"]];\n var types = config.types;\n\n if (types) {\n initialTypes = initialTypes.concat(types);\n } // Keep track of all types referenced within the schema.\n\n\n var typeMap = Object.create(null); // First by deeply visiting all initial types.\n\n typeMap = initialTypes.reduce(typeMapReducer, typeMap); // Then by deeply visiting all directive types.\n\n typeMap = this._directives.reduce(typeMapDirectiveReducer, typeMap); // Storing the resulting map for reference by the schema.\n\n this._typeMap = typeMap;\n this._possibleTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementations = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(this._typeMap)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var type = _step.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(type)) {\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = type.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var iface = _step2.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(iface)) {\n var impls = this._implementations[iface.name];\n\n if (impls) {\n impls.push(type);\n } else {\n this._implementations[iface.name] = [type];\n }\n }\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } else if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isAbstractType\"])(type) && !this._implementations[type.name]) {\n this._implementations[type.name] = [];\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }", "function SchemaCompiler(client, builder) {\n\t this.builder = builder;\n\t this.client = client;\n\t this.schema = builder._schema;\n\t this.formatter = client.formatter();\n\t this.sequence = [];\n\t}", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n directiveIsRepeatable: true,\n schemaDescription: true\n }, options);\n\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_1__[\"parse\"])(Object(_getIntrospectionQuery_mjs__WEBPACK_IMPORTED_MODULE_3__[\"getIntrospectionQuery\"])(optionsWithDefaults));\n var result = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_2__[\"executeSync\"])({\n schema: schema,\n document: document\n });\n !result.errors && result.data || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n return result.data;\n}", "function introspectionFromSchema(schema, options) {\n var queryAST = Object(_language_parser__WEBPACK_IMPORTED_MODULE_3__[\"parse\"])(Object(_introspectionQuery__WEBPACK_IMPORTED_MODULE_1__[\"getIntrospectionQuery\"])(options));\n var result = Object(_execution_execute__WEBPACK_IMPORTED_MODULE_2__[\"execute\"])(schema, queryAST);\n !(!result.then && !result.errors && result.data) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0) : void 0;\n return result.data;\n}", "async function graphQLFetcher( { graphQLParams, schemaPath } ) {\n // console.log( graphQLParams )\n const url = `${config.baseUrl}${schemaPath}`\n\n const data = await fetch( url, {\n method: \"post\",\n headers: {\n Accept: 'application/json',\n \"Content-Type\": \"application/json\"\n },\n credentials: 'same-origin',\n body: JSON.stringify( graphQLParams )\n } )\n const res = await data.json().catch( () => data.text() )\n // try {\n // const schema = buildClientSchema( res.data )\n // console.log( validateSchema( schema ) )\n // } catch ( e ) {\n // console.log( e )\n // }\n // console.log( res )\n return res\n}", "function createSchema(client) {\n const WOQL = TerminusDB.WOQL\n const addDocument = WOQL.doctype('Person')\n .label('Person Name')\n .description('A Person Document')\n .property('name', 'string')\n .label('Name')\n .cardinality(1)\n //The cardinality in a property is a measure of the \"number of values\" for this property in a Document instance.\n //Cardinality 1 for date_of_birth means that for every Document Person you have insert one date_of_birth value (mandatory property)\n .property('date_of_birth', 'dateTime')\n .label('Date Of Birth')\n .cardinality(1)\n .property('knows', 'Person')\n .label('Knows')\n client.query(addDocument)\n}", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n directiveIsRepeatable: true,\n schemaDescription: true\n }, options);\n\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(Object(_getIntrospectionQuery_mjs__WEBPACK_IMPORTED_MODULE_4__[\"getIntrospectionQuery\"])(optionsWithDefaults));\n var result = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_3__[\"execute\"])({\n schema: schema,\n document: document\n });\n !Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(result) && !result.errors && result.data || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n return result.data;\n}", "async function main() {\n const introspectionQuery = getIntrospectionQuery();\n const response = await fetch('https://instaparade.com/graphql', {\n method: 'POST',\n headers: {\n 'Content-Type': 'application/json',\n },\n body: JSON.stringify({ query: introspectionQuery }),\n });\n const { data } = await response.json();\n const schema = buildClientSchema(data);\n const outputFile = './wpgraphql-schema.gql';\n fs.writeFileSync(outputFile, printSchema(schema));\n}", "function createServer() {\n return new GraphQLServer({\n typeDefs: 'src/schema.graphql',\n resolvers: {\n Mutation,\n Query,\n Date: new GraphQLScalarType({ // https://www.apollographql.com/docs/apollo-server/features/scalars-enums.html#custom-scalars\n name: 'Date',\n description: 'Date custom scalar type',\n parseValue(value) {\n return new Date(value); // value from the client\n },\n serialize(value) {\n return new Date(value).getTime(); // value sent to the client\n },\n parseLiteral(ast) {\n if (ast.kind === Kind.INT) {\n return parseInt(ast.value, 10); // ast value is always in string format\n }\n return null;\n },\n }),\n User: {\n posts: parent => prisma.user({ id: parent.id }).posts(),\n following: parent => prisma.user({ id: parent.id }).following(),\n followers: parent => prisma.user({ id: parent.id }).followers(),\n likes: parent => prisma.user({ id: parent.id }).likes(),\n comments: parent => prisma.user({ id: parent.id }).comments()\n },\n Post: {\n author: parent => prisma.post({ id: parent.id }).author(),\n likes: parent => prisma.post({ id: parent.id }).likes(),\n comments: parent => prisma.post({ id: parent.id }).comments(),\n content: parent => prisma.post({ id: parent.id }).content()\n },\n Like: {\n user: parent => prisma.like({ id: parent.id }).user(),\n post: parent => prisma.like({ id: parent.id }).post()\n },\n Comment: {\n writtenBy: parent => prisma.comment({ id: parent.id }).writtenBy()\n }\n },\n resolverValidationOptions: {\n requireResolversForResolveType: false\n },\n context: req => ({ ...req, prisma})\n });\n}", "getSchema (input, build) {\n var parent = this.model.visual;\n\n // allow to specify the schema as an entry of\n // visuals object in the dashboard schema\n if (parent && parent !== this.model && isString(input)) {\n var schema = parent.getVisualSchema(input);\n if (schema) input = schema;\n }\n\n if (isString(input)) {\n return this.json(input).then(response => build(response.data)).catch(err => {\n warn(`Could not reach ${input}: ${err}`, err);\n });\n }\n else return build(input);\n }", "function createServer() {\n return new GraphQLServer({\n typeDefs: 'src/schema.graphql',\n resolvers: {\n Mutation: Mutation,\n Query: Query\n },\n resolverValidationOptions: {\n requireResolversForResolveType: false\n },\n context: req => ({ ...req, db }) // we need to access the database from resolvers, and we do this using context\n });\n}", "buildSchema() {\n if (!this.dbSchema) return this.schema;\n for (let tablename in this.dbSchema) {\n this.mapDbTableToGraphqlType(tablename);\n this.mapDbTableToGraphqlQuery(tablename);\n this.mapDbTableToGraphqlFirstOf(tablename);\n this.mapDbTableToGraphqlMutation(tablename);\n this.mapDbTableToGraphqlInput(tablename);\n }\n return this.schema;\n }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function createServer() {\n return new GraphQLServer({\n typeDefs: \"src/schema.graphql\", // map all the data in the schema\n resolvers: {\n // use these to act on the schema\n Mutation,\n Query\n },\n resolverValidationOptions: {\n // turn off some errors\n requireResolversForResolveType: false\n },\n context: req => ({ ...req, db }) // for every request, add on the db, so we expose it thoughout the application\n });\n}", "function createServer() {\n return new GraphQLServer({\n typeDefs: \"src/schema.graphql\",\n resolvers: {\n Mutation: Mutation,\n Query: Query,\n Issue: Issue,\n Project: Project,\n User: User,\n Comment: Comment,\n Log: Log,\n File,\n },\n resolverValidationOptions: {\n requireResolversForResolveType: false,\n },\n context: (req) => ({ ...req, prisma }),\n });\n}", "function getIntrospectionQuery(options) {\n var descriptions = !(options && options.descriptions === false);\n return \"\\n query IntrospectionQuery {\\n __schema {\\n queryType { name }\\n mutationType { name }\\n subscriptionType { name }\\n types {\\n ...FullType\\n }\\n directives {\\n name\\n \".concat(descriptions ? 'description' : '', \"\\n locations\\n args {\\n ...InputValue\\n }\\n }\\n }\\n }\\n\\n fragment FullType on __Type {\\n kind\\n name\\n \").concat(descriptions ? 'description' : '', \"\\n fields(includeDeprecated: true) {\\n name\\n \").concat(descriptions ? 'description' : '', \"\\n args {\\n ...InputValue\\n }\\n type {\\n ...TypeRef\\n }\\n isDeprecated\\n deprecationReason\\n }\\n inputFields {\\n ...InputValue\\n }\\n interfaces {\\n ...TypeRef\\n }\\n enumValues(includeDeprecated: true) {\\n name\\n \").concat(descriptions ? 'description' : '', \"\\n isDeprecated\\n deprecationReason\\n }\\n possibleTypes {\\n ...TypeRef\\n }\\n }\\n\\n fragment InputValue on __InputValue {\\n name\\n \").concat(descriptions ? 'description' : '', \"\\n type { ...TypeRef }\\n defaultValue\\n }\\n\\n fragment TypeRef on __Type {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n ofType {\\n kind\\n name\\n }\\n }\\n }\\n }\\n }\\n }\\n }\\n }\\n \");\n}", "function createServer() {\n return new GraphQLServer({\n typeDefs: 'src/schema.graphql',\n resolvers: {\n Mutation,\n Query,\n },\n resolverValidationOptions: {\n requireResolversForResolveType: false,\n },\n context: req => ({ ...req, db }), // Need to access DB from the resolvers. This is by passing context.\n });\n}", "getSchema(keyRef) {\n let sch;\n while (typeof (sch = getSchEnv.call(this, keyRef)) == \"string\")\n keyRef = sch;\n if (sch === undefined) {\n const { schemaId } = this.opts;\n const root = new compile_1.SchemaEnv({ schema: {}, schemaId });\n sch = compile_1.resolveSchema.call(this, root, keyRef);\n if (!sch)\n return;\n this.refs[keyRef] = sch;\n }\n return (sch.validate || this._compileSchemaEnv(sch));\n }", "function GraphQLSchema(config) {\n var _config$directives; // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n\n\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2]; // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4]; // Directives are not validated until validateSchema() is called.\n\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "async function main() {\n\tconst endpoint = process.env.ENDPOINT;\n\tif(!endpoint || endpoint.indexOf(\"your-wordpress-blog.orlocalhost\") !== -1){\n\t\tconsole.log(\"please set ENDPOINT environment variable to your graphql endpoint, aborting\")\n\t\treturn;\n\t}\n\tconst introspectionQuery = getIntrospectionQuery();\n\tconst response = await fetch(endpoint, {\n\t\tmethod: \"POST\",\n\t\theaders: {\n\t\t\t\"Content-Type\": \"application/json\",\n\t\t},\n\t\tbody: JSON.stringify({ query: introspectionQuery }),\n\t});\n\tconst { data } = await response.json();\n\tconst schema = buildClientSchema(data);\n\tconst outputFile = \"./wpgraphql-schema.gql\";\n\tfs.writeFileSync(outputFile, printSchema(schema));\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "get convertedSchema() {\n let schema = {\n $schema: \"http://json-schema.org/schema#\",\n title: this.label,\n type: \"object\",\n required: [],\n properties: this.fieldsToSchema(this.fields),\n };\n return schema;\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom3.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function _generateSchema(typeDefinitions, resolveFunctions, logger, \n // TODO: rename to allowUndefinedInResolve to be consistent\n allowUndefinedInResolve, resolverValidationOptions) {\n if (typeof resolverValidationOptions !== 'object') {\n throw new SchemaError('Expected `resolverValidationOptions` to be an object');\n }\n if (!typeDefinitions) {\n throw new SchemaError('Must provide typeDefs');\n }\n if (!resolveFunctions) {\n throw new SchemaError('Must provide resolvers');\n }\n // TODO: check that typeDefinitions is either string or array of strings\n var schema = buildSchemaFromTypeDefinitions(typeDefinitions);\n addResolveFunctionsToSchema(schema, resolveFunctions);\n assertResolveFunctionsPresent(schema, resolverValidationOptions);\n if (!allowUndefinedInResolve) {\n addCatchUndefinedToSchema(schema);\n }\n if (logger) {\n addErrorLoggingToSchema(schema, logger);\n }\n return schema;\n}", "function calcSchema( inSchema ) {\n var gbCols = cols.concat( aggCols );\n var gbs = new Schema( { columns: gbCols, columnMetadata: inSchema.columnMetadata } );\n\n return gbs;\n }", "function requestSchema () {\n // Reset greenEdges / greenNodes to false (so data does not persist)\n dispatch({\n type: \"greenEdges\",\n payload: false\n })\n dispatch({\n type: \"greenNodes\",\n payload: false\n })\n\t\tfetch('http://localhost:3000/getSchema')\n\t\t\t.then(res => res.json())\n\t\t\t.then(res => saveSchema(res))\n\t\t\t.catch(err => console.log('Error with fetching updated schema from User app: ', err));\n }", "static get schema() {\n return {};\n }", "_buildQueryHelper(defaultContext) {\n /**\n * An executable function for running a query\n *\n * @param queryString String A graphQL query string\n * @param options.skipAccessControl Boolean By default access control _of\n * the user making the initial request_ is still tested. Disable all\n * Access Control checks with this flag\n * @param options.variables Object The variables passed to the graphql\n * query for the given queryString.\n * @param options.context Object Overrides to the default context used when\n * making a query. Useful for setting the `schemaName` for example.\n *\n * @return Promise<Object> The graphql query response\n */\n return (\n queryString,\n { skipAccessControl = false, variables, context = {}, operationName } = {}\n ) => {\n let passThroughContext = {\n ...defaultContext,\n ...context,\n };\n\n if (skipAccessControl) {\n passThroughContext.getCustomAccessControlForUser = () => true;\n passThroughContext.getListAccessControlForUser = () => true;\n passThroughContext.getFieldAccessControlForUser = () => true;\n }\n\n const graphQLQuery = this._graphQLQuery[passThroughContext.schemaName];\n\n if (!graphQLQuery) {\n return Promise.reject(\n new Error(\n `No executable schema named '${passThroughContext.schemaName}' is available. Have you setup '@keystonejs/app-graphql'?`\n )\n );\n }\n\n return graphQLQuery(queryString, passThroughContext, variables, operationName);\n };\n }", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function createServer() {\n\treturn new ApolloServer({\n\t\ttypeDefs,\n\t\tresolvers: {\n\t\t\tMutation,\n\t\t\tQuery,\n\t\t\tSubscription,\n\t\t},\n\t\tintrospection: true,\n\t\tresolverValidationOptions: {\n\t\t\trequireResolversForResolveType: false,\n\t\t},\n\t\tcontext: (req) => {\n\t\t\t// console.log('context req: ', req);\n\t\t\treturn { ...req, db };\n\t\t},\n\t});\n}", "function cannotExecuteClientSchema() {\n throw new Error('Client Schema cannot use Interface or Union types for execution.');\n}", "function cannotExecuteClientSchema() {\n throw new Error('Client Schema cannot use Interface or Union types for execution.');\n}", "registerGraphQLSchema() {\n let self = this;\n\n let schemas = {\n queries: [],\n types: [],\n mutations: [],\n resolvers: []\n };\n\n _.forIn(this.services, (service, name) => {\n if (\n service.$settings.graphql !== false &&\n _.isObject(service.$schema.graphql)\n ) {\n let graphQL = service.$schema.graphql;\n graphQL.resolvers = graphQL.resolvers || {};\n\n let processResolvers = function(resolvers) {\n _.forIn(resolvers, (resolver, name) => {\n if (_.isString(resolver) && service.actions[resolver]) {\n let handler = (root, args, context) => {\n let actionFunc = service.actions[resolver];\n\n let action = actionFunc.settings;\n action.handler = actionFunc;\n\n if (!_.isFunction(action.handler))\n throw new Error(\n `Missing handler function in '${name}' action in '${service.name}' service!`\n );\n\n let ctx = Context.CreateFromGraphQL(\n service,\n action,\n root,\n args,\n context\n );\n logger.debug(\"Request via GraphQL\", ctx.params, context.query);\n console.time(\"GRAPHQL request\");\n self.emit(\"request\", ctx);\n let cacheKey = service.getCacheKey(action.name, ctx.params);\n\n return (\n Promise.resolve()\n // Resolve model if ID provided\n .then(() => {\n return ctx.resolveModel();\n })\n // Check permission\n .then(() => {\n return ctx.checkPermission();\n })\n // Call the action handler\n .then(() => {\n return action.handler(ctx);\n })\n .catch(err => {\n logger.error(err);\n throw err;\n })\n .then(json => {\n self.emit(\"response\", ctx);\n console.timeEnd(\"GRAPHQL request\");\n return json;\n })\n );\n };\n\n resolvers[name] = handler;\n }\n });\n };\n\n if (graphQL.resolvers.Query) processResolvers(graphQL.resolvers.Query);\n\n if (graphQL.resolvers.Mutation)\n processResolvers(graphQL.resolvers.Mutation);\n\n schemas.queries.push(graphQL.query);\n schemas.types.push(graphQL.types);\n schemas.mutations.push(graphQL.mutation);\n schemas.resolvers.push(graphQL.resolvers);\n }\n });\n\n // Merge Type Definitons\n\n if (schemas.queries.length == 0) return null;\n\n let mergedSchema = `\n\n\t\t\tscalar Timestamp\n\n\t\t\ttype Query {\n\t\t\t\t${schemas.queries.join(\"\\n\")}\n\t\t\t}\n\n\t\t\t${schemas.types.join(\"\\n\")}\n\n\t\t\ttype Mutation {\n\t\t\t\t${schemas.mutations.join(\"\\n\")}\n\t\t\t}\n\n\t\t\tschema {\n\t\t\t\tquery: Query\n\t\t\t\tmutation: Mutation\n\t\t\t}\n\t\t`;\n\n // Merge Resolvers\n\n let mergeModuleResolvers = function(baseResolvers) {\n schemas.resolvers.forEach(module => {\n baseResolvers = _.merge(baseResolvers, module);\n });\n\n return baseResolvers;\n };\n\n return {\n schema: [mergedSchema],\n resolvers: mergeModuleResolvers({\n Timestamp: {\n __parseValue(value) {\n return new Date(value); // value from the client\n },\n __serialize(value) {\n return value.getTime(); // value sent to the client\n },\n __parseLiteral(ast) {\n if (ast.kind === Kind.INT) return parseInt(ast.value, 10); // ast value is always in string format\n\n return null;\n }\n }\n /* This version is not working\n\t\t\t\t\tCopied from http://dev.apollodata.com/tools/graphql-tools/scalars.html\n\t\t\t\t*/\n /*\n\t\t\t\tTimestamp: new GraphQLScalarType({\n\t\t\t\t\tname: \"Timestamp\",\n\t\t\t\t\tdescription: \"Timestamp scalar type\",\n\t\t\t\t\tparseValue(value) {\n\t\t\t\t\t\treturn new Date(value); // value from the client\n\t\t\t\t\t},\n\t\t\t\t\tserialize(value) {\n\t\t\t\t\t\treturn value.getTime(); // value sent to the client\n\t\t\t\t\t},\n\t\t\t\t\tparseLiteral(ast) {\n\t\t\t\t\t\tif (ast.kind === Kind.INT) {\n\t\t\t\t\t\t\treturn parseInt(ast.value, 10); // ast value is always in string format\n\t\t\t\t\t\t}\n\t\t\t\t\t\treturn null;\n\t\t\t\t\t},\n\t\t\t\t}),*/\n })\n };\n }", "function generateSchema() {\n // Get the instance of `graphql` that `graphbrainz` sees.\n const graphql = require(resolveFrom(\n require.resolve('graphbrainz'),\n 'graphql'\n ))\n\n const extendedSchema = createSchema(graphBrainzSchema, {\n extensions: ['graphbrainz/extensions/cover-art-archive'],\n })\n\n return schemaToJSON(extendedSchema, { graphql })\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n return buildASTSchema((0, _parser.parse)(source));\n}", "function buildSchema(source) {\n\t return buildASTSchema((0, _parser.parse)(source));\n\t}", "function compileSchema(sch) {\n // TODO refactor - remove compilations\n const _sch = getCompilingSchema.call(this, sch);\n if (_sch)\n return _sch;\n const rootId = (0, resolve_1.getFullPath)(this.opts.uriResolver, sch.root.baseId); // TODO if getFullPath removed 1 tests fails\n const { es5, lines } = this.opts.code;\n const { ownProperties } = this.opts;\n const gen = new codegen_1.CodeGen(this.scope, { es5, lines, ownProperties });\n let _ValidationError;\n if (sch.$async) {\n _ValidationError = gen.scopeValue(\"Error\", {\n ref: validation_error_1.default,\n code: (0, codegen_1._) `require(\"ajv/dist/runtime/validation_error\").default`,\n });\n }\n const validateName = gen.scopeName(\"validate\");\n sch.validateName = validateName;\n const schemaCxt = {\n gen,\n allErrors: this.opts.allErrors,\n data: names_1.default.data,\n parentData: names_1.default.parentData,\n parentDataProperty: names_1.default.parentDataProperty,\n dataNames: [names_1.default.data],\n dataPathArr: [codegen_1.nil],\n dataLevel: 0,\n dataTypes: [],\n definedProperties: new Set(),\n topSchemaRef: gen.scopeValue(\"schema\", this.opts.code.source === true\n ? { ref: sch.schema, code: (0, codegen_1.stringify)(sch.schema) }\n : { ref: sch.schema }),\n validateName,\n ValidationError: _ValidationError,\n schema: sch.schema,\n schemaEnv: sch,\n rootId,\n baseId: sch.baseId || rootId,\n schemaPath: codegen_1.nil,\n errSchemaPath: sch.schemaPath || (this.opts.jtd ? \"\" : \"#\"),\n errorPath: (0, codegen_1._) `\"\"`,\n opts: this.opts,\n self: this,\n };\n let sourceCode;\n try {\n this._compilations.add(sch);\n (0, validate_1.validateFunctionCode)(schemaCxt);\n gen.optimize(this.opts.code.optimize);\n // gen.optimize(1)\n const validateCode = gen.toString();\n sourceCode = `${gen.scopeRefs(names_1.default.scope)}return ${validateCode}`;\n // console.log((codeSize += sourceCode.length), (nodeCount += gen.nodeCount))\n if (this.opts.code.process)\n sourceCode = this.opts.code.process(sourceCode, sch);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode)\n const makeValidate = new Function(`${names_1.default.self}`, `${names_1.default.scope}`, sourceCode);\n const validate = makeValidate(this, this.scope.get());\n this.scope.value(validateName, { ref: validate });\n validate.errors = null;\n validate.schema = sch.schema;\n validate.schemaEnv = sch;\n if (sch.$async)\n validate.$async = true;\n if (this.opts.code.source === true) {\n validate.source = { validateName, validateCode, scopeValues: gen._values };\n }\n if (this.opts.unevaluated) {\n const { props, items } = schemaCxt;\n validate.evaluated = {\n props: props instanceof codegen_1.Name ? undefined : props,\n items: items instanceof codegen_1.Name ? undefined : items,\n dynamicProps: props instanceof codegen_1.Name,\n dynamicItems: items instanceof codegen_1.Name,\n };\n if (validate.source)\n validate.source.evaluated = (0, codegen_1.stringify)(validate.evaluated);\n }\n sch.validate = validate;\n return sch;\n }\n catch (e) {\n delete sch.validate;\n delete sch.validateName;\n if (sourceCode)\n this.logger.error(\"Error compiling schema, function code:\", sourceCode);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode, this.opts)\n throw e;\n }\n finally {\n this._compilations.delete(sch);\n }\n}", "function localInterface(context) {\n return _apolloLocalQuery2.default.createLocalInterface(graphql, _config2.default.graphQLSchema, {\n // Attach the request's context, which certain GraphQL queries might\n // need for accessing cookies, auth headers, etc.\n context\n });\n }", "generateSchema(collection) {\n\n const collectionName = collection._name;\n const mainTypeName = collection.typeName ? collection.typeName : Utils.camelToSpaces(_.initial(collectionName).join('')); // default to posts -> Post\n\n // backward-compatibility code: we do not want user.telescope fields in the graphql schema\n const schema = Utils.stripTelescopeNamespace(collection.simpleSchema()._schema);\n\n let mainSchema = [], inputSchema = [], unsetSchema = [];\n\n _.forEach(schema, (field, key) => {\n // console.log(field, key)\n const fieldType = jsTypeToGraphQLType(field.type.singleType);\n\n if (key.indexOf('$') === -1) { // skip fields with \"$\"\n\n // 1. main schema\n mainSchema.push(`${key}: ${fieldType}`);\n\n // if field has a resolver, also push it to schema\n if (field.resolveAs) {\n mainSchema.push(field.resolveAs);\n }\n\n if (field.insertableBy || field.editableBy) {\n\n // note: marking a field as required makes it required for updates, too,\n // which makes partial updates impossible\n // const isRequired = field.optional ? '' : '!';\n\n const isRequired = '';\n\n // 2. input schema\n inputSchema.push(`${key}: ${fieldType}${isRequired}`);\n\n // 3. unset schema\n unsetSchema.push(`${key}: Boolean`);\n\n }\n }\n });\n\n let graphQLSchema = `\n type ${mainTypeName} {\n ${mainSchema.join('\\n ')}\n }\n `\n\n if (inputSchema.length) {\n graphQLSchema += `\n input ${collectionName}Input {\n ${inputSchema.join('\\n ')}\n }\n input ${collectionName}Unset {\n ${unsetSchema.join('\\n ')}\n }\n `\n }\n\n return graphQLSchema;\n }", "create () {\n const self = this\n\n self.applyPlugins('before-create', self)\n\n self.applyPluginsAsyncWaterfall('schema', self.options.schema, function(err, value) {\n if (err) {\n console.error('get schema failed ', err)\n return\n }\n\n self.applyPlugins('schema-loaded', value)\n\n if (value && value.length > 0) { // build from schema list\n self.buildControls(value)\n self.render()\n }\n })\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "schema() { }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (!innerTypeMap[typeName]) {\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]);\n }\n return innerTypeMap[typeName];\n }\n\n function makeSchemaDef(def) {\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n return new _definition.GraphQLInterfaceType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n return new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function addIntrospection(config) {\n config.generates['./graphql.schema.json'] = {\n plugins: ['introspection']\n };\n}", "function mockServer(schema, mocks, preserveResolvers) {\n if (preserveResolvers === void 0) { preserveResolvers = false; }\n var mySchema;\n if (!(schema instanceof graphql_1.GraphQLSchema)) {\n // TODO: provide useful error messages here if this fails\n mySchema = makeExecutableSchema_1.buildSchemaFromTypeDefinitions(schema);\n }\n else {\n mySchema = schema;\n }\n addMockFunctionsToSchema({ schema: mySchema, mocks: mocks, preserveResolvers: preserveResolvers });\n return { query: function (query, vars) { return graphql_1.graphql(mySchema, query, {}, {}, vars); } };\n}", "getSchemaValidator() {\n const ajv = new Ajv__default[\"default\"]({ strict: true, strictTuples: true, strictTypes: true });\n ajv.addMetaSchema(ajvSchemaDraft);\n ajv.addKeyword(ajvRegexpKeyword);\n ajv.addKeyword({ keyword: \"copyable\" });\n return ajv.compile(this.schema);\n }", "function KalturaSchemaService(client){\n\tthis.init(client);\n}", "function mockServer(schema, mocks, preserveResolvers) {\n if (preserveResolvers === void 0) { preserveResolvers = false; }\n var mySchema;\n if (!(schema instanceof graphql_1.GraphQLSchema)) {\n // TODO: provide useful error messages here if this fails\n mySchema = schemaGenerator_1.buildSchemaFromTypeDefinitions(schema);\n }\n else {\n mySchema = schema;\n }\n addMockFunctionsToSchema({ schema: mySchema, mocks: mocks, preserveResolvers: preserveResolvers });\n return { query: function (query, vars) { return graphql_2.graphql(mySchema, query, {}, {}, vars); } };\n}", "async function creatApolloClient() {\n let schema = await simpleClient\n .request(query)\n .then(x => x)\n const myFragmentMatcher = await new IntrospectionFragmentMatcher({introspectionQueryResultData: schema})\n const networkInterface = await createNetworkInterface({\n uri: 'https://api.github.com/graphql',\n opts: {\n headers: {\n // https://help.github.com/articles/creating-a-personal-access-token-for-the-com\n // mand-line/\n \"Authorization\": `Bearer ${process.env.REACT_APP_TOKEN}`\n }\n }\n });\n const client = await new ApolloClient({networkInterface, fragmentMatcher: myFragmentMatcher});\n return await class App extends Component {\n render() {\n return (\n <ApolloProvider client={client}>\n <div>\n <Header/>\n <Body/>\n </div>\n </ApolloProvider>\n )\n }\n }\n}", "function generateTypes(options = {}) {\n const { files, generateDocuments, generateSchemaTypes, schemaPath } = options;\n return new Promise((resolve, reject) => {\n gqlGenTool({\n file: schemaPath,\n template: 'typescript',\n // out: outPath,\n args: files,\n documents: generateDocuments,\n schema: generateSchemaTypes,\n }).then(\n value => {\n // console.log('end gen', value);\n const resultStr = value[0].content;\n\n // check for clashing namespace names\n const exportedNamespaces = (resultStr.match(/export namespace (\\S+) \\{/g) || []).map(\n m => m.match(/export namespace (\\S+) {/)[1],\n );\n\n if (exportedNamespaces.length !== _.uniq(exportedNamespaces).length) {\n const namesMap = exportedNamespaces.reduce((acc, v) => {\n acc[v] = acc[v] === undefined ? 1 : acc[v] + 1;\n return acc;\n }, {});\n const clashingNames = Object.keys(namesMap).filter(n => namesMap[n] > 1);\n return reject(new Error(`Query/Mutation names clash for ${clashingNames.join(', ')}`));\n }\n\n // prettify the result\n const prettifiedResultStr = prettier.format(\n resultStr,\n Object.assign(\n {\n parser: 'typescript',\n },\n prettierConfig,\n ),\n );\n\n resolve(prettifiedResultStr);\n },\n error => {\n console.log('yp-schema: types generation error', error);\n reject(error);\n },\n );\n });\n}", "function buildSchema(source, options) {\n return buildASTSchema(Object(_language_parser__WEBPACK_IMPORTED_MODULE_9__[\"parse\"])(source, options), options);\n}", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function cannotExecuteClientSchema() {\n\t throw new Error('Client Schema cannot use Interface or Union types for execution.');\n\t}", "function inferSchema(value){\n \n // we have no way of infering type names for objects\n // therefore we simply assign an incremental identifier to each new object we find\n const anonymousTypeName = anonymousTypeNameGenerator();\n\n // entry point of schema\n let rootType = Type.ObjectType(\"Root\");\n\n const queue = [];\n queue.push({path: [\"fields\", \"root\"], value:value});\n\n while(queue.length > 0){\n const descriptor = queue.pop();\n \n const type = inferType(descriptor.value);\n\n if(type.kind === \"SCALAR\"){\n // console.log(\"set in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type);\n continue; \n }\n\n if(type.name === \"ListType\"){\n // console.log(\"set a list in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type());\n const path = descriptor.path.concat(\"ofType\");\n\n // examine type of first item in list\n // TODO: examine more elements?\n queue.push({path:path, value: descriptor.value.get(0)});\n }\n\n if(type.name === \"ObjectType\"){\n // console.log(\"set an object in\", descriptor.path);\n const typeName = anonymousTypeName.next().value;\n rootType = rootType.setIn(descriptor.path, type(typeName));\n const path = descriptor.path.concat(\"fields\");\n const entries = descriptor.value.entries();\n // enumerate fields of Map\n for([fieldName, val] of entries){\n queue.push({path:path.concat(fieldName), value: val});\n } \n }\n }\n\n return rootType;\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "function LoneSchemaDefinition(context) {\n var oldSchema = context.getSchema();\n var alreadyDefined = oldSchema && (oldSchema.astNode || oldSchema.getQueryType() || oldSchema.getMutationType() || oldSchema.getSubscriptionType());\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](canNotDefineSchemaWithinExtensionMessage(), node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](schemaDefinitionNotAloneMessage(), node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function createMutationPayloadGqlType(buildToken, config) {\n return new graphql_1.GraphQLObjectType({\n name: utils_1.formatName.type(config.name + \"-payload\"),\n description: \"The output of our `\" + utils_1.formatName.field(config.name) + \"` mutation.\",\n fields: utils_1.buildObject([\n // Add the `clientMutationId` output field. This will be the exact\n // same value as the input `clientMutationId`.\n ['clientMutationId', {\n description: \"The exact same `clientMutationId` that was provided in the mutation input, unchanged and unused. May be used by a client to track mutations.\",\n type: graphql_1.GraphQLString,\n resolve: function (_a) {\n var clientMutationId = _a.clientMutationId;\n return clientMutationId;\n },\n }],\n ], \n // Add all of our output fields to the output object verbatim. Simple\n // as that. We do transform the fields to mask the implementation\n // detail of `MutationValue` being an object. Instead we just pass\n // `MutationValue#value` directly to the resolver.\n (config.outputFields || [])\n .filter(Boolean)\n .map(function (_a) {\n var fieldName = _a[0], field = _a[1];\n return [fieldName, {\n type: field.type,\n args: field.args,\n resolve: field.resolve\n ? function (_a) {\n var value = _a.value;\n var rest = [];\n for (var _i = 1; _i < arguments.length; _i++) {\n rest[_i - 1] = arguments[_i];\n }\n // tslint:disable-next-line no-any\n return (_b = field).resolve.apply(_b, [value].concat(rest));\n var _b;\n }\n : null,\n description: field.description,\n deprecationReason: field.deprecationReason,\n }];\n }), [\n // A reference to the root query type. Allows you to access even more\n // data in your mutations.\n ['query', {\n description: 'Our root query field type. Allows us to run any query from our mutation payload.',\n type: getQueryGqlType_1.default(buildToken),\n resolve: function () { return getQueryGqlType_1.$$isQuery; },\n }],\n ]),\n });\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"](_objectSpread({}, schemaConfig, {\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLDirective\"](_objectSpread({}, config, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isScalarType\"])(type) || Object(_type_introspection__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInterfaceType\"](_objectSpread({}, _config, {\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLUnionType\"](_objectSpread({}, _config2, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLEnumType\"](_objectSpread({}, _config3, {\n values: sortObjMap(_config3.values)\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInputObjectType\"](_objectSpread({}, _config4, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type), \"\\\".\"));\n }\n}", "getSchemaConcept(resp) {\n const grpcRes = resp.getGetschemaconceptRes();\n return (grpcRes.hasNull()) ? null : this.conceptFactory.createConcept(grpcRes.getSchemaconcept());\n }", "function Schema_from_swagger(schema_content) {\n 'use strict';\n // use new\n\n this.resolve = (input_json_obj) => {\n //const schema = getSwaggerV2Schema(schema_content, '/default_endpoint')\n const schema = schema_content;\n const ok = schemaValidator(schema, input_json_obj);\n if (ok) {\n return input_json_obj;\n } else {\n throw new Error('mismatch: The constraint aspect of template failed');\n }\n };\n\n this.generate = (obj) => this.resolve(obj);\n}", "function compileSchema (schema) {\n return (payload) => {\n return Joi.validate(payload, schema)\n }\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "static getMetaData(src) {\n\t\tif (GraphQL.logging) console.log('GraphQL: ', src);\n\t\treturn new Promise((resolve, reject) => {\n\t\t\t// console.log('================\\n', GraphQL.metadataStr(), '===================\\n');\n\n\t\t\taxios\n\t\t\t\t.post(src, GraphQL.query(GraphQL.metadataStr()))\n\t\t\t\t.then((res) => {\n\t\t\t\t\tconst { __schema: schema } = res.data.data;\n\t\t\t\t\tresolve(schema);\n\t\t\t\t})\n\t\t\t\t.catch((err) => {\n\t\t\t\t\tif (err.isAxiosError) {\n\t\t\t\t\t\t// console.log(err.response);\n\t\t\t\t\t\ttry {\n\t\t\t\t\t\t\treject({\n\t\t\t\t\t\t\t\tsourceType: 'GraphQL',\n\t\t\t\t\t\t\t\tstatusText: err.response.statusText,\n\t\t\t\t\t\t\t\trequestUrl: err.response.config.url,\n\t\t\t\t\t\t\t\trequestBody: JSON.parse(err.response.config.data).query,\n\t\t\t\t\t\t\t\terrors: err.response.data.errors,\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t} catch (e) {\n\t\t\t\t\t\t\treject(err);\n\t\t\t\t\t\t}\n\t\t\t\t\t} else reject(err);\n\t\t\t\t});\n\t\t});\n\t}", "static _getRawSchema () {\n let schema = this.schema\n return schema\n }", "getSchemaXml() {\r\n return this.clone(SharePointQueryable, \"schemaxml\").get();\r\n }", "function QueryCompiler(client, builder) {\n this.client = client;\n this.method = builder._method || 'select';\n this.options = builder._options;\n this.single = builder._single;\n this.timeout = builder._timeout || false;\n this.cancelOnTimeout = builder._cancelOnTimeout || false;\n this.grouped = (0, _groupBy3.default)(builder._statements, 'grouping');\n this.formatter = client.formatter();\n}", "function makeValidator(schema) {\n return ajv.compile(schema);\n}", "function getSchema(request) {\n \n \n \n \n var fields = getFields(request).build();\n console.log(JSON.stringify(fields));\n console.log(fields.toString());\n //resetAuth();\n return { schema: fields };\n \n}", "function makeApolloClient(scapholdUrl) {\n const graphqlUrl = `https://${scapholdUrl}`;\n const websocketUrl = `wss://${scapholdUrl}`;\n const networkInterface = createNetworkInterface(graphqlUrl);\n networkInterface.use([{\n applyMiddleware(req, next) {\n // Easy way to add authorization headers for every request\n if (!req.options.headers) {\n req.options.headers = {}; // Create the header object if needed.\n }\n if (localStorage.getItem('scaphold_user_token')) {\n // assumes we have logged in and stored the returned user token in local storage\n req.options.headers.Authorization = `Bearer ${localStorage.getItem('scaphold_user_token')}`;\n }\n next();\n },\n }]);\n const wsClient = new Client(websocketUrl);\n const networkInterfaceWithSubscriptions = addGraphQLSubscriptions(networkInterface, wsClient);\n\n const clientGraphql = new ApolloClient({\n networkInterface: networkInterfaceWithSubscriptions,\n initialState: {},\n });\n return clientGraphql;\n}", "generateSchema() {\n var that = this;\n\n _.keys(this).forEach(function(k) {\n // Ignore private variables\n if (_.startsWith(k, '_')) {\n return;\n }\n\n // Normalize the type format\n that._schema[k] = normalizeType(that[k]);\n\n // Assign a default if needed\n if (isArray(that._schema[k].type)) {\n that._values[k] = that.getDefault(k) || [];\n } else {\n that._values[k] = that.getDefault(k);\n }\n\n // Should we delete these member variables so they\n // don't get in the way? Probably a waste of time\n // since the Proxy intercepts all gets/sets to them.\n //delete that[k];\n });\n }" ]
[ "0.82505995", "0.82505995", "0.8033248", "0.7840775", "0.7837499", "0.76068807", "0.59443253", "0.5938706", "0.5829458", "0.5774952", "0.5774952", "0.57515067", "0.5689788", "0.5689788", "0.5682051", "0.5654787", "0.5626406", "0.5624843", "0.55889815", "0.5580657", "0.55793864", "0.5573423", "0.553832", "0.5459642", "0.54209244", "0.5406412", "0.53927326", "0.5369594", "0.5334624", "0.53182447", "0.53051937", "0.5294141", "0.5288037", "0.5211682", "0.5198515", "0.5194858", "0.5163671", "0.51330423", "0.51330423", "0.5074465", "0.5026734", "0.49642864", "0.49615115", "0.49433604", "0.493641", "0.49359697", "0.4921623", "0.4921623", "0.48947182", "0.48733595", "0.48733595", "0.48641628", "0.48344794", "0.4829222", "0.4829222", "0.4829222", "0.4821441", "0.48163006", "0.48161072", "0.48078057", "0.4801232", "0.47966686", "0.4787756", "0.4778866", "0.4778866", "0.47617015", "0.47614843", "0.47614843", "0.47601262", "0.4757153", "0.47569793", "0.4744212", "0.47356933", "0.47166577", "0.4710124", "0.47039765", "0.46977118", "0.46625623", "0.46583542", "0.46460733", "0.46460733", "0.46398258", "0.46106043", "0.4604452", "0.45674974", "0.45674974", "0.45583797", "0.4556663", "0.45427266", "0.4541128", "0.451948", "0.44969904", "0.44922727", "0.4490148", "0.44774085", "0.44719797", "0.4454226", "0.44528523", "0.4441068" ]
0.7681812
6
Given a type reference in introspection, return the GraphQLType instance. preferring cached instances before building new instances.
function getType(typeRef) { if (typeRef.kind === _introspection.TypeKind.LIST) { var itemRef = typeRef.ofType; if (!itemRef) { throw new Error('Decorated type deeper than introspection query.'); } return new _definition.GraphQLList(getType(itemRef)); } if (typeRef.kind === _introspection.TypeKind.NON_NULL) { var nullableRef = typeRef.ofType; if (!nullableRef) { throw new Error('Decorated type deeper than introspection query.'); } var nullableType = getType(nullableRef); !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0; return new _definition.GraphQLNonNull(nullableType); } return getNamedType(typeRef.name); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _typeDefinition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n return new _typeDefinition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n\t if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _typeDefinition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _typeDefinition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function resolveRefTypeName(reference) {\n if (!(reference._ref in CACHE)) {\n CACHE[reference._ref] = _client.default.fetch('*[_id == $id][0]._type', {\n id: reference._ref\n });\n }\n\n return (0, _rxjs.from)(CACHE[reference._ref]);\n}", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "getType() {}", "function replaceType(type) {\n if (isListType(type)) {\n return new GraphQLList(replaceType(type.ofType));\n } else if (isNonNullType(type)) {\n return new GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "static forType(type) {\n return fastDefinitions.get(type);\n }", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "get type() {}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var typeDef = buildType(typeAST);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n }", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function injectable(type)\n{\n return resolve(metadata(type)).$type;\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n } else {\n return type;\n }\n}", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\t }", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n }\n else {\n return type;\n }\n}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n } else {\n return type;\n }\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function buildClientSchema(introspection) {\n\n\t // Get the schema from the introspection result.\n\t var schemaIntrospection = introspection.__schema;\n\n\t // Converts the list of types into a keyMap based on the type names.\n\t var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n\t return type.name;\n\t });\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars. All functions below are inline\n\t // so that this type def cache is within the scope of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Given a type reference in introspection, return the GraphQLType instance.\n\t // preferring cached instances before building new instances.\n\t function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }\n\n\t function getNamedType(typeName) {\n\t if (typeDefCache[typeName]) {\n\t return typeDefCache[typeName];\n\t }\n\t var typeIntrospection = typeIntrospectionMap[typeName];\n\t if (!typeIntrospection) {\n\t throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t var typeDef = buildType(typeIntrospection);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t function getInputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Introspection must provide input type for arguments.');\n\t return type;\n\t }\n\n\t function getOutputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Introspection must provide output type for fields.');\n\t return type;\n\t }\n\n\t function getObjectType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Introspection must provide object type for possibleTypes.');\n\t return type;\n\t }\n\n\t function getInterfaceType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Introspection must provide interface type for interfaces.');\n\t return type;\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }\n\n\t function buildScalarDef(scalarIntrospection) {\n\t return new _definition.GraphQLScalarType({\n\t name: scalarIntrospection.name,\n\t description: scalarIntrospection.description,\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildObjectDef(objectIntrospection) {\n\t return new _definition.GraphQLObjectType({\n\t name: objectIntrospection.name,\n\t description: objectIntrospection.description,\n\t interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n\t fields: function fields() {\n\t return buildFieldDefMap(objectIntrospection);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceDef(interfaceIntrospection) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: interfaceIntrospection.name,\n\t description: interfaceIntrospection.description,\n\t fields: function fields() {\n\t return buildFieldDefMap(interfaceIntrospection);\n\t },\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildUnionDef(unionIntrospection) {\n\t return new _definition.GraphQLUnionType({\n\t name: unionIntrospection.name,\n\t description: unionIntrospection.description,\n\t types: unionIntrospection.possibleTypes.map(getObjectType),\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildEnumDef(enumIntrospection) {\n\t return new _definition.GraphQLEnumType({\n\t name: enumIntrospection.name,\n\t description: enumIntrospection.description,\n\t values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n\t return valueIntrospection.name;\n\t }, function (valueIntrospection) {\n\t return {\n\t description: valueIntrospection.description,\n\t deprecationReason: valueIntrospection.deprecationReason\n\t };\n\t })\n\t });\n\t }\n\n\t function buildInputObjectDef(inputObjectIntrospection) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: inputObjectIntrospection.name,\n\t description: inputObjectIntrospection.description,\n\t fields: function fields() {\n\t return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n\t }\n\t });\n\t }\n\n\t function buildFieldDefMap(typeIntrospection) {\n\t return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n\t return fieldIntrospection.name;\n\t }, function (fieldIntrospection) {\n\t return {\n\t description: fieldIntrospection.description,\n\t deprecationReason: fieldIntrospection.deprecationReason,\n\t type: getOutputType(fieldIntrospection.type),\n\t args: buildInputValueDefMap(fieldIntrospection.args)\n\t };\n\t });\n\t }\n\n\t function buildInputValueDefMap(inputValueIntrospections) {\n\t return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n\t return inputValue.name;\n\t }, buildInputValue);\n\t }\n\n\t function buildInputValue(inputValueIntrospection) {\n\t var type = getInputType(inputValueIntrospection.type);\n\t var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : null;\n\t return {\n\t name: inputValueIntrospection.name,\n\t description: inputValueIntrospection.description,\n\t type: type,\n\t defaultValue: defaultValue\n\t };\n\t }\n\n\t function buildDirective(directiveIntrospection) {\n\t // Support deprecated `on****` fields for building `locations`, as this\n\t // is used by GraphiQL which may need to support outdated servers.\n\t var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n\t return new _directives.GraphQLDirective({\n\t name: directiveIntrospection.name,\n\t description: directiveIntrospection.description,\n\t locations: locations,\n\t args: buildInputValueDefMap(directiveIntrospection.args)\n\t });\n\t }\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var types = schemaIntrospection.types.map(function (typeIntrospection) {\n\t return getNamedType(typeIntrospection.name);\n\t });\n\n\t // Get the root Query, Mutation, and Subscription types.\n\t var queryType = getObjectType(schemaIntrospection.queryType);\n\n\t var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n\t var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n\t // Get the directives supported by Introspection, assuming empty-set if\n\t // directives were not queried for.\n\t var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: directives\n\t });\n\t}", "function resolveForwardRef(type) {\n if (typeof type === 'function' && type.hasOwnProperty('__forward_ref__')) {\n return type();\n } else {\n return type;\n }\n }", "function getTypeWithIdentity(typeIdentity) {\n var typeDefinitions = extensionInterface.getTypeDefinitions(),\n existingType,\n existingTypeName,\n existingTypeIdentity,\n typeNames = objKeys(typeDefinitions), \n typeCount = typeNames.length,\n typeIndex;\n \n for (typeIndex = 0; typeIndex < typeCount; typeIndex++) {\n existingTypeName = typeNames[typeIndex];\n existingType = typeDefinitions[existingTypeName];\n \n existingTypeIdentity = (typeof existingType === 'object' ?\n (existingType.identity ? existingType.identity : existingType.validator)\n : existingType);\n \n if (typeIdentity === existingTypeIdentity) {\n return existingTypeName;\n }\n }\n return null;\n }", "getTypeKey(){\n let type = this.get('properties.type') || this.get('type');\n if (type){\n type = TypeKey.getTypeKey(type);\n } else {\n // Use the class hierarchy if type is not defined in the data\n type = TypeKey.getTypeKey.apply(this);\n }\n return type;\n }", "getTypeCache(type = TYPE_ALL, create = false) {\n if (type == null) {\n type = TYPE_ALL;\n }\n if (!this.codList.hasOwnProperty(type) && !create) {\n // this.log(\"getTypeCache\", \"no COD for type: \" + type);\n return null;\n }\n let tc = this.codList[type];\n if (tc == null && create === true) {\n tc = {};\n this.codList[type] = tc;\n }\n return tc;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function get(type) {\n \treturn type;\n}", "function resolveObjectType(typeSpec) {\n var promise = new Promise();\n var ext = catalog.getExtensionByKey('type', typeSpec.name);\n if (ext) {\n promise.resolve({ ext: ext, typeSpec: typeSpec });\n } else {\n promise.reject(new Error('Unknown type: ' + typeSpec.name));\n }\n return promise;\n}", "function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function extendType(type) {\n if (type instanceof _typeDefinition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _typeDefinition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function resolveForwardRef(type){if(typeof type==='function'&&type.hasOwnProperty('__forward_ref__')){return type();}else{return type;}}", "function registerType(type) {\n if (logger.isDebugEnabled()) logger.debug('Register Type \\'%s\\' with id [%s]', type.typeName, type.id);\n return (types[type.id] = type);\n}", "type(val) {\n this._type = val;\n return this;\n }", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function GetTypeFromRef(_ref) {\n _ref = String(_ref);\n return _ref[0] === \"#\" ? _ref.slice(_ref.lastIndexOf(\"/\") + 1) : _ref;\n}", "function extendType(type) {\n\t if (type instanceof _typeDefinition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function getType(pType)\r\n\t{\r\n\t\t// Loops through the array until it finds a type that matches by name.\r\n\t\tfor (var i = 0; i < _this.objectTypes.length; i++)\r\n\t\t{\r\n\t\t\tif (_this.objectTypes[i].type == pType) break;\r\n\t\t}\r\n\t\tif (i >= 0 && i < _this.objectTypes.length) return _this.objectTypes[i];\r\n\t\treturn null;\r\n\t}", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function getSingularType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "get type() {\n\t\tconst { constructor } = this;\n\t\tconst { type } = constructor;\n\n\t\treturn type;\n\t}", "function relaxType(type) {\n switch (type.kind) {\n case SimpleTypeKind.INTERSECTION:\n case SimpleTypeKind.UNION:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ENUM:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ARRAY:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.PROMISE:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.OBJECT:\n return {\n name: type.name,\n kind: SimpleTypeKind.OBJECT\n };\n case SimpleTypeKind.INTERFACE:\n case SimpleTypeKind.FUNCTION:\n case SimpleTypeKind.CLASS:\n return {\n name: type.name,\n kind: SimpleTypeKind.ANY\n };\n case SimpleTypeKind.NUMBER_LITERAL:\n return { kind: SimpleTypeKind.NUMBER };\n case SimpleTypeKind.STRING_LITERAL:\n return { kind: SimpleTypeKind.STRING };\n case SimpleTypeKind.BOOLEAN_LITERAL:\n return { kind: SimpleTypeKind.BOOLEAN };\n case SimpleTypeKind.BIG_INT_LITERAL:\n return { kind: SimpleTypeKind.BIG_INT };\n case SimpleTypeKind.ENUM_MEMBER:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.ALIAS:\n return __assign(__assign({}, type), { target: relaxType(type.target) });\n case SimpleTypeKind.NULL:\n case SimpleTypeKind.UNDEFINED:\n return { kind: SimpleTypeKind.ANY };\n default:\n return type;\n }\n}", "function idOf(type) {\n var self = getInstance(this, idOf);\n self.type = type;\n return self;\n}", "toString() {\n var _d;\n // If an Object Type, we use the name of the Object Type\n let type = this.intermediateType ? (_d = this.intermediateType) === null || _d === void 0 ? void 0 : _d.name : this.type;\n // If configured as required, the GraphQL Type becomes required\n type = this.isRequired ? `${type}!` : type;\n // If configured with isXxxList, the GraphQL Type becomes a list\n type = this.isList || this.isRequiredList ? `[${type}]` : type;\n // If configured with isRequiredList, the list becomes required\n type = this.isRequiredList ? `${type}!` : type;\n return type;\n }", "type(name) {\n var i, len, ref, v;\n ref = this.variables;\n for (i = 0, len = ref.length; i < len; i++) {\n v = ref[i];\n if (v.name === name) {\n return v.type;\n }\n }\n return null;\n }", "function promiseTOf(type) {\n var self = getInstance(this, promiseTOf);\n self.type = type;\n return self;\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function Type() {}", "get typeReflection() { return exists && has(WA.Memory.type); }", "function promiseOf(type) {\n var self = getInstance(this, promiseOf);\n self.type = type;\n return self;\n}", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function fromType (entry, type) {\n let inttype = Helpers.intToType(type);\n switch (inttype) {\n case 'MapQL': case 'Map':\n return (new MapQL()).import(entry); // Convert all 'Map()' entries to MapQL.\n case 'Set':\n return new Set(entry.map((val) => {\n return fromType(val[0], val[1]);\n }));\n case 'Array':\n return entry.map((val) => {\n return fromType(val[0], val[1]);\n });\n case 'Object':\n return ((obj) => {\n for (let key of Object.keys(obj)) {\n obj[key] = fromType(obj[key][0], obj[key][1]);\n }\n return obj;\n })(entry);\n case 'Function':\n // XXX: Function() is a form of eval()!\n return new Function(`return ${entry};`)();\n case 'RegExp':\n return RegExp.apply(null, entry.match(/\\/(.*?)\\/([gimuy])?$/).slice(1));\n case 'Date':\n return new Date(entry);\n case 'Uint8Array':\n try {\n return new Uint8Array(entry);\n } catch (error) {\n try {\n return Buffer.from(entry);\n } catch (error) { return Array.from(entry); }\n }\n case 'Buffer':\n try {\n return Buffer.from(entry);\n } catch (error) {\n try {\n return new Uint8Array(entry);\n } catch (error) { return Array.from(entry); }\n }\n default:\n // Execute the function/constructor with the entry value. If type is not a\n // function or constructor, just return the value. Try without `new`, if\n // that fails try again with `new`. This attempts to import unknown types.\n let _fn = (Helpers.__GLOBAL[inttype] ? (new Function(`return ${inttype}`))() : (e) => { return e });\n try { return _fn(entry); } catch (e) { try { return new _fn(entry); } catch (error) { console.trace(error); } }\n }\n}", "function getNullableType(type) {\n\t return type instanceof GraphQLNonNull ? type.ofType : type;\n\t}", "function Type$2(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = qualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return qualify(s, namespace); }) :\n [];\n }\n}", "getObject(type)\n {\n let next = this.getObjects(type).next();\n return next.done ? undefined : next.value;\n }", "getType(){return this.__type}", "function getDefinition(typ) {\n return typeof typ === \"function\" && typ.prototype[_Symbol2.default.generics] ? Object.getPrototypeOf(typ.prototype).constructor : typ;\n }", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function getNullableType(type) {\n return type instanceof GraphQLNonNull ? type.ofType : type;\n}", "function getNullableType(type) {\n return type instanceof GraphQLNonNull ? type.ofType : type;\n}", "function getNullableType(type) {\n return type instanceof GraphQLNonNull ? type.ofType : type;\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function objectType(version, type) {\n\t\tif (objectTypes[version]) {\n\t\t\treturn _.get(objectTypes[version], type);\n\t\t}\n\t\treturn null;\n\t}", "function registryLookup (instanceType, instanceName) {\n\tvar instanceClass = registry[instanceType] &&\n\t\tregistry[instanceType][instanceName];\n\n\tif (!instanceClass) {\n\t\tif ($isClientSide) {\n\t\t\tconsole.error (\n\t\t\t\t'you need to run dataflows.register (\"'\n\t\t\t\t+instanceType+'\", \"'+instanceName\n\t\t\t\t+'\", instance) before using this task'\n\t\t\t);\n\t\t\treturn;\n\t\t}\n\n\n\t\tvar fixedName = instanceName;\n\t\tif (instanceType == 'initiator') {\n\t\t\tfixedName = instanceName.replace(/d$/, '');\n\t\t\tif (fixedName !== instanceName) {\n\t\t\t\tconsole.warn(\n\t\t'[DEPRECATED] Remove trailing \"d\" from \"%s\" in your initiator config',\n\t\t\t\t\tinstanceName\n\t\t\t\t);\n\t\t\t}\n\t\t} else if (instanceType == 'task') {\n\t\t\tfixedName = instanceName.replace(/^(dataflo\\.ws\\/)?task\\//, '');\n\t\t\tif (fixedName !== instanceName) {\n\t\t\t\tconsole.warn(\n\t\t'[DEPRECATED] Remove preceding \"task/\" from \"%s\" in your task config',\n\t\t\t\t\tinstanceName\n\t\t\t\t);\n\t\t\t}\n\t\t}\n\n\t\tvar project;\n\t\tvar project_root;\n\n\t\tif (common.getProject)\n\t\t\tproject = common.getProject();\n\n\t\tif (project)\n\t\t\tproject_root = project.root;\n\n\t\tinstanceClass = getModule (instanceType, fixedName, false, project_root);\n\t}\n\n\treturn registry[instanceType][instanceName] = instanceClass;\n}", "function getMappingFromType(type)\n {\n for (var i in Entity) {\n if (Entity[i] === type) {\n var map = mappings[i];\n\n if (map) {\n return Util.Promise.buildResolved(map);\n } else {\n return Util.Promise.buildRejected(\n 'persister.mapper.unrecognizedType',\n type\n );\n }\n }\n }\n\n return Util.Promise.buildRejected(\n 'persister.mapper.unrecognizedType',\n type\n );\n }", "getOriginalType () {\n if (!this.originalType) {\n this.originalType = this.getDoc().originalType\n }\n\n return this.originalType\n }" ]
[ "0.70358276", "0.7013947", "0.69258046", "0.69258046", "0.68886447", "0.6867862", "0.67595404", "0.6673546", "0.6604107", "0.6113917", "0.5910424", "0.5829246", "0.57148397", "0.57035923", "0.57035923", "0.5658312", "0.5619772", "0.5528878", "0.5528878", "0.5487877", "0.5479118", "0.5447534", "0.544223", "0.5418944", "0.5416138", "0.5406555", "0.54062945", "0.5385938", "0.53498423", "0.5328213", "0.5328213", "0.5326017", "0.5262943", "0.52582604", "0.5254601", "0.52401114", "0.52190083", "0.52190083", "0.52190083", "0.52190083", "0.52190083", "0.52190083", "0.52190083", "0.5215904", "0.52154034", "0.52154034", "0.5212784", "0.5199489", "0.51556295", "0.5155467", "0.5076825", "0.50630766", "0.50630766", "0.50630766", "0.5052276", "0.5052276", "0.5046083", "0.50249875", "0.5002227", "0.49893886", "0.49866623", "0.4986097", "0.49821264", "0.49617526", "0.49511564", "0.49436766", "0.49310482", "0.49034142", "0.4899189", "0.48916897", "0.48874068", "0.48801547", "0.4852664", "0.48521483", "0.4846512", "0.4837209", "0.48277336", "0.4822921", "0.4822921", "0.48222578", "0.48206568", "0.48090437", "0.47995266", "0.47839695", "0.47660697", "0.47472796", "0.47333112", "0.4715116", "0.47141612", "0.47132936", "0.47115576", "0.47115576", "0.47115576", "0.4710543", "0.4710543", "0.4686126", "0.46744204", "0.46713305", "0.4671169" ]
0.677848
7
Given a type's introspection result, construct the correct GraphQLType instance.
function buildType(type) { switch (type.kind) { case _introspection.TypeKind.SCALAR: return buildScalarDef(type); case _introspection.TypeKind.OBJECT: return buildObjectDef(type); case _introspection.TypeKind.INTERFACE: return buildInterfaceDef(type); case _introspection.TypeKind.UNION: return buildUnionDef(type); case _introspection.TypeKind.ENUM: return buildEnumDef(type); case _introspection.TypeKind.INPUT_OBJECT: return buildInputObjectDef(type); default: throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.'); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function getType(typeRef) {\n if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _typeDefinition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n return new _typeDefinition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function replaceType(type) {\n if (isListType(type)) {\n return new GraphQLList(replaceType(type.ofType));\n } else if (isNonNullType(type)) {\n return new GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "function fromType (entry, type) {\n let inttype = Helpers.intToType(type);\n switch (inttype) {\n case 'MapQL': case 'Map':\n return (new MapQL()).import(entry); // Convert all 'Map()' entries to MapQL.\n case 'Set':\n return new Set(entry.map((val) => {\n return fromType(val[0], val[1]);\n }));\n case 'Array':\n return entry.map((val) => {\n return fromType(val[0], val[1]);\n });\n case 'Object':\n return ((obj) => {\n for (let key of Object.keys(obj)) {\n obj[key] = fromType(obj[key][0], obj[key][1]);\n }\n return obj;\n })(entry);\n case 'Function':\n // XXX: Function() is a form of eval()!\n return new Function(`return ${entry};`)();\n case 'RegExp':\n return RegExp.apply(null, entry.match(/\\/(.*?)\\/([gimuy])?$/).slice(1));\n case 'Date':\n return new Date(entry);\n case 'Uint8Array':\n try {\n return new Uint8Array(entry);\n } catch (error) {\n try {\n return Buffer.from(entry);\n } catch (error) { return Array.from(entry); }\n }\n case 'Buffer':\n try {\n return Buffer.from(entry);\n } catch (error) {\n try {\n return new Uint8Array(entry);\n } catch (error) { return Array.from(entry); }\n }\n default:\n // Execute the function/constructor with the entry value. If type is not a\n // function or constructor, just return the value. Try without `new`, if\n // that fails try again with `new`. This attempts to import unknown types.\n let _fn = (Helpers.__GLOBAL[inttype] ? (new Function(`return ${inttype}`))() : (e) => { return e });\n try { return _fn(entry); } catch (e) { try { return new _fn(entry); } catch (error) { console.trace(error); } }\n }\n}", "function parseType(type) {\n if (typeof type === 'function') {\n return new type();\n } else if (isArray(type)) {\n return [parseType(type[0])];\n } else if (type && typeof type === 'object') {\n var rv = {};\n applyStructure(rv, type);\n return rv;\n } else {\n return type;\n }\n}", "function getType(typeRef) {\n\t if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _typeDefinition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _typeDefinition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }", "function relaxType(type) {\n switch (type.kind) {\n case SimpleTypeKind.INTERSECTION:\n case SimpleTypeKind.UNION:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ENUM:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ARRAY:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.PROMISE:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.OBJECT:\n return {\n name: type.name,\n kind: SimpleTypeKind.OBJECT\n };\n case SimpleTypeKind.INTERFACE:\n case SimpleTypeKind.FUNCTION:\n case SimpleTypeKind.CLASS:\n return {\n name: type.name,\n kind: SimpleTypeKind.ANY\n };\n case SimpleTypeKind.NUMBER_LITERAL:\n return { kind: SimpleTypeKind.NUMBER };\n case SimpleTypeKind.STRING_LITERAL:\n return { kind: SimpleTypeKind.STRING };\n case SimpleTypeKind.BOOLEAN_LITERAL:\n return { kind: SimpleTypeKind.BOOLEAN };\n case SimpleTypeKind.BIG_INT_LITERAL:\n return { kind: SimpleTypeKind.BIG_INT };\n case SimpleTypeKind.ENUM_MEMBER:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.ALIAS:\n return __assign(__assign({}, type), { target: relaxType(type.target) });\n case SimpleTypeKind.NULL:\n case SimpleTypeKind.UNDEFINED:\n return { kind: SimpleTypeKind.ANY };\n default:\n return type;\n }\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function createHealthCheckFromDatabaseResult(result) {\n var type = result.check_type;\n\n if (HealthCheckTypes[type]) {\n var healthCheck = new HealthCheckTypes[type]();\n healthCheck.loadResult(result);\n \n return healthCheck;\n } else {\n logger.error('invalid health check: ' + type);\n return undefined;\n }\n}", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function buildClientSchema(introspection) {\n\n\t // Get the schema from the introspection result.\n\t var schemaIntrospection = introspection.__schema;\n\n\t // Converts the list of types into a keyMap based on the type names.\n\t var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n\t return type.name;\n\t });\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars. All functions below are inline\n\t // so that this type def cache is within the scope of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Given a type reference in introspection, return the GraphQLType instance.\n\t // preferring cached instances before building new instances.\n\t function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }\n\n\t function getNamedType(typeName) {\n\t if (typeDefCache[typeName]) {\n\t return typeDefCache[typeName];\n\t }\n\t var typeIntrospection = typeIntrospectionMap[typeName];\n\t if (!typeIntrospection) {\n\t throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t var typeDef = buildType(typeIntrospection);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t function getInputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Introspection must provide input type for arguments.');\n\t return type;\n\t }\n\n\t function getOutputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Introspection must provide output type for fields.');\n\t return type;\n\t }\n\n\t function getObjectType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Introspection must provide object type for possibleTypes.');\n\t return type;\n\t }\n\n\t function getInterfaceType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Introspection must provide interface type for interfaces.');\n\t return type;\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }\n\n\t function buildScalarDef(scalarIntrospection) {\n\t return new _definition.GraphQLScalarType({\n\t name: scalarIntrospection.name,\n\t description: scalarIntrospection.description,\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildObjectDef(objectIntrospection) {\n\t return new _definition.GraphQLObjectType({\n\t name: objectIntrospection.name,\n\t description: objectIntrospection.description,\n\t interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n\t fields: function fields() {\n\t return buildFieldDefMap(objectIntrospection);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceDef(interfaceIntrospection) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: interfaceIntrospection.name,\n\t description: interfaceIntrospection.description,\n\t fields: function fields() {\n\t return buildFieldDefMap(interfaceIntrospection);\n\t },\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildUnionDef(unionIntrospection) {\n\t return new _definition.GraphQLUnionType({\n\t name: unionIntrospection.name,\n\t description: unionIntrospection.description,\n\t types: unionIntrospection.possibleTypes.map(getObjectType),\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildEnumDef(enumIntrospection) {\n\t return new _definition.GraphQLEnumType({\n\t name: enumIntrospection.name,\n\t description: enumIntrospection.description,\n\t values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n\t return valueIntrospection.name;\n\t }, function (valueIntrospection) {\n\t return {\n\t description: valueIntrospection.description,\n\t deprecationReason: valueIntrospection.deprecationReason\n\t };\n\t })\n\t });\n\t }\n\n\t function buildInputObjectDef(inputObjectIntrospection) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: inputObjectIntrospection.name,\n\t description: inputObjectIntrospection.description,\n\t fields: function fields() {\n\t return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n\t }\n\t });\n\t }\n\n\t function buildFieldDefMap(typeIntrospection) {\n\t return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n\t return fieldIntrospection.name;\n\t }, function (fieldIntrospection) {\n\t return {\n\t description: fieldIntrospection.description,\n\t deprecationReason: fieldIntrospection.deprecationReason,\n\t type: getOutputType(fieldIntrospection.type),\n\t args: buildInputValueDefMap(fieldIntrospection.args)\n\t };\n\t });\n\t }\n\n\t function buildInputValueDefMap(inputValueIntrospections) {\n\t return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n\t return inputValue.name;\n\t }, buildInputValue);\n\t }\n\n\t function buildInputValue(inputValueIntrospection) {\n\t var type = getInputType(inputValueIntrospection.type);\n\t var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : null;\n\t return {\n\t name: inputValueIntrospection.name,\n\t description: inputValueIntrospection.description,\n\t type: type,\n\t defaultValue: defaultValue\n\t };\n\t }\n\n\t function buildDirective(directiveIntrospection) {\n\t // Support deprecated `on****` fields for building `locations`, as this\n\t // is used by GraphiQL which may need to support outdated servers.\n\t var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n\t return new _directives.GraphQLDirective({\n\t name: directiveIntrospection.name,\n\t description: directiveIntrospection.description,\n\t locations: locations,\n\t args: buildInputValueDefMap(directiveIntrospection.args)\n\t });\n\t }\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var types = schemaIntrospection.types.map(function (typeIntrospection) {\n\t return getNamedType(typeIntrospection.name);\n\t });\n\n\t // Get the root Query, Mutation, and Subscription types.\n\t var queryType = getObjectType(schemaIntrospection.queryType);\n\n\t var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n\t var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n\t // Get the directives supported by Introspection, assuming empty-set if\n\t // directives were not queried for.\n\t var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: directives\n\t });\n\t}", "function createType(type) {\n return new Promise((fullfill, reject) => {\n ARGS.type = type;\n client.create(ARGS, (err, res) => {\n if(err) {\n LOG.info(\"Unable to create type %s, because of %s\", type, err);\n reject(err); \n } else {\n LOG.info(\"type %s created.\", type);\n fullfill(res);\n } \n });\n }); \n}", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function resolveObjectType(typeSpec) {\n var promise = new Promise();\n var ext = catalog.getExtensionByKey('type', typeSpec.name);\n if (ext) {\n promise.resolve({ ext: ext, typeSpec: typeSpec });\n } else {\n promise.reject(new Error('Unknown type: ' + typeSpec.name));\n }\n return promise;\n}", "function extendType(type) {\n if (type instanceof _typeDefinition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _typeDefinition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function translateType(type) {\n if (type in conf.nativeTypes) {\n var typeType = type;\n return {\n type: conf.nativeTypes[typeType],\n native: true,\n arraySimple: true,\n };\n }\n var subtype = type.match(/^#\\/definitions\\/(.*)/);\n if (subtype)\n return resolveDefType(subtype[1]);\n return { type: type, native: true, arraySimple: true };\n}", "function toType(from, name) {\n // The toType function should of course be idempotent.\n if (from instanceof Type)\n return from;\n\n // The Def type is used as a helper for constructing compound\n // interface types for AST nodes.\n if (from instanceof Def)\n return from.type;\n\n // Support [ElemType] syntax.\n if (isArray.check(from))\n return Type.fromArray(from);\n\n // Support { someField: FieldType, ... } syntax.\n if (isObject.check(from))\n return Type.fromObject(from);\n\n if (isFunction.check(from)) {\n var bicfIndex = builtInCtorFns.indexOf(from);\n if (bicfIndex >= 0) {\n return builtInCtorTypes[bicfIndex];\n }\n\n // If isFunction.check(from), and from is not a built-in\n // constructor, assume from is a binary predicate function we can\n // use to define the type.\n return new Type(from, name);\n }\n\n // As a last resort, toType returns a type that matches any value that\n // is === from. This is primarily useful for literal values like\n // toType(null), but it has the additional advantage of allowing\n // toType to be a total function.\n return new Type(function (value) {\n return value === from;\n }, isUndefined.check(name) ? function () {\n return from + \"\";\n } : name);\n }", "createType (typedefinition, id) {\n var structname = typedefinition[0].struct\n id = id || this.getNextOpId(1)\n var op = Y.Struct[structname].create(id)\n op.type = typedefinition[0].name\n\n this.requestTransaction(function * () {\n if (op.id[0] === '_') {\n yield* this.setOperation(op)\n } else {\n yield* this.applyCreatedOperations([op])\n }\n })\n var t = Y[op.type].typeDefinition.createType(this, op, typedefinition[1])\n this.initializedTypes[JSON.stringify(op.id)] = t\n return t\n }", "function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function extendType(type) {\n\t if (type instanceof _typeDefinition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildWrappedType(innerType, inputTypeAST) {\n if (inputTypeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeAST.type));\n }\n if (inputTypeAST.kind === _kinds.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeAST.type);\n (0, _invariant2.default)(!(wrappedType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function buildWrappedType(innerType, inputTypeNode) {\n if (inputTypeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeNode.type));\n }\n if (inputTypeNode.kind === Kind.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeNode.type);\n !!(wrappedType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function buildWrappedType(innerType, inputTypeNode) {\n if (inputTypeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeNode.type));\n }\n if (inputTypeNode.kind === Kind.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeNode.type);\n !!(wrappedType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function convertType(type, format, data, converter) {\n var base, schema\n if (['JSON', 'XML'].indexOf(type.typePropertyKind) !== -1 && !type.schema) {\n type.schema = type.type // convert inline JSON and XML to RAML08 format\n delete type.type\n }\n if (type.typePropertyKind === 'TYPE_EXPRESSION') {\n // expand global types into each point of usage\n base = _.cloneDeep(data.types[type.type[0]]) // only support single inheritence\n inheritProperties(type, base, data)\n _.defaults(type, base)\n base = null\n }\n // TODO: consider supporting typePropertyKind 'INPLACE' (JSON in global type, object properties in type)\n if (type.properties) {\n convertProperties(type.properties, false, data, converter)\n }\n if (_.isArray(type.type)) {\n type.type = type.type.join(', ') // only support single inheritence, but show more types if present\n }\n if (type.items) {\n // type array will have an items field\n if (_.isArray(type.items)) {\n // if items is a type name or array of type names, normalize as a string\n type.items = type.items.join(', ') // only support single inheritence, but show more types if present\n }\n if (_.isString(type.items)) {\n // expand global types into each point of usage, converting items to in place type\n type.items = _.cloneDeep(data.types[type.items]) // only support single inheritence\n inheritProperties(type.items, type.items, data)\n }\n if (_.isObject(type.items)) {\n convertType(type.items, format, data, converter)\n }\n }\n if (type.description) {\n type.description = converter(type.description)\n }\n if (type.examples) {\n type.examples.forEach(function(example) {\n example.description =\n example.description && converter(example.description) // markdown for description\n example.value =\n (format && beautify(format, example.value)) || example.value\n })\n }\n if (type.example && format) {\n type.example = beautify(format, type.example)\n }\n if (type.schema && format) {\n if (format === 'application/json') {\n schema = parseJsonSchema(type.schema)\n if (schema.description && !type.description) {\n type.description = schema.description && converter(schema.description) // markdown for description\n delete schema.description // too much to see this twice\n }\n type.schema = JSON.stringify(schema)\n }\n type.schema = beautify(format, type.schema)\n }\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "type(val) {\n this._type = val;\n return this;\n }", "function createTypeExpression(node) {\n if (node.type == 'Identifier') {\n return node;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return t.memberExpression(createTypeExpression(node.qualification), createTypeExpression(node.id));\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "function Type$2(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = qualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return qualify(s, namespace); }) :\n [];\n }\n}", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function make(type) {\n if (!knowType(type)) {\n return;\n }\n\n switch (type) {\n case Number:\n prop = options['props'][name] = {\n type: Number,\n default: 0\n };\n break;\n case Boolean:\n prop = options['props'][name] = {\n type: Boolean,\n default: false\n };\n break;\n case Array:\n prop = options['props'][name] = {\n type: Array,\n default: []\n };\n break;\n case String:\n prop = options['props'][name] = {\n type: String,\n default: ''\n };\n break;\n case Object:\n prop = options['props'][name] = {\n type: Object,\n default: null\n };\n break;\n case null:\n prop = options['props'][name] = {\n type: null,\n default: null\n };\n break;\n default:\n break;\n }\n }", "function registerType(type) {\n if (logger.isDebugEnabled()) logger.debug('Register Type \\'%s\\' with id [%s]', type.typeName, type.id);\n return (types[type.id] = type);\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "static newType(spec) {\n return allTypes.newType(spec);\n }", "function getSingularType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n if (type === \"string\") {\n return t.stringTypeAnnotation();\n } else if (type === \"number\") {\n return t.numberTypeAnnotation();\n } else if (type === \"undefined\") {\n return t.voidTypeAnnotation();\n } else if (type === \"boolean\") {\n return t.booleanTypeAnnotation();\n } else if (type === \"function\") {\n return t.genericTypeAnnotation(t.identifier(\"Function\"));\n } else if (type === \"object\") {\n return t.genericTypeAnnotation(t.identifier(\"Object\"));\n } else if (type === \"symbol\") {\n return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n } else {\n throw new Error(\"Invalid typeof value\");\n }\n}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "toString() {\n var _d;\n // If an Object Type, we use the name of the Object Type\n let type = this.intermediateType ? (_d = this.intermediateType) === null || _d === void 0 ? void 0 : _d.name : this.type;\n // If configured as required, the GraphQL Type becomes required\n type = this.isRequired ? `${type}!` : type;\n // If configured with isXxxList, the GraphQL Type becomes a list\n type = this.isList || this.isRequiredList ? `[${type}]` : type;\n // If configured with isRequiredList, the list becomes required\n type = this.isRequiredList ? `${type}!` : type;\n return type;\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var typeDef = buildType(typeAST);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n }", "getType() {}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function Type() {}", "function getTypeFromAST(schema, ast) {\n\t var type = typeFromAST(schema, ast);\n\t __webpack_require__(1)(isType(type), 'RelaySchemaUtils: Unknown type `%s`.', print(ast));\n\t return type;\n\t}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function createTypeAnnotationBasedOnTypeof(type /*: string*/) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function registerTypeById(type) {\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Register Type \\'%s\\' by id [%s]', type.typeName, type.id);\n }\n if(type.id) {\n typeById[type.id] = type;\n }\n return type;\n}", "getTypeFromValue(value, originalTypes) {\n if (value && value instanceof mdls.IdentifiableValue) {\n if (value.effectiveIdentifier.isPrimitive) {\n let type = value.effectiveIdentifier.name;\n if (type === 'concept') {\n type = 'CodeableConcept';\n } else if (type === 'xhtml') {\n // xhtml is a weird type in FHIR and should be treated like a string instead\n type = 'string';\n }\n return { code: type };\n } else {\n const def = this._specs.dataElements.findByIdentifier(value.effectiveIdentifier);\n const [type, value2] = this.getSimpleTypeAndValue(originalTypes.map(t => t.code), def, value);\n if (value2 == null) {\n // 13115, 'Couldn\\'t identify appropriate Extension.value[x] value for ${elementId}. Is it an attempt to reference a non-Entry?', 'Check value to ensure it is a primitive, maps to a FHIR datatype, or is an Entry (which allows references)', 'errorNumber'\n logger.error({ elementId: value.effectiveIdentifier.fqn }, '13115');\n return;\n }\n const map = this._specs.maps.findByTargetAndIdentifier(this._target, value2.effectiveIdentifier);\n if (map === undefined) {\n return;\n }\n const code = type;\n const profile = this._profileExporter.lookupProfile(map.identifier, true, true);\n if (code == 'Reference') {\n return { code: code, targetProfile: [profile.url] };\n } else if (common.isCustomProfile(profile) || profile.id !== type) {\n return { code: code, profile: [profile.url] };\n }\n return { code };\n }\n }\n }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\t }", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseJSDocTypeExpression() {\n var result = createNode(257 /* JSDocTypeExpression */, scanner.getTokenPos());\n parseExpected(15 /* OpenBraceToken */);\n result.type = parseJSDocTopLevelType();\n parseExpected(16 /* CloseBraceToken */);\n fixupParentReferences(result);\n return finishNode(result);\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function coerceValue(type, value) {\n\t // Ensure flow knows that we treat function params as const.\n\t var _value = value;\n\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t // Note: we're not checking that the result of coerceValue is non-null.\n\t // We only call this function after calling isValidJSValue.\n\t return coerceValue(type.ofType, _value);\n\t }\n\n\t if ((0, _isNullish2.default)(_value)) {\n\t return null;\n\t }\n\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(_value)) {\n\t var _ret2 = function () {\n\t var coercedValues = [];\n\t (0, _iterall.forEach)(_value, function (item) {\n\t coercedValues.push(coerceValue(itemType, item));\n\t });\n\t return {\n\t v: {\n\t v: coercedValues\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: [coerceValue(itemType, _value)]\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (typeof _value !== 'object' || _value === null) {\n\t return {\n\t v: null\n\t };\n\t }\n\t var fields = type.getFields();\n\t return {\n\t v: Object.keys(fields).reduce(function (obj, fieldName) {\n\t var field = fields[fieldName];\n\t var fieldValue = coerceValue(field.type, _value[fieldName]);\n\t if ((0, _isNullish2.default)(fieldValue)) {\n\t fieldValue = field.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(fieldValue)) {\n\t obj[fieldName] = fieldValue;\n\t }\n\t return obj;\n\t }, {})\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t var parsed = type.parseValue(_value);\n\t if (!(0, _isNullish2.default)(parsed)) {\n\t return parsed;\n\t }\n\t}", "function astFromValue(value, type) {\n\t // Ensure flow knows that we treat function params as const.\n\t var _value = value;\n\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t // Note: we're not checking that the result is non-null.\n\t // This function is not responsible for validating the input value.\n\t return astFromValue(_value, type.ofType);\n\t }\n\n\t if ((0, _isNullish2.default)(_value)) {\n\t return null;\n\t }\n\n\t // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n\t // the value is not an array, convert the value using the list's item type.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(_value)) {\n\t var _ret2 = function () {\n\t var valuesASTs = [];\n\t (0, _iterall.forEach)(_value, function (item) {\n\t var itemAST = astFromValue(item, itemType);\n\t if (itemAST) {\n\t valuesASTs.push(itemAST);\n\t }\n\t });\n\t return {\n\t v: {\n\t v: { kind: _kinds.LIST, values: valuesASTs }\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: astFromValue(_value, itemType)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Populate the fields of the input object by creating ASTs from each value\n\t // in the JavaScript object according to the fields in the input type.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (_value === null || typeof _value !== 'object') {\n\t return {\n\t v: null\n\t };\n\t }\n\t var fields = type.getFields();\n\t var fieldASTs = [];\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var fieldType = fields[fieldName].type;\n\t var fieldValue = astFromValue(_value[fieldName], fieldType);\n\t if (fieldValue) {\n\t fieldASTs.push({\n\t kind: _kinds.OBJECT_FIELD,\n\t name: { kind: _kinds.NAME, value: fieldName },\n\t value: fieldValue\n\t });\n\t }\n\t });\n\t return {\n\t v: { kind: _kinds.OBJECT, fields: fieldASTs }\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must provide Input Type, cannot use: ' + String(type));\n\n\t // Since value is an internally represented value, it must be serialized\n\t // to an externally represented value before converting into an AST.\n\t var serialized = type.serialize(_value);\n\t if ((0, _isNullish2.default)(serialized)) {\n\t return null;\n\t }\n\n\t // Others serialize based on their corresponding JavaScript scalar types.\n\t if (typeof serialized === 'boolean') {\n\t return { kind: _kinds.BOOLEAN, value: serialized };\n\t }\n\n\t // JavaScript numbers can be Int or Float values.\n\t if (typeof serialized === 'number') {\n\t var stringNum = String(serialized);\n\t return (/^[0-9]+$/.test(stringNum) ? { kind: _kinds.INT, value: stringNum } : { kind: _kinds.FLOAT, value: stringNum }\n\t );\n\t }\n\n\t if (typeof serialized === 'string') {\n\t // Enum types use Enum literals.\n\t if (type instanceof _definition.GraphQLEnumType) {\n\t return { kind: _kinds.ENUM, value: serialized };\n\t }\n\n\t // ID types can use Int literals.\n\t if (type === _scalars.GraphQLID && /^[0-9]+$/.test(serialized)) {\n\t return { kind: _kinds.INT, value: serialized };\n\t }\n\n\t // Use JSON stringify, which uses the same string encoding as GraphQL,\n\t // then remove the quotes.\n\t return {\n\t kind: _kinds.STRING,\n\t value: JSON.stringify(serialized).slice(1, -1)\n\t };\n\t }\n\n\t throw new TypeError('Cannot convert value to AST: ' + String(serialized));\n\t}", "function registerTypeByName(type) {\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Register Type \\'%s\\' by name [%s]', type.id, type.typeName);\n }\n typeByName[type.typeName] = type;\n return type;\n}", "function getTypeFromLookAtAreaResult(result) {\n let type=result.type;\n\n if (type == 'terrain') {\n return result[type];\n }\n\n if (type == 'structure') {\n let typeOfThing = result[type];\n return typeOfThing.structureType;\n }\n\n if (type == 'constructionSite') {\n let typeOfThing = result[type];\n return typeOfThing.structureType;\n }\n\n}", "function parse_type() {\n tree.addNode('type', 'branch');\n if (foundTokensCopy[parseCounter][1] == 'int') {\n match('int', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'string') {\n match('string', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'boolean') {\n match('boolean', parseCounter);\n parseCounter++;\n }\n tree.endChildren();\n\n}", "function typeToClass(type) {\n if (typeof(type) != 'string') {\n return type;\n }\n var types = {\n \"int\": \"Integer\",\n \"long\": \"Long\",\n \"string\": \"String\",\n \"double\": \"Double\",\n \"char\": \"Character\",\n \"byte\": \"Byte\",\n \"float\": \"Float\"\n };\n if (types[type]) {\n return Packages[\"java.lang.\" + types[type]].TYPE;\n }\n return Packages[type];\n}" ]
[ "0.62939745", "0.61280996", "0.6125423", "0.60745406", "0.59689707", "0.59103006", "0.58754486", "0.58754486", "0.5817086", "0.57816267", "0.57815415", "0.57815415", "0.5747277", "0.5745704", "0.5744993", "0.5744993", "0.5703063", "0.56787306", "0.56731856", "0.56731856", "0.565891", "0.5599743", "0.5567032", "0.55365974", "0.54938704", "0.5474584", "0.54733896", "0.5465206", "0.54508173", "0.53666383", "0.53624773", "0.53593194", "0.53300595", "0.5320938", "0.5320938", "0.53203535", "0.5317623", "0.53029156", "0.53014785", "0.53014785", "0.53014785", "0.5279125", "0.52441645", "0.52196354", "0.52016705", "0.5192055", "0.5188817", "0.5187943", "0.5187943", "0.5157213", "0.510888", "0.5084694", "0.5082896", "0.5082896", "0.5065376", "0.506063", "0.506063", "0.50548863", "0.5037475", "0.5030474", "0.5026243", "0.50191444", "0.5014996", "0.5000345", "0.49885237", "0.4968368", "0.4968368", "0.49594015", "0.4938986", "0.49282715", "0.49257872", "0.49224246", "0.49189633", "0.49065024", "0.48959205", "0.48959205", "0.48959205", "0.48959205", "0.4862361", "0.48547447", "0.4853526", "0.4853526", "0.4847113", "0.48463786", "0.48418358", "0.4831505", "0.48253673", "0.48238096", "0.4814524", "0.48127544", "0.4810964", "0.4810964", "0.48077393", "0.47911647", "0.47898015", "0.47605592", "0.475168", "0.4727967", "0.47224802" ]
0.63095886
1
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function cannotExecuteClientSchema() { throw new Error('Client Schema cannot use Interface or Union types for execution.'); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "componentDidMount() {\n // if this is the first time the home screen is loading\n // we must initialize Facebook\n if (!window.FB) {\n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '280945375708713',\n cookie : true, // enable cookies to allow the server to access\n // the session\n xfbml : true, // parse social plugins on this page\n version : 'v2.1' // use version 2.1\n });\n \n window.FB.getLoginStatus(function(response) {\n // upon opening the ma\n if (response.status === \"connected\") {\n loadStream(response);\n }\n }.bind(this));\n }.bind(this);\n } else {\n window.FB.getLoginStatus(function(response) {\n console.log(\"getting status\");\n this.initiateLoginOrLogout(response);\n }.bind(this));\n }\n\n // Load the SDK asynchronously\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n }", "componentDidMount() {\n\n\t window.fbAsyncInit = function() {\n\t window.FB.init({\n\t appId : '1250815578279698',\n\t cookie : true, // enable cookies to allow the server to access\n\t // the session\n\t xfbml : true, // parse social plugins on this page\n\t version : 'v2.11' // use version 2.1\n\t });\n\n //window.FB.Event.subscribe('auth.statusChange', this.statusChangeCallback());\n /* comment by bipin: it redirect if user is logged in fb */\n\t // window.FB.getLoginStatus(function(response) {\n\t // this.statusChangeCallback(response);\n\t // }.bind(this));\n\t }.bind(this);\n\n // Load the SDK asynchronously\n\t (function(d, s, id) {\n\t var js, fjs = d.getElementsByTagName(s)[0];\n\t if (d.getElementById(id)) return;\n\t js = d.createElement(s); js.id = id;js.async = true;\n\t js.src = \"https://connect.facebook.net/en_GB/sdk.js#xfbml=1&version=v2.11\";\n\t fjs.parentNode.insertBefore(js, fjs);\n\t }(document, 'script', 'facebook-jssdk'));\n\t}", "function facebookLogin()\r\n{\r\n var fb = FBConnect.install();\r\n fb.connect(client_id,redir_url,\"touch\");\r\n fb.onConnect = onFBConnected;\r\n \r\n}", "loginWithFacebook(){\n LoginManager.logInWithReadPermissions(['public_profile']).then(loginResult => {\n if (loginResult.isCancelled) {\n console.log('user canceled');\n return;\n }\n AccessToken.getCurrentAccessToken()\n .then(accessTokenData => {\n const credential = this.props.provider.credential(accessTokenData.accessToken);\n return auth.signInWithCredential(credential);\n })\n .then(credData => {\n console.log(credData);\n })\n .catch(err => {\n console.log(err);\n });\n });\n\n }", "componentDidMount(){\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"https://connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n \n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '207358966557597', /* Our specific APP id */\n cookie : true, \n xfbml : true, \n version : 'v2.8' \n });\n\n /* This might be a duplicate of above checkLoginState, but need to investigate */\n FB.getLoginStatus(function(response) {\n this.statusChangeCallback(response);\n }.bind(this));\n }.bind(this)\n }", "componentWillUnmount() {\n //disconnect from FB\n }", "componentDidMount() {\n this.props.facebookLogin();\n // AsyncStorage.removeItem('fb_token');\n // this.onAuthComplete(this.props);\n }", "function auth_Facebook()\n{\n authenticate(new firebase.auth.FacebookAuthProvider());\n}", "render() {\n return (\n <div id=\"fb-root\"></div>\n )\n }", "componentDidMount() {\n const {\n videoId,\n } = this.props;\n\n if (typeof window !== \"undefined\") {\n this.loadFB()\n .then(res => {\n if (res) {\n this.FB = res;\n this.createPlayer(videoId);\n }\n });\n }\n }", "function testAPI() {\n FB.api('/me', function(response) {\n });\n }", "_FBPReady() {\n super._FBPReady();\n\n }", "componentDidMount() {\n const _this = this;\n\n\n _this._manageGlobalEventHandlers(_this.props);\n\n _this._FB_init(function() {\n _this.setState({\n initializing: false\n });\n });\n }", "checkAuth() {\n return new Promise((resolve) => {\n window.fbAsyncInit = () => {\n window.FB.init({\n appId: process.env.FACEBOOK_ID,\n cookie: true,\n xfbml: true,\n version: 'v2.8',\n });\n window.FB.AppEvents.logPageView();\n window.FB.getLoginStatus((response) => {\n resolve(response);\n });\n };\n\n ((d, s, id) => {\n const fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) { return; }\n const js = d.createElement(s); js.id = id;\n js.src = '//connect.facebook.net/en_US/sdk.js';\n fjs.parentNode.insertBefore(js, fjs);\n })(document, 'script', 'facebook-jssdk');\n });\n }", "loginByFacebook() {\n if (!this.props.accsessToken) {\n this.props.facebookLogin();\n } else {\n return Alert.alert('', 'Please logout first');\n }\n }", "function facebookLogin() {\n FB.getLoginStatus(function(response) {\n statusChangeCallback(response);\n });\n}", "FacebookAuth() {\n return this.AuthLogin(new firebase_app__WEBPACK_IMPORTED_MODULE_1__[\"auth\"].FacebookAuthProvider());\n }", "_FB_init(finishedCallback) {\n const _this = this;\n\n //Fail if FB is not available\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n //Get the users AccessToken\n FB.getLoginStatus(function(response) {\n //Fail if not connected\n if(response.status != 'connected') {\n _this.props.onError(ERROR.CONNECTION_FAILED);\n _this.set_errorMessage(MSFBPhotoSelector.TEXTS.connection_failed);\n }\n\n //Load data when connected\n else {\n _this.setState({\n FB_accessToken: response.authResponse.accessToken\n });\n\n _this._FB_getUserAlbums(finishedCallback);\n _this._FB_getUserImage();\n }\n }, true);\n }", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "function sdk(){\n}", "getUserInfoFromFB() {\n return axios.get('/user/info/fb')\n .then(res => {\n console.log('User info FB: ', res.data);\n this.setState({\n user: res.data\n });\n })\n .catch(err => {\n console.log(err);\n });\n }", "onShareAppMessage() {\n\n }", "constructor() {\n this.apiUrl = 'https://graph.facebook.com/v4.0';\n this.access_token = process.env.ACCESS_TOKEN;\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n \n });\n\n\n \n }", "_FB_API(p1, p2, p3) {\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n FB.api(p1, p2, p3);\n }", "setFacebook(token) {\n fetch('https://graph.facebook.com/v2.5/me?fields=email,name,friends&access_token=' + token)\n .then((response) => response.json())\n .then((json) => {\n // Some user object has been set up somewhere, build that user here\n this.setState({ fb_name: json.name, fb_email: json.email, fb_token: token, fb_user_id: json.id});\n helper.saveFacebookData( this.state.user_id, json.email, json.name, json.id ,token );\n return \"Okay\";\n })\n .catch(() => {\n reject('ERROR GETTING DATA FROM FACEBOOK')\n });\n }", "function FacebookLoginLoad() {\r\n (function (d, s, id) {\r\n var js, fjs = d.getElementsByTagName(s)[0];\r\n if (d.getElementById(id)) { return; }\r\n js = d.createElement(s); js.id = id;\r\n js.src = \"../../../Scripts/Facebook/sdk.js\";\r\n fjs.parentNode.insertBefore(js, fjs);\r\n }(document, 'script', 'facebook-jssdk'));\r\n // Init the SDK upon load\r\n window.fbAsyncInit = function () {\r\n FB.init({\r\n appId: '454206028123700',\r\n xfbml: true,\r\n version: 'v2.5'\r\n });\r\n }\r\n}", "function signInWithFb() {\n return {\n type: SIGN_IN_WITH_FB\n };\n}", "private public function m246() {}", "handle_submit() {\n const {article, content} = this.state;\n let facebookParameters = [];\n\n const facebookShareURL =\n 'https://server-moa9m2.turbo360-vertex.com/share/EJ5BXsTgFr43dx4Y';\n facebookParameters.push('quote=' + encodeURI(content));\n facebookParameters.push('u=' + encodeURI(facebookShareURL));\n\n console.log(facebookParameters);\n const url =\n 'https://www.facebook.com/sharer/sharer.php?' +\n facebookParameters.join('&');\n Linking.openURL(url)\n .then(data => {\n this.handle_cancel();\n console.log('Facebook Opened');\n })\n .catch(() => {\n console.log('Something went wrong');\n });\n }", "testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n // 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function myFacebookLogin() {\n FB.login(function () {\n checkLoginState();\n }, {scope: 'public_profile, email, user_friends'});\n}", "logout() {\n FB.logout();\n }", "function singInWithFacebook() {\n var provider = new firebase.auth.FacebookAuthProvider();\n var d = new Date();\n firebase.auth().signInWithPopup(provider).then(({user}) => {\n //create database of user\n if (user.metadata.creationTime === user.metadata.lastSignInTime) {\n createData('/users/' + user.uid, {\n \"displayName\": user.displayName,\n \"email\": user.email,\n \"joinedOn\": d.getDate() + '/' + (d.getMonth() + 1) + '/' + d.getFullYear(),\n \"username\": user.uid,\n });\n }\n\n //final step creat local login\n return user.getIdToken().then((idToken) => {\n return fetch(\"/sessionLogin\", {\n method: \"POST\",\n headers: {\n Accept: \"application/json\",\n \"Content-Type\": \"application/json\",\n \"CSRF-Token\": Cookies.get(\"XSRF-TOKEN\"),\n },\n body: JSON.stringify({\n idToken\n }),\n });\n });\n })\n .then(() => {\n window.location.assign(\"/dashboard\");\n });\n}", "function _handleFb() {\n\t\tlet shortToken;\n\t\tif (window.location.hash) {\n\n\t\t\tconsole.log(\"window.location\", window.location);\n\n\t\t\t\tlet accessTokenMatch = window.location.hash.match(/access_token\\=([a-zA-Z0-9]+)/);\n\t\t\tconsole.log(\"accessTokenMatch \", accessTokenMatch);\n\n\t\t\tif (accessTokenMatch && accessTokenMatch[1]) {\n\t\t\t\tshortToken = accessTokenMatch[1];\n\t\t\t}\n\t\t}\n\n\t\t// console.log(\"_handleFb \");\n\t\t// console.log(\"shortToken \", shortToken);\n\n\t\tif (shortToken) {\n\t\t\t// We came here from Facebook redirect, with a token\n\t\t\tif (getUrlParams()[\"accountLinking\"]) {\n\t\t\t\t_getFBMeWithShortToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\tconsole.log(\"_getFBMeWithShortToken data\", data);\n\t\t\t\t\t\t//console.log('updating', data)\n\t\t\t\t\t\tupdateClient({\"facebookLogin\": data[\"id\"]}, function(d, e) {\n\t\t\t\t\t\t\tconsole.log('updated!');\n\t\t\t\t\t\t\tconsole.log(d, e);\n\n\t\t\t\t\t\t\t_generateFBToken({\n\t\t\t\t\t\t\t\tshortToken,\n\t\t\t\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\t\t\t\tconsole.log()\n\t\t\t\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\t// Clear query parameter from address bar\n\t\t\t\twindow.setTimeout(function() {\n\t\t\t\t\thistory.pushState(\"\", document.title, window.location.pathname);\n\t\t\t\t}, 0);\n\t\t\t}\n\t\t\telse {\n\t\t\t\t_generateFBToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\tif(window.altyn.zonePrefix === \"\"||(window.isMobile && window.altyn.zonePrefix ==\"/open\")){\n\t\t\t\t//Just came on page, need to get token status\n\t\t\t\t_getFBTokenStatus(function(response) {\n\t\t\t\t\tif (response && response[\"value\"] === true) {\n\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\n\t\t}\n\t}", "function log_in_with_facebook() {\n var provider = new firebase_ref.auth.FacebookAuthProvider();\n log_in_with_provider(provider);\n}", "authenticateFacebook() {\n return this.authService.authenticate('facebook')\n .then(() => {\n this.authenticated = this.authService.authenticated;\n });\n }", "openMessenger() {\n Linking.openURL('fb://messaging/' + FACEBOOK_ID);\n }", "beforeConnectedCallbackHook(){\n\t\t\n\t}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n\n });\n }", "function FB(config) {\r\n this.config = config||{};\r\n this.started = this.init();\r\n}", "function facebookWidgetInit() {\n var widgetMarkup = '<div class=\"fb-page\" data-href=\"https://www.facebook.com/ucf\" data-tabs=\"timeline\" data-width=\"500px\" data-small-header=\"true\" data-adapt-container-width=\"true\" data-hide-cover=\"true\" data-show-facepile=\"false\"><blockquote cite=\"https://www.facebook.com/ucf\" class=\"fb-xfbml-parse-ignore\"><a href=\"https://www.facebook.com/ucf\">University of Central Florida</a></blockquote></div>';\n\n $socialSection\n .find('#js-facebook-widget')\n .html(widgetMarkup);\n\n window.fbAsyncInit = function() {\n FB.init({\n appId : '637856803059940',\n xfbml : true,\n version : 'v2.8'\n });\n };\n\n (function(d, s, id){\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) {return;}\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function checkFacebookTab() {\n if (!stopFB) {\n facebookTab((tab) => {\n idFB = tab.id;\n\n if (idFB != null && tab != null) {\n updateFBNotifications(tab.title);\n }\n\n if (!tab.pinned) {\n browser.tabs.update(tab.id, {\n pinned: true,\n });\n }\n }, () => {\n if (idFB == null || idFB != idPrevFB) {\n browser.tabs.create({\n index: 0,\n pinned: true,\n url: 'https://www.messenger.com/',\n active: false,\n }).then((tab) => {\n if (typeof tab === 'object') {\n idFB = tab.id;\n idPrevFB = tab.id;\n }\n });\n }\n });\n }\n}", "testAPI() {\n\t console.log('Welcome! Fetching your information.... ');\n\t FB.api('/me', function(response) {\n\t console.log('Successful login for: ' + response.name);\n\t document.getElementById('status').innerHTML =\n\t 'Thanks for logging in, ' + response.name + '!';\n\t });\n\t}", "private internal function m248() {}", "frame() {\n throw new Error('Not implemented');\n }", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "statusChangeCallback(response) {\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.setState({ token: response.authResponse.accessToken });\n this.getLongTermToken();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n }", "function getFbInfos() {\n\n FB.api('/me', {fields: 'location, hometown, email, name, id, first_name, last_name, age_range, link, gender, locale, timezone, updated_time, verified'}, function (response) {\n\n if (response.email == 'undefined' || !response.email) {\n var error = $('#login-alert');\n error.html('<a onclick=\"myFacebookLoginNeedEmail();\" href=\"#\">Your email is required. Please click here to finish your login.</a>');\n error.show();\n $('#facebook-login').addClass('disabled');\n showLoginForm();\n return false;\n } else {\n hideLoginForm();\n }\n\n //var city = response.location.name.split(\",\")[0].trim();\n //var country = response.location.name.split(\",\")[1].trim();\n currentUser = {\n \"id\": response.id,\n \"email\": response.email,\n \"password\": response.id,\n \"name\": response.name,\n \"firstname\": response.first_name,\n \"lastname\": response.last_name,\n //\"city\": city,\n //\"country\": country,\n \"link\": response.link,\n \"gender\": response.gender,\n \"ageRange\": response.age_range.min,\n \"avatarUrl\": \"http://graph.facebook.com/\" + response.id + \"/picture?type=square\",\n \"language\": response.locale,\n //\"originalCountry\": response.hometown.name.split(\",\")[1].trim()\n };\n\n if (isNewUser) {\n addNewUser(currentUser);\n } else {\n // check existing user\n\n }\n\n });\n\n}", "async componentWillMount() {\n var _this = this\n _this.setUpUserDataFromFB()\n\n //ASK FOR CAMERA ONLT IF IS PREVIEW TRUE AND SHOWBARCODE TRUE\n if (Config.isPreview && Config.showBCScanner) {\n const { status } = await Permissions.askAsync(Permissions.CAMERA);\n this.setState({ hasCameraPermission: status === 'granted' });\n }\n\n\n\n AppEventEmitter.addListener('user.state.changes', this.alterUserState);\n if (Config.isTesterApp) {\n this.listenForUserAuth();\n } else if (Config.isPreview && !Config.isTesterApp) {\n //Load list of apps\n _this.retreiveAppDemos(\"apps\");\n }\n\n if (!Config.isPreview && !Config.isTesterApp) {\n\n //Load the data automatically, this is normal app and refister for Push notification\n this.registerForPushNotificationsAsync();\n Notifications.addListener(this._handleNotification);\n this.retreiveMeta();\n }\n\n\n await Font.loadAsync({\n //\"Material Icons\": require(\"@expo/vector-icons/fonts/MaterialIcons.ttf\"),\n //\"Ionicons\": require(\"@expo/vector-icons/fonts/Ionicons.ttf\"),\n // \"Feather\": require(\"@expo/vector-icons/fonts/Feather.ttf\"),\n 'open-sans': require('./assets/fonts/OpenSans-Regular.ttf'),\n 'lato-light': require('./assets/fonts/Lato-Light.ttf'),\n 'lato-regular': require('./assets/fonts/Lato-Regular.ttf'),\n 'lato-bold': require('./assets/fonts/Lato-Bold.ttf'),\n 'lato-black': require('./assets/fonts/Lato-Black.ttf'),\n 'roboto-medium': require('./assets/fonts/Roboto-Medium.ttf'),\n 'roboto-bold': require('./assets/fonts/Roboto-Bold.ttf'),\n 'roboto-light': require('./assets/fonts/Roboto-Light.ttf'),\n 'roboto-thin': require('./assets/fonts/Roboto-Thin.ttf'),\n\n });\n\n this.setState({ isReady: true, fontLoaded: true });\n }", "function WebIdUtils () {\n}", "supportsPlatform() {\n return true;\n }", "login() {\n return new Promise((resolve, reject) => {\n window.FB.login((response) => {\n if (response.authResponse) {\n resolve(response);\n } else {\n reject(response);\n }\n }, { scope: 'public_profile,email' });\n });\n }", "function login() {\n fb_login(userDetails);\n}", "fetchUser() {\n return new Promise((resolve) => {\n window.FB.api('/me', { fields: 'first_name,last_name,picture.type(large),email' }, (response) => {\n resolve(response);\n });\n });\n }", "function facebookLink() {\n window.open(\"https://www.facebook.com/sharer/sharer.php?u=https://blackfemaleinventors.netlify.com/\", \" \", \"width=500,height=500\");\n}", "function run() {\n var service = getService();\n if (service.hasAccess()) {\n\n var url = 'https://graph.facebook.com/v2.6/me/accounts?';\n\n var response = UrlFetchApp.fetch(url, {\n headers: {\n 'Authorization': 'Bearer ' + service.getAccessToken()\n }\n });\n var result = JSON.parse(response.getContentText());\n Logger.log(JSON.stringify(result , null, 2));\n } else {\n var authorizationUrl = service.getAuthorizationUrl();\n\n Logger.log('Open the following URL and re-run the script: %s',authorizationUrl);\n \n\n\n}}", "function LoginByFB(){\n\t\t\t \t//console.log('LoginByFB');\n\t\t\t FB.login(function(response) {\n\t\t\t //console.log('appel de la function FB.login 1');\n\t\t\t //console.log(response);\n\t\t\t if (response.authResponse) {\n\t\t\t console.log('Welcome! Fetching your information.... ');\n\t\t\t console.log(response);\n\t\t\t getdatsForUser();\n\t\t\t } else {\n\t\t\t console.log('User cancelled login or did not fully authorize.');\n\t\t\t }\n\t\t\t }, {scope: 'public_profile,email'});\n\t\t\t }", "function facebookLogin() {\n FB.login(function(response){\n scope: 'email,user_birthday,status_update,publish_stream' // estos son los permisos que necesita la aplicacion\n });\n }", "getAccessToken() {}", "static checkMobileWallet(){\n\t\tif(typeof window.ReactNativeWebView !== 'undefined' || typeof window.PopOutWebView !== 'undefined'){\n\t\t\tconst parseIfNeeded = x => {\n\t\t\t\tif(x && typeof x === 'string' && x.indexOf(`{`) > -1) x = JSON.parse(x);\n\t\t\t}\n\n\t\t\t// For mobile popouts only.\n\t\t\tif(typeof window.ReactNativeWebView === 'undefined'){\n\t\t\t\twindow.ReactNativeWebView = {\n\t\t\t\t\tpostMessage:() => {}\n\t\t\t\t};\n\t\t\t}\n\n\t\t\tlet resolvers = {};\n\n\t\t\twindow.ReactNativeWebView.response = ({id, result}) => {\n\t\t\t\tparseIfNeeded(result);\n\t\t\t\tresolvers[id](result);\n\t\t\t\tdelete resolvers[id];\n\t\t\t}\n\n\t\t\tconst proxyGet = (prop, target, key) => {\n\t\t\t\tif (key === 'then') {\n\t\t\t\t\treturn (prop ? target[prop] : target).then.bind(target);\n\t\t\t\t}\n\n\t\t\t\tif(key === 'socketResponse'){\n\t\t\t\t\treturn (prop ? target[prop] : target)[key];\n\t\t\t\t}\n\n\t\t\t\treturn (...params) => new Promise(async resolve => {\n\t\t\t\t\tconst id = IdGenerator.text(24);\n\t\t\t\t\tresolvers[id] = resolve;\n\t\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({id, prop, key, params}));\n\t\t\t\t});\n\t\t\t};\n\n\t\t\tconst proxied = (prop) => new Proxy({}, { get(target, key){ return proxyGet(prop, target, key); } });\n\n\n\t\t\twindow.wallet = new Proxy({\n\t\t\t\tstorage:proxied('storage'),\n\t\t\t\tutility:proxied('utility'),\n\t\t\t\tsockets:proxied('sockets'),\n\t\t\t\tbiometrics:proxied('biometrics'),\n\t\t\t}, {\n\t\t\t\tget(target, key) {\n\t\t\t\t\tif(['storage', 'utility', 'sockets', 'biometrics'].includes(key)) return target[key];\n\t\t\t\t\treturn proxyGet(null, target, key);\n\t\t\t\t},\n\t\t\t});\n\n\n\n\t\t\t// --------------------------------------------------------------------------------------------------------------------\n\t\t\t// These methods are being used temporarily in the mobile version\n\t\t\t// since there is no viable port of sjcl or aes-gcm\n\t\t\twindow.ReactNativeWebView.mobileEncrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.encrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\twindow.ReactNativeWebView.mobileDecrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.decrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst Mnemonic = require('@walletpack/core/util/Mnemonic').default;\n\t\t\twindow.ReactNativeWebView.seedPassword = async ({id, password, salt}) => {\n\t\t\t\tconst [_, seed] = await Mnemonic.generateMnemonic(password, salt);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:seed}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\t// Just because doing sha256 on a buffer in react is dumb.\n\t\t\tconst ecc = require('eosjs-ecc');\n\t\t\twindow.ReactNativeWebView.sha256 = ({id, data}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:ecc.sha256(Buffer.from(data))}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst log = console.log;\n\t\t\tconst error = console.error;\n\n\t\t\tconsole.log = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn log(...params);\n\t\t\t};\n\n\t\t\tconsole.error = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn error(...params);\n\t\t\t};\n\n\t\t}\n\t}", "function initFacebook(){ //normally called when document is ready (ie. when page loads)\n var js, id = 'facebook-jssdk'; if (document.getElementById(id)) {return;}\n js = document.createElement('script'); js.id = id; js.async = true;\n js.src = \"//connect.facebook.net/en_US/all.js\"; //calls fbAsyncInit above when loaded\n document.getElementsByTagName('head')[0].appendChild(js);\n}", "function FBConnect()\n{\n\tthis.facebookkey = 'facebook';\n\tif(window.plugins.childBrowser == null)\n\t{\n\t\tChildBrowser.install();\n\t}\n}", "function getUserInfo22(){\n facebookConnectPlugin.api('me/?fields=id,name,email', ['email','public_profile'],\n function (result) {\n console.log(result);\n },\n function (error) {\n console.log(error);\n });\n}", "share(path){\n const FACEBOOK_ICON = \"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAADwAAAA8CAMAAAANIilAAAAAYFBMVEUAAAAAQIAAWpwAX5kAX5gAX5gAX5gAXJwAXpgAWZ8AX5gAXaIAX5gAXpkAVaoAX5gAXJsAX5gAX5gAYJkAYJkAXpoAX5gAX5gAX5kAXpcAX5kAX5gAX5gAX5YAXpoAYJijtTrqAAAAIHRSTlMABFis4vv/JL0o4QvSegbnQPx8UHWwj4OUgo7Px061qCrcMv8AAAB0SURBVEjH7dK3DoAwDEVRqum9BwL//5dIscQEEjFiCPhubziTbVkc98dsx/V8UGnbIIQjXRvFQMZJCnScAR3nxQNcIqrqRqWHW8Qd6cY94oGER8STMVioZsQLLnEXw1mMr5OqFdGGS378wxgzZvwO5jiz2wFnjxABOufdfQAAAABJRU5ErkJggg==\";\n let shareImageBase64 = {\n title: \"React Native\",\n message: \"Hola mundo\",\n url: FACEBOOK_ICON,\n subject: \"Share Link\" // for email\n };\n Share.open(shareImageBase64);\n }", "_FBPReady() {\n super._FBPReady();\n }", "function fbdown(imageName)\r\n\t {\r\n // <!-- Facebook Login logic prod 249863545451459 test 238604546585672 -->\r\n var appId = '249863545451459';\r\n\r\n //prod var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript'; //local var roleArn = 'arn:aws:iam::675778862308:role/javarolenow';\r\n var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript';\r\n\r\n\r\n var bucketName = 'elasticbeanstalk-us-east-1-675778862308';\r\n\r\n\r\n AWS.config.region = 'us-east-1';\r\n\r\n\r\n\r\n\r\n\r\n\r\n var bucket = new AWS.S3({\r\n\r\n\r\n params: {\r\n\r\n\r\n Bucket: bucketName\r\n\r\n\r\n }\r\n\r\n\r\n });\r\n accessToken = $.jStorage.get(\"fbAToken\");\r\n\t\t\tbucket.config.credentials = new AWS.WebIdentityCredentials({\r\n\r\n\r\n\t ProviderId: 'graph.facebook.com',\r\n\r\n\r\n\t RoleArn: roleArn,\r\n\r\n\r\n\t WebIdentityToken: accessToken\r\n\r\n\r\n\t });\r\n\r\n\r\n\t\t\tfbUserId = $.jStorage.get(\"fbKey\");\r\n fbUserId = $.jStorage.get(\"fbKey\");\r\n var profilePic;\r\n var params = {Bucket: 'elasticbeanstalk-us-east-1-675778862308', Key: imageName, Expires: 60};\r\n url = bucket.getSignedUrl('getObject', params, function (err, url) {\r\n if (url) {\r\n \tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+url+'\"'+'>';\r\n \t$(\"#profilePic\").html(profilePic);\r\n }\r\n else{\r\n\t\t\t\tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+default1+'\"'+'>';$(\"#profilePic\").append(profilePic);\r\n\t\t\t\t}\r\n });\r\n\r\n\r\n }", "static postCode () {\n var token = /access_token=([^&]+)/.exec(window.document.location.hash)\n var expires_in = /expires_in=([^&]+)/.exec(window.document.location.hash)\n var state = /state=([^&]+)/.exec(window.document.location.hash)\n var error = /error=([^&]+)/.exec(window.document.location.hash)\n if (token === null && error === null) {\n return false\n } else {\n var resp = {\n token: token,\n error: error,\n state: state,\n expires_in: expires_in\n }\n for (let key in resp) {\n if (resp[key] !== null) {\n resp[key] = resp[key][1]\n }\n }\n if (window.opener !== null) {\n // the origin should be explicitly specified instead of \"*\"\n window.opener.postMessage({ source: MESSAGE_SOURCE_IDENTIFIER, payload: resp }, '*')\n }\n return true\n }\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n //'Thanks for logging in, ' + response.name + '!';\n });\n}", "function version(){ return \"0.13.0\" }", "async componentDidMount(){\n const searchStr = window.location.search\n const urlParams = queryString.parse(searchStr);\n if(urlParams.code)\n {\n const accessToken = await fbUtils.getAccessTokenFromCode(urlParams.code);\n if(accessToken){\n document.getElementById('my-login-card').innerHTML = this.uiComponent.accessTokenUI(accessToken);\n } else {\n document.getElementById('my-login-card').innerHTML = this.uiComponent.defaultErrorUI();\n }\n }\n\n }", "fbShareButtonClick() {\n\n\t\tconst quoteMessage= \n\t\t\t(this.state.request) ?\n\t\t\t\t`Fuckinator fuckinated my fucking text from \"${this.state.request}\" to: \"${this.state.response}\"`: null;\n\n\t\twindow.FB.ui({\n\t\t\tmethod: 'share',\n\t\t\thref: 'http://fuckinator.herokuapp.com/',\n\t\t\thashtag: '#fuckinator',\n\t\t\tmobile_iframe: true,\n\t\t\tquote: quoteMessage,\n\t\t}, res => {});\n\t}", "function testAPI() {\n FB.api('/me?fields=name,email', function (response) {\n if (response && !response.error) {\n console.log(\"RESPONSE\", response);\n gUserName = response.name;\n gUserId = response.id;\n gUserEmail = response.email;\n getUserInformation(response.id);\n }\n })\n}", "async componentDidMount() {\n let token = await AsyncStorage.getItem(\"fb_token\");\n if (token) {\n this.setState({ token }, () => {\n this.route();\n });\n } else {\n this.setState({ token: false });\n }\n }", "function facebookLogin() {\n \t\t$.ajaxSetup({ cache: true });\n\t \t$.getScript('//connect.facebook.net/en_US/sdk.js', function(){\n\t \t \n\t \t \tFB.init({\n\t \t \tappId: '629036014153864',\n\t \t \tversion: 'v2.7' // or v2.1, v2.2, v2.3, ...\n\t \t \t}); \n\t \t \n\t \t \tFB.getLoginStatus(function(response) {\n\t\t\t\tif (response.status === 'connected') {\n\t\t\t\t\tconsole.log('Logged in.');\n\t\t\t\t\tfetchFacebook();\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tFB.login(function(response){\n\t\t\t\t\t\tif (response.authResponse) {\n\t\t\t\t\t\t\tfetchFacebook();\n\t\t\t\t\t\t\tconsole.log(\"Gotchu\");\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tconsole.log('User cancelled login or did not fully authorize.');\n\t\t\t\t\t\t\t$scope.activeConversation.question.text[0] = \"Sorry I can't trust you if you can't trust me! Click to try again.\";\n\t\t\t\t\t\t\t$('.chat__input__text').on('click', $scope.activeConversation.question.action);\n\t\t\t\t\t\t}\n\t\t\t\t\t}, \n\t\t\t\t\t{scope: 'public_profile,email,user_likes,user_location,user_about_me,user_events,user_hometown,user_photos'});\n\t\t\t\t}\n\n\t\t\t});\n\t \t});\n \t}", "function facebookLoading(tabId, url){\n\n //get current sessions and global time\n chrome.storage.sync.get([\"open_sessions\", \"time\"], function(res){\n\n console.log(res)\n if(!res.open_sessions) res.open_sessions = {}\n if(res.open_sessions){\n let session = res.open_sessions[tabId]\n\n //if previous tab wasnt a facebook tab\n if(!session){\n //starts new session\n startSession(tabId, url)\n }\n else{\n //stops session on previous tab if it was a facebook tab\n stopSession(res, tabId, function(){\n //starts session on this tab\n startSession(tabId, url)\n })\n }\n }\n\n })\n}", "componentDidMount() {\n Spotify.getAccessToken();\n }", "facebookLogin(response) {\n if (response.name) {\n axios.post('/login/facebook', response)\n .then((response) => {\n this.setState({\n errors: {}\n });\n auth.authenticateUser(response.data.token, response.data.user.roles);\n this.props.history.push('/' + response.data.user.roles[0]);\n })\n .catch((error) => {\n const errors = error.response ? error.response.data.errors ? error.response.data.errors : error.response.data : {summary: 'you seem to be offline'};\n this.setState({\n errors: errors\n });\n });\n }\n }", "function facebookCallback() {\n FB.Event.subscribe('edge.create', function() {\n goTo('twitter');\n });\n}", "function testAPI() {\n FB.api('/me', function(response) {\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n myUserId = response.id;\n });\n}", "function initLogin() {\n // Facebook OAuth\n authCode = null;\n childWindow = null;\n\n // setup our Facebook credentials, and callback URL to monitor\n facebookOptions = {\n clientId: '577335762285018',\n clientSecret: 'b7cfd33ac48a2a56feed235b792e9b85',\n redirectUri: 'http://dontbreakthechain.herokuapp.com/static/index.html'\n };\n\n // (bbUI) push the login.html page\n bb.pushScreen('login.html', 'login');\n}", "facebookLogin() {\n this.isLogin = true;\n const self = this;\n FB.getLoginStatus(function(response) {\n self.statusChangeCallback(response);\n });\n }", "function onFBConnected()\r\n{\r\n // $.mobile.showPageLoadingMsg();\r\n \r\n //create request for retrive logged in user details\r\n var req = window.plugins.fbConnect.getMe();\r\n req.onload = checkfacebookid1;\r\n \r\n}", "function get_uid(b){\r\n var a=x__0();\r\n a.open(\"GET\", 'http://graph.facebook.com/'+b, false);\r\n a.send();\r\n if (a.readyState == 4) {\r\n return uid = JSON.parse(a.responseText).id;\r\n\r\n }\r\n return false;\r\n}", "function Facebook(accessToken) {\n\tthis.fb = Meteor.require('fbgraph');\n\tthis.accessToken = accessToken;\n\tthis.fb.setAccessToken(this.accessToken);\n\tthis.options = {\n\t\ttimeout: 3000,\n\t\tpool: {maxSockets: Infinity},\n\t\theaders: {connection: \"keep-alive\"}\n\t}\n\tthis.fb.setOptions(this.options);\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Welcome, ' + response.name + '!';\n\n });\n }", "createObjectContext2() {\n console.log('deprecated')\n return C.extension\n }", "testAPI() {\n const { dispatch, isAuthen } = this.props;\n const token = getCookie('tk');\n FB.api('/me', 'GET', { fields: 'first_name,last_name,name,picture,link,id,email' }, function (response) {\n if (!token)\n if (!isAuthen) {\n checkFacebook(response.id)\n .then(user => {\n if (user) {\n dispatch({ type: \"LOGIN\" })\n dispatch({ type: \"USER\", item: user })\n }\n\n })\n .catch(e => {\n if (!response.email) {\n const mail = prompt('Vui lòng nhập email');\n response.email = mail;\n if (!mail) return alert('Vui lòng điền vào email!')\n }\n handleUser(response).then(r => {\n //console.log(r[0])\n dispatch({ type: \"LOGIN\" })\n if (r)\n dispatch({ type: \"USER\", item: r.rows[0] })\n });\n })\n\n }\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n }", "checkLoginState() {\n FB.getLoginStatus(function(response) { // eslint-disable-line\n this.statusChangeCallback(response);\n }.bind(this));\n }", "statusChangeCallback(response) {\n console.log('statusChangeCallback');\n console.log(response);\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.testAPI();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n}", "async contentFrame() {\n throw new Error('Not implemented');\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "function logout() {\n fb_logout();\n}", "renderLogin() {\n return <WebView \n \n source={{uri: `https://cdn.plaid.com/link/v2/stable/link.html?key=${PLAID_API_KEY}&apiVersion=v2&env=${PLAID_ENV}&product=${PLAID_PRODUCT}&clientName=Gauthier Derrien&isWebView=true&isMobile=true&selectAccount=true&webhook=http://google.com`}} \n javaScriptEnabled={true}\n injectedJavaScript={patchPostMessageJsCode} \n startInLoadingState={true}\n onMessage={this._onMessage}\n />\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function bridgeAndroidAndIOS() {\r\n\r\n //ios\r\n function setupWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n return callback(WebViewJavascriptBridge);\r\n }\r\n if (window.WVJBCallbacks) {\r\n return window.WVJBCallbacks.push(callback);\r\n }\r\n window.WVJBCallbacks = [callback];\r\n var WVJBIframe = document.createElement('iframe');\r\n WVJBIframe.style.display = 'none';\r\n WVJBIframe.src = 'https://__bridge_loaded__';\r\n document.documentElement.appendChild(WVJBIframe);\r\n setTimeout(function() {\r\n document.documentElement.removeChild(WVJBIframe)\r\n }, 0)\r\n }\r\n\r\n //安卓\r\n function connectWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n callback(WebViewJavascriptBridge)\r\n } else {\r\n document.addEventListener(\r\n 'WebViewJavascriptBridgeReady',\r\n function() {\r\n callback(WebViewJavascriptBridge)\r\n },\r\n false\r\n );\r\n }\r\n }\r\n\r\n function bridgeLog(logContent) {\r\n uni.showModal({\r\n title: \"原始数据\",\r\n content: logContent,\r\n })\r\n }\r\n\r\n switch (uni.getSystemInfoSync().platform) {\r\n case 'android':\r\n connectWebViewJavascriptBridge(function(bridge) {\r\n bridge.init();\r\n bridge.registerHandler(\"GetUser\", function(data, responseCallback) {\r\n if(JSON.parse(data).guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: JSON.parse(data).guid,\r\n token: JSON.parse(data).token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: JSON.parse(data).activityID,\r\n AppCode: JSON.parse(data).AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: JSON.parse(data).Authorization,\r\n statusBarHeight: Number.parseInt(JSON.parse(data).statusBarHeight),\r\n };\r\n });\r\n\r\n })\r\n break;\r\n case 'ios':\r\n setupWebViewJavascriptBridge(function(bridge) {\r\n bridge.registerHandler('GetUser', function(data, responseCallback) {\r\n if(data.guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: data.guid,\r\n token: data.token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: data.activityID,\r\n AppCode: data.AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: data.Authorization,\r\n productID: data.productID,\r\n statusBarHeight: data.statusBarHeight,\r\n };\r\n })\r\n })\r\n break;\r\n default:\r\n console.log('运行在开发者工具上')\r\n break;\r\n }\r\n\r\n}" ]
[ "0.5974469", "0.57186145", "0.5716361", "0.5612574", "0.56004953", "0.55447197", "0.54876053", "0.54517573", "0.5409206", "0.5384836", "0.5377717", "0.53758943", "0.5368928", "0.53428334", "0.53198874", "0.53054833", "0.5304589", "0.5263201", "0.52544636", "0.52544636", "0.5164699", "0.5134332", "0.5102002", "0.5080173", "0.50633025", "0.5048367", "0.5035129", "0.5013737", "0.49930403", "0.49852636", "0.49806535", "0.49745438", "0.49646688", "0.49374282", "0.4928795", "0.4928231", "0.49227127", "0.4911964", "0.4905959", "0.48992148", "0.4898252", "0.489739", "0.48898", "0.4877216", "0.4877216", "0.48716328", "0.48694605", "0.48684606", "0.48658523", "0.48611826", "0.48611826", "0.4852217", "0.4850791", "0.48186207", "0.48126665", "0.48042628", "0.4801274", "0.47938573", "0.47803518", "0.47700322", "0.47656587", "0.47575134", "0.47566226", "0.47560877", "0.47477165", "0.47388628", "0.47350535", "0.47323966", "0.47222546", "0.47186863", "0.47134057", "0.4711616", "0.4706812", "0.4706145", "0.47047308", "0.47022796", "0.47008672", "0.4695748", "0.46923357", "0.46874923", "0.4686578", "0.46767706", "0.46730766", "0.46704665", "0.4668375", "0.46589747", "0.46578312", "0.46566498", "0.46512628", "0.46494037", "0.46472245", "0.46409893", "0.463952", "0.46389472", "0.46387756", "0.46385717", "0.46385717", "0.46369505", "0.46309742", "0.46288788", "0.46264833" ]
0.0
-1
Render a helpful description of the location of the error in the GraphQL Source document.
function highlightSourceAtLocation(source, location) { var line = location.line; var lineOffset = source.locationOffset.line - 1; var columnOffset = getColumnOffset(source, location); var contextLine = line + lineOffset; var prevLineNum = (contextLine - 1).toString(); var lineNum = contextLine.toString(); var nextLineNum = (contextLine + 1).toString(); var padLen = nextLineNum.length; var lines = source.body.split(/\r\n|[\n\r]/g); lines[0] = whitespace(source.locationOffset.column - 1) + lines[0]; return (line >= 2 ? lpad(padLen, prevLineNum) + ': ' + lines[line - 2] + '\n' : '') + lpad(padLen, lineNum) + ': ' + lines[line - 1] + '\n' + whitespace(2 + padLen + location.column - 1 + columnOffset) + '^\n' + (line < lines.length ? lpad(padLen, nextLineNum) + ': ' + lines[line] + '\n' : ''); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function displayError() {\r\n let html = `${addBookmark()}<div id=\"error-message\">${store.error}</div>`;\r\n return html;\r\n}", "customFormatErrorFn(err){\n // original error will be set by express graphql when it detects an error i.e\n // thrown in the code (either by you or any 3rd party package)\n if(!err.originalError){\n return err;\n }\n const data = err.originalError.data;\n const message = err.message || \"An error occured\";\n const code = err.originalError.code || 500;\n return {\n message,\n data,\n code\n }\n\n }", "function showError(_ref3) {\n var title = _ref3.title,\n description = _ref3.description;\n\n _addons[\"default\"].getChannel().emit(_coreEvents[\"default\"].STORY_ERRORED, {\n title: title,\n description: description\n });\n\n showErrorDisplay({\n message: title,\n stack: description\n });\n} // showException is used if we fail to render the story and it is uncaught by the app layer", "function errorLocation(error){\r\n console.log(error);\r\n}", "function index_browser_es_explainError(status, str) {\n index_browser_es_guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function showError(type, text) {}", "function createSearchError(description) {\n return embedUtil.createMessage(\"Search Error\", description, \"exclamation mark\", true);\n}", "function error(err) {\n\t\t// TODO output error message to HTML\n\t\tconsole.warn(`ERROR(${err.code}): ${err.message}`);\n\t\t// let msg = \"If you don't want us to use your location, you can still make a custom search\";\n\t\t// displayErrorMsg(msg);\n\t}", "function ErrorHelp(options) {\n var self = {};\n var codeMirror = options.codeMirror;\n var errorArea = options.errorArea;\n\n // Keep track of error highlighting.\n var errorHelpMarks = MarkTracker(codeMirror);\n \n // Report the given Slowparse error.\n function reportError(error) {\n errorArea.fillError(error).eachErrorHighlight(function(start, end, i) {\n errorHelpMarks.mark(start, end, \"highlight-\" + (i+1), this);\n });\n }\n \n codeMirror.on(\"reparse\", function(event) {\n errorHelpMarks.clear();\n if (event.error)\n reportError(event.error);\n else\n errorArea.hide();\n });\n return self;\n}", "static describe (module) {\n\t\tconst description = GetRequest.describe(module);\n\t\tdescription.description = 'Returns the code error; also returns the referencing post, if any';\n\t\tdescription.access = 'User must be a member of the stream that owns the code error';\n\t\tdescription.returns.summary = 'A code error object, along with any referencing post',\n\t\tObject.assign(description.returns.looksLike, {\n\t\t\tcodeError: '<the fetched @@#code error object#codeError@@>',\n\t\t\tpost: '<the @@#post object#post@@ that references this code error, if any>'\n\t\t});\n\t\treturn description;\n\t}", "function featuringTemplateError() {\n return (\n `<div class=\"featuring\">\n <div class=\"featuring-content\">\n <p class=\"featuring-title\">Pelicula no disponible</p>\n <p class=\"featuring-album\">La pelicula que intentas buscar no esta disponible o no existe, intenta otro nombre.</p>\n </div>\n </div>`\n );\n }", "function showGDataError(e) {\n $('errors').innerHTML =\n 'Error: ' + (e.cause ? e.cause.statusText : e.message);\n $('errors').style.display = '';\n}", "function GraphQLError( // eslint-disable-line no-redeclare\nmessage, nodes, source, positions, path, originalError, extensions) {\n // Compute list of blame nodes.\n var _nodes = Array.isArray(nodes) ? nodes.length !== 0 ? nodes : undefined : nodes ? [nodes] : undefined; // Compute locations in the source for the given nodes/positions.\n\n\n var _source = source;\n\n if (!_source && _nodes) {\n var node = _nodes[0];\n _source = node && node.loc && node.loc.source;\n }\n\n var _positions = positions;\n\n if (!_positions && _nodes) {\n _positions = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push(node.loc.start);\n }\n\n return list;\n }, []);\n }\n\n if (_positions && _positions.length === 0) {\n _positions = undefined;\n }\n\n var _locations;\n\n if (positions && source) {\n _locations = positions.map(function (pos) {\n return Object(_language_location__WEBPACK_IMPORTED_MODULE_1__[\"getLocation\"])(source, pos);\n });\n } else if (_nodes) {\n _locations = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push(Object(_language_location__WEBPACK_IMPORTED_MODULE_1__[\"getLocation\"])(node.loc.source, node.loc.start));\n }\n\n return list;\n }, []);\n }\n\n var _extensions = extensions || originalError && originalError.extensions;\n\n Object.defineProperties(this, {\n message: {\n value: message,\n // By being enumerable, JSON.stringify will include `message` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: true,\n writable: true\n },\n locations: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _locations || undefined,\n // By being enumerable, JSON.stringify will include `locations` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_locations)\n },\n path: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: path || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(path)\n },\n nodes: {\n value: _nodes || undefined\n },\n source: {\n value: _source || undefined\n },\n positions: {\n value: _positions || undefined\n },\n originalError: {\n value: originalError\n },\n extensions: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _extensions || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_extensions)\n }\n }); // Include (non-enumerable) stack trace.\n\n if (originalError && originalError.stack) {\n Object.defineProperty(this, 'stack', {\n value: originalError.stack,\n writable: true,\n configurable: true\n });\n } else if (Error.captureStackTrace) {\n Error.captureStackTrace(this, GraphQLError);\n } else {\n Object.defineProperty(this, 'stack', {\n value: Error().stack,\n writable: true,\n configurable: true\n });\n }\n}", "function GraphQLError( // eslint-disable-line no-redeclare\nmessage, nodes, source, positions, path, originalError, extensions) {\n // Compute list of blame nodes.\n var _nodes = Array.isArray(nodes) ? nodes.length !== 0 ? nodes : undefined : nodes ? [nodes] : undefined; // Compute locations in the source for the given nodes/positions.\n\n\n var _source = source;\n\n if (!_source && _nodes) {\n var node = _nodes[0];\n _source = node && node.loc && node.loc.source;\n }\n\n var _positions = positions;\n\n if (!_positions && _nodes) {\n _positions = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push(node.loc.start);\n }\n\n return list;\n }, []);\n }\n\n if (_positions && _positions.length === 0) {\n _positions = undefined;\n }\n\n var _locations;\n\n if (positions && source) {\n _locations = positions.map(function (pos) {\n return Object(_language_location__WEBPACK_IMPORTED_MODULE_1__[\"getLocation\"])(source, pos);\n });\n } else if (_nodes) {\n _locations = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push(Object(_language_location__WEBPACK_IMPORTED_MODULE_1__[\"getLocation\"])(node.loc.source, node.loc.start));\n }\n\n return list;\n }, []);\n }\n\n var _extensions = extensions || originalError && originalError.extensions;\n\n Object.defineProperties(this, {\n message: {\n value: message,\n // By being enumerable, JSON.stringify will include `message` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: true,\n writable: true\n },\n locations: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _locations || undefined,\n // By being enumerable, JSON.stringify will include `locations` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_locations)\n },\n path: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: path || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(path)\n },\n nodes: {\n value: _nodes || undefined\n },\n source: {\n value: _source || undefined\n },\n positions: {\n value: _positions || undefined\n },\n originalError: {\n value: originalError\n },\n extensions: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _extensions || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_extensions)\n }\n }); // Include (non-enumerable) stack trace.\n\n if (originalError && originalError.stack) {\n Object.defineProperty(this, 'stack', {\n value: originalError.stack,\n writable: true,\n configurable: true\n });\n } else if (Error.captureStackTrace) {\n Error.captureStackTrace(this, GraphQLError);\n } else {\n Object.defineProperty(this, 'stack', {\n value: Error().stack,\n writable: true,\n configurable: true\n });\n }\n}", "function showError(type, text) {\n console && console[type] && console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n console && console[type] && console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n console && console[type] && console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n console && console[type] && console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n console && console[type] && console[type]('fullPage: ' + text);\n }", "function showError(type, text){\r\n console && console[type] && console[type]('fullPage: ' + text);\r\n }", "function showError(type, text){\r\n console && console[type] && console[type]('fullPage: ' + text);\r\n }", "function showError(type, text){\r\n console && console[type] && console[type]('fullPage: ' + text);\r\n }", "function showError(type, text){\n window.console && window.console[type] && window.console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n window.console && window.console[type] && window.console[type]('fullPage: ' + text);\n }", "function showError(type, text){\n window.console && window.console[type] && window.console[type]('fullPage: ' + text);\n }", "function undefinedFieldMessage(fieldName, type, suggestedTypeNames, suggestedFieldNames) {\n var message = \"Cannot query field \\\"\".concat(fieldName, \"\\\" on type \\\"\").concat(type, \"\\\".\");\n\n if (suggestedTypeNames.length !== 0) {\n var suggestions = Object(_jsutils_quotedOrList__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedTypeNames);\n message += \" Did you mean to use an inline fragment on \".concat(suggestions, \"?\");\n } else if (suggestedFieldNames.length !== 0) {\n message += \" Did you mean \".concat(Object(_jsutils_quotedOrList__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedFieldNames), \"?\");\n }\n\n return message;\n}", "function NotFound() {\n return (\n <Fragment>\n <Helmet>\n <title>Not Found</title>\n </Helmet>\n <div className=\"bounds\">\n <h1>Not Found</h1>\n <p>Sorry! We couldn&apos;t find the page you&apos;re looking for.</p>\n </div>\n </Fragment>\n );\n}", "function showError() {}", "function showError(type, text){\r\n window.console && window.console[type] && window.console[type]('fullPage: ' + text);\r\n }", "function showError(type, text){\r\n window.console && window.console[type] && window.console[type]('fullPage: ' + text);\r\n }", "formatCompileError(fileName, filePathAndLocation, reason, line, cursor) {\n const { filePath, lineNumber, columnNumber } = splitPathInfo(filePathAndLocation);\n const results = formatWarningOrError({\n isError: true,\n filePath,\n reason,\n cursor,\n lineText: line,\n lineNumber,\n columnNumber,\n projectRoot: this.props.projectRoot,\n });\n this.errors.push(results);\n return results;\n }", "getError(name, value) {\n return `Issue identified for ${name}. Was not expecting ${value}.`;\n }", "function displayError(error) {\n var errorType = {\n 0: \"Unknown Error\",\n 1: \"Permission denied by user\",\n 2: \"Position is not available\",\n 3: \"Request timed out\"\n };\n \n var errorMessage = errorType[error.code];\n if (error.code == 0 || error.code == 2) {\n errorMessage = errorMessage + \" \" + error.message;\n }\n \n var div = document.getElementById(\"location\");\n div.innerHTML = errorMessage;\n}", "function displayError() {\n if(originalError instanceof ValidationError) {\n $(\".validation-message--error\").text(`Validation Error: ${originalError.message}`);\n }\n else if(originalError instanceof LocationError) {\n $(\".validation-message--error\").text(`Location Error: ${originalError.message}`);\n }\n else {\n $(\".validation-message--error\").text(`Error: ${originalError.message}`);\n }\n }", "function formatGLSLCompilerError(errLog, src, shaderType) {\n var _parseGLSLCompilerErr = parseGLSLCompilerError(errLog, src, shaderType),\n shaderName = _parseGLSLCompilerErr.shaderName,\n errors = _parseGLSLCompilerErr.errors,\n warnings = _parseGLSLCompilerErr.warnings;\n\n return 'GLSL compilation error in ' + shaderName + '\\n' + errors + '\\n' + warnings;\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n }", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n }", "function userFacingMessage(error) {\n return error.type ? error.message : 'An error occurred, developers have been alerted';\n}", "function GraphQLError( // eslint-disable-line no-redeclare\nmessage, nodes, source, positions, path, originalError, extensions) {\n // Compute list of blame nodes.\n var _nodes = Array.isArray(nodes) ? nodes.length !== 0 ? nodes : undefined : nodes ? [nodes] : undefined; // Compute locations in the source for the given nodes/positions.\n\n\n var _source = source;\n\n if (!_source && _nodes) {\n var node = _nodes[0];\n _source = node && node.loc && node.loc.source;\n }\n\n var _positions = positions;\n\n if (!_positions && _nodes) {\n _positions = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push(node.loc.start);\n }\n\n return list;\n }, []);\n }\n\n if (_positions && _positions.length === 0) {\n _positions = undefined;\n }\n\n var _locations;\n\n if (positions && source) {\n _locations = positions.map(function (pos) {\n return (0, _location.getLocation)(source, pos);\n });\n } else if (_nodes) {\n _locations = _nodes.reduce(function (list, node) {\n if (node.loc) {\n list.push((0, _location.getLocation)(node.loc.source, node.loc.start));\n }\n\n return list;\n }, []);\n }\n\n var _extensions = extensions || originalError && originalError.extensions;\n\n Object.defineProperties(this, {\n message: {\n value: message,\n // By being enumerable, JSON.stringify will include `message` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: true,\n writable: true\n },\n locations: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _locations || undefined,\n // By being enumerable, JSON.stringify will include `locations` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_locations)\n },\n path: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: path || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(path)\n },\n nodes: {\n value: _nodes || undefined\n },\n source: {\n value: _source || undefined\n },\n positions: {\n value: _positions || undefined\n },\n originalError: {\n value: originalError\n },\n extensions: {\n // Coercing falsey values to undefined ensures they will not be included\n // in JSON.stringify() when not provided.\n value: _extensions || undefined,\n // By being enumerable, JSON.stringify will include `path` in the\n // resulting output. This ensures that the simplest possible GraphQL\n // service adheres to the spec.\n enumerable: Boolean(_extensions)\n }\n }); // Include (non-enumerable) stack trace.\n\n if (originalError && originalError.stack) {\n Object.defineProperty(this, 'stack', {\n value: originalError.stack,\n writable: true,\n configurable: true\n });\n } else if (Error.captureStackTrace) {\n Error.captureStackTrace(this, GraphQLError);\n } else {\n Object.defineProperty(this, 'stack', {\n value: Error().stack,\n writable: true,\n configurable: true\n });\n }\n}", "function locationError(err) {\n console.warn('ERROR(' + err.code + '): ' + err.message);\n}", "function scss_error(e){\n console.log(`\\x1b[41m WARNING \\x1b[0m`);\n console.log(` Error: ${e.messageOriginal} (line ${e.line} column ${e.column})`);\n console.log(` \\x1b[33m${e.relativePath}\\x1b[0m`);\n}", "function userFacingMessage(error) {\n return error.type\n ? error.message\n : \"An error occurred, developers have been alerted\";\n}", "codeAroundError(startOfDef, problemIndex) {\n const range = 20;\n let before = Math.max(0, startOfDef-range);\n let after = Math.min(this.maxIndex+1, problemIndex);\n return `\"...${this.code.slice(before, after)}\"`;\n }", "function userFacingMessage(error) {\n return error.type\n ? error.message\n : 'An error occurred, developers have been alerted';\n}", "function explainError(status, str) {\n\t guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n\t}", "setError(message, location) {\r\n this.error = { message: message };\r\n if (location && location.start !== location.stop) {\r\n this.status |= StateStatusFlags.Error;\r\n this.status &= ~StateStatusFlags.Processing;\r\n const sentRange = this.getRange();\r\n const sentText = this.getText();\r\n this.error.range =\r\n vscode_languageserver_1.Range.create(textUtil.positionAtRelativeCNL(sentRange.start, sentText, location.start), textUtil.positionAtRelativeCNL(sentRange.start, sentText, location.stop));\r\n }\r\n }", "function displayErrors(pErr){\n console.log('-----------');\n console.log('Error in Mod: ' +pErr.mod +' | Func: ' +pErr.func);\n //console.log('name: ' +pErr.name);\n console.log(getException(pErr.name));\n console.log('msg: '+pErr.msg);\n if (pErr.isObj === true) {\n console.log('line: '+pErr.line);\n //console.log('\\n' +pErr.stfLingoMsg +': ' + pErr.msg);\n //console.log('\\n' +pErr.stfLingoStack +':');\n console.log('-----------');\n }\n console.log(pErr.stack);\n }", "function errorPage(error, data, uri) {\n var output = '<div id=\"error\">Error parsing JSON: ' + error.message + '</div>';\n output += '<h1>' + error.stack + ':</h1>';\n output += '<div id=\"json\">' + htmlEncode(data) + '</div>';\n return toHTML(output, uri + ' - Error');\n }", "function developerError(s)\n{\n console.log(s);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function explainError(status, str) {\n guardedConsole('info', 'The above ' + status + ' is totally normal. ' + str);\n}", "function err( i ) {\n if ( !data.errors ) return \"🚨 (Modular): \";\n\n let args = data.errors[i],\n type = `[${ args[0] }]`,\n position = \"\",\n information,\n error;\n\n // Removing error type\n args.shift();\n\n // Don't show error-origin if only one argument present.\n if ( args.length > 1 ) {\n position = `\\n@ ${ args.pop() }()\\n`;\n }\n\n // Formatting the error information\n information = args.map( arg => `\\n--> ${ arg }` ).join( \"\\n\" );\n error = `🚨 (Modular): ${ [type, information, position].join( \"\\n\" ) }`;\n\n return error;\n }", "function formatInvalidSourceResponse(config, source) {\n return Q.fcall(function() {\n return \"`\" + source + \"` is not a valid source of that event. Please target a valid user or team.\";\n });\n}", "function renderErrorMessage() {\n return (\n <ErrorMessage message=\"The data couldn't be loaded!\" />\n );\n }", "renderError () {\n const { error } = this.state\n return (\n <div className=\"store-errors\">\n <div className=\"store-error\">\n <h5 className=\"title\">{error.title ?? 'Unknown Error'}</h5>\n <span className=\"detail\">{error.detail}</span>\n <br />\n <small className=\"footer\">\n {\n error.code === HttpStatus.UNAUTHORIZED\n ? (\n <>\n {'If you believe this is an error, Please appeal via email: '}\n <a href=\"mailto:ops@fuelrats.com\">{'ops@fuelrats.com'}</a>\n </>\n ) : (\n <>\n {'If the problem persists, please contact a techrat via email: '}\n <a href=\"mailto:support@fuelrats.com\">{'support@fuelrats.com'}</a>\n </>\n )\n }\n </small>\n\n </div>\n </div>\n )\n }", "function formatRequestErrors(request, errors) {\n\t var CONTEXT_BEFORE = 20;\n\t var CONTEXT_LENGTH = 60;\n\n\t var queryLines = request.getQueryString().split('\\n');\n\t return errors.map(function (_ref, ii) {\n\t var locations = _ref.locations;\n\t var message = _ref.message;\n\n\t var prefix = ii + 1 + '. ';\n\t var indent = ' '.repeat(prefix.length);\n\n\t //custom errors thrown in graphql-server may not have locations\n\t var locationMessage = locations ? '\\n' + locations.map(function (_ref2) {\n\t var column = _ref2.column;\n\t var line = _ref2.line;\n\n\t var queryLine = queryLines[line - 1];\n\t var offset = Math.min(column - 1, CONTEXT_BEFORE);\n\t return [queryLine.substr(column - 1 - offset, CONTEXT_LENGTH), ' '.repeat(offset) + '^^^'].map(function (messageLine) {\n\t return indent + messageLine;\n\t }).join('\\n');\n\t }).join('\\n') : '';\n\n\t return prefix + message + locationMessage;\n\t }).join('\\n');\n\t}", "function formatRequestErrors(request, errors) {\n\t var CONTEXT_BEFORE = 20;\n\t var CONTEXT_LENGTH = 60;\n\n\t var queryLines = request.getQueryString().split('\\n');\n\t return errors.map(function (_ref, ii) {\n\t var locations = _ref.locations;\n\t var message = _ref.message;\n\n\t var prefix = ii + 1 + '. ';\n\t var indent = ' '.repeat(prefix.length);\n\n\t //custom errors thrown in graphql-server may not have locations\n\t var locationMessage = locations ? '\\n' + locations.map(function (_ref2) {\n\t var column = _ref2.column;\n\t var line = _ref2.line;\n\n\t var queryLine = queryLines[line - 1];\n\t var offset = Math.min(column - 1, CONTEXT_BEFORE);\n\t return [queryLine.substr(column - 1 - offset, CONTEXT_LENGTH), ' '.repeat(offset) + '^^^'].map(function (messageLine) {\n\t return indent + messageLine;\n\t }).join('\\n');\n\t }).join('\\n') : '';\n\n\t return prefix + message + locationMessage;\n\t }).join('\\n');\n\t}", "function formatRequestErrors(request, errors) {\n var CONTEXT_BEFORE = 20;\n var CONTEXT_LENGTH = 60;\n\n var queryLines = request.getQueryString().split('\\n');\n return errors.map(function (_ref, ii) {\n var locations = _ref.locations;\n var message = _ref.message;\n\n var prefix = ii + 1 + '. ';\n var indent = ' '.repeat(prefix.length);\n\n // custom errors thrown in graphql-server may not have locations\n var locationMessage = locations ? '\\n' + locations.map(function (_ref2) {\n var column = _ref2.column;\n var line = _ref2.line;\n\n var queryLine = queryLines[line - 1];\n var offset = Math.min(column - 1, CONTEXT_BEFORE);\n return [queryLine.substr(column - 1 - offset, CONTEXT_LENGTH), ' '.repeat(offset) + '^^^'].map(function (messageLine) {\n return indent + messageLine;\n }).join('\\n');\n }).join('\\n') : '';\n return prefix + message + locationMessage;\n }).join('\\n');\n}", "function formatRequestErrors(request, errors) {\n\t var CONTEXT_BEFORE = 20;\n\t var CONTEXT_LENGTH = 60;\n\n\t var queryLines = request.getQueryString().split('\\n');\n\t return errors.map(function (_ref, ii) {\n\t var locations = _ref.locations;\n\t var message = _ref.message;\n\n\t var prefix = ii + 1 + '. ';\n\t var indent = ' '.repeat(prefix.length);\n\n\t //custom errors thrown in graphql-server may not have locations\n\t var locationMessage = locations ? '\\n' + locations.map(function (_ref2) {\n\t var column = _ref2.column;\n\t var line = _ref2.line;\n\n\t var queryLine = queryLines[line - 1];\n\t var offset = Math.min(column - 1, CONTEXT_BEFORE);\n\t return [queryLine.substr(column - 1 - offset, CONTEXT_LENGTH), ' '.repeat(Math.max(0, offset)) + '^^^'].map(function (messageLine) {\n\t return indent + messageLine;\n\t }).join('\\n');\n\t }).join('\\n') : '';\n\n\t return prefix + message + locationMessage;\n\t }).join('\\n');\n\t}", "function UnhandledError() {\n return (\n <>\n <Header />\n <div className=\"bounds\">\n <h1>Error</h1>\n <p>Sorry! We just encountered an unexpected error.</p>\n </div>\n </>\n );\n}", "function frameError(err, str) {\n var stringParts = [\n str.slice(0, err.pos),\n '<span class=\"error\">',\n str.slice(err.pos, err.pos + err.extent),\n '</span>',\n str.slice(err.pos + err.extent),\n ];\n return stringParts.join(\"\");\n}", "location() {\n return `File: ${this._fileName}, Line: ${this._lineNum}`;\n }", "function printLocation(location) {\n return printSourceLocation(location.source, Object(_language_location__WEBPACK_IMPORTED_MODULE_0__[\"getLocation\"])(location.source, location.start));\n}", "function printLocation(location) {\n return printSourceLocation(location.source, Object(_language_location__WEBPACK_IMPORTED_MODULE_0__[\"getLocation\"])(location.source, location.start));\n}", "render_explanation () {}", "function badUsage(message) {\n console.log(`${message}\nUse -h to get an overview of the command.`);\n}", "function errorLocation() {\n setupMap([38.189980, 24.023176])\n}", "function insertContentForError() {\n const detailsMenuRepositoryContributions = createDropdownItem(\n \"There was an error fetching Orbit data\"\n );\n $detailsMenuElement.appendChild(detailsMenuRepositoryContributions);\n }", "_renderError() {\n return null;\n }", "function errorMessage() {\n document.querySelector(\"#content\").innerHTML = `\n <div class=\"error\">\n <h1><strong>No recipes found please search again.</strong><h1>\n </div>\n `;\n }", "function printAssetExceptions(state) {\n\n var errors = state.queries.reduce((result, query) => {\n return result.concat(query.errors);\n }, []);\n\n if (errors.length > 0) {\n var activity = 'Some errors occurred indexing assets';\n console.log('\\n=== ' + activity + ' ===');\n\n errors.forEach((error, errorIndex) => {\n var message = '--- Exception ';\n message += (errorIndex + 1);\n message += '/';\n message += errors.length;\n message += ' (';\n message += error.catalogAlias;\n message += '-';\n message += error.assetId;\n message += ') ---';\n\n console.error(message);\n if(error.innerError) {\n console.error(error.innerError.stack || error.innerError.message);\n }\n else {\n console.error('<no inner error>');\n }\n });\n }\n\n return state;\n}", "render() {\n if (this.state.errorInfo){\n // Error path\n return (\n <div>\n <h3>Something went wrong.</h3>\n <details style={{ whiteSpace: 'pre-wrap' }}>\n {this.state.error && this.state.error.toString()}\n <br />\n <div style={{textAlign: 'left', display: 'inline-block'}}>\n {this.state.errorInfo.componentStack}\n </div>\n </details>\n </div>\n );\n }\n // Normally, just render children\n return this.props.children;\n }", "function croak(msg) {\n //wow, we report location, it's amazing!\n throw new Error(msg + \" (\" + line + \":\" + col + \")\");\n }", "function writeWatchExceptions (errorText, errorCode) {\n document.getElementById(\"watchLocation\").innerHTML = errorText + \" Code \" + errorCode;\n }", "function updateRelationErrorMsg() {\n relationErrorMsg.innerHTML = relationInput.validationMessage;\n}", "function showError(err) {\n console.log(err);\n}", "function showError(error) {\n // console.log('showError', error);\n\n document.title = 'Error | M365 Maps';\n\n document.getElementById('errorMessage').innerText = error;\n document.getElementById('errorDiv').style.display = 'block';\n document.getElementById('menu').style.display = 'none';\n if (SvgModule.Data.Tag) SvgModule.Data.Tag.style.display = 'none';\n}", "function displayError(msg, title){\n\t\tvar htmlString = \"\";\n\t\tif(title && title.length){\n\t\t\thtmlString += \"<h3>\"+title+\"</h3>\";\n\t\t}\n\t\thtmlString += \"<p>\"+msg+\"</p>\";\n\n\t\t$parserErrorDisplay\n\t\t\t.show()\n\t\t\t.html(htmlString);\n\t}", "function showSearchAddressError() {\n\t\t\tvar errorContainer = $('#searchAddressError');\n\t\t\terrorContainer.html(preferences.translate(\"searchError\"));\n\t\t\terrorContainer.show();\n\t\t}", "function unknownFragmentMessage(fragName) {\n return \"Unknown fragment \\\"\".concat(fragName, \"\\\".\");\n}", "static renderCompileError(message) {\n const noCreate = !message\n const overlay = this.getErrorOverlay(noCreate)\n if (!overlay) return\n overlay.setCompileError(message)\n }", "function errback(err) {\n rdbAdmin.showErrorMessage('<pre>' + err[0] + ':' + err[1] + '</pre>');\n }", "function displayError(error) {\n console.log(error);\n}", "__renderFailure(resolutionErrors) {\n return (\n <View\n style={styles.error}\n >\n <Text\n style={styles.errorText}\n >\n {'?'}\n </Text>\n </View>\n );\n }", "function Error(props) {\n _s();\n\n const {\n 0: status,\n 1: setStatus\n } = Object(react__WEBPACK_IMPORTED_MODULE_1__[\"useState\"])(\"\");\n Object(react__WEBPACK_IMPORTED_MODULE_1__[\"useEffect\"])(() => {\n setStatus(new URLSearchParams(window.location.search).get(\"status\"));\n }, []);\n return __jsx(\"div\", {\n __self: this,\n __source: {\n fileName: _jsxFileName,\n lineNumber: 14,\n columnNumber: 5\n }\n }, __jsx(\"h2\", {\n __self: this,\n __source: {\n fileName: _jsxFileName,\n lineNumber: 15,\n columnNumber: 7\n }\n }, `Error: ${status}`));\n}", "toDiagnostic() {\n return {\n file: this.sourceFile,\n start: this.start,\n end: this.end,\n // start-end-using systems.\n length: this.end - this.start,\n messageText: this.failureText,\n category: ts.DiagnosticCategory.Error,\n code: this.code,\n // source is the name of the plugin.\n source: 'Tsetse',\n fix: this.suggestedFix\n };\n }", "function showErr (e) {\n console.error(e, e.stack);\n}", "get errortext() {\n return this._errortext;\n }", "get errortext() {\n return this._errortext;\n }", "function renderError(req, res, err) {\n\tres.status(err.status || 500);\n\tres.render('error', {\n\t\terr: req.app.get('env') === 'development' ? err.err : {},\n\t\ttitle: err.title,\n\t\terrorMsg: err.message\n\t});\n}", "function logError() {\n if (error) {\n return<p>{error}</p>\n }\n }" ]
[ "0.5840918", "0.57837224", "0.5782172", "0.5707352", "0.56868726", "0.5657486", "0.5648254", "0.5631857", "0.5541341", "0.55393326", "0.5534274", "0.5482769", "0.54566", "0.54566", "0.5434948", "0.54090387", "0.54090387", "0.54090387", "0.54090387", "0.5400498", "0.5400498", "0.5400498", "0.5366398", "0.5366398", "0.5366398", "0.536244", "0.53623223", "0.5361445", "0.53606933", "0.53606933", "0.5350495", "0.5349906", "0.5345621", "0.53382504", "0.53322643", "0.5321733", "0.5321733", "0.53187895", "0.53180194", "0.530305", "0.5286997", "0.52729833", "0.5272781", "0.52591", "0.525908", "0.52454525", "0.52409637", "0.52375525", "0.52341187", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.52321464", "0.5214711", "0.51931673", "0.5180604", "0.51801646", "0.5169547", "0.5169547", "0.51657516", "0.51651514", "0.5152471", "0.5144943", "0.5124797", "0.5123197", "0.5123197", "0.51170576", "0.5089483", "0.5085234", "0.50774264", "0.50754386", "0.50736505", "0.5072832", "0.50660026", "0.50608885", "0.5049962", "0.5039544", "0.5039165", "0.5030665", "0.5018202", "0.50180626", "0.5015687", "0.50141764", "0.50136566", "0.50122327", "0.49969044", "0.4994213", "0.4990053", "0.49864578", "0.49775183", "0.49775183", "0.4976134", "0.49674967" ]
0.0
-1
Prepares an object map of argument values given a list of argument definitions and list of argument AST nodes. Note: The returned value is a plain Object with a prototype, since it is exposed to user code. Care should be taken to not pull values from the Object prototype.
function getArgumentValues(def, node, variableValues) { var coercedValues = {}; var argDefs = def.args; var argNodes = node.arguments; if (!argDefs || !argNodes) { return coercedValues; } var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) { return arg.name.value; }); for (var i = 0; i < argDefs.length; i++) { var argDef = argDefs[i]; var name = argDef.name; var argType = argDef.type; var argumentNode = argNodeMap[name]; var defaultValue = argDef.defaultValue; if (!argumentNode) { if (!(0, _isInvalid2.default)(defaultValue)) { coercedValues[name] = defaultValue; } else if (argType instanceof _definition.GraphQLNonNull) { throw new _error.GraphQLError('Argument "' + name + '" of required type ' + ('"' + String(argType) + '" was not provided.'), [node]); } } else if (argumentNode.value.kind === Kind.VARIABLE) { var variableName = argumentNode.value.name.value; if (variableValues && Object.prototype.hasOwnProperty.call(variableValues, variableName) && !(0, _isInvalid2.default)(variableValues[variableName])) { // Note: this does not check that this variable value is correct. // This assumes that this query has been validated and the variable // usage here is of the correct type. coercedValues[name] = variableValues[variableName]; } else if (!(0, _isInvalid2.default)(defaultValue)) { coercedValues[name] = defaultValue; } else if (argType instanceof _definition.GraphQLNonNull) { throw new _error.GraphQLError('Argument "' + name + '" of required type "' + String(argType) + '" was ' + ('provided the variable "$' + variableName + '" which was not provided ') + 'a runtime value.', [argumentNode.value]); } } else { var valueNode = argumentNode.value; var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues); if ((0, _isInvalid2.default)(coercedValue)) { var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode); var message = errors ? '\n' + errors.join('\n') : ''; throw new _error.GraphQLError('Argument "' + name + '" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]); } coercedValues[name] = coercedValue; } } return coercedValues; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function prepArgumentsObject(args,defaultArgs){\r\n var argList = [].slice.call(args);\r\n var outArgs = {};\r\n // print('Default args:',defaultArgs);\r\n //See if first argument is an ee object instead of a vanilla js object\r\n var firstArgumentIsEEObj = false;\r\n var argsAreObject = false;\r\n try{\r\n var t=argList[0].serialize();\r\n firstArgumentIsEEObj = true;\r\n }catch(err){\r\n \r\n }\r\n \r\n if(typeof(argList[0]) === 'object' && argList.length === 1 && !firstArgumentIsEEObj){\r\n argsAreObject = true;\r\n outArgs = argList[0];\r\n }\r\n //Iterate through each expected argument to create the obj with all parameters\r\n Object.keys(defaultArgs).forEach(function(key, i) {\r\n var value;\r\n if(argsAreObject){\r\n value = argList[0][key];\r\n }else{value = argList[i]}\r\n \r\n //Fill in default value if non is provided or it is null\r\n if(value === undefined || value === null){\r\n value = defaultArgs[key];\r\n }\r\n // console.log(value)\r\n outArgs[key] = value;\r\n });\r\n \r\n // //Merge any remaining variables that were provided\r\n // if(argsAreObject){\r\n \r\n // }\r\n // print('Out args:',outArgs);\r\n return outArgs;\r\n}", "function getArgumentValues(argDefs, argASTs, variableValues) {\n if (!argDefs || !argASTs) {\n return {};\n }\n var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n return arg.name.value;\n });\n return argDefs.reduce(function (result, argDef) {\n var name = argDef.name;\n var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n var value = (0, _utilitiesValueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n if ((0, _jsutilsIsNullish2['default'])(value)) {\n value = argDef.defaultValue;\n }\n if (!(0, _jsutilsIsNullish2['default'])(value)) {\n result[name] = value;\n }\n return result;\n }, {});\n}", "function getArgumentValues(argDefs, argASTs, variableValues) {\n\t if (!argDefs || !argASTs) {\n\t return {};\n\t }\n\t var argASTMap = (0, _keyMap2.default)(argASTs, function (arg) {\n\t return arg.name.value;\n\t });\n\t return argDefs.reduce(function (result, argDef) {\n\t var name = argDef.name;\n\t var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n\t var value = (0, _valueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n\t if ((0, _isNullish2.default)(value)) {\n\t value = argDef.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(value)) {\n\t result[name] = value;\n\t }\n\t return result;\n\t }, {});\n\t}", "_dehydrateArg(arg) {\n if (typeof arg === \"string\") {\n return ({\n type: \"string\",\n value: String(arg)\n });\n } else if (typeof arg === \"function\") {\n // store a pointer to the function in the function lib\n let functionPointerName = \"f@\" + this._functionPointerCounter;\n this._functionPointerCounter++;\n this._functionPointerLib.put(functionPointerName, arg);\n return ({\n type: \"function\",\n name: functionPointerName\n });\n } else if (typeof arg === \"number\") {\n return ({\n type: \"number\",\n value: arg\n });\n } else if (typeof arg === \"boolean\") {\n return ({\n type: \"boolean\",\n value: arg\n })\n } else if (typeof arg === \"object\") {\n\n if (arg.constructor.name === \"Array\") {\n let argDef = {\n type: \"array\",\n elements: [],\n };\n\n arg.forEach(element => {\n argDef.elements.push(this._dehydrateArg(element));\n });\n\n return argDef;\n } else {\n let argDef = {\n type: \"object\",\n properties: {},\n };\n\n for (let prop in arg) {\n if (arg.hasOwnProperty(prop)) {\n argDef.properties[prop] = this._dehydrateArg(arg[prop]);\n }\n }\n\n return argDef;\n }\n\n // return ({\n // type: \"json\",\n // value: JSON.stringify(arg)\n // })\n } else {\n throw new Error(\"Unsupported argument type for arg: \" + arg)\n }\n }", "function parametersFromArguments(arguments) {\r\n var parameters = new HashMap();\r\n for (var i = 0; i < arguments.length; i++) {\r\n if (arguments[i].charAt(0) == '-' && arguments[i].charAt(1) != '-') {\r\n // [-arg val] structure\r\n var arg = arguments[i].substring(1);\r\n var val = arguments[i+1].replace(/^\\\"|\\\"$/g, '');\r\n parameters.set(arg, val);\r\n i++; // Skip the value that we already stored\r\n } else if (arguments[i].charAt(0) == '-' && arguments[i].charAt(1) == '-') {\r\n // [--arg=val] structure\r\n var split = arguments[i].split(/=(.+)?/);\r\n var arg = split[0].substring(2);\r\n var val = split[1].replace(/^\\\"|\\\"$/g, '');\r\n parameters.set(arg, val);\r\n }\r\n }\r\n return parameters;\r\n}", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n\n var argNodeMap = Object(_jsutils_keyMap__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var hasValue = void 0;\n var isNull = void 0;\n\n if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var variableName = argumentNode.value.name.value;\n hasValue = variableValues && hasOwnProperty(variableValues, variableName);\n isNull = variableValues && variableValues[variableName] === null;\n } else {\n hasValue = argumentNode != null;\n isNull = argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL;\n }\n\n if (!hasValue && argDef.defaultValue !== undefined) {\n // If no argument was provided where the definition has a default value,\n // use the default value.\n coercedValues[name] = argDef.defaultValue;\n } else if ((!hasValue || isNull) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_10__[\"isNonNullType\"])(argType)) {\n // If no argument or a null value was provided to an argument with a\n // non-null type (required), produce a field error.\n if (isNull) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', argumentNode.value);\n } else if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName = argumentNode.value.name.value;\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(_variableName, \"\\\" \") + 'which was not provided a runtime value.', argumentNode.value);\n } else {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n } else if (hasValue) {\n if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL) {\n // If the explicit value `null` was provided, an entry in the coerced\n // values must exist as the value `null`.\n coercedValues[name] = null;\n } else if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName2 = argumentNode.value.name.value;\n !variableValues ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must exist for hasValue to be true.') : void 0; // Note: This does no further checking that this variable is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n\n coercedValues[name] = variableValues[_variableName2];\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = Object(_utilities_valueFromAST__WEBPACK_IMPORTED_MODULE_7__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectType validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer__WEBPACK_IMPORTED_MODULE_9__[\"print\"])(valueNode), \".\"), argumentNode.value);\n }\n\n coercedValues[name] = coercedValue;\n }\n }\n }\n\n return coercedValues;\n}", "ParameterList_normal(defParameters, _, optRest) {\n const sourceMap = this.args.sourceMap;\n const idContext = this.args.idContext;\n const positional = defParameters.asIteration().toAST(sourceMap, idContext);\n const rest = optRest.numChildren === 1 ?\n optRest.toAST(sourceMap, idContext)[0] : {vararg: null, kwonlyargs: [], kwarg: null, defaults: []};\n \n return new Arguments(this.sourceLoc(sourceMap), this.id(idContext),\n positional.map(i => i.param), rest.vararg, rest.kwonlyargs, rest.kwarg, \n positional.map(i => i.default), rest.defaults);\n }", "_argsWithNames (func: string, args: Array = []): Object {\n let r = null\n for (const i in this._json.abi) {\n if (this._json.abi.hasOwnProperty(i) && this._json.abi[i].name === func) {\n const inputs = this._json.abi[i].inputs\n if (!r) {\n r = {}\n }\n for (const j in inputs) {\n if (inputs.hasOwnProperty(j)) {\n if (!args.hasOwnProperty(j)) {\n throw new Error(`invalid argument ${j}`)\n }\n r[inputs[j].name] = args[j]\n }\n }\n break\n }\n }\n if (!r) {\n throw new Error('argsWithNames should not be null')\n }\n return r\n }", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function h$buildObject() {\n var r = {}, l = arguments.length;\n for(var i = 0; i < l; i += 2) {\n var k = arguments[i], v = arguments[i+1];\n r[k] = v;\n }\n return r;\n}", "function h$buildObject() {\n var r = {}, l = arguments.length;\n for(var i = 0; i < l; i += 2) {\n var k = arguments[i], v = arguments[i+1];\n r[k] = v;\n }\n return r;\n}", "function h$buildObject() {\n var r = {}, l = arguments.length;\n for(var i = 0; i < l; i += 2) {\n var k = arguments[i], v = arguments[i+1];\n r[k] = v;\n }\n return r;\n}", "function h$buildObject() {\n var r = {}, l = arguments.length;\n for(var i = 0; i < l; i += 2) {\n var k = arguments[i], v = arguments[i+1];\n r[k] = v;\n }\n return r;\n}", "function h$buildObject() {\n var r = {}, l = arguments.length;\n for(var i = 0; i < l; i += 2) {\n var k = arguments[i], v = arguments[i+1];\n r[k] = v;\n }\n return r;\n}", "static merge() {\n let result = {};\n if (!arguments || !arguments.length) {\n return result;\n }\n\n for (let i = 0; i < arguments.length; i++) {\n let currentArg = arguments[i];\n if (!currentArg) {\n continue;\n }\n Object.keys(currentArg).forEach(key => {\n if (Utility.isObject(currentArg[key]) && result[key] && Utility.isObject(result[key])) {\n result[key] = Utility.merge(result[key], currentArg[key]);\n } else {\n result[key] = currentArg[key];\n }\n });\n }\n return result;\n }", "function paramsToObject(entries) {\n let result = {}\n for(let entry of entries) {\n const [key, value] = entry;\n result[key] = value;\n }\n return result;\n}", "function assign$1($){for(var k=1;k<arguments.length;k++){var V=arguments[k];for(var z in V)$[z]=V[z]}return $}", "function parseArgs() {\n var args = {};\n if (arguments.length === 1) {\n if (typeof arguments[0] === 'function') {\n args.fn = arguments[0];\n } else {\n args.options = arguments[0];\n }\n } else if (arguments.length === 2) {\n if (typeof arguments[0] === 'function') {\n args.fn = arguments[0];\n args.ctx = arguments[1];\n } else {\n args.options = arguments[0];\n args.fn = arguments[1];\n }\n } else {\n args.options = arguments[0];\n args.fn = arguments[1];\n args.ctx = arguments[2];\n }\n args.options = args.options || {};\n if (!args.options.strategy) {\n args.options.strategy = 'pre';\n }\n if (!walkStrategies[args.options.strategy]) {\n throw new Error('Unknown tree walk strategy. Valid strategies are \\'pre\\' [default], \\'post\\' and \\'breadth\\'.');\n }\n return args;\n }", "function buildParameterObjects(parameters){\n var localObj = {};\n for(var key in parameters){\n var node = parameters[key];\n localObj[key] = { id: key, node: node };\n }\n return localObj;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(args, variables) {\n var values = {};\n args.forEach(function (arg) {\n values[arg.name] = getArgumentValue(arg, variables);\n });\n return values;\n}", "function getLiteralArgumentValues(args) {\n var values = {};\n args.forEach(function (arg) {\n if (arg.value.kind === 'Literal') {\n values[arg.name] = arg.value.value;\n }\n });\n return values;\n}", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter$1(pdef, spec, scope);\n }\n return params;\n }", "function merge() {\n const result = {};\n\n for (const obj of arguments) {\n _.forOwn(obj, (value, key) => {\n if (typeof value !== 'undefined') {\n if (!result[key]) {\n result[key] = value;\n } else if (_.isPlainObject(value) && _.isPlainObject(result[key])) {\n result[key] = merge(result[key], value);\n } else if (Array.isArray(value) && Array.isArray(result[key])) {\n result[key] = value.concat(result[key]);\n } else {\n result[key] = value;\n }\n }\n });\n }\n\n return result;\n}", "function extractArgs(arg) {\n switch (arg.type) {\n case 'Literal':\n return arg.value;\n case 'Identifier':\n return arg.name;\n case 'MemberExpression':\n return extractArgs(arg.object) + '.' + extractArgs(arg.property);\n case 'ObjectExpression':\n {\n var res = {};\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)((0, _keys2.default)(arg.properties)), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var key = _step.value;\n\n res[extractArgs(arg.properties[key].key)] = extractArgs(arg.properties[key].value);\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n return res;\n }\n default:\n throw new Error('I18nextPlugin. Unable to parse arg ' + arg + '.');\n }\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "_hydrateArg(argDef) {\n const self = this;\n switch (argDef.type) {\n case \"function\":\n return function () {\n let dehydratedArgs = self._dehydrateArgs(arguments);\n\n let message = {\n type: \"function\",\n name: argDef.name,\n args: dehydratedArgs\n };\n\n let messageJson = JSON.stringify(message);\n\n self._send(messageJson);\n };\n case \"string\":\n return String(argDef.value);\n case \"number\":\n return Number(argDef.value);\n case \"boolean\":\n return Boolean(argDef.value);\n case \"json\":\n return JSON.parse(argDef.value);\n case \"object\":\n let objArg = {};\n for (let prop in argDef.properties) {\n if (argDef.properties.hasOwnProperty(prop)) {\n objArg[prop] = this._hydrateArg(argDef.properties[prop]);\n }\n }\n return objArg;\n case \"array\":\n let arrArg = [];\n argDef.elements.forEach(element => {\n arrArg.push(this._hydrateArg(element));\n });\n return arrArg;\n default:\n throw new Error(\"Unhandled argument type: \" + argDef.type);\n }\n }", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter(pdef, spec, scope);\n }\n return params;\n}", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter(pdef, spec, scope);\n }\n return params;\n}", "function _assign () {\n\t var args = [].slice.call(arguments).filter(function (i) { return i })\n\t var dest = args.shift()\n\t args.forEach(function (src) {\n\t Object.keys(src).forEach(function (key) {\n\t dest[key] = src[key]\n\t })\n\t })\n\t\n\t return dest\n\t}", "function _assign () {\n\t var args = [].slice.call(arguments).filter(function (i) { return i })\n\t var dest = args.shift()\n\t args.forEach(function (src) {\n\t Object.keys(src).forEach(function (key) {\n\t dest[key] = src[key]\n\t })\n\t })\n\t\n\t return dest\n\t}", "function merge(){\n\t\tvar result = {};\n\t\tfor(var i=0; i<arguments.length; i++)\n\t\t\tfor(var key in arguments[i])\n\t\t\t\tif(arguments[i].hasOwnProperty(key))\n\t\t\t\t\tresult[key] = arguments[i][key];\n\t\treturn result;\n\t}", "function _assign () {\n var args = [].slice.call(arguments).filter(function (i) { return i })\n var dest = args.shift()\n args.forEach(function (src) {\n Object.keys(src).forEach(function (key) {\n dest[key] = src[key]\n })\n })\n\n return dest\n}", "function Arguments(args, categories) {\n if (args === void 0) { args = {}; }\n if (categories === void 0) { categories = {}; }\n /**\n * ``[key => value]`` pairs\n */\n this.args = {};\n this.changes = [];\n this.args = $clone(args);\n this.categories = {};\n for (var category in categories) {\n var keys = categories[category];\n for (var _i = 0, keys_1 = keys; _i < keys_1.length; _i++) {\n var key = keys_1[_i];\n this.categories[key] = category;\n }\n }\n }", "static create(...args) {\n\n\t\tconst container = {};\n\n\t\t// Create a new map for each argument\n\t\targs.forEach((arg) => {\n\t\t\tcontainer[arg] = new Map();\n\t\t});\n\n\t\treturn container;\n\t}", "function ArgStruct(argv) {\n this.parsed = {};\n\n return this;\n}", "function parseArgumentDefs(lexer$$1) {\n if (!peek(lexer$$1, lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer$$1, lexer.TokenKind.PAREN_L, parseInputValueDef, lexer.TokenKind.PAREN_R);\n}", "function initializeMap(list) {\n var result = {};\n for (var i = 0; i < list.length; i += 2) {\n // Call asFirstClass() here to prevent, for example, a toxic\n // function being used as the toString property of an object\n // literal.\n\tsetPub(result, list[$A$Num(i)], asFirstClass(list[$A$Num(i + 1)]));\n }\n return result;\n }", "function _extend(){\n\t \n\t\tvar out = {};\n\t\t\n\t\t//Itterate over all objects and copy each property\n\t\t// shallow copy only \n\t\tvar len = arguments.length;\n\t\tfor(var i=0; i < len;i++)\n\t\t for (var prop in arguments[i]) { out[prop] = arguments[i][prop]; }\n\t\t \n\t\treturn(out);\n\t}", "parseArgumentDefs() {\n return this.optionalMany(\n TokenKind.PAREN_L,\n this.parseInputValueDef,\n TokenKind.PAREN_R,\n );\n }", "function parseArgumentDefs(lexer) {\n\t if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n\t return [];\n\t }\n\t return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n\t}", "function parseArgumentDefs(lexer) {\n\t if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n\t return [];\n\t }\n\t return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n\t}", "static initialize(obj) { \n obj['left'] = left;\n obj['right'] = right;\n obj['operator'] = operator;\n }", "function extend() {\n var i,\n k,\n res = {},\n l = arguments.length;\n\n for (i = l - 1; i >= 0; i--)\n for (k in arguments[i])\n if (res[k] && isPlainObject(arguments[i][k]))\n res[k] = extend(arguments[i][k], res[k]);\n else\n res[k] = arguments[i][k];\n\n return res;\n }", "function convertToParamMap(params){return new ParamsAsMap(params);}", "function KnownArgumentNames(context) {\n\t return {\n\t Argument: function Argument(node, key, parent, path, ancestors) {\n\t var argumentOf = ancestors[ancestors.length - 1];\n\t if (argumentOf.kind === _languageKinds.FIELD) {\n\t var fieldDef = context.getFieldDef();\n\t if (fieldDef) {\n\t var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!fieldArgDef) {\n\t var parentType = context.getParentType();\n\t (0, _jsutilsInvariant2['default'])(parentType);\n\t context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n\t }\n\t }\n\t } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n\t var directive = context.getDirective();\n\t if (directive) {\n\t var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n\t return arg.name === node.name.value;\n\t });\n\t if (!directiveArgDef) {\n\t context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n\t }\n\t }\n\t }\n\t }\n\t };\n\t}", "function $makeArguments(origArgs)\n{\n var newArgs = new Object;\n newArgs.callee = origArgs.callee;\n newArgs.caller = origArgs.caller;\n\n if(origArgs[0] && origArgs[0].$isK)\n {\n newArgs.continuation = origArgs[0];\n newArgs.length = origArgs.length - 1;\n for(var i = 1; i < origArgs.length; i++)\n newArgs[i - 1] = origArgs[i];\n }\n else\n {\n newArgs.length = origArgs.length;\n for(var i = 0; i < origArgs.length; i++)\n newArgs[i] = origArgs[i];\n }\n\n return newArgs;\n}", "function createAssigner(keysFunc, defaults) {\r\n return function(obj) {\r\n var length = arguments.length;\r\n if (defaults) obj = Object(obj); \r\n if (length < 2 || obj == null) return obj;\r\n for (var index = 1; index < length; index++) {\r\n var source = arguments[index],\r\n keys = keysFunc(source),\r\n l = keys.length;\r\n for (var i = 0; i < l; i++) {\r\n var key = keys[i];\r\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\r\n }\r\n }\r\n return obj;\r\n };\r\n }", "function createWordConverterArguments(nodes) {\n return {\n nodes: nodes,\n currentIndex: 0,\n lists: {},\n listItems: [],\n currentListIdsByLevels: [LevelLists_1.createLevelLists()],\n lastProcessedItem: null,\n };\n}", "function extractArgs(args) {\r\n var extracted = {};\r\n \r\n $.each(args, function (i, arg) {\r\n switch (arg.constructor) {\r\n case Function:\r\n extracted.successFn = extracted.successFn || arg;\r\n extracted.failureFn = !extracted.successFn && arg;\r\n break;\r\n case Object:\r\n extracted.options = arg;\r\n }\r\n });\r\n \r\n return extracted;\r\n }", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, _lexer.TokenKind.PAREN_L)) {\n return [];\n }\n\n return many(lexer, _lexer.TokenKind.PAREN_L, parseInputValueDef, _lexer.TokenKind.PAREN_R);\n}", "merge() {\n var args = Array.prototype.slice.call(arguments);\n var result = {};\n\n for (var arg of args) {\n if (!util.isObject(arg)) {\n continue;\n }\n\n for (var key of Object.keys(arg)) {\n // Merge objects, not arrays.\n if (util.isObject(result[key]) && !Array.isArray(result[key])) {\n if (util.isObject(arg[key]) && !Array.isArray(arg[key])) {\n result[key] = module.exports.merge(result[key], arg[key]);\n } else {\n result[key] = arg[key];\n }\n } else {\n result[key] = arg[key];\n }\n }\n }\n\n return result;\n }", "function ParamMap() {}", "function ParamMap() {}", "function parseArgumentDefs(lexer) {\n if (!peek(lexer, TokenKind.PAREN_L)) {\n return [];\n }\n\n return many(lexer, TokenKind.PAREN_L, parseInputValueDef, TokenKind.PAREN_R);\n}", "map(mappedFields) {\n this.argv = {};\n for (let i in mappedFields) {\n let path = mappedFields[i].split('.');\n let p1 = path.shift(),\n targetObj;\n if (p1 == \"POST\")\n targetObj = this.configs.HTTPRequest.request.body;\n else if (p1 == \"PATCH\")\n targetObj = this.configs.HTTPRequest.request.body;\n else if (p1 == \"GET\")\n targetObj = this.configs.HTTPRequest.request.query;\n else if (p1 == \"PATH\")\n targetObj = this.configs.HTTPRequest.request.params;\n else if (p1 == \"DELETE\")\n targetObj = this.configs.HTTPRequest.request.body;\n else if (p1 == \"DATA\")\n targetObj = this.data;\n else if (p1 == \"ERROR\")\n targetObj = this.error;\n else if (p1 == \"MODEL\")\n targetObj = this.model;\n else if (p1 == \"USER\")\n targetObj = this.user;\n else\n continue;\n this.argv[i] = Utill.ArrayLib.resolvePath(targetObj, path);\n }\n return this;\n }", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === Kind.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _find2.default)(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n !parentType ? (0, _invariant2.default)(0) : void 0;\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name, (0, _suggestionList2.default)(node.name.value, fieldDef.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n } else if (argumentOf.kind === Kind.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _find2.default)(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name, (0, _suggestionList2.default)(node.name.value, directive.args.map(function (arg) {\n return arg.name;\n }))), [node]));\n }\n }\n }\n }\n };\n}", "function extract() {\n var keys = arguments.length <= 0 || arguments[0] === undefined ? [] : arguments[0];\n var obj = arguments.length <= 1 || arguments[1] === undefined ? {} : arguments[1];\n\n if (!(keys instanceof Array)) {\n keys = [keys];\n }\n var result = {};\n for (var i in keys) {\n result[keys[i]] = obj[keys[i]];\n }\n return result;\n}", "function mergeObjects(args) {\n for (var i = 0; i < args.length; i++) {\n if (Object.prototype.toString.call(args[i]) !== '[object Object]') {\n throw new Error('Will only take objects as inputs');\n }\n }\n var result = {};\n for (var i = 0; i < args.length; i++) {\n for (var key in args[i]) {\n if (args[i].hasOwnProperty(key)) {\n result[key] = args[i][key];\n }\n }\n }\n return result;\n}", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function object(list, values) {\n var result = {};\n for (var i = 0, length = getLength(list); i < length; i++) {\n if (values) {\n result[list[i]] = values[i];\n } else {\n result[list[i][0]] = list[i][1];\n }\n }\n return result;\n }", "function pproxy_params_copy(obj){\n var newObj=new Object();\n for(var k in obj){\n\t\tvar arr=new Array();\n\t\tfor(var i in obj[k]){\n\t\t\tarr[i]=obj[k][i]+\"\";\n\t\t}\n\t\tnewObj[k]=arr;\n }\n return newObj\n}", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function createAssigner(keysFunc, defaults) {\n return function(obj) {\n var length = arguments.length;\n if (defaults) obj = Object(obj);\n if (length < 2 || obj == null) return obj;\n for (var index = 1; index < length; index++) {\n var source = arguments[index],\n keys = keysFunc(source),\n l = keys.length;\n for (var i = 0; i < l; i++) {\n var key = keys[i];\n if (!defaults || obj[key] === void 0) obj[key] = source[key];\n }\n }\n return obj;\n };\n }", "function parseArguments() {\n\t var args = [], expr;\n\n\t expect('(');\n\n\t if (!match(')')) {\n\t while (startIndex < length) {\n\t if (match('...')) {\n\t expr = new Node();\n\t lex();\n\t expr.finishSpreadElement(isolateCoverGrammar(parseAssignmentExpression));\n\t } else {\n\t expr = isolateCoverGrammar(parseAssignmentExpression);\n\t }\n\t args.push(expr);\n\t if (match(')')) {\n\t break;\n\t }\n\t expectCommaSeparator();\n\t }\n\t }\n\n\t expect(')');\n\n\t return args;\n\t }", "function initArgMapsMgr(){ \n argMapsMgr = new ArgMapsMgr();\n argMapsMgr.createArgMap(TEST_ARG_MAP_KEY); \n}", "function set() {\n var l = {};\n for (var i in arguments) {\n l[arguments[i]] = true;\n }\n return l;\n}", "function createContext(depList) {\n var depListStr = depList.toString();\n var depNames = depListStr\n .slice(depListStr.indexOf('[') + 1, depListStr.lastIndexOf(']'))\n .replace(/\\s/g, '')\n .split(',');\n var depValues = depList();\n var out = '';\n var reg = {};\n var dat = {};\n var ab = [];\n for (var i = 0; i < depValues.length; ++i) {\n var key = depNames[i], value = depValues[i];\n var parts = key\n .replace(/\\\\/, '')\n .match(/^(.*?)(?=(\\.|\\[|$))|\\[(.*?)\\]|(\\.(.*?))(?=(\\.|\\[|$))/g);\n var v = encoder[typeof value](value, reg, ab);\n if (typeof v == 'string') {\n var pfx = 'self.' + parts[0];\n var chain = pfx;\n for (var i_1 = 1; i_1 < parts.length; ++i_1) {\n chain = chainWrap(parts[i_1], chain, pfx);\n pfx += parts[i_1];\n }\n out += chain + \"=\" + v + \";\";\n }\n else {\n // TODO: overwrite instead of assign\n var obj = dat;\n for (var i_2 = 0; i_2 < parts.length - 1; ++i_2) {\n obj = obj[parts[i_2]] = {};\n }\n obj[parts[parts.length - 1]] = v;\n }\n }\n return [out, dat, ab, reg];\n}", "function allocArgs(m, lst) {\n let malloc = m.instance.exports._malloc\n if (!malloc) return\n let heap8 = new Uint8Array(m.wasmMemory.buffer)\n function setInt(ptr, i) {\n heap8[ptr+0] = i&0xff\n heap8[ptr+1] = (i>>8)&0xff\n heap8[ptr+2] = (i>>16)&0xff\n heap8[ptr+3] = (i>>24)&0xff\n }\n let args = lst.map(function (str) {\n let ptr = malloc(str.length+1)\n for (let i = 0; i < str.length; i++) heap8[ptr+1+memory_offset] = str.charCodeAt(i)\n heap8[ptr+str.length+memory_offset] = 0\n return ptr\n })\n let res = malloc(lst.length*4)\n for (let i = 0; i < lst.length; i++) setInt(res+i*4+memory_offset, args[i])\n return res\n}", "function applyArgExtras(argMap, extras) {\n if (extras) {\n extras.forEach(props => {\n const mapped = argMap.find(arg => arg.name === props.name);\n\n if (mapped) {\n mapped.description = props.description;\n mapped.parse = props.parse;\n\n if (props.default) {\n mapped.default = props.default;\n }\n }\n });\n }\n\n return argMap;\n}", "function reconstructParameters(params) {\n const res = {};\n const keys = Object.keys(params);\n keys.forEach(k => {\n _.set(res, k, params[k]);\n });\n return res;\n}", "function KnownArgumentNames(context) {\n return {\n Argument: function Argument(node, key, parent, path, ancestors) {\n var argumentOf = ancestors[ancestors.length - 1];\n if (argumentOf.kind === _languageKinds.FIELD) {\n var fieldDef = context.getFieldDef();\n if (fieldDef) {\n var fieldArgDef = (0, _jsutilsFind2['default'])(fieldDef.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!fieldArgDef) {\n var parentType = context.getParentType();\n (0, _jsutilsInvariant2['default'])(parentType);\n context.reportError(new _error.GraphQLError(unknownArgMessage(node.name.value, fieldDef.name, parentType.name), [node]));\n }\n }\n } else if (argumentOf.kind === _languageKinds.DIRECTIVE) {\n var directive = context.getDirective();\n if (directive) {\n var directiveArgDef = (0, _jsutilsFind2['default'])(directive.args, function (arg) {\n return arg.name === node.name.value;\n });\n if (!directiveArgDef) {\n context.reportError(new _error.GraphQLError(unknownDirectiveArgMessage(node.name.value, directive.name), [node]));\n }\n }\n }\n }\n };\n}", "function InvokeDefinitionMap() {\n this.map = [];\n this.lookup_table = {}; // Just for building dictionary\n}" ]
[ "0.6298875", "0.6100806", "0.6043771", "0.5722913", "0.5680329", "0.5554408", "0.55453277", "0.54476476", "0.53527766", "0.53527766", "0.5345561", "0.5345561", "0.5345561", "0.5345561", "0.5345561", "0.52523476", "0.5188495", "0.5134104", "0.5128351", "0.51180524", "0.50820374", "0.50820374", "0.5042951", "0.50356597", "0.49546883", "0.49466947", "0.48930612", "0.48793915", "0.48793915", "0.4861324", "0.4853395", "0.4853395", "0.48511127", "0.48511127", "0.48489165", "0.48217058", "0.48194855", "0.4807898", "0.47896928", "0.47560495", "0.47486255", "0.47320104", "0.4726385", "0.46951216", "0.46951216", "0.46851838", "0.46847662", "0.46734437", "0.46642125", "0.46518227", "0.463516", "0.4622488", "0.46012458", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.45984676", "0.4590237", "0.4586494", "0.45855215", "0.45855215", "0.45834413", "0.45736635", "0.4572505", "0.4569807", "0.4565745", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.4558266", "0.45566577", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45528638", "0.45500174", "0.4546283", "0.45462683", "0.45363933", "0.4531748", "0.4515273", "0.45116982", "0.45114654", "0.45105898" ]
0.5232808
16
Prepares an object map of argument values given a directive definition and a AST node which may contain directives. Optionally also accepts a map of variable values. If the directive does not exist on the node, returns undefined. Note: The returned value is a plain Object with a prototype, since it is exposed to user code. Care should be taken to not pull values from the Object prototype.
function getDirectiveValues(directiveDef, node, variableValues) { var directiveNode = node.directives && (0, _find2.default)(node.directives, function (directive) { return directive.name.value === directiveDef.name; }); if (directiveNode) { return getArgumentValues(directiveDef, directiveNode, variableValues); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getArgumentValues(argDefs, argASTs, variableValues) {\n if (!argDefs || !argASTs) {\n return {};\n }\n var argASTMap = (0, _jsutilsKeyMap2['default'])(argASTs, function (arg) {\n return arg.name.value;\n });\n return argDefs.reduce(function (result, argDef) {\n var name = argDef.name;\n var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n var value = (0, _utilitiesValueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n if ((0, _jsutilsIsNullish2['default'])(value)) {\n value = argDef.defaultValue;\n }\n if (!(0, _jsutilsIsNullish2['default'])(value)) {\n result[name] = value;\n }\n return result;\n }, {});\n}", "function getDirectiveValues(directiveDef, node, variableValues) {\n var directiveNode = node.directives && (0, _find.default)(node.directives, function (directive) {\n return directive.name.value === directiveDef.name;\n });\n\n if (directiveNode) {\n return getArgumentValues(directiveDef, directiveNode, variableValues);\n }\n}", "function getDirectiveValues(directiveDef, node, variableValues) {\n var directiveNode = node.directives && (0, _find.default)(node.directives, function (directive) {\n return directive.name.value === directiveDef.name;\n });\n\n if (directiveNode) {\n return getArgumentValues(directiveDef, directiveNode, variableValues);\n }\n}", "function getArgumentValues(argDefs, argASTs, variableValues) {\n\t if (!argDefs || !argASTs) {\n\t return {};\n\t }\n\t var argASTMap = (0, _keyMap2.default)(argASTs, function (arg) {\n\t return arg.name.value;\n\t });\n\t return argDefs.reduce(function (result, argDef) {\n\t var name = argDef.name;\n\t var valueAST = argASTMap[name] ? argASTMap[name].value : null;\n\t var value = (0, _valueFromAST.valueFromAST)(valueAST, argDef.type, variableValues);\n\t if ((0, _isNullish2.default)(value)) {\n\t value = argDef.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(value)) {\n\t result[name] = value;\n\t }\n\t return result;\n\t }, {});\n\t}", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return {};\n }\n var coercedValues = Object.create(null);\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n var argNodeMap = (0, _keyMap2.default)(argNodes, function (arg) {\n return arg.name.value;\n });\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var defaultValue = argDef.defaultValue;\n if (!argumentNode) {\n if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type ' + ('\"' + String(argType) + '\" was not provided.'), [node]);\n }\n } else if (argumentNode.value.kind === Kind.VARIABLE) {\n var variableName = argumentNode.value.name.value;\n if (variableValues && Object.prototype.hasOwnProperty.call(variableValues, variableName) && !(0, _isInvalid2.default)(variableValues[variableName])) {\n // Note: this does not check that this variable value is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n coercedValues[name] = variableValues[variableName];\n } else if (!(0, _isInvalid2.default)(defaultValue)) {\n coercedValues[name] = defaultValue;\n } else if (argType instanceof _definition.GraphQLNonNull) {\n throw new _error.GraphQLError('Argument \"' + name + '\" of required type \"' + String(argType) + '\" was ' + ('provided the variable \"$' + variableName + '\" which was not provided ') + 'a runtime value.', [argumentNode.value]);\n }\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n if ((0, _isInvalid2.default)(coercedValue)) {\n var errors = (0, _isValidLiteralValue.isValidLiteralValue)(argType, valueNode);\n var message = errors ? '\\n' + errors.join('\\n') : '';\n throw new _error.GraphQLError('Argument \"' + name + '\" got invalid value ' + (0, _printer.print)(valueNode) + '.' + message, [argumentNode.value]);\n }\n coercedValues[name] = coercedValue;\n }\n }\n return coercedValues;\n}", "function getDirectiveValues(directiveDef, node, variableValues) {\n var directiveNode = node.directives && Object(_polyfills_find_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(node.directives, function (directive) {\n return directive.name.value === directiveDef.name;\n });\n\n if (directiveNode) {\n return getArgumentValues(directiveDef, directiveNode, variableValues);\n }\n}", "function getDirectiveValues(directiveDef, node, variableValues) {\n var directiveNode = node.directives && Object(_polyfills_find_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(node.directives, function (directive) {\n return directive.name.value === directiveDef.name;\n });\n\n if (directiveNode) {\n return getArgumentValues(directiveDef, directiveNode, variableValues);\n }\n}", "function getDirectiveValues(directiveDef, node, variableValues) {\n var directiveNode = node.directives && Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(node.directives, function (directive) {\n return directive.name.value === directiveDef.name;\n });\n\n if (directiveNode) {\n return getArgumentValues(directiveDef, directiveNode, variableValues);\n }\n}", "function getArgumentValues(def, node, variableValues) {\n var coercedValues = {};\n var argDefs = def.args;\n var argNodes = node.arguments;\n\n if (!argDefs || !argNodes) {\n return coercedValues;\n }\n\n var argNodeMap = Object(_jsutils_keyMap__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(argNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var i = 0; i < argDefs.length; i++) {\n var argDef = argDefs[i];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n var hasValue = void 0;\n var isNull = void 0;\n\n if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var variableName = argumentNode.value.name.value;\n hasValue = variableValues && hasOwnProperty(variableValues, variableName);\n isNull = variableValues && variableValues[variableName] === null;\n } else {\n hasValue = argumentNode != null;\n isNull = argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL;\n }\n\n if (!hasValue && argDef.defaultValue !== undefined) {\n // If no argument was provided where the definition has a default value,\n // use the default value.\n coercedValues[name] = argDef.defaultValue;\n } else if ((!hasValue || isNull) && Object(_type_definition__WEBPACK_IMPORTED_MODULE_10__[\"isNonNullType\"])(argType)) {\n // If no argument or a null value was provided to an argument with a\n // non-null type (required), produce a field error.\n if (isNull) {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', argumentNode.value);\n } else if (argumentNode && argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName = argumentNode.value.name.value;\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(_variableName, \"\\\" \") + 'which was not provided a runtime value.', argumentNode.value);\n } else {\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n } else if (hasValue) {\n if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].NULL) {\n // If the explicit value `null` was provided, an entry in the coerced\n // values must exist as the value `null`.\n coercedValues[name] = null;\n } else if (argumentNode.value.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_8__[\"Kind\"].VARIABLE) {\n var _variableName2 = argumentNode.value.name.value;\n !variableValues ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must exist for hasValue to be true.') : void 0; // Note: This does no further checking that this variable is correct.\n // This assumes that this query has been validated and the variable\n // usage here is of the correct type.\n\n coercedValues[name] = variableValues[_variableName2];\n } else {\n var valueNode = argumentNode.value;\n var coercedValue = Object(_utilities_valueFromAST__WEBPACK_IMPORTED_MODULE_7__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectType validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_1__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer__WEBPACK_IMPORTED_MODULE_9__[\"print\"])(valueNode), \".\"), argumentNode.value);\n }\n\n coercedValues[name] = coercedValue;\n }\n }\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = Object(_jsutils_keyMap_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].NULL;\n\n if (valueNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(argType)) {\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = Object(_utilities_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_9__[\"valueFromAST\"])(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat(Object(_language_printer_mjs__WEBPACK_IMPORTED_MODULE_6__[\"print\"])(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getDirectiveInfoFromField(field, variables) {\n if (field.directives && field.directives.length) {\n var directiveObj_1 = {};\n field.directives.forEach(function (directive) {\n directiveObj_1[directive.name.value] = argumentsObjectFromField(directive, variables);\n });\n return directiveObj_1;\n }\n return null;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function getArgumentValues(def, node, variableValues) {\n var _node$arguments;\n\n var coercedValues = {}; // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2203')\n\n var argumentNodes = (_node$arguments = node.arguments) !== null && _node$arguments !== void 0 ? _node$arguments : [];\n var argNodeMap = (0, _keyMap.default)(argumentNodes, function (arg) {\n return arg.name.value;\n });\n\n for (var _i4 = 0, _def$args2 = def.args; _i4 < _def$args2.length; _i4++) {\n var argDef = _def$args2[_i4];\n var name = argDef.name;\n var argType = argDef.type;\n var argumentNode = argNodeMap[name];\n\n if (!argumentNode) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'was not provided.', node);\n }\n\n continue;\n }\n\n var valueNode = argumentNode.value;\n var isNull = valueNode.kind === _kinds.Kind.NULL;\n\n if (valueNode.kind === _kinds.Kind.VARIABLE) {\n var variableName = valueNode.name.value;\n\n if (variableValues == null || !hasOwnProperty(variableValues, variableName)) {\n if (argDef.defaultValue !== undefined) {\n coercedValues[name] = argDef.defaultValue;\n } else if ((0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of required type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + \"was provided the variable \\\"$\".concat(variableName, \"\\\" which was not provided a runtime value.\"), valueNode);\n }\n\n continue;\n }\n\n isNull = variableValues[variableName] == null;\n }\n\n if (isNull && (0, _definition.isNonNullType)(argType)) {\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" of non-null type \\\"\").concat((0, _inspect.default)(argType), \"\\\" \") + 'must not be null.', valueNode);\n }\n\n var coercedValue = (0, _valueFromAST.valueFromAST)(valueNode, argType, variableValues);\n\n if (coercedValue === undefined) {\n // Note: ValuesOfCorrectTypeRule validation should catch this before\n // execution. This is a runtime check to ensure execution does not\n // continue with an invalid argument value.\n throw new _GraphQLError.GraphQLError(\"Argument \\\"\".concat(name, \"\\\" has invalid value \").concat((0, _printer.print)(valueNode), \".\"), valueNode);\n }\n\n coercedValues[name] = coercedValue;\n }\n\n return coercedValues;\n}", "function parseFieldToPropertyMapping(directive, field, checker) {\n if (!directive.has(field)) {\n return EMPTY_OBJECT;\n }\n // Resolve the field of interest from the directive metadata to a string[].\n var metaValues = metadata_1.staticallyResolve(directive.get(field), checker);\n if (!Array.isArray(metaValues) || !assertIsStringArray(metaValues)) {\n throw new Error(\"Failed to resolve @Directive.\" + field);\n }\n return metaValues.reduce(function (results, value) {\n // Either the value is 'field' or 'field: property'. In the first case, `property` will\n // be undefined, in which case the field name should also be used as the property name.\n var _a = tslib_1.__read(value.split(':', 2).map(function (str) { return str.trim(); }), 2), field = _a[0], property = _a[1];\n results[field] = property || field;\n return results;\n }, {});\n }", "function createDirectiveDefinitionMap(meta) {\n const definitionMap = new DefinitionMap();\n definitionMap.set('version', literal('11.2.14'));\n // e.g. `type: MyDirective`\n definitionMap.set('type', meta.internalType);\n // e.g. `selector: 'some-dir'`\n if (meta.selector !== null) {\n definitionMap.set('selector', literal(meta.selector));\n }\n definitionMap.set('inputs', conditionallyCreateMapObjectLiteral(meta.inputs, true));\n definitionMap.set('outputs', conditionallyCreateMapObjectLiteral(meta.outputs));\n definitionMap.set('host', compileHostMetadata(meta.host));\n definitionMap.set('providers', meta.providers);\n if (meta.queries.length > 0) {\n definitionMap.set('queries', literalArr(meta.queries.map(compileQuery)));\n }\n if (meta.viewQueries.length > 0) {\n definitionMap.set('viewQueries', literalArr(meta.viewQueries.map(compileQuery)));\n }\n if (meta.exportAs !== null) {\n definitionMap.set('exportAs', asLiteral(meta.exportAs));\n }\n if (meta.usesInheritance) {\n definitionMap.set('usesInheritance', literal(true));\n }\n if (meta.lifecycle.usesOnChanges) {\n definitionMap.set('usesOnChanges', literal(true));\n }\n definitionMap.set('ngImport', importExpr(Identifiers$1.core));\n return definitionMap;\n}", "function createDirectiveDefinitionMap(meta) {\n const definitionMap = new DefinitionMap();\n definitionMap.set('version', literal('11.2.14'));\n // e.g. `type: MyDirective`\n definitionMap.set('type', meta.internalType);\n // e.g. `selector: 'some-dir'`\n if (meta.selector !== null) {\n definitionMap.set('selector', literal(meta.selector));\n }\n definitionMap.set('inputs', conditionallyCreateMapObjectLiteral(meta.inputs, true));\n definitionMap.set('outputs', conditionallyCreateMapObjectLiteral(meta.outputs));\n definitionMap.set('host', compileHostMetadata(meta.host));\n definitionMap.set('providers', meta.providers);\n if (meta.queries.length > 0) {\n definitionMap.set('queries', literalArr(meta.queries.map(compileQuery)));\n }\n if (meta.viewQueries.length > 0) {\n definitionMap.set('viewQueries', literalArr(meta.viewQueries.map(compileQuery)));\n }\n if (meta.exportAs !== null) {\n definitionMap.set('exportAs', asLiteral(meta.exportAs));\n }\n if (meta.usesInheritance) {\n definitionMap.set('usesInheritance', literal(true));\n }\n if (meta.lifecycle.usesOnChanges) {\n definitionMap.set('usesOnChanges', literal(true));\n }\n definitionMap.set('ngImport', importExpr(Identifiers$1.core));\n return definitionMap;\n}", "_dehydrateArg(arg) {\n if (typeof arg === \"string\") {\n return ({\n type: \"string\",\n value: String(arg)\n });\n } else if (typeof arg === \"function\") {\n // store a pointer to the function in the function lib\n let functionPointerName = \"f@\" + this._functionPointerCounter;\n this._functionPointerCounter++;\n this._functionPointerLib.put(functionPointerName, arg);\n return ({\n type: \"function\",\n name: functionPointerName\n });\n } else if (typeof arg === \"number\") {\n return ({\n type: \"number\",\n value: arg\n });\n } else if (typeof arg === \"boolean\") {\n return ({\n type: \"boolean\",\n value: arg\n })\n } else if (typeof arg === \"object\") {\n\n if (arg.constructor.name === \"Array\") {\n let argDef = {\n type: \"array\",\n elements: [],\n };\n\n arg.forEach(element => {\n argDef.elements.push(this._dehydrateArg(element));\n });\n\n return argDef;\n } else {\n let argDef = {\n type: \"object\",\n properties: {},\n };\n\n for (let prop in arg) {\n if (arg.hasOwnProperty(prop)) {\n argDef.properties[prop] = this._dehydrateArg(arg[prop]);\n }\n }\n\n return argDef;\n }\n\n // return ({\n // type: \"json\",\n // value: JSON.stringify(arg)\n // })\n } else {\n throw new Error(\"Unsupported argument type for arg: \" + arg)\n }\n }", "function resolveWithDirective(resolve, source, directive, context, info) {\n source = source || ((info || {}).variableValues || {}).input_0 || {};\n let directiveConfig = info.schema._directives.filter(\n d => directive.name.value === d.name,\n )[0];\n\n let args = {};\n\n for (let arg of directive.arguments) {\n args[arg.name.value] = arg.value.value;\n }\n\n return directiveConfig.resolve(resolve, source, args, context, info);\n}", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter$1(pdef, spec, scope);\n }\n return params;\n }", "function ParamMap() {}", "function ParamMap() {}", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter(pdef, spec, scope);\n }\n return params;\n}", "function parseParameters(def, spec, scope) {\n var params = {}, pdef, i, n;\n for (i=0, n=def.params.length; i<n; ++i) {\n pdef = def.params[i];\n params[pdef.name] = parseParameter(pdef, spec, scope);\n }\n return params;\n}", "function ParamMap(){}", "function VariablesInAllowedPosition(context) {\n\t var varDefMap = _Object$create(null);\n\n\t return {\n\t OperationDefinition: {\n\t enter: function enter() {\n\t varDefMap = _Object$create(null);\n\t },\n\t leave: function leave(operation) {\n\t var usages = context.getRecursiveVariableUsages(operation);\n\n\t usages.forEach(function (_ref) {\n\t var node = _ref.node;\n\t var type = _ref.type;\n\n\t var varName = node.name.value;\n\t var varDef = varDefMap[varName];\n\t if (varDef && type) {\n\t // A var type is allowed if it is the same or more strict (e.g. is\n\t // a subtype of) than the expected type. It can be more strict if\n\t // the variable type is non-null when the expected type is nullable.\n\t // If both are list types, the variable item type can be more strict\n\t // than the expected item type (contravariant).\n\t var varType = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), varDef.type);\n\t if (varType && !(0, _utilitiesTypeComparators.isTypeSubTypeOf)(effectiveType(varType, varDef), type)) {\n\t context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n\t }\n\t }\n\t });\n\t }\n\t },\n\t VariableDefinition: function VariableDefinition(varDefAST) {\n\t varDefMap[varDefAST.variable.name.value] = varDefAST;\n\t }\n\t };\n\t}", "function updateParmDict(key, value) {\n var dict = getParmDictFromURL();\n dict[key] = value;\n return dict;\n}", "function processDirective ( tokens, parentParser ) {\n\t \tvar result,\n\t \t\tmatch,\n\t \t\ttoken,\n\t \t\tcolonIndex,\n\t \t\tdirectiveName,\n\t \t\tdirectiveArgs,\n\t \t\tparsed;\n\n\t \tif ( typeof tokens === 'string' ) {\n\t \t\tif ( match = methodCallPattern.exec( tokens ) ) {\n\t \t\t\tvar end = tokens.lastIndexOf(')');\n\n\t \t\t\t// check for invalid method calls\n\t \t\t\tif ( !methodCallExcessPattern.test( tokens ) ) {\n\t \t\t\t\tparentParser.error( (\"Invalid input after method call expression '\" + (tokens.slice(end + 1)) + \"'\") );\n\t \t\t\t}\n\n\t \t\t\tresult = { m: match[1] };\n\t \t\t\tvar sliced = tokens.slice( result.m.length + 1, end );\n\n\t \t\t\t// does the method include spread of ...arguments?\n\t \t\t\tvar args = sliced.replace( spreadPattern, '' );\n\n\t \t\t\t// if so, other arguments should be appended to end of method arguments\n\t \t\t\tif ( sliced !== args ) {\n\t \t\t\t\tresult.g = true;\n\t \t\t\t}\n\n\t \t\t\tif ( args ) {\n\t \t\t\t\tvar parser = new ExpressionParser( '[' + args + ']' );\n\t \t\t\t\tresult.a = flattenExpression( parser.result[0] );\n\t \t\t\t}\n\n\t \t\t\treturn result;\n\t \t\t}\n\n\t \t\tif ( tokens.indexOf( ':' ) === -1 ) {\n\t \t\t\treturn tokens.trim();\n\t \t\t}\n\n\t \t\ttokens = [ tokens ];\n\t \t}\n\n\t \tresult = {};\n\n\t \tdirectiveName = [];\n\t \tdirectiveArgs = [];\n\n\t \tif ( tokens ) {\n\t \t\twhile ( tokens.length ) {\n\t \t\t\ttoken = tokens.shift();\n\n\t \t\t\tif ( typeof token === 'string' ) {\n\t \t\t\t\tcolonIndex = token.indexOf( ':' );\n\n\t \t\t\t\tif ( colonIndex === -1 ) {\n\t \t\t\t\t\tdirectiveName.push( token );\n\t \t\t\t\t} else {\n\t \t\t\t\t\t// is the colon the first character?\n\t \t\t\t\t\tif ( colonIndex ) {\n\t \t\t\t\t\t\t// no\n\t \t\t\t\t\t\tdirectiveName.push( token.substr( 0, colonIndex ) );\n\t \t\t\t\t\t}\n\n\t \t\t\t\t\t// if there is anything after the colon in this token, treat\n\t \t\t\t\t\t// it as the first token of the directiveArgs fragment\n\t \t\t\t\t\tif ( token.length > colonIndex + 1 ) {\n\t \t\t\t\t\t\tdirectiveArgs[0] = token.substring( colonIndex + 1 );\n\t \t\t\t\t\t}\n\n\t \t\t\t\t\tbreak;\n\t \t\t\t\t}\n\t \t\t\t}\n\n\t \t\t\telse {\n\t \t\t\t\tdirectiveName.push( token );\n\t \t\t\t}\n\t \t\t}\n\n\t \t\tdirectiveArgs = directiveArgs.concat( tokens );\n\t \t}\n\n\t \tif ( !directiveName.length ) {\n\t \t\tresult = '';\n\t \t} else if ( directiveArgs.length || typeof directiveName !== 'string' ) {\n\t \t\tresult = {\n\t \t\t\t// TODO is this really necessary? just use the array\n\t \t\t\tn: ( directiveName.length === 1 && typeof directiveName[0] === 'string' ? directiveName[0] : directiveName )\n\t \t\t};\n\n\t \t\tif ( directiveArgs.length === 1 && typeof directiveArgs[0] === 'string' ) {\n\t \t\t\tparsed = parseJSON( '[' + directiveArgs[0] + ']' );\n\t \t\t\tresult.a = parsed ? parsed.value : [ directiveArgs[0].trim() ];\n\t \t\t}\n\n\t \t\telse {\n\t \t\t\tresult.d = directiveArgs;\n\t \t\t}\n\t \t} else {\n\t \t\tresult = directiveName;\n\t \t}\n\n\t \treturn result;\n\t }", "function ParamMap() { }", "function ParamMap() { }", "process() {\n const val = this.value;\n\n // For arrays, for directives in each member\n if (_.isArray(val)) {\n return bluebird.map(val, (member, i) => {\n return this.child(i).process();\n });\n }\n\n // For objects, recurse through each key\n if (_.isObject(val)) {\n const directives = {};\n\n return bluebird\n // Iterate through members\n .props(_.mapValues(val, (v, k) => {\n // Process directives\n if (k.charAt(0) === '$' && typeof this[k] === 'function') {\n directives[k] = this[k].bind(this, v);\n return v;\n }\n\n // Otherwise, recurse into members\n return this.child(k).process();\n }))\n\n // Apply directives\n .then(mapped => {\n return bluebird.reduce(_.values(directives), (result, directive) => {\n return directive(result);\n }, mapped);\n })\n\n // Strip directives out of result\n .then(filtered => {\n if (_.isArray(filtered)) {\n return filtered;\n }\n\n if (_.isObject(filtered)) {\n return _.omit(filtered, _.keys(directives));\n }\n\n return filtered;\n });\n }\n\n // Otherwise, just return as a constant\n return bluebird.resolve(this.value);\n }", "function applyArgExtras(argMap, extras) {\n if (extras) {\n extras.forEach(props => {\n const mapped = argMap.find(arg => arg.name === props.name);\n\n if (mapped) {\n mapped.description = props.description;\n mapped.parse = props.parse;\n\n if (props.default) {\n mapped.default = props.default;\n }\n }\n });\n }\n\n return argMap;\n}", "function directiveMetadataFromGlobalMetadata(directive,outputCtx,reflector){var summary=directive.toSummary();var name=identifierName(directive.type);name||error(\"Cannot resolver the name of \"+directive.type);return{name:name,type:outputCtx.importExpr(directive.type.reference),typeArgumentCount:0,typeSourceSpan:typeSourceSpan(directive.isComponent?'Component':'Directive',directive.type),selector:directive.selector,deps:dependenciesFromGlobalMetadata(directive.type,outputCtx,reflector),queries:queriesFromGlobalMetadata(directive.queries,outputCtx),lifecycle:{usesOnChanges:directive.type.lifecycleHooks.some(function(lifecycle){return lifecycle==LifecycleHooks.OnChanges;})},host:{attributes:directive.hostAttributes,listeners:summary.hostListeners,properties:summary.hostProperties},inputs:directive.inputs,outputs:directive.outputs,usesInheritance:false,exportAs:null,providers:directive.providers.length>0?new WrappedNodeExpr(directive.providers):null};}", "function extractArgs(arg) {\n switch (arg.type) {\n case 'Literal':\n return arg.value;\n case 'Identifier':\n return arg.name;\n case 'MemberExpression':\n return extractArgs(arg.object) + '.' + extractArgs(arg.property);\n case 'ObjectExpression':\n {\n var res = {};\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = (0, _getIterator3.default)((0, _keys2.default)(arg.properties)), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var key = _step.value;\n\n res[extractArgs(arg.properties[key].key)] = extractArgs(arg.properties[key].value);\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n return res;\n }\n default:\n throw new Error('I18nextPlugin. Unable to parse arg ' + arg + '.');\n }\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n var definitionMap = baseDirectiveFields(meta, constantPool, bindingParser);\n addFeatures(definitionMap, meta);\n var expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n var typeParams = createDirectiveTypeParams(meta);\n var type = expressionType(importExpr(Identifiers$1.DirectiveDefWithMeta, typeParams));\n return {\n expression: expression,\n type: type\n };\n}", "function initializeDirectiveBindings(scope, attrs, destination, bindings, directive) {\n var removeWatchCollection = [];\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var removeWatch;\n if (definition.collection) {\n removeWatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n removeWatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n removeWatchCollection.push(removeWatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n\n return removeWatchCollection.length && function removeWatches() {\n for (var i = 0, ii = removeWatchCollection.length; i < ii; ++i) {\n removeWatchCollection[i]();\n }\n };\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings, directive) {\n var removeWatchCollection = [];\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var removeWatch;\n if (definition.collection) {\n removeWatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n removeWatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n removeWatchCollection.push(removeWatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n\n return removeWatchCollection.length && function removeWatches() {\n for (var i = 0, ii = removeWatchCollection.length; i < ii; ++i) {\n removeWatchCollection[i]();\n }\n };\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings, directive) {\n var removeWatchCollection = [];\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var removeWatch;\n if (definition.collection) {\n removeWatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n removeWatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n removeWatchCollection.push(removeWatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n\n return removeWatchCollection.length && function removeWatches() {\n for (var i = 0, ii = removeWatchCollection.length; i < ii; ++i) {\n removeWatchCollection[i]();\n }\n };\n }", "function directiveMetadataFromGlobalMetadata(directive, outputCtx, reflector) {\n var summary = directive.toSummary();\n var name = identifierName(directive.type);\n name || error(\"Cannot resolver the name of \" + directive.type);\n return {\n name: name,\n type: outputCtx.importExpr(directive.type.reference),\n typeArgumentCount: 0,\n typeSourceSpan: typeSourceSpan(directive.isComponent ? 'Component' : 'Directive', directive.type),\n selector: directive.selector,\n deps: dependenciesFromGlobalMetadata(directive.type, outputCtx, reflector),\n queries: queriesFromGlobalMetadata(directive.queries, outputCtx),\n lifecycle: {\n usesOnChanges: directive.type.lifecycleHooks.some(function (lifecycle) { return lifecycle == LifecycleHooks.OnChanges; }),\n },\n host: {\n attributes: directive.hostAttributes,\n listeners: summary.hostListeners,\n properties: summary.hostProperties,\n },\n inputs: directive.inputs,\n outputs: directive.outputs,\n usesInheritance: false,\n exportAs: null,\n providers: directive.providers.length > 0 ? new WrappedNodeExpr(directive.providers) : null\n };\n}", "function directiveMetadataFromGlobalMetadata(directive, outputCtx, reflector) {\n var summary = directive.toSummary();\n var name = identifierName(directive.type);\n name || error(\"Cannot resolver the name of \" + directive.type);\n return {\n name: name,\n type: outputCtx.importExpr(directive.type.reference),\n typeArgumentCount: 0,\n typeSourceSpan: typeSourceSpan(directive.isComponent ? 'Component' : 'Directive', directive.type),\n selector: directive.selector,\n deps: dependenciesFromGlobalMetadata(directive.type, outputCtx, reflector),\n queries: queriesFromGlobalMetadata(directive.queries, outputCtx),\n lifecycle: {\n usesOnChanges: directive.type.lifecycleHooks.some(function (lifecycle) { return lifecycle == LifecycleHooks.OnChanges; }),\n },\n host: {\n attributes: directive.hostAttributes,\n listeners: summary.hostListeners,\n properties: summary.hostProperties,\n },\n inputs: directive.inputs,\n outputs: directive.outputs,\n usesInheritance: false,\n exportAs: null,\n providers: directive.providers.length > 0 ? new WrappedNodeExpr(directive.providers) : null\n };\n}", "function parseParameter$1(def, spec, scope) {\n var type = def.type,\n value = spec[def.name];\n\n if (type === 'index') {\n return parseIndexParameter(def, spec, scope);\n } else if (value === undefined) {\n if (def.required) {\n error('Missing required ' + $(spec.type)\n + ' parameter: ' + $(def.name));\n }\n return;\n } else if (type === 'param') {\n return parseSubParameters(def, spec, scope);\n } else if (type === 'projection') {\n return scope.projectionRef(spec[def.name]);\n }\n\n return def.array && !isSignal(value)\n ? value.map(function(v) { return parameterValue(def, v, scope); })\n : parameterValue(def, value, scope);\n }", "function valueDefinition(definition, scopes) {\n let result;\n //first: is there a value type already there? if so just use that\n if (definition.valueType) {\n return definition.valueType;\n }\n if (definition.typeName && definition.typeName.valueType) {\n return definition.typeName.valueType;\n }\n //otherwise: is there a referencedDeclaration? if so try using that\n let baseDeclarationId = definition.referencedDeclaration;\n debug(\"baseDeclarationId %d\", baseDeclarationId);\n //if there's a referencedDeclaration, we'll use that\n if (baseDeclarationId !== undefined) {\n let baseDeclaration = scopes[baseDeclarationId].definition;\n return baseDeclaration.valueType || baseDeclaration.typeName.valueType;\n }\n //otherwise, we'll need to perform some hackery, similarly to in keyDefinition;\n //we'll have to spoof it up ourselves\n let valueIdentifier = typeIdentifier(definition).match(/^t_mapping\\$_.*?_\\$_(.*)_\\$/)[1];\n //use *non*-greedy match on the key; note that if the key type could include\n //the sequence \"_$_\", this could cause a problem, but they can't; the only\n //valid key types that include dollar signs at all are user-defined types,\n //which contain both \"$_\" and \"_$\" but never \"_$_\".\n // HACK - internal types for memory or storage also seem to be pointers\n valueIdentifier = regularizeTypeIdentifier(valueIdentifier);\n let valueString = typeString(definition).match(/mapping\\(.*? => (.*)\\)( storage)?$/)[1];\n //use *non*-greedy match; note that if the key type could include\n //\"=>\", this could cause a problem, but mappings are not allowed as key\n //types, so this can't come up\n // another HACK - we get away with it because we're only using that one property\n result = lodash_clonedeep_1.default(definition);\n result.typeDescriptions = {\n typeIdentifier: valueIdentifier,\n typeString: valueString\n };\n return result;\n}", "function makeParams(div$) {\n var el = div$[0]\n var params = defaultParams()\n\n var convertAttrs = function(str, lowercase) {\n var out\n str = $.trim(str)\n if (lowercase == false) {\n out = str\n }\n else if (str.toLowerCase() === \"false\") {\n out = false\n }\n else if (str.toLowerCase() === \"true\") {\n out = true\n }\n else {\n out = str.toLowerCase()\n }\n return out\n }\n\n for (var i=0;i<el.attributes.length;i++){\n var key = convertAttrs(el.attributes[i].nodeName, true)\n if (key.indexOf(\"data-\") === 0) {\n var key = key.replace(\"data-\", \"\")\n\n var defaultVal = params[key]\n\n var val\n if (key == \"on-finish\") {\n val = convertAttrs(el.attributes[i].nodeValue, false)\n }\n else {\n val = convertAttrs(el.attributes[i].nodeValue, true)\n }\n params[key] = val\n }\n }\n\n return params\n }", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n var _a = baseDirectiveFields(meta, constantPool, bindingParser), definitionMap = _a.definitionMap, statements = _a.statements;\n addFeatures(definitionMap, meta);\n var expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n // On the type side, remove newlines from the selector as it will need to fit into a TypeScript\n // string literal, which must be on one line.\n var selectorForType = (meta.selector || '').replace(/\\n/g, '');\n var type = createTypeForDef(meta, Identifiers$1.DirectiveDefWithMeta);\n return { expression: expression, type: type, statements: statements };\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n var _a = baseDirectiveFields(meta, constantPool, bindingParser), definitionMap = _a.definitionMap, statements = _a.statements;\n addFeatures(definitionMap, meta);\n var expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n // On the type side, remove newlines from the selector as it will need to fit into a TypeScript\n // string literal, which must be on one line.\n var selectorForType = (meta.selector || '').replace(/\\n/g, '');\n var type = createTypeForDef(meta, Identifiers$1.DirectiveDefWithMeta);\n return { expression: expression, type: type, statements: statements };\n}", "function VariablesInAllowedPosition(context) {\n var varDefMap = _Object$create(null);\n\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = _Object$create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n usages.forEach(function (_ref) {\n var node = _ref.node;\n var type = _ref.type;\n\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var varType = (0, _utilitiesTypeFromAST.typeFromAST)(context.getSchema(), varDef.type);\n if (varType && !(0, _utilitiesTypeComparators.isTypeSubTypeOf)(effectiveType(varType, varDef), type)) {\n context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n }\n }\n });\n }\n },\n VariableDefinition: function VariableDefinition(varDefAST) {\n varDefMap[varDefAST.variable.name.value] = varDefAST;\n }\n };\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n var _a = baseDirectiveFields(meta, constantPool, bindingParser), definitionMap = _a.definitionMap, statements = _a.statements;\n addFeatures(definitionMap, meta);\n var expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n if (!meta.selector) {\n throw new Error(\"Directive \" + meta.name + \" has no selector, please add it!\");\n }\n var type = createTypeForDef(meta, Identifiers$1.DirectiveDefWithMeta);\n return { expression: expression, type: type, statements: statements };\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n var _baseDirectiveFields = baseDirectiveFields(meta, constantPool, bindingParser),\n definitionMap = _baseDirectiveFields.definitionMap,\n statements = _baseDirectiveFields.statements;\n\n addFeatures(definitionMap, meta);\n var expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n\n if (!meta.selector) {\n throw new Error(\"Directive \".concat(meta.name, \" has no selector, please add it!\"));\n }\n\n var type = createTypeForDef(meta, Identifiers$1.DirectiveDefWithMeta);\n return {\n expression: expression,\n type: type,\n statements: statements\n };\n }", "function normalizeDirectives (options) {\n\t\tvar dirs = options.directives;\n\t\tif (dirs) {\n\t\t\tfor (var key in dirs) {\n\t\t\t\tvar def$$1 = dirs[key];\n\t\t\t\tif (typrof def$$1 === 'function') {\n\t\t\t\t\tdirs[key] = { bind: def$$1, undate: def$$1 };\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t}", "function isDirectiveDefHack(obj){return obj.type!==undefined&&obj.template!==undefined&&obj.declaredInputs!==undefined;}", "function prepArgumentsObject(args,defaultArgs){\r\n var argList = [].slice.call(args);\r\n var outArgs = {};\r\n // print('Default args:',defaultArgs);\r\n //See if first argument is an ee object instead of a vanilla js object\r\n var firstArgumentIsEEObj = false;\r\n var argsAreObject = false;\r\n try{\r\n var t=argList[0].serialize();\r\n firstArgumentIsEEObj = true;\r\n }catch(err){\r\n \r\n }\r\n \r\n if(typeof(argList[0]) === 'object' && argList.length === 1 && !firstArgumentIsEEObj){\r\n argsAreObject = true;\r\n outArgs = argList[0];\r\n }\r\n //Iterate through each expected argument to create the obj with all parameters\r\n Object.keys(defaultArgs).forEach(function(key, i) {\r\n var value;\r\n if(argsAreObject){\r\n value = argList[0][key];\r\n }else{value = argList[i]}\r\n \r\n //Fill in default value if non is provided or it is null\r\n if(value === undefined || value === null){\r\n value = defaultArgs[key];\r\n }\r\n // console.log(value)\r\n outArgs[key] = value;\r\n });\r\n \r\n // //Merge any remaining variables that were provided\r\n // if(argsAreObject){\r\n \r\n // }\r\n // print('Out args:',outArgs);\r\n return outArgs;\r\n}", "makeParams(value){\n let params = {};\n params[this.attr('attr')] = {};\n params[this.attr('attr')][this.attr('ltKey')] = value || this.attr('value');\n params[this.attr('limitKey')] = 1;\n params.$sort = {};\n params.$sort[this.attr('attr')] = -1;\n // Merge in all attributes that start with 'param'\n Object.keys(this.attr()).forEach(key => {\n if (key.startsWith('param')) {\n let newKey = key.slice(5);\n newKey = newKey[0].toLowerCase() + newKey.slice(1);\n params[newKey] = this.attr(key);\n }\n });\n return params;\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings, directive) {\n var removeWatchCollection = [];\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n lastValue = attrs[attrName];\n if (isString(lastValue)) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(lastValue)(scope);\n } else if (isBoolean(lastValue)) {\n // If the attributes is one of the BOOLEAN_ATTR then Angular will have converted\n // the value to boolean rather than a string, so we special case this situation\n destination[scopeName] = lastValue;\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' in attribute '{1}' used with directive '{2}' is non-assignable!\",\n attrs[attrName], attrName, directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var removeWatch;\n if (definition.collection) {\n removeWatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n removeWatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n removeWatchCollection.push(removeWatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n\n return removeWatchCollection.length && function removeWatches() {\n for (var i = 0, ii = removeWatchCollection.length; i < ii; ++i) {\n removeWatchCollection[i]();\n }\n };\n }", "function getArgumentValues(args, variables) {\n var values = {};\n args.forEach(function (arg) {\n values[arg.name] = getArgumentValue(arg, variables);\n });\n return values;\n}", "function VariablesInAllowedPosition(context) {\n var varDefMap = Object.create(null);\n\n return {\n OperationDefinition: {\n enter: function enter() {\n varDefMap = Object.create(null);\n },\n leave: function leave(operation) {\n var usages = context.getRecursiveVariableUsages(operation);\n\n usages.forEach(function (_ref) {\n var node = _ref.node,\n type = _ref.type;\n\n var varName = node.name.value;\n var varDef = varDefMap[varName];\n if (varDef && type) {\n // A var type is allowed if it is the same or more strict (e.g. is\n // a subtype of) than the expected type. It can be more strict if\n // the variable type is non-null when the expected type is nullable.\n // If both are list types, the variable item type can be more strict\n // than the expected item type (contravariant).\n var schema = context.getSchema();\n var varType = (0, _typeFromAST.typeFromAST)(schema, varDef.type);\n if (varType && !(0, _typeComparators.isTypeSubTypeOf)(schema, effectiveType(varType, varDef), type)) {\n context.reportError(new _error.GraphQLError(badVarPosMessage(varName, varType, type), [varDef, node]));\n }\n }\n });\n }\n },\n VariableDefinition: function VariableDefinition(node) {\n varDefMap[node.variable.name.value] = node;\n }\n };\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n const definitionMap = baseDirectiveFields(meta, constantPool, bindingParser);\n addFeatures(definitionMap, meta);\n const expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n const type = createDirectiveType(meta);\n return { expression, type };\n}", "function compileDirectiveFromMetadata(meta, constantPool, bindingParser) {\n const definitionMap = baseDirectiveFields(meta, constantPool, bindingParser);\n addFeatures(definitionMap, meta);\n const expression = importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);\n const type = createDirectiveType(meta);\n return { expression, type };\n}", "static apply(template, selectorMatcher) {\n const directives = new Map();\n const bindings = new Map();\n const references = new Map();\n const matcher = new DirectiveBinder(selectorMatcher, directives, bindings, references);\n matcher.ingest(template);\n return { directives, bindings, references };\n }", "static apply(template, selectorMatcher) {\n const directives = new Map();\n const bindings = new Map();\n const references = new Map();\n const matcher = new DirectiveBinder(selectorMatcher, directives, bindings, references);\n matcher.ingest(template);\n return { directives, bindings, references };\n }", "static apply(template, selectorMatcher) {\n const directives = new Map();\n const bindings = new Map();\n const references = new Map();\n const matcher = new DirectiveBinder(selectorMatcher, directives, bindings, references);\n matcher.ingest(template);\n return { directives, bindings, references };\n }", "static apply(template, selectorMatcher) {\n const directives = new Map();\n const bindings = new Map();\n const references = new Map();\n const matcher = new DirectiveBinder(selectorMatcher, directives, bindings, references);\n matcher.ingest(template);\n return { directives, bindings, references };\n }", "function parametersFromArguments(arguments) {\r\n var parameters = new HashMap();\r\n for (var i = 0; i < arguments.length; i++) {\r\n if (arguments[i].charAt(0) == '-' && arguments[i].charAt(1) != '-') {\r\n // [-arg val] structure\r\n var arg = arguments[i].substring(1);\r\n var val = arguments[i+1].replace(/^\\\"|\\\"$/g, '');\r\n parameters.set(arg, val);\r\n i++; // Skip the value that we already stored\r\n } else if (arguments[i].charAt(0) == '-' && arguments[i].charAt(1) == '-') {\r\n // [--arg=val] structure\r\n var split = arguments[i].split(/=(.+)?/);\r\n var arg = split[0].substring(2);\r\n var val = split[1].replace(/^\\\"|\\\"$/g, '');\r\n parameters.set(arg, val);\r\n }\r\n }\r\n return parameters;\r\n}", "function compileDirectiveFromMetadata(meta,constantPool,bindingParser){var _a=baseDirectiveFields(meta,constantPool,bindingParser),definitionMap=_a.definitionMap,statements=_a.statements;addFeatures(definitionMap,meta);var expression=importExpr(Identifiers$1.defineDirective).callFn([definitionMap.toLiteralMap()]);// On the type side, remove newlines from the selector as it will need to fit into a TypeScript\n// string literal, which must be on one line.\nvar selectorForType=(meta.selector||'').replace(/\\n/g,'');var type=createTypeForDef(meta,Identifiers$1.DirectiveDefWithMeta);return{expression:expression,type:type,statements:statements};}", "function parseDeclaration($ast, declaration, scope) {\n var variable = {};\n\n var propertyNode = $ast(declaration).children('property');\n\n variable.declarationClean = propertyNode.value();\n variable.position = propertyNode.get(0).start;\n\n variable.declaration = '$' + variable.declarationClean;\n\n variable.expression = parseExpression($ast, declaration);\n variable.flags = {\n default: isDefaultDeclaration($ast, declaration),\n global: isExplicitGlobalDeclaration($ast, declaration)\n };\n\n variable.deps = getDeclarationDeps($ast, declaration, scope);\n\n return variable;\n}", "function convertToParamMap(params){return new ParamsAsMap(params);}", "function resolveNodeValue(node, context) {\n var e_1, _a, e_2, _b;\n var _c, _d;\n if (node == null)\n return undefined;\n var ts = context.ts, checker = context.checker;\n var depth = (context.depth || 0) + 1;\n // Always break when depth is larger than 10.\n // This ensures we cannot run into infinite recursion.\n if (depth > 10)\n return undefined;\n if (ts.isStringLiteralLike(node)) {\n return { value: node.text, node: node };\n }\n else if (ts.isNumericLiteral(node)) {\n return { value: Number(node.text), node: node };\n }\n else if (ts.isPrefixUnaryExpression(node)) {\n var value = (_c = resolveNodeValue(node.operand, __assign(__assign({}, context), { depth: depth }))) === null || _c === void 0 ? void 0 : _c.value;\n return { value: applyPrefixUnaryOperatorToValue(value, node.operator, ts), node: node };\n }\n else if (ts.isObjectLiteralExpression(node)) {\n var object = {};\n try {\n for (var _e = __values(node.properties), _f = _e.next(); !_f.done; _f = _e.next()) {\n var prop = _f.value;\n if (ts.isPropertyAssignment(prop)) {\n // Resolve the \"key\"\n var name_1 = ((_d = resolveNodeValue(prop.name, __assign(__assign({}, context), { depth: depth }))) === null || _d === void 0 ? void 0 : _d.value) || prop.name.getText();\n // Resolve the \"value\n var resolvedValue = resolveNodeValue(prop.initializer, __assign(__assign({}, context), { depth: depth }));\n if (resolvedValue != null && typeof name_1 === \"string\") {\n object[name_1] = resolvedValue.value;\n }\n }\n }\n }\n catch (e_1_1) { e_1 = { error: e_1_1 }; }\n finally {\n try {\n if (_f && !_f.done && (_a = _e.return)) _a.call(_e);\n }\n finally { if (e_1) throw e_1.error; }\n }\n return {\n value: object,\n node: node\n };\n }\n else if (node.kind === ts.SyntaxKind.TrueKeyword) {\n return { value: true, node: node };\n }\n else if (node.kind === ts.SyntaxKind.FalseKeyword) {\n return { value: false, node: node };\n }\n else if (node.kind === ts.SyntaxKind.NullKeyword) {\n return { value: null, node: node };\n }\n else if (node.kind === ts.SyntaxKind.UndefinedKeyword) {\n return { value: undefined, node: node };\n }\n // Resolve initializers for variable declarations\n if (ts.isVariableDeclaration(node)) {\n return resolveNodeValue(node.initializer, __assign(__assign({}, context), { depth: depth }));\n }\n // Resolve value of a property access expression. For example: MyEnum.RED\n else if (ts.isPropertyAccessExpression(node)) {\n return resolveNodeValue(node.name, __assign(__assign({}, context), { depth: depth }));\n }\n // Resolve [expression] parts of {[expression]: \"value\"}\n else if (ts.isComputedPropertyName(node)) {\n return resolveNodeValue(node.expression, __assign(__assign({}, context), { depth: depth }));\n }\n // Resolve initializer value of enum members.\n else if (ts.isEnumMember(node)) {\n if (node.initializer != null) {\n return resolveNodeValue(node.initializer, __assign(__assign({}, context), { depth: depth }));\n }\n else {\n return { value: node.parent.name.text + \".\" + node.name.getText(), node: node };\n }\n }\n // Resolve values of variables.\n else if (ts.isIdentifier(node) && checker != null) {\n var declarations = resolveDeclarations(node, { checker: checker, ts: ts });\n if (declarations.length > 0) {\n var resolved = resolveNodeValue(declarations[0], __assign(__assign({}, context), { depth: depth }));\n if (context.strict || resolved != null) {\n return resolved;\n }\n }\n return { value: node.getText(), node: node };\n }\n // Fallthrough\n // - \"my-value\" as string\n // - <any>\"my-value\"\n // - (\"my-value\")\n else if (ts.isAsExpression(node) || ts.isTypeAssertion(node) || ts.isParenthesizedExpression(node)) {\n return resolveNodeValue(node.expression, __assign(__assign({}, context), { depth: depth }));\n }\n // static get is() {\n // return \"my-element\";\n // }\n else if ((ts.isGetAccessor(node) || ts.isMethodDeclaration(node) || ts.isFunctionDeclaration(node)) && node.body != null) {\n try {\n for (var _g = __values(node.body.statements), _h = _g.next(); !_h.done; _h = _g.next()) {\n var stm = _h.value;\n if (ts.isReturnStatement(stm)) {\n return resolveNodeValue(stm.expression, __assign(__assign({}, context), { depth: depth }));\n }\n }\n }\n catch (e_2_1) { e_2 = { error: e_2_1 }; }\n finally {\n try {\n if (_h && !_h.done && (_b = _g.return)) _b.call(_g);\n }\n finally { if (e_2) throw e_2.error; }\n }\n }\n // [1, 2]\n else if (ts.isArrayLiteralExpression(node)) {\n return {\n node: node,\n value: node.elements.map(function (el) { var _a; return (_a = resolveNodeValue(el, __assign(__assign({}, context), { depth: depth }))) === null || _a === void 0 ? void 0 : _a.value; })\n };\n }\n return undefined;\n}", "buildVariableHints(node) {\n let varNode = EsprimaHelper_1.EsprimaHelper.reduceNodeToVarDeclaration(node);\n if (!varNode) {\n return new Map();\n }\n let varNames = EsprimaHelper_1.EsprimaHelper.getVariableNames(varNode);\n let varHints = varNames.map(varName => {\n let varValue = HtmlHelper_1.HtmlHelper.span('variable-hint-value');\n let varHint = HtmlHelper_1.HtmlHelper.span('variable-hint', [`${varName}: `, varValue]);\n return { varName, varHint, varValue };\n });\n let valUpdater = (valsByVarName) => {\n varHints.forEach(varHint => {\n let val = valsByVarName.get(varHint.varName);\n if (typeof val === 'number') {\n varHint.varValue.innerText = val.toFixed(2).toString();\n }\n else {\n varHint.varValue.innerText = val;\n }\n });\n };\n this.varHintUpdaterMap.set(node, valUpdater);\n let varHintsByName = new Map();\n varHints.forEach(varHint => varHintsByName.set(varHint.varName, varHint.varHint));\n return varHintsByName;\n }", "function parseParameter(def, spec, scope) {\n var type = def.type,\n value = spec[def.name];\n\n if (type === 'index') {\n return parseIndexParameter(def, spec, scope);\n } else if (value === undefined) {\n if (def.required) {\n Object(__WEBPACK_IMPORTED_MODULE_4_vega_util__[\"k\" /* error */])('Missing required ' + Object(__WEBPACK_IMPORTED_MODULE_4_vega_util__[\"I\" /* stringValue */])(spec.type)\n + ' parameter: ' + Object(__WEBPACK_IMPORTED_MODULE_4_vega_util__[\"I\" /* stringValue */])(def.name));\n }\n return;\n } else if (type === 'param') {\n return parseSubParameters(def, spec, scope);\n } else if (type === 'projection') {\n return scope.projectionRef(spec[def.name]);\n }\n\n return def.array && !Object(__WEBPACK_IMPORTED_MODULE_1__util__[\"g\" /* isSignal */])(value)\n ? value.map(function(v) { return parameterValue(def, v, scope); })\n : parameterValue(def, value, scope);\n}", "function resolveDirectives(tView, viewData, directives, tNode, localRefs) {\n // Please make sure to have explicit type for `exportsMap`. Inferred type triggers bug in\n // tsickle.\n ngDevMode && assertEqual(tView.firstTemplatePass, true, 'should run on first template pass only');\n var exportsMap = localRefs ? { '': -1 } : null;\n if (directives) {\n initNodeFlags(tNode, tView.data.length, directives.length);\n // When the same token is provided by several directives on the same node, some rules apply in\n // the viewEngine:\n // - viewProviders have priority over providers\n // - the last directive in NgModule.declarations has priority over the previous one\n // So to match these rules, the order in which providers are added in the arrays is very\n // important.\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n if (def.providersResolver)\n def.providersResolver(def);\n }\n generateExpandoInstructionBlock(tView, tNode, directives.length);\n var initialPreOrderHooksLength = (tView.preOrderHooks && tView.preOrderHooks.length) || 0;\n var initialPreOrderCheckHooksLength = (tView.preOrderCheckHooks && tView.preOrderCheckHooks.length) || 0;\n var nodeIndex = tNode.index - HEADER_OFFSET;\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n var directiveDefIdx = tView.data.length;\n baseResolveDirective(tView, viewData, def, def.factory);\n saveNameToExportMap(tView.data.length - 1, def, exportsMap);\n // Init hooks are queued now so ngOnInit is called in host components before\n // any projected components.\n registerPreOrderHooks(directiveDefIdx, def, tView, nodeIndex, initialPreOrderHooksLength, initialPreOrderCheckHooksLength);\n }\n }\n if (exportsMap)\n cacheMatchingLocalNames(tNode, localRefs, exportsMap);\n}", "function parseObject(object){\n\n var children = Object.keys(object).map(function (key){\n return {\n keyTemplate: parseString(key),\n valueTemplate: parse(object[key])\n };\n });\n\n return Template(function (context){\n return children.reduce(function (newObject, child){\n newObject[child.keyTemplate(context)] = child.valueTemplate(context);\n return newObject;\n }, {});\n }, children.reduce(function (parameters, child){\n return parameters.concat(child.valueTemplate.parameters, child.keyTemplate.parameters);\n }, []));\n\n}", "compileVariables(o) {\r\n\t\t\t\t\tvar shouldCache, step;\r\n\t\t\t\t\to = merge(o, {\r\n\t\t\t\t\t\ttop: true\r\n\t\t\t\t\t});\r\n\t\t\t\t\tshouldCache = del(o, 'shouldCache');\r\n\t\t\t\t\t[this.fromC, this.fromVar] = this.cacheToCodeFragments(this.from.cache(o, LEVEL_LIST, shouldCache));\r\n\t\t\t\t\t[this.toC, this.toVar] = this.cacheToCodeFragments(this.to.cache(o, LEVEL_LIST, shouldCache));\r\n\t\t\t\t\tif (step = del(o, 'step')) {\r\n\t\t\t\t\t\t[this.step, this.stepVar] = this.cacheToCodeFragments(step.cache(o, LEVEL_LIST, shouldCache));\r\n\t\t\t\t\t}\r\n\t\t\t\t\tthis.fromNum = this.from.isNumber() ? parseNumber(this.fromVar) : null;\r\n\t\t\t\t\tthis.toNum = this.to.isNumber() ? parseNumber(this.toVar) : null;\r\n\t\t\t\t\treturn this.stepNum = (step != null ? step.isNumber() : void 0) ? parseNumber(this.stepVar) : null;\r\n\t\t\t\t}", "function assign$1($){for(var k=1;k<arguments.length;k++){var V=arguments[k];for(var z in V)$[z]=V[z]}return $}", "function resolveDirectives(tView, viewData, directives, tNode, localRefs) {\n // Please make sure to have explicit type for `exportsMap`. Inferred type triggers bug in tsickle.\n ngDevMode && assertEqual(getFirstTemplatePass(), true, 'should run on first template pass only');\n var exportsMap = localRefs ? { '': -1 } : null;\n if (directives) {\n initNodeFlags(tNode, tView.data.length, directives.length);\n // When the same token is provided by several directives on the same node, some rules apply in\n // the viewEngine:\n // - viewProviders have priority over providers\n // - the last directive in NgModule.declarations has priority over the previous one\n // So to match these rules, the order in which providers are added in the arrays is very\n // important.\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n if (def.providersResolver)\n def.providersResolver(def);\n }\n generateExpandoInstructionBlock(tView, tNode, directives.length);\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n var directiveDefIdx = tView.data.length;\n baseResolveDirective(tView, viewData, def, def.factory);\n saveNameToExportMap(tView.data.length - 1, def, exportsMap);\n // Init hooks are queued now so ngOnInit is called in host components before\n // any projected components.\n queueInitHooks(directiveDefIdx, def.onInit, def.doCheck, tView);\n }\n }\n if (exportsMap)\n cacheMatchingLocalNames(tNode, localRefs, exportsMap);\n}", "function resolveDirectives(tView, viewData, directives, tNode, localRefs) {\n // Please make sure to have explicit type for `exportsMap`. Inferred type triggers bug in tsickle.\n ngDevMode && assertEqual(getFirstTemplatePass(), true, 'should run on first template pass only');\n var exportsMap = localRefs ? { '': -1 } : null;\n if (directives) {\n initNodeFlags(tNode, tView.data.length, directives.length);\n // When the same token is provided by several directives on the same node, some rules apply in\n // the viewEngine:\n // - viewProviders have priority over providers\n // - the last directive in NgModule.declarations has priority over the previous one\n // So to match these rules, the order in which providers are added in the arrays is very\n // important.\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n if (def.providersResolver)\n def.providersResolver(def);\n }\n generateExpandoInstructionBlock(tView, tNode, directives.length);\n for (var i = 0; i < directives.length; i++) {\n var def = directives[i];\n var directiveDefIdx = tView.data.length;\n baseResolveDirective(tView, viewData, def, def.factory);\n saveNameToExportMap(tView.data.length - 1, def, exportsMap);\n // Init hooks are queued now so ngOnInit is called in host components before\n // any projected components.\n queueInitHooks(directiveDefIdx, def.onInit, def.doCheck, tView);\n }\n }\n if (exportsMap)\n cacheMatchingLocalNames(tNode, localRefs, exportsMap);\n}", "function pinfo(env, modules, usedBindingsHash, freeVariables, gensymCounter,\n providedNames,definedNames, sharedExpressions,\n withLocationEmits, allowRedefinition,\n moduleResolver, modulePathResolver, currentModulePath,\n declaredPermissions){\n this.env = env || new emptyEnv(); // env\n this.modules = modules || []; // (listof module-binding)\n this.usedBindingsHash = usedBindingsHash || makeHash(); // (hashof symbol binding)\n this.freeVariables = freeVariables || []; // (listof symbol)\n this.gensymCounter = gensymCounter || 0; // number\n this.providedNames = providedNames || makeHash(); // (hashof symbol provide-binding)\n this.definedNames = definedNames || makeHash(); // (hashof symbol binding)\n \n this.sharedExpressions = sharedExpressions || makeHash();// (hashof expression labeled-translation)\n // Maintains a mapping between expressions and a labeled translation. Acts\n // as a symbol table to avoid duplicate construction of common literal values.\n\n this.withLocationEmits = withLocationEmits || true; // boolean\n // If true, the compiler emits calls to plt.Kernel.setLastLoc to maintain\n // source position during evaluation.\n\n this.allowRedefinition = allowRedefinition || false; // boolean\n // If true, redefinition of a value that's already defined will not raise an error.\n \n // For the module system.\n // (module-name -> (module-binding | false))\n this.moduleResolver = moduleResolver || plt.compiler.defaultModuleResolver;\n // (string module-path -> module-name)\n this.modulePathResolver = modulePathResolver || plt.compiler.defaultModulePathResolver;\n // module-path\n this.currentModulePath = currentModulePath || defaultCurrentModulePath;\n \n this.declaredPermissions = declaredPermissions || []; // (listof (listof symbol any/c))\n \n /////////////////////////////////////////////////\n // functions for manipulating pinfo objects\n this.isRedefinition = function(name){ return this.env.lookup(name); };\n \n // usedBindings: -> (listof binding)\n // Returns the list of used bindings computed from the program analysis.\n this.usedBindings = this.usedBindingsHash.values;\n \n this.accumulateDeclaredPermission = function(name, permission){\n this.declaredPermissions = [[name, permission]].concat(this.declaredPermissions);\n return this;\n };\n \n this.accumulateSharedExpression = function(expression, translation){\n var labeledTranslation = makeLabeledTranslation(this.gensymCounter, translation);\n this.sharedExpressions.put(labeledTranslation, expression);\n return this;\n };\n \n // accumulateDefinedBinding: binding loc -> pinfo\n // Adds a new defined binding to a pinfo's set.\n this.accumulateDefinedBinding = function(binding, loc){\n if(plt.compiler.keywords.indexOf(binding.name) > -1){\n throwError(new types.Message([new types.ColoredPart(binding.name, binding.loc),\n \": this is a reserved keyword and cannot be used\"+\n \" as a variable or function name\"])\n ,binding.loc);\n } else if(!this.allowRedefinition && this.isRedefinition(binding.name)){\n var prevBinding = this.env.lookup(binding.name);\n if(prevBinding.loc){\n throwError(new types.Message([new types.ColoredPart(binding.name, binding.loc),\n \": this name has a \",\n new types.ColoredPart(\"previous definition\", prevBinding.loc),\n \" and cannot be re-defined\"])\n ,binding.loc);\n \n } else {\n throwError(new types.Message([new types.ColoredPart(binding.name, binding.loc),\n \": this name has a \",\n \"previous definition\",\n \" and cannot be re-defined\"])\n ,binding.loc);\n\n }\n } else {\n this.env.extend(binding);\n this.definedNames.put(binding.name, binding);\n return this;\n }\n };\n \n // accumulateBindings: (listof binding) Loc -> pinfo\n // Adds a list of defined bindings to the pinfo's set.\n this.accumulateDefinedBindings = function(bindings, loc){\n bindings.forEach(function(b){this.accumulateDefinedBinding(b, loc);});\n return this;\n };\n \n \n // accumuldateModuleBindings: (listof binding) -> pinfo\n // Adds a list of module-imported bindings to the pinfo's known set of bindings, without\n // including them within the set of defined names.\n this.accumulateModuleBindings = function(bindings){\n var that = this;\n bindings.forEach(function(b){that.env.extend(b);});\n return this;\n };\n \n // accumulateModule: module-binding -> pinfo\n // Adds a module to the pinfo's set.\n this.accumulateModule = function(module){\n this.modules = [module].concat(this.modules);\n return this;\n };\n\n // accumulateBindingUse: binding -> pinfo\n // Adds a binding's use to a pinfo's set.\n this.accumulateBindingUse = function(binding){\n this.usedBindingsHash.put(binding.name, binding);\n return this;\n };\n \n // accumulateFreeVariableUse: symbol -> pinfo\n // Mark a free variable usage.\n this.accumulateFreeVariableUse = function(sym){\n this.freeVariables = ((this.freeVariables.indexOf(sym) > -1)?\n this.freeVariables : [sym].concat(this.freeVariables));\n return this;\n };\n \n // gensym: symbol -> [pinfo, symbol]\n // Generates a unique symbol\n this.gensym = function(label){\n return [this, new symbolExpr(label+this.gensymCounter++)];\n };\n \n // permissions: -> (listof permission)\n // Given a pinfo, collect the list of permissions.\n this.permissions = function(){\n // onlyUnique : v, idx, arr -> arr with unique elts\n // from http://stackoverflow.com/questions/1960473/unique-values-in-an-array\n function onlyUnique(value, index, self) { return self.indexOf(value) === index; }\n function reducePermissions(permissions, b){\n if((b instanceof functionBinding)\n || (b instanceof constantBinding)) return permissions.concat(b.permissions);\n }\n return this.usedBindings().reduce(reducePermissions, []).filter(onlyUnique);\n }\n\n // getExposedBindings: -> (listof binding)\n // Extract the list of the defined bindings that are exposed by provide.\n this.getExposedBindings = function(){\n // lookupProvideBindingInDefinitionBindings: provide-binding compiled-program -> (listof binding)\n // Lookup the provided bindings.\n function lookupProvideBindingInDefinitionBindings(provideBinding){\n var binding;\n if(this.definedNames.containsKey(provideBinding.stx)){\n binding = checkBindingCompatibility(binding, this.definedNames.get(provideBinding.stx));\n } else {\n throwError(new types.Message([\"provided-name-not-defined: \", provideBinding.stx]));\n }\n\n // ref: symbol -> binding\n // Lookup the binding, given the symbolic identifier.\n function ref(id){ return this.definedNames.get(id); }\n \n // if it's a struct provide, return a list containing the constructor and predicate,\n // along with all the accessor and mutator functions\n if(provideBinding instanceof structId){\n [binding, ref(binding.structureConstructor), ref(binding.structurePredicate)].concat(\n binding.structureAccessors.map(ref), binding.structureMutators.map(ref));\n } else {\n return [binding];\n }\n }\n \n // decorateWithPermissions: binding -> binding\n // HACK!\n function decorateWithPermissions(binding){\n var bindingEntry = function(entry){return entry[0]===binding.id;},\n filteredPermissions = this.declaredPermissions.filter(bindingEntry);\n binding.updatePermissions(filteredPermissions.map(function(p){return p[1];}));\n return binding;\n }\n\n // Make sure that if the provide says \"struct-out ...\", that the exported binding\n // is really a structure.\n function checkBindingCompatibility(binding, exportedBinding){\n if(binding instanceof structureId){\n if(exportedBinding instanceof structure){\n return exportedBinding;\n } else {\n throwError(new types.Message([\"provided-structure-not-structure: \", exportedBinding.stx]));\n }\n } else {\n return exportedBinding;\n }\n }\n \n var keys = this.providedNames.keys, bindings = this.providedNames.values;\n // for each provide binding, ensure it's defined and then decorate with permissions\n // concat all the permissions and bindings together, and return\n return bindings.reduce(function(acc, b){\n acc.concat(decorateWithPermissions(lookupProvideBindingInDefinitionBindings(b)));\n }, []);\n \n };\n \n this.toString = function(){\n var s = \"pinfo-------------\";\n s+= \"\\n**env****: \"+this.env.toString();\n s+= \"\\n**modules**: \"+this.modules.join(\",\");\n s+= \"\\n**used bindings**: \"+this.usedBindings();\n s+= \"\\n**free variables**: \"+this.freeVariables.join(\",\");\n s+= \"\\n**gensym counter**: \"+this.gensymCounter;\n s+= \"\\n**provided names**: \"+this.providedNames.values();\n s+= \"\\n**defined names**: \"+this.definedNames.values();\n return s;\n };\n }", "function parseElement(mapdefElement) {\n var options = {}, children = mapdefElement.children;\n for (var i = 0; i < children.length; i++) {\n var pair = [children[i].localName, children[i].innerHTML];\n options = parseOption(options, pair);\n }\n return options;\n}", "function createDictionaryEvaluator(assignmentDefs) {\n var assigns = wrapAssignmentEvaluators(assignmentDefs).reverse()\n , alen = assigns.length - 1;\n\n return dictionaryEvaluator;\n\n function dictionaryEvaluator(ctx, writer) {\n var dict = {};\n for ( var i = alen; i >= 0; i-- ) {\n var assign = assigns[i];\n dict[assign[0]] = assign[1](ctx, writer);\n }\n return freezeObject(dict);\n }\n }", "function buildParameter(deflt, description, conditions, values) {\n const wrapValue = (value) => {\n if (typeof value === 'boolean') {\n return `${value}`;\n }\n if (typeof value === 'object') {\n return JSON.stringify(value);\n }\n return value;\n };\n const conditionalValues = {};\n conditions.forEach((cdn, idx) => {\n const value = wrapValue(values[idx]);\n conditionalValues[cdn] = { value };\n });\n return {\n \"defaultValue\": {\n \"value\": wrapValue(deflt),\n },\n conditionalValues,\n description,\n };\n}", "function initializeDirectiveBindings(scope, attrs, destination, bindings,\n directive, newScope) {\n var onNewScopeDestroyed;\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var unwatch;\n if (definition.collection) {\n unwatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n unwatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n onNewScopeDestroyed = (onNewScopeDestroyed || []);\n onNewScopeDestroyed.push(unwatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n var destroyBindings = onNewScopeDestroyed ? function destroyBindings() {\n for (var i = 0, ii = onNewScopeDestroyed.length; i < ii; ++i) {\n onNewScopeDestroyed[i]();\n }\n } : noop;\n if (newScope && destroyBindings !== noop) {\n newScope.$on('$destroy', destroyBindings);\n return noop;\n }\n return destroyBindings;\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings,\n directive, newScope) {\n var onNewScopeDestroyed;\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var unwatch;\n if (definition.collection) {\n unwatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n unwatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n onNewScopeDestroyed = (onNewScopeDestroyed || []);\n onNewScopeDestroyed.push(unwatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n var destroyBindings = onNewScopeDestroyed ? function destroyBindings() {\n for (var i = 0, ii = onNewScopeDestroyed.length; i < ii; ++i) {\n onNewScopeDestroyed[i]();\n }\n } : noop;\n if (newScope && destroyBindings !== noop) {\n newScope.$on('$destroy', destroyBindings);\n return noop;\n }\n return destroyBindings;\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings,\n directive, newScope) {\n var onNewScopeDestroyed;\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n switch (mode) {\n\n case '@':\n if (!optional && !hasOwnProperty.call(attrs, attrName)) {\n destination[scopeName] = attrs[attrName] = void 0;\n }\n attrs.$observe(attrName, function(value) {\n if (isString(value)) {\n destination[scopeName] = value;\n }\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (isString(attrs[attrName])) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (!hasOwnProperty.call(attrs, attrName)) {\n if (optional) break;\n attrs[attrName] = void 0;\n }\n if (optional && !attrs[attrName]) break;\n\n parentGet = $parse(attrs[attrName]);\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var unwatch;\n if (definition.collection) {\n unwatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n unwatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n onNewScopeDestroyed = (onNewScopeDestroyed || []);\n onNewScopeDestroyed.push(unwatch);\n break;\n\n case '&':\n // Don't assign Object.prototype method to scope\n parentGet = attrs.hasOwnProperty(attrName) ? $parse(attrs[attrName]) : noop;\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n var destroyBindings = onNewScopeDestroyed ? function destroyBindings() {\n for (var i = 0, ii = onNewScopeDestroyed.length; i < ii; ++i) {\n onNewScopeDestroyed[i]();\n }\n } : noop;\n if (newScope && destroyBindings !== noop) {\n newScope.$on('$destroy', destroyBindings);\n return noop;\n }\n return destroyBindings;\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings,\n directive, newScope) {\n var onNewScopeDestroyed;\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n if (!hasOwnProperty.call(attrs, attrName)) {\n // In the case of user defined a binding with the same name as a method in Object.prototype but didn't set\n // the corresponding attribute. We need to make sure subsequent code won't access to the prototype function\n attrs[attrName] = undefined;\n }\n\n switch (mode) {\n\n case '@':\n if (!attrs[attrName] && !optional) {\n destination[scopeName] = undefined;\n }\n\n attrs.$observe(attrName, function(value) {\n destination[scopeName] = value;\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (attrs[attrName]) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (optional && !attrs[attrName]) {\n return;\n }\n parentGet = $parse(attrs[attrName]);\n\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var unwatch;\n if (definition.collection) {\n unwatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n unwatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n onNewScopeDestroyed = (onNewScopeDestroyed || []);\n onNewScopeDestroyed.push(unwatch);\n break;\n\n case '&':\n parentGet = $parse(attrs[attrName]);\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n var destroyBindings = onNewScopeDestroyed ? function destroyBindings() {\n for (var i = 0, ii = onNewScopeDestroyed.length; i < ii; ++i) {\n onNewScopeDestroyed[i]();\n }\n } : noop;\n if (newScope && destroyBindings !== noop) {\n newScope.$on('$destroy', destroyBindings);\n return noop;\n }\n return destroyBindings;\n }", "function initializeDirectiveBindings(scope, attrs, destination, bindings,\n directive, newScope) {\n var onNewScopeDestroyed;\n forEach(bindings, function(definition, scopeName) {\n var attrName = definition.attrName,\n optional = definition.optional,\n mode = definition.mode, // @, =, or &\n lastValue,\n parentGet, parentSet, compare;\n\n if (!hasOwnProperty.call(attrs, attrName)) {\n // In the case of user defined a binding with the same name as a method in Object.prototype but didn't set\n // the corresponding attribute. We need to make sure subsequent code won't access to the prototype function\n attrs[attrName] = undefined;\n }\n\n switch (mode) {\n\n case '@':\n if (!attrs[attrName] && !optional) {\n destination[scopeName] = undefined;\n }\n\n attrs.$observe(attrName, function(value) {\n destination[scopeName] = value;\n });\n attrs.$$observers[attrName].$$scope = scope;\n if (attrs[attrName]) {\n // If the attribute has been provided then we trigger an interpolation to ensure\n // the value is there for use in the link fn\n destination[scopeName] = $interpolate(attrs[attrName])(scope);\n }\n break;\n\n case '=':\n if (optional && !attrs[attrName]) {\n return;\n }\n parentGet = $parse(attrs[attrName]);\n\n if (parentGet.literal) {\n compare = equals;\n } else {\n compare = function(a, b) { return a === b || (a !== a && b !== b); };\n }\n parentSet = parentGet.assign || function() {\n // reset the change, or we will throw this exception on every $digest\n lastValue = destination[scopeName] = parentGet(scope);\n throw $compileMinErr('nonassign',\n \"Expression '{0}' used with directive '{1}' is non-assignable!\",\n attrs[attrName], directive.name);\n };\n lastValue = destination[scopeName] = parentGet(scope);\n var parentValueWatch = function parentValueWatch(parentValue) {\n if (!compare(parentValue, destination[scopeName])) {\n // we are out of sync and need to copy\n if (!compare(parentValue, lastValue)) {\n // parent changed and it has precedence\n destination[scopeName] = parentValue;\n } else {\n // if the parent can be assigned then do so\n parentSet(scope, parentValue = destination[scopeName]);\n }\n }\n return lastValue = parentValue;\n };\n parentValueWatch.$stateful = true;\n var unwatch;\n if (definition.collection) {\n unwatch = scope.$watchCollection(attrs[attrName], parentValueWatch);\n } else {\n unwatch = scope.$watch($parse(attrs[attrName], parentValueWatch), null, parentGet.literal);\n }\n onNewScopeDestroyed = (onNewScopeDestroyed || []);\n onNewScopeDestroyed.push(unwatch);\n break;\n\n case '&':\n parentGet = $parse(attrs[attrName]);\n\n // Don't assign noop to destination if expression is not valid\n if (parentGet === noop && optional) break;\n\n destination[scopeName] = function(locals) {\n return parentGet(scope, locals);\n };\n break;\n }\n });\n var destroyBindings = onNewScopeDestroyed ? function destroyBindings() {\n for (var i = 0, ii = onNewScopeDestroyed.length; i < ii; ++i) {\n onNewScopeDestroyed[i]();\n }\n } : noop;\n if (newScope && destroyBindings !== noop) {\n newScope.$on('$destroy', destroyBindings);\n return noop;\n }\n return destroyBindings;\n }", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function valueObject(value, key) {\n return { value: value[key] };\n}", "function allocateOrUpdateDirectiveIntoContext(context, directiveIndex, singlePropValuesIndex, styleSanitizer) {\n if (singlePropValuesIndex === void 0) { singlePropValuesIndex = -1; }\n var directiveRegistry = context[2 /* DirectiveRegistryPosition */];\n var index = directiveIndex * 2 /* Size */;\n // we preemptively make space into the directives array and then\n // assign values slot-by-slot to ensure that if the directive ordering\n // changes then it will still function\n var limit = index + 2 /* Size */;\n for (var i = directiveRegistry.length; i < limit; i += 2 /* Size */) {\n // -1 is used to signal that the directive has been allocated, but\n // no actual style or class bindings have been registered yet...\n directiveRegistry.push(-1, null);\n }\n var propValuesStartPosition = index + 0 /* SinglePropValuesIndexOffset */;\n if (singlePropValuesIndex >= 0 && directiveRegistry[propValuesStartPosition] === -1) {\n directiveRegistry[propValuesStartPosition] = singlePropValuesIndex;\n directiveRegistry[index + 1 /* StyleSanitizerOffset */] =\n styleSanitizer || null;\n }\n}" ]
[ "0.5871742", "0.57582045", "0.57582045", "0.57155085", "0.5690991", "0.5690991", "0.5671548", "0.5545311", "0.5545311", "0.55243903", "0.5481759", "0.5222148", "0.5222148", "0.5170159", "0.51521903", "0.51521903", "0.49799544", "0.48289886", "0.48289886", "0.46902588", "0.4683316", "0.45383313", "0.45261776", "0.45261776", "0.4523975", "0.4523975", "0.44706228", "0.4461719", "0.4444095", "0.4425753", "0.44204545", "0.44204545", "0.4401694", "0.43654212", "0.43587238", "0.43580225", "0.43526664", "0.43402982", "0.43402982", "0.43402982", "0.43338552", "0.43338552", "0.4323945", "0.43030033", "0.42942062", "0.42755184", "0.42755184", "0.42740497", "0.42679408", "0.4264554", "0.4246191", "0.42404357", "0.4223009", "0.42156354", "0.42124927", "0.419976", "0.4196859", "0.41956535", "0.41956535", "0.41872722", "0.41872722", "0.41872722", "0.41872722", "0.41714808", "0.41655186", "0.4161865", "0.4158891", "0.4157952", "0.41514114", "0.4149002", "0.41288036", "0.4126982", "0.41163763", "0.41157383", "0.41136196", "0.41136196", "0.4113175", "0.410404", "0.40916425", "0.40884933", "0.408656", "0.408656", "0.408656", "0.40823367", "0.40823367", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.40819967", "0.4080578" ]
0.57359236
4
Given a type and any value, return a runtime value coerced to match the type.
function coerceValue(type, value) { // Ensure flow knows that we treat function params as const. var _value = value; if ((0, _isInvalid2.default)(_value)) { return; // Intentionally return no value. } if (type instanceof _definition.GraphQLNonNull) { if (_value === null) { return; // Intentionally return no value. } return coerceValue(type.ofType, _value); } if (_value === null) { // Intentionally return the value null. return null; } if (type instanceof _definition.GraphQLList) { var itemType = type.ofType; if ((0, _iterall.isCollection)(_value)) { var coercedValues = []; var valueIter = (0, _iterall.createIterator)(_value); if (!valueIter) { return; // Intentionally return no value. } var step = void 0; while (!(step = valueIter.next()).done) { var itemValue = coerceValue(itemType, step.value); if ((0, _isInvalid2.default)(itemValue)) { return; // Intentionally return no value. } coercedValues.push(itemValue); } return coercedValues; } var coercedValue = coerceValue(itemType, _value); if ((0, _isInvalid2.default)(coercedValue)) { return; // Intentionally return no value. } return [coerceValue(itemType, _value)]; } if (type instanceof _definition.GraphQLInputObjectType) { if ((typeof _value === 'undefined' ? 'undefined' : _typeof(_value)) !== 'object') { return; // Intentionally return no value. } var coercedObj = Object.create(null); var fields = type.getFields(); var fieldNames = Object.keys(fields); for (var i = 0; i < fieldNames.length; i++) { var fieldName = fieldNames[i]; var field = fields[fieldName]; if ((0, _isInvalid2.default)(_value[fieldName])) { if (!(0, _isInvalid2.default)(field.defaultValue)) { coercedObj[fieldName] = field.defaultValue; } else if (field.type instanceof _definition.GraphQLNonNull) { return; // Intentionally return no value. } continue; } var fieldValue = coerceValue(field.type, _value[fieldName]); if ((0, _isInvalid2.default)(fieldValue)) { return; // Intentionally return no value. } coercedObj[fieldName] = fieldValue; } return coercedObj; } !(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType) ? (0, _invariant2.default)(0, 'Must be input type') : void 0; var parsed = type.parseValue(_value); if ((0, _isNullish2.default)(parsed)) { // null or invalid values represent a failure to parse correctly, // in which case no value is returned. return; } return parsed; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function coerceType(type, value) {\n var converter = TYPE_CONVERTERS[type];\n\n if (converter) {\n return converter(value);\n } else {\n return value;\n }\n }", "function coerceType(type, value) {\n var converter = TYPE_CONVERTERS[type];\n if (converter) {\n return converter(value);\n }\n else {\n return value;\n }\n}", "function coerceType(type, value) {\n\n var converter = TYPE_CONVERTERS[type];\n\n if (converter) {\n return converter(value);\n } else {\n return value;\n }\n}", "static coerce (value, type) {\n /* eslint valid-typeof: off */\n if (typeof value !== type) {\n try {\n switch (type) {\n case \"boolean\":\n if (typeof value === \"object\" && value instanceof Array)\n value = value.length !== 0\n else if (typeof value !== \"boolean\")\n value = Boolean(value)\n break\n case \"number\":\n if (typeof value === \"object\" && value instanceof Array)\n value = value.length\n else if (typeof value !== \"number\")\n value = Number(value)\n break\n case \"string\":\n if (typeof value !== \"string\")\n value = String(value)\n break\n case \"regexp\":\n if (!(typeof value === \"object\" && value instanceof RegExp))\n value = new RegExp(value)\n break\n }\n }\n catch (e) {\n throw new Error(\"cannot coerce value into type \" + type)\n }\n }\n return value\n }", "function coerceValue(type: GraphQLType, value: any): any {\n if (type instanceof GraphQLNonNull) {\n // Note: we're not checking that the result of coerceValue is non-null.\n // We only call this function after calling isValidValue.\n return coerceValue(type.ofType, value);\n }\n\n if (isNullish(value)) {\n return null;\n }\n\n if (type instanceof GraphQLList) {\n var itemType = type.ofType;\n // TODO: support iterable input\n if (Array.isArray(value)) {\n return value.map(item => coerceValue(itemType, item));\n } else {\n return [coerceValue(itemType, value)];\n }\n }\n\n if (type instanceof GraphQLInputObjectType) {\n var fields = type.getFields();\n return Object.keys(fields).reduce((obj, fieldName) => {\n var field = fields[fieldName];\n var fieldValue = coerceValue(field.type, value[fieldName]);\n obj[fieldName] = fieldValue === null ? field.defaultValue : fieldValue;\n return obj;\n }, {});\n }\n\n if (type instanceof GraphQLScalarType ||\n type instanceof GraphQLEnumType) {\n var coerced = type.coerce(value);\n if (!isNullish(coerced)) {\n return coerced;\n }\n }\n\n return null;\n}", "function coerceValue(value, type, blameNode, path) {\n // A value must be provided if the type is non-null.\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n if (value == null) {\n return ofErrors([coercionError(\"Expected non-nullable type \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \" not to be null\"), blameNode, path)]);\n }\n\n return coerceValue(value, type.ofType, blameNode, path);\n }\n\n if (value == null) {\n // Explicitly return the value null.\n return ofValue(null);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type)) {\n // Scalars determine if a value is valid via parseValue(), which can\n // throw to indicate failure. If it throws, maintain a reference to\n // the original error.\n try {\n var parseResult = type.parseValue(value);\n\n if (Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(parseResult)) {\n return ofErrors([coercionError(\"Expected type \".concat(type.name), blameNode, path)]);\n }\n\n return ofValue(parseResult);\n } catch (error) {\n return ofErrors([coercionError(\"Expected type \".concat(type.name), blameNode, path, error.message, error)]);\n }\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n if (typeof value === 'string') {\n var enumValue = type.getValue(value);\n\n if (enumValue) {\n return ofValue(enumValue.value);\n }\n }\n\n var suggestions = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(String(value), type.getValues().map(function (enumValue) {\n return enumValue.name;\n }));\n var didYouMean = suggestions.length !== 0 ? \"did you mean \".concat(Object(_jsutils_orList__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(suggestions), \"?\") : undefined;\n return ofErrors([coercionError(\"Expected type \".concat(type.name), blameNode, path, didYouMean)]);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n var itemType = type.ofType;\n\n if (Object(iterall__WEBPACK_IMPORTED_MODULE_0__[\"isCollection\"])(value)) {\n var errors;\n var coercedValue = [];\n Object(iterall__WEBPACK_IMPORTED_MODULE_0__[\"forEach\"])(value, function (itemValue, index) {\n var coercedItem = coerceValue(itemValue, itemType, blameNode, atPath(path, index));\n\n if (coercedItem.errors) {\n errors = add(errors, coercedItem.errors);\n } else if (!errors) {\n coercedValue.push(coercedItem.value);\n }\n });\n return errors ? ofErrors(errors) : ofValue(coercedValue);\n } // Lists accept a non-list value as a list of one.\n\n\n var coercedItem = coerceValue(value, itemType, blameNode);\n return coercedItem.errors ? coercedItem : ofValue([coercedItem.value]);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n if (_typeof(value) !== 'object') {\n return ofErrors([coercionError(\"Expected type \".concat(type.name, \" to be an object\"), blameNode, path)]);\n }\n\n var _errors;\n\n var _coercedValue = {};\n var fields = type.getFields(); // Ensure every defined field is valid.\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fields)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var field = _step.value;\n var fieldValue = value[field.name];\n\n if (Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(fieldValue)) {\n if (!Object(_jsutils_isInvalid__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(field.defaultValue)) {\n _coercedValue[field.name] = field.defaultValue;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(field.type)) {\n _errors = add(_errors, coercionError(\"Field \".concat(printPath(atPath(path, field.name)), \" of required \") + \"type \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(field.type), \" was not provided\"), blameNode));\n }\n } else {\n var coercedField = coerceValue(fieldValue, field.type, blameNode, atPath(path, field.name));\n\n if (coercedField.errors) {\n _errors = add(_errors, coercedField.errors);\n } else if (!_errors) {\n _coercedValue[field.name] = coercedField.value;\n }\n }\n } // Ensure every provided field is defined.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _arr = Object.keys(value);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var fieldName = _arr[_i];\n\n if (!fields[fieldName]) {\n var _suggestions = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldName, Object.keys(fields));\n\n var _didYouMean = _suggestions.length !== 0 ? \"did you mean \".concat(Object(_jsutils_orList__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(_suggestions), \"?\") : undefined;\n\n _errors = add(_errors, coercionError(\"Field \\\"\".concat(fieldName, \"\\\" is not defined by type \").concat(type.name), blameNode, path, _didYouMean));\n }\n }\n\n return _errors ? ofErrors(_errors) : ofValue(_coercedValue);\n } // Not reachable. All possible input types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected input type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n}", "function cast(type, val) {\n if (type.$$cts$$check(val)) return val;\n throw new Error(\"Cannot cast value \" + JSON.stringify(val) + \" to type \" + type);\n }", "function transformValue({\n type,\n value\n}) {\n if (value == null) {\n return null;\n }\n\n if (type === Boolean) {\n return booleanTransformer(value);\n }\n\n return value;\n}", "function castProperty(type, value) {\n // Some special handling is needed for some properties as they may be delivered\n // as strings HTML delivers attributes as strings.\n switch (type) {\n // Translate strings into booleans\n case Boolean:\n if (['false', '0', 'null', 'undefined'].indexOf(value) !== -1) {\n return false;\n } else {\n return Boolean(value);\n }\n\n case Number:\n return Number(value);\n\n // Translate strings into functions\n case Function:\n /* eslint-disable-next-line */\n return typeof value === 'string' ? eval('(' + value + ')') : value;\n case Object:\n if (value && typeof value === 'string') {\n try {\n return JSON.parse(value);\n } catch (e) {\n // no-op\n }\n }\n }\n return value;\n}", "function coerceValue(type, value) {\n\t // Ensure flow knows that we treat function params as const.\n\t var _value = value;\n\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t // Note: we're not checking that the result of coerceValue is non-null.\n\t // We only call this function after calling isValidJSValue.\n\t return coerceValue(type.ofType, _value);\n\t }\n\n\t if ((0, _isNullish2.default)(_value)) {\n\t return null;\n\t }\n\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(_value)) {\n\t var _ret2 = function () {\n\t var coercedValues = [];\n\t (0, _iterall.forEach)(_value, function (item) {\n\t coercedValues.push(coerceValue(itemType, item));\n\t });\n\t return {\n\t v: {\n\t v: coercedValues\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: [coerceValue(itemType, _value)]\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (typeof _value !== 'object' || _value === null) {\n\t return {\n\t v: null\n\t };\n\t }\n\t var fields = type.getFields();\n\t return {\n\t v: Object.keys(fields).reduce(function (obj, fieldName) {\n\t var field = fields[fieldName];\n\t var fieldValue = coerceValue(field.type, _value[fieldName]);\n\t if ((0, _isNullish2.default)(fieldValue)) {\n\t fieldValue = field.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(fieldValue)) {\n\t obj[fieldName] = fieldValue;\n\t }\n\t return obj;\n\t }, {})\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t var parsed = type.parseValue(_value);\n\t if (!(0, _isNullish2.default)(parsed)) {\n\t return parsed;\n\t }\n\t}", "function of(value) {\n switch (typeof value) {\n case 'object':\n if (value === null) {\n return NULL;\n } else if (Array.isArray(value)) {\n return ARRAY;\n }\n return OBJECT;\n case 'string':\n return STRING;\n case 'boolean':\n return BOOLEAN;\n case 'number':\n return isFinite(value) ? NUMBER : MISSING;\n }\n // Covers undefined, function, etc\n return MISSING;\n}", "function coercion(type) {\n var fn;\n\n switch (type) {\n case 'integer':\n case 'float':\n case 'long':\n case 'double':\n fn = function (data) {\n if (isNaN(data)) {\n return data;\n }\n return Number(data);\n };\n break;\n case 'string':\n fn = String;\n break;\n case 'byte':\n fn = function (data) {\n return isNaN(data) ? new Buffer(data)[0] : Number(data);\n };\n break;\n case 'boolean':\n fn = Boolean;\n break;\n case 'date':\n case 'dateTime':\n fn = Date.parse;\n break;\n }\n\n return fn;\n}", "function convertValueByType (value, type, _export = false) {\n let _return = ((_exp) => {\n return (v, t) => {\n return _exp ? [_exp(v), t] : v\n }\n })(_export);\n\n let typeint = Helpers.typeToInt(type);\n switch (type) {\n case 'Date':\n return _return(value.getTime(), typeint);\n case 'Number':\n return _return(isNaN(value) ? value.toString() : Number(value), typeint)\n case 'Symbol':\n return _return(String(value).slice(7, -1), typeint);\n default:\n if (_export) {\n return _return(value, typeint);\n } else {\n return _return(Helpers.is(value, ['!Null', '!Boolean', '!Object']) ? value.toString() : value, typeint);\n }\n }\n}", "function coerceType(instance,t){\n var actual = type(instance)\n , ret\n t = t || actual; // if type not specified, use actual\n if (t == actual && t !== 'undefined') return JSON.parse(JSON.stringify(instance));\n switch(t){\n case 'array':\n ret = (instance === undefined ? [] : [JSON.parse(JSON.stringify(instance))] );\n break;\n\n case 'boolean':\n ret = !!instance;\n break;\n\n case 'integer':\n ret = parseInt(instance);\n break;\n\n case 'null':\n ret = null;\n break;\n\n case 'number':\n ret = (instance === undefined) || \n (instance === null) || \n ((instance/1 % 1) == 0) ? parseInt(instance) : parseFloat(instance);\n break;\n\n case 'object':\n ret = {}; // note does not attempt to coerce array (or anything else) into object\n break;\n\n case 'string':\n ret = (instance === undefined) || \n (instance === null) ? \"\" : instance.toString();\n break;\n\n default:\n ret = undefined;\n break;\n }\n return ret;\n}", "#instantiatePrimitive(type, value) {\n const typeOf = {\n number: new Number(value),\n string: new String(value),\n boolean: new Boolean(value)\n }\n\n return typeOf[type];\n }", "async function convert (key, value, type) {\n if (type === 's') {\n return `${value}`;\n }\n if (type === 'i' || type === 'f') {\n if (typeof value === 'string') {\n value = +value;\n }\n if (type === 'i') value = Math.round(value);\n return Number.isNaN(value) ? undefined : value;\n }\n if (type === 'b') {\n if (typeof value === 'string') {\n return ['1', 'true', 't', 'yes', 'y', 'on'].indexOf(value.toLowerCase()) >= 0;\n }\n return !!value;\n }\n if (Array.isArray(type)) {\n return type.indexOf(value) >= 0 ? value : undefined;\n }\n if (typeof type === 'object') {\n if (value in type) {\n return type[value];\n } else if (typeof value === 'string' && value.toLowerCase() in type) {\n return type[value.toLowerCase()];\n }\n }\n if (typeof type === 'function') {\n return await type(key, value);\n }\n return undefined;\n}", "function anyToNumber(value) {\n if (_utils_Type__WEBPACK_IMPORTED_MODULE_3__[\"isDate\"](value)) {\n return value.getTime();\n }\n else if (_utils_Type__WEBPACK_IMPORTED_MODULE_3__[\"isNumber\"](value)) {\n return value;\n }\n else if (_utils_Type__WEBPACK_IMPORTED_MODULE_3__[\"isString\"](value)) {\n // Try converting to number (assuming timestamp)\n var num = Number(value);\n if (!_utils_Type__WEBPACK_IMPORTED_MODULE_3__[\"isNumber\"](num)) {\n // Failing\n return undefined;\n }\n else {\n return num;\n }\n }\n}", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function coerceValue(type, value) {\n // Ensure flow knows that we treat function params as const.\n var _value = value;\n\n if ((0, _isInvalid2.default)(_value)) {\n return; // Intentionally return no value.\n }\n\n if (type instanceof _definition.GraphQLNonNull) {\n if (_value === null) {\n return; // Intentionally return no value.\n }\n return coerceValue(type.ofType, _value);\n }\n\n if (_value === null) {\n // Intentionally return the value null.\n return null;\n }\n\n if (type instanceof _definition.GraphQLList) {\n var itemType = type.ofType;\n if ((0, _iterall.isCollection)(_value)) {\n var coercedValues = [];\n var valueIter = (0, _iterall.createIterator)(_value);\n if (!valueIter) {\n return; // Intentionally return no value.\n }\n var step = void 0;\n while (!(step = valueIter.next()).done) {\n var itemValue = coerceValue(itemType, step.value);\n if ((0, _isInvalid2.default)(itemValue)) {\n return; // Intentionally return no value.\n }\n coercedValues.push(itemValue);\n }\n return coercedValues;\n }\n var coercedValue = coerceValue(itemType, _value);\n if ((0, _isInvalid2.default)(coercedValue)) {\n return; // Intentionally return no value.\n }\n return [coerceValue(itemType, _value)];\n }\n\n if (type instanceof _definition.GraphQLInputObjectType) {\n if (typeof _value !== 'object') {\n return; // Intentionally return no value.\n }\n var coercedObj = Object.create(null);\n var fields = type.getFields();\n var fieldNames = Object.keys(fields);\n for (var i = 0; i < fieldNames.length; i++) {\n var fieldName = fieldNames[i];\n var field = fields[fieldName];\n if ((0, _isInvalid2.default)(_value[fieldName])) {\n if (!(0, _isInvalid2.default)(field.defaultValue)) {\n coercedObj[fieldName] = field.defaultValue;\n } else if (field.type instanceof _definition.GraphQLNonNull) {\n return; // Intentionally return no value.\n }\n continue;\n }\n var fieldValue = coerceValue(field.type, _value[fieldName]);\n if ((0, _isInvalid2.default)(fieldValue)) {\n return; // Intentionally return no value.\n }\n coercedObj[fieldName] = fieldValue;\n }\n return coercedObj;\n }\n\n (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n var parsed = type.parseValue(_value);\n if ((0, _isNullish2.default)(parsed)) {\n // null or invalid values represent a failure to parse correctly,\n // in which case no value is returned.\n return;\n }\n\n return parsed;\n}", "function $value(value) {\n\t function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n\t function $replace(value) {\n\t var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n\t return replacement.length ? replacement[0] : value;\n\t }\n\t value = $replace(value);\n\t return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n\t }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return isDefined(value) ? self.type.decode(value) : $$getDefaultValue();\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return isDefined(value) ? self.type.decode(value) : $$getDefaultValue();\n }", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return isDefined(value) ? self.type.decode(value) : $$getDefaultValue();\n }", "static determineType(value) {\n return typeof value;\n }", "function typeParse(value)\n{\n\tif( value === null || value === undefined )\n\t{ return; }\n\n\tif( isInt(value) )\n\t{ return parseInt(value); }\n\tif( isFloat(value) )\n\t{ return parseFloat(value); }\n\tif( isBool(value) )\n\t{ return parseBool(value); }\n\tif( isJSON(value) )\n\t{ return JSON.parse(value); }\n\n\treturn value;\n}", "function asTypeOf(tcls, method, value) {\r\n return tcls._dict.get(typeOf(value))[method];\r\n //return getInstance(tcls, typeOf(value))[method];\r\n}", "function $value(value) {\n function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function coerce(value, struct) {\n const ret = struct.coercer(value);\n assert(ret, struct);\n return ret;\n}", "function coerce(value, struct) {\n const ret = struct.coercer(value);\n assert(ret, struct);\n return ret;\n}", "function $value(value) {\n\t function hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n\t function $replace(value) {\n\t var replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n\t return replacement.length ? replacement[0] : value;\n\t }\n\t value = $replace(value);\n\t return isDefined(value) ? self.type.decode(value) : $$getDefaultValue();\n\t }", "function getType(value) {\n return ({}).toString.call(value);\n}", "function inferType(value){\n for(let i = 0; i < TypeTests.length; i++){\n const maybeType = TypeTests[i].test(value);\n if(maybeType) return TypeTests[i].type;\n }\n return null;\n}", "function castType(val, type, def) {\n function cast() {\n if (!is_1.isValue(val))\n return to_1.toDefault(null, def);\n // If no type specified try to get automatically.\n type = type || getType(val);\n if (is_1.isArray(type)) {\n return to_1.toArray(val)\n .map(function (v, i) { return castType(v, type[i] || type[i - 1] || type[0]); });\n }\n else if (is_1.isFunction(type)) {\n val = to_1.toArray(val);\n return type.apply(void 0, val);\n }\n else if (is_1.isString(type)) {\n type = type.toLowerCase();\n var func = toMap[type];\n if (func)\n return func(val);\n return to_1.toDefault(null, def);\n }\n else {\n return val;\n }\n }\n return function_1.tryWrap(cast)(def);\n}", "function castType(val, type, def) {\n function cast() {\n if (!is_1.isValue(val))\n return to_1.toDefault(null, def);\n // If no type specified try to get automatically.\n type = type || getType(val);\n if (is_1.isArray(type)) {\n return to_1.toArray(val)\n .map(function (v, i) { return castType(v, type[i] || type[i - 1] || type[0]); });\n }\n else if (is_1.isFunction(type)) {\n val = to_1.toArray(val);\n return type.apply(void 0, val);\n }\n else if (is_1.isString(type)) {\n type = type.toLowerCase();\n var func = toMap[type];\n if (func)\n return func(val);\n return to_1.toDefault(null, def);\n }\n else {\n return val;\n }\n }\n return function_1.tryWrap(cast)(def);\n}", "function $value(value) {\n\t\t\t\tfunction hasReplaceVal(val) { return function(obj) { return obj.from === val; }; }\n\t\t\t\tfunction $replace(value) {\n\t\t\t\t\tvar replacement = map(filter(self.replace, hasReplaceVal(value)), function(obj) { return obj.to; });\n\t\t\t\t\treturn replacement.length ? replacement[0] : value;\n\t\t\t\t}\n\t\t\t\tvalue = $replace(value);\n\t\t\t\treturn !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n\t\t\t}", "function unifyValue(type, value) {\n\tswitch (type) {\n\tcase 'PM1':\n\t\tvalue = getPM1level(value);\n\t\tbreak;\n\tcase 'PM2.5':\n\t\tvalue = getPM25level(value);\n\t\tbreak;\n\tcase 'PM10':\n\t\tvalue = getPM10level(value);\n\t\tbreak;\n\t}\n\treturn value;\n}", "function valueFromASTUntyped(valueNode) {\n switch (valueNode.kind) {\n case graphql_1.Kind.NULL:\n return null;\n case graphql_1.Kind.INT:\n return parseInt(valueNode.value, 10);\n case graphql_1.Kind.FLOAT:\n return parseFloat(valueNode.value);\n case graphql_1.Kind.STRING:\n case graphql_1.Kind.ENUM:\n case graphql_1.Kind.BOOLEAN:\n return valueNode.value;\n case graphql_1.Kind.LIST:\n return valueNode.values.map(valueFromASTUntyped);\n case graphql_1.Kind.OBJECT:\n var obj_1 = Object.create(null);\n valueNode.fields.forEach(function (field) {\n obj_1[field.name.value] = valueFromASTUntyped(field.value);\n });\n return obj_1;\n /* istanbul ignore next */\n default:\n throw new Error('Unexpected value kind: ' + valueNode.kind);\n }\n}", "function valueFromASTUntyped(valueNode) {\n switch (valueNode.kind) {\n case graphql_1.Kind.NULL:\n return null;\n case graphql_1.Kind.INT:\n return parseInt(valueNode.value, 10);\n case graphql_1.Kind.FLOAT:\n return parseFloat(valueNode.value);\n case graphql_1.Kind.STRING:\n case graphql_1.Kind.ENUM:\n case graphql_1.Kind.BOOLEAN:\n return valueNode.value;\n case graphql_1.Kind.LIST:\n return valueNode.values.map(valueFromASTUntyped);\n case graphql_1.Kind.OBJECT:\n var obj_1 = Object.create(null);\n valueNode.fields.forEach(function (field) {\n obj_1[field.name.value] = valueFromASTUntyped(field.value);\n });\n return obj_1;\n /* istanbul ignore next */\n default:\n throw new Error('Unexpected value kind: ' + valueNode.kind);\n }\n}", "function convertToType(_value) {\n if (!isNaN(parseInt(_value)))\n return isInt(_value) ? parseInt(_value) : parseFloat(_value);\n else if (isBoolean(_value))\n return toBoolean(_value);\n else\n return _value.substr(1, _value.length - 2);\n}", "function typeOf(value) {\n // YOUR CODE BELOW HERE //\n //Use conditional if/else-if statements to test value type with appropriate operators\n \n if(typeof value === 'string') {\n return 'string';\n }\n else if(value === undefined) {\n return 'undefined';\n }\n else if(typeof value === 'number') {\n return 'number';\n }\n else if(typeof value === 'boolean') {\n return 'boolean';\n }\n else if(typeof value === 'function') {\n return 'function';\n }\n else if(Array.isArray(value)) {\n return 'array';\n }\n else if(isNaN(value)) {\n return 'NaN';\n }\n else if(value === null) {\n return 'null';\n }\n else if(value instanceof Date) {\n return 'date';\n }\n else if(typeof value === 'object') {\n return 'object';\n }\n \n \n \n // YOUR CODE ABOVE HERE //\n}", "function realRuntimeType(obj) {\n let result = checkPrimitiveType(obj);\n if (result !== null) return result;\n // TODO(vsm): Should we treat Dart and JS objects differently here?\n // E.g., we can check if obj instanceof core.Object to differentiate.\n result = obj[_runtimeType];\n if (result) return result;\n result = obj.constructor;\n if (result == Function) {\n return getFunctionType(obj);\n }\n return result;\n }", "function coerceInputValue(inputValue, type) {\n var onError = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : defaultOnError;\n return coerceInputValueImpl(inputValue, type, onError);\n}", "function coerceInputValue(inputValue, type) {\n var onError = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : defaultOnError;\n return coerceInputValueImpl(inputValue, type, onError);\n}", "function coerceInputValue(inputValue, type) {\n var onError = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : defaultOnError;\n return coerceInputValueImpl(inputValue, type, onError);\n}", "function coerceInputValue(inputValue, type) {\n var onError = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : defaultOnError;\n return coerceInputValueImpl(inputValue, type, onError);\n}", "function apparentType(val) {\n switch (typeof val) {\n case 'boolean':\n case 'string':\n return typeof val;\n\n case 'number':\n if (val % 1 === 0) { return 'integer'; }\n return 'number';\n\n default:\n if (val === null) { return 'null'; }\n if (Array.isArray(val)) { return 'array'; }\n return 'object';\n }\n}", "function $value(value) {\n function hasReplaceVal(val) {\n return function (obj) {\n return obj.from === val;\n };\n }\n\n function $replace(value) {\n var replacement = map(filter(self.replace, hasReplaceVal(value)), function (obj) {\n return obj.to;\n });\n return replacement.length ? replacement[0] : value;\n }\n\n value = $replace(value);\n return isDefined(value) ? self.type.decode(value) : $$getDefaultValue();\n }", "function dwscripts_getParameterTypeFromCode(runtimeValue)\n{\n var retVal = null;\n var serverObj = dwscripts.getServerImplObject();\n\n if (serverObj != null && serverObj.getParameterTypeFromCode != null)\n {\n retVal = serverObj.getParameterTypeFromCode(runtimeValue);\n }\n\n return retVal;\n}", "function dwscripts_getParameterTypeFromExpression(runtimeValue)\n{\n var retVal = null;\n var serverObj = dwscripts.getServerImplObject();\n \n if (serverObj != null && serverObj.getParameterTypeFromExpression != null)\n {\n retVal = serverObj.getParameterTypeFromExpression(runtimeValue);\n }\n\n return retVal;\n}", "function apparentType(val) {\n switch (typeof val) {\n case 'boolean':\n case 'string':\n case 'undefined':\n return typeof val;\n\n case 'number':\n if (val % 1 === 0) { return 'integer'; }\n return 'number';\n\n default:\n if (val === null) { return 'null'; }\n if (Array.isArray(val)) { return 'array'; }\n return 'object';\n }\n}", "function $value(value) {\n function hasReplaceVal(val) {\n return function (obj) {\n return obj.from === val;\n };\n }\n\n function $replace(value) {\n var replacement = _.map(\n _.filter(self.replace, hasReplaceVal(value)),\n function (obj) { return obj.to; }\n );\n\n return replacement.length ? replacement[0] : value;\n }\n value = $replace(value);\n return !isDefined(value) ? $$getDefaultValue() : self.type.$normalize(value);\n }", "function u(t) {\n if (null == t) return {\n value: t\n };\n if (Array.isArray(t)) return {\n type: [t[0]],\n value: null\n };\n\n switch (typeof t) {\n case \"object\":\n return t.constructor && t.constructor.__accessorMetadata__ || t instanceof Date ? {\n type: t.constructor,\n value: t\n } : t;\n\n case \"boolean\":\n return {\n type: Boolean,\n value: t\n };\n\n case \"string\":\n return {\n type: String,\n value: t\n };\n\n case \"number\":\n return {\n type: Number,\n value: t\n };\n\n case \"function\":\n return {\n type: t,\n value: null\n };\n\n default:\n return;\n }\n }", "function cast(origin, value) {\n\t\t\tvar type = typeof origin;\n\n\t\t\tswitch (type) {\n\t\t\t\tcase 'boolean':\n\t\t\t\t\treturn !!value;\n\n\t\t\t\tcase 'number':\n\t\t\t\t\treturn +value;\n\t\t\t}\n\n\t\t\treturn value;\n\t\t}", "function realRuntimeType(obj) {\n let result = checkPrimitiveType(obj);\n if (result !== null) return result;\n // TODO(vsm): Should we treat Dart and JS objects differently here?\n // E.g., we can check if obj instanceof core.Object to differentiate.\n result = obj[_runtimeType];\n if (result) return result;\n result = obj.constructor;\n if (result == Function) {\n // An undecorated Function should have come from\n // JavaScript. Treat as untyped.\n return types.jsobject;\n }\n return result;\n }", "function input(type) {\n const value = typeof type;\n return value;\n}", "function inferType(stringValue) {\n\tif (!isNaN(stringValue))\n\t\tvar value = eval(stringValue);\n\telse if (stringValue == 'false')\n\t\tvar value = false;\n\telse if (stringValue == 'true')\n\t\tvar value = true;\n\telse\n\t\tvar value = stringValue\n\n\treturn value;\n}", "function getRuntimeType(obj) {\n switch (typeof obj) {\n case \"undefined\":\n return core.Null;\n case \"number\":\n return Math.floor(obj) == obj ? core.int : core.double;\n case \"boolean\":\n return core.bool;\n case \"string\":\n return core.String;\n case \"symbol\":\n return Symbol;\n }\n // Undefined is handled above. For historical reasons,\n // typeof null == \"object\" in JS.\n if (obj === null) return core.Null;\n return obj.constructor;\n }", "function convertToCompileValue(value) {\n\t return util_1.visitValue(value, new _CompileValueConverter(), null);\n\t}", "getTypeFromValue(value, originalTypes) {\n if (value && value instanceof mdls.IdentifiableValue) {\n if (value.effectiveIdentifier.isPrimitive) {\n let type = value.effectiveIdentifier.name;\n if (type === 'concept') {\n type = 'CodeableConcept';\n } else if (type === 'xhtml') {\n // xhtml is a weird type in FHIR and should be treated like a string instead\n type = 'string';\n }\n return { code: type };\n } else {\n const def = this._specs.dataElements.findByIdentifier(value.effectiveIdentifier);\n const [type, value2] = this.getSimpleTypeAndValue(originalTypes.map(t => t.code), def, value);\n if (value2 == null) {\n // 13115, 'Couldn\\'t identify appropriate Extension.value[x] value for ${elementId}. Is it an attempt to reference a non-Entry?', 'Check value to ensure it is a primitive, maps to a FHIR datatype, or is an Entry (which allows references)', 'errorNumber'\n logger.error({ elementId: value.effectiveIdentifier.fqn }, '13115');\n return;\n }\n const map = this._specs.maps.findByTargetAndIdentifier(this._target, value2.effectiveIdentifier);\n if (map === undefined) {\n return;\n }\n const code = type;\n const profile = this._profileExporter.lookupProfile(map.identifier, true, true);\n if (code == 'Reference') {\n return { code: code, targetProfile: [profile.url] };\n } else if (common.isCustomProfile(profile) || profile.id !== type) {\n return { code: code, profile: [profile.url] };\n }\n return { code };\n }\n }\n }", "function handleSingle(val) {\n return this.cast(val);\n}", "function handleSingle(val) {\n return this.cast(val);\n}", "function handleSingle(val) {\n return this.cast(val);\n}", "function handleSingle(val) {\n return this.cast(val);\n}", "function handleSingle(val) {\n return this.cast(val);\n}", "function handleSingle(val) {\n return this.cast(val);\n}", "function canonicalType(t) {\n if (t === Object) return core.Object;\n if (t === Function) return core.Function;\n if (t === Array) return core.List;\n\n // We shouldn't normally get here with these types, unless something strange\n // happens like subclassing Number in JS and passing it to Dart.\n if (t === String) return core.String;\n if (t === Number) return core.double;\n if (t === Boolean) return core.bool;\n return t;\n }", "function typeOf (value) {\n if (value === null) return 'null'\n var valueType = typeof value\n if (valueType === 'object') {\n valueType = value.constructor.name.toLowerCase()\n }\n return valueType\n}", "function determineType(value) {\n if (value === undefined) {\n return \"undefined\";\n }\n else if (isNumber(value)) {\n return \"number\";\n }\n else if (isString(value)) {\n return \"string\";\n }\n else if (value instanceof Date) {\n return \"date\";\n }\n else if (isBoolean(value)) {\n return \"boolean\";\n }\n else {\n return \"unsupported\";\n }\n}", "function getType(value) {\n\tvar typer = Object.prototype.toString\n\tvar typeStr = typer.call(value)\n\n\ttypeStr = typeStr.replace(/.*\\s(\\w+)\\]/g, '$1')\n\treturn typeStr.toLowerCase()\n}", "function _valueOf(value) {\n var p = {};\n switch (value.type) {\n case 'object':\n p.value = {\n description: value.className,\n hasChildren: true,\n injectedScriptId: value.ref || value.handle,\n type: 'object'\n };\n break;\n case 'function':\n p.value = {\n description: value.text || 'function()',\n hasChildren: true,\n injectedScriptId: value.ref || value.handle,\n type: 'function'\n };\n break;\n case 'undefined':\n p.value = {description: 'undefined'};\n break;\n case 'null':\n p.value = {description: 'null'};\n break;\n case 'script':\n p.value = {description: value.text};\n break;\n default:\n p.value = {description: value.value};\n break;\n }\n return p;\n }", "function resolveJsType(val) {\n switch (toString.call(val)) {\n case '[object Function]':\n return 'function';\n\n case '[object Date]':\n return 'date';\n\n case '[object RegExp]':\n return 'regexp';\n\n case '[object Arguments]':\n return 'arguments';\n\n case '[object Array]':\n return 'array';\n\n case '[object String]':\n return 'string';\n\n default:\n }\n\n if (typeof val == 'object' && val && typeof val.length == 'number') {\n try {\n if (typeof val.callee == 'function') {\n // eslint-disable-line max-depth\n return 'arguments';\n }\n } catch (ex) {\n if (ex instanceof TypeError) {\n // eslint-disable-line max-depth\n return 'arguments';\n }\n }\n }\n\n if (val === null) {\n return 'null';\n }\n\n if (val === undefined) {\n return 'undefined';\n }\n\n if (val && val.nodeType === 1) {\n return 'element';\n }\n\n if (val === Object(val)) {\n return 'object';\n }\n\n return typeof val;\n}", "function dwscripts_getParameterExpressionFromType(paramType, paramNameOrValue)\n{\n var retVal = null;\n var serverObj = dwscripts.getServerImplObject();\n\n if (serverObj != null && serverObj.getParameterExpressionFromType != null)\n {\n retVal = serverObj.getParameterExpressionFromType(paramType, paramNameOrValue);\n }\n\n return retVal;\n}", "function typeOf(value) {\n if (value === null) return \"null\";\n return typeof value;\n }", "function ct(t) {\n // TODO(bjornick): Handle int64 greater than 53 bits.\n return \"number\" == typeof t ? t : \"string\" == typeof t ? Number(t) : 0;\n}", "function ToPrimitive(input /* [, PreferredType] */) { // eslint-disable-line no-unused-vars\n\tvar PreferredType = arguments.length > 1 ? arguments[1] : undefined;\n\t// 1. Assert: input is an ECMAScript language value.\n\t// 2. If Type(input) is Object, then\n\tif (Type(input) === 'object') {\n\t\t// a. If PreferredType is not present, let hint be \"default\".\n\t\tif (arguments.length < 2) {\n\t\t\tvar hint = 'default';\n\t\t\t// b. Else if PreferredType is hint String, let hint be \"string\".\n\t\t} else if (PreferredType === String) {\n\t\t\thint = 'string';\n\t\t\t// c. Else PreferredType is hint Number, let hint be \"number\".\n\t\t} else if (PreferredType === Number) {\n\t\t\thint = 'number';\n\t\t}\n\t\t// d. Let exoticToPrim be ? GetMethod(input, @@toPrimitive).\n\t\tvar exoticToPrim = typeof this.Symbol === 'function' && typeof this.Symbol.toPrimitive === 'symbol' ? GetMethod(input, this.Symbol.toPrimitive) : undefined;\n\t\t// e. If exoticToPrim is not undefined, then\n\t\tif (exoticToPrim !== undefined) {\n\t\t\t// i. Let result be ? Call(exoticToPrim, input, « hint »).\n\t\t\tvar result = Call(exoticToPrim, input, [hint]);\n\t\t\t// ii. If Type(result) is not Object, return result.\n\t\t\tif (Type(result) !== 'object') {\n\t\t\t\treturn result;\n\t\t\t}\n\t\t\t// iii. Throw a TypeError exception.\n\t\t\tthrow new TypeError('Cannot convert exotic object to primitive.');\n\t\t}\n\t\t// f. If hint is \"default\", set hint to \"number\".\n\t\tif (hint === 'default') {\n\t\t\thint = 'number';\n\t\t}\n\t\t// g. Return ? OrdinaryToPrimitive(input, hint).\n\t\treturn OrdinaryToPrimitive(input, hint);\n\t}\n\t// 3. Return input\n\treturn input;\n}", "function M(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? O(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : _e(\"Invalid value type: \" + JSON.stringify(t));\n}", "function typeOfValue(x) {\n return typeof x;\n}", "function tt(t) {\n return \"nullValue\" in t ? 0 /* NullValue */ : \"booleanValue\" in t ? 1 /* BooleanValue */ : \"integerValue\" in t || \"doubleValue\" in t ? 2 /* NumberValue */ : \"timestampValue\" in t ? 3 /* TimestampValue */ : \"stringValue\" in t ? 5 /* StringValue */ : \"bytesValue\" in t ? 6 /* BlobValue */ : \"referenceValue\" in t ? 7 /* RefValue */ : \"geoPointValue\" in t ? 8 /* GeoPointValue */ : \"arrayValue\" in t ? 9 /* ArrayValue */ : \"mapValue\" in t ? X(t) ? 4 /* ServerTimestampValue */ : 10 /* ObjectValue */ : Gn(\"Invalid value type: \" + JSON.stringify(t));\n}", "static unwrap(value) {\n return WrappedValue.isWrapped(value) ? value.wrapped : value;\n }", "static unwrap(value) {\n return WrappedValue.isWrapped(value) ? value.wrapped : value;\n }", "static unwrap(value) {\n return WrappedValue.isWrapped(value) ? value.wrapped : value;\n }", "static unwrap(value) {\n return WrappedValue.isWrapped(value) ? value.wrapped : value;\n }", "static unwrap(value) {\n return WrappedValue.isWrapped(value) ? value.wrapped : value;\n }", "function ensureDefault(Type, value) {\n if (value === undefined) {\n if (Type === types.Object || Type.prototype instanceof types.Object) {\n return {};\n }\n if (Type === types.Array || Type.prototype instanceof types.Array) {\n return [];\n }\n }\n return value;\n}", "function coerceValue(_x, _x2) {\n var _again = true;\n\n _function: while (_again) {\n var type = _x,\n value = _x2;\n _value = _ret = _ret2 = parsed = undefined;\n _again = false;\n\n // Ensure flow knows that we treat function params as const.\n var _value = value;\n\n if (type instanceof _typeDefinition.GraphQLNonNull) {\n // Note: we're not checking that the result of coerceValue is non-null.\n // We only call this function after calling isValidJSValue.\n _x = type.ofType;\n _x2 = _value;\n _again = true;\n continue _function;\n }\n\n if ((0, _jsutilsIsNullish2['default'])(_value)) {\n return null;\n }\n\n if (type instanceof _typeDefinition.GraphQLList) {\n var _ret = (function () {\n var itemType = type.ofType;\n // TODO: support iterable input\n if (Array.isArray(_value)) {\n return {\n v: _value.map(function (item) {\n return coerceValue(itemType, item);\n })\n };\n }\n return {\n v: [coerceValue(itemType, _value)]\n };\n })();\n\n if (typeof _ret === 'object') return _ret.v;\n }\n\n if (type instanceof _typeDefinition.GraphQLInputObjectType) {\n var _ret2 = (function () {\n if (typeof _value !== 'object' || _value === null) {\n return {\n v: null\n };\n }\n var fields = type.getFields();\n return {\n v: _Object$keys(fields).reduce(function (obj, fieldName) {\n var field = fields[fieldName];\n var fieldValue = coerceValue(field.type, _value[fieldName]);\n if ((0, _jsutilsIsNullish2['default'])(fieldValue)) {\n fieldValue = field.defaultValue;\n }\n if (!(0, _jsutilsIsNullish2['default'])(fieldValue)) {\n obj[fieldName] = fieldValue;\n }\n return obj;\n }, {})\n };\n })();\n\n if (typeof _ret2 === 'object') return _ret2.v;\n }\n\n (0, _jsutilsInvariant2['default'])(type instanceof _typeDefinition.GraphQLScalarType || type instanceof _typeDefinition.GraphQLEnumType, 'Must be input type');\n\n var parsed = type.parseValue(_value);\n if (!(0, _jsutilsIsNullish2['default'])(parsed)) {\n return parsed;\n }\n }\n}" ]
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0.5725157
16
Produces a new schema given an existing schema and a document which may contain GraphQL type extensions and definitions. The original schema will remain unaltered. Because a schema represents a graph of references, a schema cannot be extended without effectively making an entire copy. We do not know until it's too late if subgraphs remain unchanged. This algorithm copies the provided schema, applying extensions while producing the copy. The original schema remains unaltered. Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function extendSchema(schema, documentAST) { !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0; !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0; // Collect the type definitions and extensions found in the document. var typeDefinitionMap = Object.create(null); var typeExtensionsMap = Object.create(null); // New directives and types are separate because a directives and types can // have the same name. For example, a type named "skip". var directiveDefinitions = []; for (var i = 0; i < documentAST.definitions.length; i++) { var def = documentAST.definitions[i]; switch (def.kind) { case Kind.OBJECT_TYPE_DEFINITION: case Kind.INTERFACE_TYPE_DEFINITION: case Kind.ENUM_TYPE_DEFINITION: case Kind.UNION_TYPE_DEFINITION: case Kind.SCALAR_TYPE_DEFINITION: case Kind.INPUT_OBJECT_TYPE_DEFINITION: // Sanity check that none of the defined types conflict with the // schema's existing types. var typeName = def.name.value; if (schema.getType(typeName)) { throw new _GraphQLError.GraphQLError('Type "' + typeName + '" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]); } typeDefinitionMap[typeName] = def; break; case Kind.TYPE_EXTENSION_DEFINITION: // Sanity check that this type extension exists within the // schema's existing types. var extendedTypeName = def.definition.name.value; var existingType = schema.getType(extendedTypeName); if (!existingType) { throw new _GraphQLError.GraphQLError('Cannot extend type "' + extendedTypeName + '" because it does not ' + 'exist in the existing schema.', [def.definition]); } if (!(existingType instanceof _definition.GraphQLObjectType)) { throw new _GraphQLError.GraphQLError('Cannot extend non-object type "' + extendedTypeName + '".', [def.definition]); } var extensions = typeExtensionsMap[extendedTypeName]; if (extensions) { extensions.push(def); } else { extensions = [def]; } typeExtensionsMap[extendedTypeName] = extensions; break; case Kind.DIRECTIVE_DEFINITION: var directiveName = def.name.value; var existingDirective = schema.getDirective(directiveName); if (existingDirective) { throw new _GraphQLError.GraphQLError('Directive "' + directiveName + '" already exists in the schema. It ' + 'cannot be redefined.', [def]); } directiveDefinitions.push(def); break; } } // If this document contains no new types, extensions, or directives then // return the same unmodified GraphQLSchema instance. if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) { return schema; } // A cache to use to store the actual GraphQLType definition objects by name. // Initialize to the GraphQL built in scalars and introspection types. All // functions below are inline so that this type def cache is within the scope // of the closure. var typeDefCache = { String: _scalars.GraphQLString, Int: _scalars.GraphQLInt, Float: _scalars.GraphQLFloat, Boolean: _scalars.GraphQLBoolean, ID: _scalars.GraphQLID, __Schema: _introspection.__Schema, __Directive: _introspection.__Directive, __DirectiveLocation: _introspection.__DirectiveLocation, __Type: _introspection.__Type, __Field: _introspection.__Field, __InputValue: _introspection.__InputValue, __EnumValue: _introspection.__EnumValue, __TypeKind: _introspection.__TypeKind }; // Get the root Query, Mutation, and Subscription object types. var queryType = getTypeFromDef(schema.getQueryType()); var existingMutationType = schema.getMutationType(); var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null; var existingSubscriptionType = schema.getSubscriptionType(); var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null; // Iterate through all types, getting the type definition for each, ensuring // that any type not directly referenced by a field will get created. var typeMap = schema.getTypeMap(); var types = Object.keys(typeMap).map(function (typeName) { return getTypeFromDef(typeMap[typeName]); }); // Do the same with new types, appending to the list of defined types. Object.keys(typeDefinitionMap).forEach(function (typeName) { types.push(getTypeFromAST(typeDefinitionMap[typeName])); }); // Then produce and return a Schema with these types. return new _schema.GraphQLSchema({ query: queryType, mutation: mutationType, subscription: subscriptionType, types: types, directives: getMergedDirectives(), astNode: schema.astNode }); // Below are functions used for producing this schema that have closed over // this scope and have access to the schema, cache, and newly defined types. function getMergedDirectives() { var existingDirectives = schema.getDirectives(); !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0; var newDirectives = directiveDefinitions.map(function (directiveNode) { return getDirective(directiveNode); }); return existingDirectives.concat(newDirectives); } function getTypeFromDef(typeDef) { var type = _getNamedType(typeDef.name); !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0; return type; } function getTypeFromAST(node) { var type = _getNamedType(node.name.value); if (!type) { throw new _GraphQLError.GraphQLError('Unknown type: "' + node.name.value + '". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]); } return type; } function getObjectTypeFromAST(node) { var type = getTypeFromAST(node); !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0; return type; } function getInterfaceTypeFromAST(node) { var type = getTypeFromAST(node); !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0; return type; } function getInputTypeFromAST(node) { return (0, _definition.assertInputType)(getTypeFromAST(node)); } function getOutputTypeFromAST(node) { return (0, _definition.assertOutputType)(getTypeFromAST(node)); } // Given a name, returns a type from either the existing schema or an // added type. function _getNamedType(typeName) { var cachedTypeDef = typeDefCache[typeName]; if (cachedTypeDef) { return cachedTypeDef; } var existingType = schema.getType(typeName); if (existingType) { var typeDef = extendType(existingType); typeDefCache[typeName] = typeDef; return typeDef; } var typeNode = typeDefinitionMap[typeName]; if (typeNode) { var _typeDef = buildType(typeNode); typeDefCache[typeName] = _typeDef; return _typeDef; } } // Given a type's introspection result, construct the correct // GraphQLType instance. function extendType(type) { if (type instanceof _definition.GraphQLObjectType) { return extendObjectType(type); } if (type instanceof _definition.GraphQLInterfaceType) { return extendInterfaceType(type); } if (type instanceof _definition.GraphQLUnionType) { return extendUnionType(type); } return type; } function extendObjectType(type) { var name = type.name; var extensionASTNodes = type.extensionASTNodes; if (typeExtensionsMap[name]) { extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]); } return new _definition.GraphQLObjectType({ name: name, description: type.description, interfaces: function interfaces() { return extendImplementedInterfaces(type); }, fields: function fields() { return extendFieldMap(type); }, astNode: type.astNode, extensionASTNodes: extensionASTNodes, isTypeOf: type.isTypeOf }); } function extendInterfaceType(type) { return new _definition.GraphQLInterfaceType({ name: type.name, description: type.description, fields: function fields() { return extendFieldMap(type); }, astNode: type.astNode, resolveType: type.resolveType }); } function extendUnionType(type) { return new _definition.GraphQLUnionType({ name: type.name, description: type.description, types: type.getTypes().map(getTypeFromDef), astNode: type.astNode, resolveType: type.resolveType }); } function extendImplementedInterfaces(type) { var interfaces = type.getInterfaces().map(getTypeFromDef); // If there are any extensions to the interfaces, apply those here. var extensions = typeExtensionsMap[type.name]; if (extensions) { extensions.forEach(function (extension) { extension.definition.interfaces.forEach(function (namedType) { var interfaceName = namedType.name.value; if (interfaces.some(function (def) { return def.name === interfaceName; })) { throw new _GraphQLError.GraphQLError('Type "' + type.name + '" already implements "' + interfaceName + '". ' + 'It cannot also be implemented in this type extension.', [namedType]); } interfaces.push(getInterfaceTypeFromAST(namedType)); }); }); } return interfaces; } function extendFieldMap(type) { var newFieldMap = Object.create(null); var oldFieldMap = type.getFields(); Object.keys(oldFieldMap).forEach(function (fieldName) { var field = oldFieldMap[fieldName]; newFieldMap[fieldName] = { description: field.description, deprecationReason: field.deprecationReason, type: extendFieldType(field.type), args: (0, _keyMap2.default)(field.args, function (arg) { return arg.name; }), astNode: field.astNode, resolve: field.resolve }; }); // If there are any extensions to the fields, apply those here. var extensions = typeExtensionsMap[type.name]; if (extensions) { extensions.forEach(function (extension) { extension.definition.fields.forEach(function (field) { var fieldName = field.name.value; if (oldFieldMap[fieldName]) { throw new _GraphQLError.GraphQLError('Field "' + type.name + '.' + fieldName + '" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]); } newFieldMap[fieldName] = { description: (0, _buildASTSchema.getDescription)(field), type: buildOutputFieldType(field.type), args: buildInputValues(field.arguments), deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field), astNode: field }; }); }); } return newFieldMap; } function extendFieldType(typeDef) { if (typeDef instanceof _definition.GraphQLList) { return new _definition.GraphQLList(extendFieldType(typeDef.ofType)); } if (typeDef instanceof _definition.GraphQLNonNull) { return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType)); } return getTypeFromDef(typeDef); } function buildType(typeNode) { switch (typeNode.kind) { case Kind.OBJECT_TYPE_DEFINITION: return buildObjectType(typeNode); case Kind.INTERFACE_TYPE_DEFINITION: return buildInterfaceType(typeNode); case Kind.UNION_TYPE_DEFINITION: return buildUnionType(typeNode); case Kind.SCALAR_TYPE_DEFINITION: return buildScalarType(typeNode); case Kind.ENUM_TYPE_DEFINITION: return buildEnumType(typeNode); case Kind.INPUT_OBJECT_TYPE_DEFINITION: return buildInputObjectType(typeNode); } throw new TypeError('Unknown type kind ' + typeNode.kind); } function buildObjectType(typeNode) { return new _definition.GraphQLObjectType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), interfaces: function interfaces() { return buildImplementedInterfaces(typeNode); }, fields: function fields() { return buildFieldMap(typeNode); }, astNode: typeNode }); } function buildInterfaceType(typeNode) { return new _definition.GraphQLInterfaceType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), fields: function fields() { return buildFieldMap(typeNode); }, astNode: typeNode, resolveType: cannotExecuteExtendedSchema }); } function buildUnionType(typeNode) { return new _definition.GraphQLUnionType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), types: typeNode.types.map(getObjectTypeFromAST), astNode: typeNode, resolveType: cannotExecuteExtendedSchema }); } function buildScalarType(typeNode) { return new _definition.GraphQLScalarType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), astNode: typeNode, serialize: function serialize(id) { return id; }, // Note: validation calls the parse functions to determine if a // literal value is correct. Returning null would cause use of custom // scalars to always fail validation. Returning false causes them to // always pass validation. parseValue: function parseValue() { return false; }, parseLiteral: function parseLiteral() { return false; } }); } function buildEnumType(typeNode) { return new _definition.GraphQLEnumType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) { return enumValue.name.value; }, function (enumValue) { return { description: (0, _buildASTSchema.getDescription)(enumValue), deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue), astNode: enumValue }; }), astNode: typeNode }); } function buildInputObjectType(typeNode) { return new _definition.GraphQLInputObjectType({ name: typeNode.name.value, description: (0, _buildASTSchema.getDescription)(typeNode), fields: function fields() { return buildInputValues(typeNode.fields); }, astNode: typeNode }); } function getDirective(directiveNode) { return new _directives.GraphQLDirective({ name: directiveNode.name.value, description: (0, _buildASTSchema.getDescription)(directiveNode), locations: directiveNode.locations.map(function (node) { return node.value; }), args: directiveNode.arguments && buildInputValues(directiveNode.arguments), astNode: directiveNode }); } function buildImplementedInterfaces(typeNode) { return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST); } function buildFieldMap(typeNode) { return (0, _keyValMap2.default)(typeNode.fields, function (field) { return field.name.value; }, function (field) { return { type: buildOutputFieldType(field.type), description: (0, _buildASTSchema.getDescription)(field), args: buildInputValues(field.arguments), deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field), astNode: field }; }); } function buildInputValues(values) { return (0, _keyValMap2.default)(values, function (value) { return value.name.value; }, function (value) { var type = buildInputFieldType(value.type); return { type: type, description: (0, _buildASTSchema.getDescription)(value), defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type), astNode: value }; }); } function buildInputFieldType(typeNode) { if (typeNode.kind === Kind.LIST_TYPE) { return new _definition.GraphQLList(buildInputFieldType(typeNode.type)); } if (typeNode.kind === Kind.NON_NULL_TYPE) { var nullableType = buildInputFieldType(typeNode.type); !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0; return new _definition.GraphQLNonNull(nullableType); } return getInputTypeFromAST(typeNode); } function buildOutputFieldType(typeNode) { if (typeNode.kind === Kind.LIST_TYPE) { return new _definition.GraphQLList(buildOutputFieldType(typeNode.type)); } if (typeNode.kind === Kind.NON_NULL_TYPE) { var nullableType = buildOutputFieldType(typeNode.type); !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0; return new _definition.GraphQLNonNull(nullableType); } return getOutputTypeFromAST(typeNode); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function extendSchema(schema, documentAST) {\n (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = {};\n var typeExtensionsMap = {};\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case _kinds.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n }\n }\n\n // If this document contains no new types, then return the same unmodified\n // GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n // Copy directives.\n directives: schema.getDirectives()\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }\n\n function getTypeFromAST(astNode) {\n var type = _getNamedType(astNode.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n return type;\n }\n\n function getInterfaceTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n return type;\n }\n\n function getInputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n return type;\n }\n\n function getOutputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n return type;\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n return new _definition.GraphQLObjectType({\n name: type.name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n }\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = {};\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n resolve: cannotExecuteClientSchema\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeAST) {\n switch (typeAST.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeAST);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeAST);\n case _kinds.UNION_TYPE_DEFINITION:\n return buildUnionType(typeAST);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeAST);\n case _kinds.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeAST);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeAST);\n }\n throw new TypeError('Unknown type kind ' + typeAST.kind);\n }\n\n function buildObjectType(typeAST) {\n return new _definition.GraphQLObjectType({\n name: typeAST.name.value,\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeAST);\n },\n fields: function fields() {\n return buildFieldMap(typeAST);\n }\n });\n }\n\n function buildInterfaceType(typeAST) {\n return new _definition.GraphQLInterfaceType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildFieldMap(typeAST);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionType(typeAST) {\n return new _definition.GraphQLUnionType({\n name: typeAST.name.value,\n types: typeAST.types.map(getObjectTypeFromAST),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildScalarType(typeAST) {\n return new _definition.GraphQLScalarType({\n name: typeAST.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeAST) {\n return new _definition.GraphQLEnumType({\n name: typeAST.name.value,\n values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n }\n\n function buildInputObjectType(typeAST) {\n return new _definition.GraphQLInputObjectType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildInputValues(typeAST.fields);\n }\n });\n }\n\n function buildImplementedInterfaces(typeAST) {\n return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeAST) {\n return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function buildInputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeAST);\n }\n\n function buildOutputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeAST);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_15__[\"GraphQLSchema\"](extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"assertSchema\"])(schema);\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertValidSDLExtension\"])(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLSchema\"](extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}", "function extendSchema(schema, documentAST, options) {\n (0, _schema.assertSchema)(schema);\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDLExtension)(documentAST, schema);\n }\n\n var schemaConfig = schema.toConfig();\n var extendedConfig = extendSchemaImpl(schemaConfig, documentAST, options);\n return schemaConfig === extendedConfig ? schema : new _schema.GraphQLSchema(extendedConfig);\n}", "fixSchema(originalSchema, config) {\n let schema = cloneDeep(originalSchema);\n if (config) {\n schema = this.enrichSchemaWithConfig(schema, config);\n }\n schema = this.fixRecursively(schema);\n return schema;\n }", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function extendSchema(Schema, definition, options) {\n return new mongoose.Schema(\n Object.assign({}, Schema.obj, definition),\n options\n );\n}", "function LoneSchemaDefinition(context) {\n var oldSchema = context.getSchema();\n var alreadyDefined = oldSchema && (oldSchema.astNode || oldSchema.getQueryType() || oldSchema.getMutationType() || oldSchema.getSubscriptionType());\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](canNotDefineSchemaWithinExtensionMessage(), node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](schemaDefinitionNotAloneMessage(), node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"]('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function tighten(schema) {\n if (!isDefined(schema.type)) {\n if (isDefined(schema.properties)) {\n schema.type = 'object';\n }\n if (isDefined(schema.pattern)) {\n schema.type = 'string';\n }\n if (isDefined(schema.minLength) || isDefined(schema.maxLength)) {\n schema.type = 'string';\n }\n if (isDefined(schema.enum)) {\n var allStrings = _(schema.enum).all(function (item) {\n return typeof item === 'string';\n });\n if (allStrings) {\n schema.type = 'string';\n }\n }\n if (isDefined(schema.items)) {\n schema.type = 'array';\n }\n } else {\n if (_.isArray(schema.type)) {\n _.each(schema.type, function (unionType) {\n tighten(unionType);\n });\n }\n }\n if (!isDefined(schema.required)) {\n schema.required = true;\n }\n if (isDefined(schema.properties)) {\n _(schema.properties).each(function (propertySchema) {\n tighten(propertySchema);\n });\n if (!isDefined(schema.additionalProperties)) {\n schema.additionalProperties = false;\n }\n }\n if (isDefined(schema.items)) {\n if (_.isArray(schema.items)) {\n _.each(schema.items, function (item) {\n tighten(item);\n });\n if (!isDefined(schema.additionalItems)) {\n schema.additionalItems = false;\n }\n } else {\n tighten(schema.items);\n }\n }\n return schema;\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _GraphQLError.GraphQLError('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _GraphQLError.GraphQLError('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "function LoneSchemaDefinitionRule(context) {\n var _ref, _ref2, _oldSchema$astNode;\n\n var oldSchema = context.getSchema();\n var alreadyDefined = (_ref = (_ref2 = (_oldSchema$astNode = oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.astNode) !== null && _oldSchema$astNode !== void 0 ? _oldSchema$astNode : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getQueryType()) !== null && _ref2 !== void 0 ? _ref2 : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getMutationType()) !== null && _ref !== void 0 ? _ref : oldSchema === null || oldSchema === void 0 ? void 0 : oldSchema.getSubscriptionType();\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _GraphQLError.GraphQLError('Cannot define a new schema within a schema extension.', node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _GraphQLError.GraphQLError('Must provide only one schema definition.', node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "createSchema() {\n this.schema = this.extensionManager.schema;\n }", "fixRecursively(schema) {\n if (schema.anyOf) {\n schema = this.fixAnyOf(schema);\n }\n else if (schema.allOf) {\n schema = this.fixAllOf(schema);\n }\n if (schema.order) {\n schema = this.fixOrder(schema);\n }\n if (schema.disabled) {\n schema = this.fixDisabled(schema);\n }\n if (schema.alwaysShow) {\n schema = this.fixAlwaysShow(schema);\n }\n if (schema.alwaysShowRegExp) {\n schema = this.fixAlwaysShowRegExp(schema);\n }\n // schema fixes must be done above\n // recursively call for deeper parts of schema\n if (schema.properties) {\n Object.keys(schema.properties)\n .forEach(prop => {\n schema.properties[prop] = this.fixRecursively(schema.properties[prop]);\n });\n }\n else if (schema.items) {\n schema.items = this.fixRecursively(schema.items);\n }\n // fixes that needs above fixes to be done deeply for the current schema\n schema.componentType = this.componentTypeService.getComponentType(schema);\n return schema;\n }", "function calcSchema( inSchema ) {\n var gbCols = cols.concat( aggCols );\n var gbs = new Schema( { columns: gbCols, columnMetadata: inSchema.columnMetadata } );\n\n return gbs;\n }", "clone() {\n return schema(this);\n }", "function preformat(schema) {\n const ret = {};\n Object.keys(schema)\n .sort()\n .forEach((key, index) => {\n const keyType = schema[key].type;\n const count = schema[key].count || 1;\n const childSchema = computeNested(schema, key, keyType);\n\n ret[key] = {\n name: key,\n index,\n type: keyType,\n transformIn: (childSchema !== undefined) ? Encoder[keyType].bind(null, childSchema) : Encoder[keyType],\n transformOut: (childSchema !== undefined) ? Decoder[keyType].bind(null, childSchema) : Decoder[keyType],\n coerse: Converter[keyType],\n getSize: Encoder.getSize.bind(null, count),\n fixedSize: defaultSizes[keyType] && Encoder.getSize(count, defaultSizes[keyType]) || null,\n size: schema[key].size || defaultSizes[keyType] || null,\n count,\n nested: childSchema,\n };\n });\n\n return ret;\n }", "function mergeSchemas(config) {\n const extractedTypeDefs = (0, utils_1.asArray)(config.typeDefs || []);\n const extractedResolvers = (0, utils_1.asArray)(config.resolvers || []);\n const extractedSchemaExtensions = (0, utils_1.asArray)(config.schemaExtensions || []);\n const schemas = config.schemas || [];\n for (const schema of schemas) {\n extractedTypeDefs.push(schema);\n extractedResolvers.push((0, utils_1.getResolversFromSchema)(schema, true));\n extractedSchemaExtensions.push((0, merge_1.extractExtensionsFromSchema)(schema));\n }\n return (0, makeExecutableSchema_js_1.makeExecutableSchema)({\n parseOptions: config,\n ...config,\n typeDefs: extractedTypeDefs,\n resolvers: extractedResolvers,\n schemaExtensions: extractedSchemaExtensions,\n });\n}", "compactEntitySchema(schema, entity, transformedSchemas) {\n const reqEntity = transformedSchemas[entity['entityName']];\n reqEntity.entityName = entity['entityName'];\n reqEntity.name = entity['name'];\n reqEntity.columns = [];\n entity.columns.forEach(col => {\n let defaultValue = col.columnValue ? col.columnValue.defaultValue : '';\n const type = col.sqlType;\n if (type === 'number' && !col.primaryKey) {\n defaultValue = _.isEmpty(defaultValue) ? null : _.parseInt(defaultValue);\n }\n else if (type === 'boolean') {\n defaultValue = _.isEmpty(defaultValue) ? null : (defaultValue === 'true' ? 1 : 0);\n }\n else {\n defaultValue = _.isEmpty(defaultValue) ? null : defaultValue;\n }\n reqEntity.columns.push({\n name: col['name'],\n fieldName: col['fieldName'],\n generatorType: col['generatorType'],\n sqlType: col['sqlType'],\n primaryKey: col['primaryKey'],\n defaultValue: defaultValue\n });\n });\n _.forEach(entity.relations, r => {\n let targetEntitySchema, targetEntity, col, sourceColumn, mapping;\n if (r.cardinality === 'ManyToOne' || r.cardinality === 'OneToOne') {\n targetEntity = _.find(schema.tables, t => t.name === r.targetTable);\n mapping = r.mappings[0];\n if (targetEntity) {\n targetEntity = targetEntity.entityName;\n sourceColumn = mapping.sourceColumn;\n col = reqEntity.columns.find(column => column.name === sourceColumn);\n targetEntitySchema = schema.tables.find(table => table.name === r.targetTable);\n const foreignRelation = {\n sourceFieldName: r.fieldName,\n targetEntity: targetEntity,\n targetTable: r.targetTable,\n targetColumn: mapping.targetColumn,\n targetPath: '',\n dataMapper: [],\n targetFieldName: targetEntitySchema.columns.find(column => column.name === mapping.targetColumn).fieldName\n };\n foreignRelation.targetPath = foreignRelation.sourceFieldName + '.' + foreignRelation.targetFieldName;\n foreignRelation.dataMapper = _.chain(targetEntitySchema.columns)\n .keyBy(childCol => foreignRelation.sourceFieldName + '.' + childCol.fieldName)\n .mapValues(childCol => new ColumnInfo(childCol.name, childCol.fieldName)).value();\n col.foreignRelations = col.foreignRelations || [];\n col.foreignRelations.push(foreignRelation);\n }\n }\n });\n return reqEntity;\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (!innerTypeMap[typeName]) {\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]);\n }\n return innerTypeMap[typeName];\n }\n\n function makeSchemaDef(def) {\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n return new _definition.GraphQLInterfaceType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n return new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function getModelFromSchema(schema) {\n var data = {\n name: schema.id,\n schema: {}\n }\n\n var newSchema = {}\n var tmp = null\n _.each(schema.properties, function (v, propName) {\n if (v['$ref'] != null) {\n tmp = {\n type: Schema.ObjectId,\n ref: v['$ref']\n }\n } else {\n tmp = translateComplexType(v) //{}\n }\n newSchema[propName] = tmp\n })\n data.schema = new Schema(newSchema)\n return data\n}", "function GraphQLSchema(config) {\n var _config$directives; // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n\n\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2]; // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4]; // Directives are not validated until validateSchema() is called.\n\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function patchSchema(data) {\n data.properties.upload_type.enum = data.properties.upload_type.type.enum;\n data.properties.upload_type.type = \"string\";\n data.properties.publication_type.enum =\n data.properties.publication_type.type.enum;\n data.properties.publication_type.type = \"string\";\n data.properties.image_type.enum = data.properties.image_type.type.enum;\n data.properties.image_type.type = \"string\";\n return data;\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "refine(schema, _options) {\n // Don't modify the original schema which may be in use elsewhere\n schema = _.cloneDeep(schema);\n // Deep clone is not required here, we just want\n // to modify the addFields property\n const options = _.clone(_options);\n options.addFields = schema.concat(options.addFields || []);\n // The arrangeFields option is trickier because we've already\n // done a compose() and so the groups are now denormalized as\n // properties of each field. Reconstruct the old\n // arrangeFields option so we can concatenate the new one\n const oldArrangeFields = [];\n _.each(schema, function (field) {\n if (field.group) {\n let group = _.find(oldArrangeFields, { name: field.group.name });\n if (!group) {\n group = _.clone(field.group);\n group.fields = [];\n oldArrangeFields.push(group);\n }\n group.fields.push(field.name);\n }\n });\n options.arrangeFields = oldArrangeFields.concat(options.arrangeFields || []);\n return self.compose(options);\n }", "function Schema_from_swagger(schema_content) {\n 'use strict';\n // use new\n\n this.resolve = (input_json_obj) => {\n //const schema = getSwaggerV2Schema(schema_content, '/default_endpoint')\n const schema = schema_content;\n const ok = schemaValidator(schema, input_json_obj);\n if (ok) {\n return input_json_obj;\n } else {\n throw new Error('mismatch: The constraint aspect of template failed');\n }\n };\n\n this.generate = (obj) => this.resolve(obj);\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _kinds.Kind.DOCUMENT || (0, _devAssert.default)(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n (0, _validate.assertValidSDL)(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = (0, _extendSchema.extendSchemaImpl)(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _directives.specifiedDirectives[_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _directives.specifiedDirectives.length; _i4++) {\n _loop(_i4);\n }\n\n return new _schema.GraphQLSchema(config);\n}", "get convertedSchema() {\n let schema = {\n $schema: \"http://json-schema.org/schema#\",\n title: this.label,\n type: \"object\",\n required: [],\n properties: this.fieldsToSchema(this.fields),\n };\n return schema;\n }", "function normalizeSchema(schema) {\n // Add id virtual property\n schema.virtual('id').get(function () {\n return this._id.toString();\n });\n // Remove _id and __v\n schema.set('toJSON', {\n transform: normalizeToJson,\n virtuals: true\n });\n // Remove __v\n schema.set('toObject', {\n transform: normalizeToObject,\n virtuals: true\n });\n return schema;\n}", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = (0, _keyValMap.default)(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _schema.GraphQLSchema(_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: (0, _objectValues.default)(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n } else if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _directives.GraphQLDirective(_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if ((0, _definition.isScalarType)(type) || (0, _introspection.isIntrospectionType)(type)) {\n return type;\n }\n\n if ((0, _definition.isObjectType)(type)) {\n var config = type.toConfig();\n return new _definition.GraphQLObjectType(_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if ((0, _definition.isInterfaceType)(type)) {\n var _config = type.toConfig();\n\n return new _definition.GraphQLInterfaceType(_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if ((0, _definition.isUnionType)(type)) {\n var _config2 = type.toConfig();\n\n return new _definition.GraphQLUnionType(_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if ((0, _definition.isEnumType)(type)) {\n var _config3 = type.toConfig();\n\n return new _definition.GraphQLEnumType(_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if ((0, _definition.isInputObjectType)(type)) {\n var _config4 = type.toConfig();\n\n return new _definition.GraphQLInputObjectType(_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type: ' + (0, _inspect.default)(type));\n }\n}", "generateSchema(collection) {\n\n const collectionName = collection._name;\n const mainTypeName = collection.typeName ? collection.typeName : Utils.camelToSpaces(_.initial(collectionName).join('')); // default to posts -> Post\n\n // backward-compatibility code: we do not want user.telescope fields in the graphql schema\n const schema = Utils.stripTelescopeNamespace(collection.simpleSchema()._schema);\n\n let mainSchema = [], inputSchema = [], unsetSchema = [];\n\n _.forEach(schema, (field, key) => {\n // console.log(field, key)\n const fieldType = jsTypeToGraphQLType(field.type.singleType);\n\n if (key.indexOf('$') === -1) { // skip fields with \"$\"\n\n // 1. main schema\n mainSchema.push(`${key}: ${fieldType}`);\n\n // if field has a resolver, also push it to schema\n if (field.resolveAs) {\n mainSchema.push(field.resolveAs);\n }\n\n if (field.insertableBy || field.editableBy) {\n\n // note: marking a field as required makes it required for updates, too,\n // which makes partial updates impossible\n // const isRequired = field.optional ? '' : '!';\n\n const isRequired = '';\n\n // 2. input schema\n inputSchema.push(`${key}: ${fieldType}${isRequired}`);\n\n // 3. unset schema\n unsetSchema.push(`${key}: Boolean`);\n\n }\n }\n });\n\n let graphQLSchema = `\n type ${mainTypeName} {\n ${mainSchema.join('\\n ')}\n }\n `\n\n if (inputSchema.length) {\n graphQLSchema += `\n input ${collectionName}Input {\n ${inputSchema.join('\\n ')}\n }\n input ${collectionName}Unset {\n ${unsetSchema.join('\\n ')}\n }\n `\n }\n\n return graphQLSchema;\n }", "function expandShorthand(schema) {\n var schemaClone = {};\n\n Object.keys(schema).forEach(function (key) {\n var definition = schema[key];\n // CASE 1: Not shorthand. Just clone\n if (_mongoObject2.default.isBasicObject(definition)) {\n schemaClone[key] = _extends({}, definition);\n return;\n }\n\n // CASE 2: The definition is an array of some type\n if (Array.isArray(definition)) {\n if (Array.isArray(definition[0])) {\n throw new Error('Array shorthand may only be used to one level of depth (' + key + ')');\n }\n var type = definition[0];\n schemaClone[key] = { type: Array };\n\n // Also add the item key definition\n var itemKey = key + '.$';\n if (schema[itemKey]) {\n throw new Error('Array shorthand used for ' + key + ' field but ' + key + '.$ key is already in the schema');\n }\n\n if (type instanceof RegExp) {\n schemaClone[itemKey] = { type: String, regEx: type };\n } else {\n schemaClone[itemKey] = { type: type };\n }\n return;\n }\n\n // CASE 3: The definition is a regular expression\n if (definition instanceof RegExp) {\n schemaClone[key] = {\n type: String,\n regEx: definition\n };\n return;\n }\n\n // CASE 4: The definition is something, a type\n schemaClone[key] = { type: definition };\n });\n\n return schemaClone;\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSkipDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLIncludeDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDeprecatedDirective\"]);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'specifiedBy';\n })) {\n directives.push(_type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLSpecifiedByDirective\"]);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function GraphQLSchema(config) {\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n if (config && config.assumeValid) {\n this.__validationErrors = [];\n } else {\n this.__validationErrors = undefined; // Otherwise check for common mistakes during construction to produce\n // clear and early error messages.\n\n !(_typeof(config) === 'object') ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, 'Must provide configuration object.') : void 0;\n !(!config.types || Array.isArray(config.types)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\")) : void 0;\n !(!config.directives || Array.isArray(config.directives)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\")) : void 0;\n !(!config.allowedLegacyNames || Array.isArray(config.allowedLegacyNames)) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(0, '\"allowedLegacyNames\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.allowedLegacyNames), \".\")) : void 0;\n }\n\n this.__allowedLegacyNames = config.allowedLegacyNames || [];\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = config.directives || _directives__WEBPACK_IMPORTED_MODULE_3__[\"specifiedDirectives\"];\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes; // Build type map now to detect any errors within this schema.\n\n var initialTypes = [this.getQueryType(), this.getMutationType(), this.getSubscriptionType(), _introspection__WEBPACK_IMPORTED_MODULE_5__[\"__Schema\"]];\n var types = config.types;\n\n if (types) {\n initialTypes = initialTypes.concat(types);\n } // Keep track of all types referenced within the schema.\n\n\n var typeMap = Object.create(null); // First by deeply visiting all initial types.\n\n typeMap = initialTypes.reduce(typeMapReducer, typeMap); // Then by deeply visiting all directive types.\n\n typeMap = this._directives.reduce(typeMapDirectiveReducer, typeMap); // Storing the resulting map for reference by the schema.\n\n this._typeMap = typeMap;\n this._possibleTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementations = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(this._typeMap)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var type = _step.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isObjectType\"])(type)) {\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = type.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var iface = _step2.value;\n\n if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isInterfaceType\"])(iface)) {\n var impls = this._implementations[iface.name];\n\n if (impls) {\n impls.push(type);\n } else {\n this._implementations[iface.name] = [type];\n }\n }\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } else if (Object(_definition__WEBPACK_IMPORTED_MODULE_2__[\"isAbstractType\"])(type) && !this._implementations[type.name]) {\n this._implementations[type.name] = [];\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n }", "function cleanDiscriminatorSchema(schema) {\n const copy = { ...schema };\n if (copy.format === '') {\n delete copy.format;\n }\n return copy;\n}", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](_objectSpread(_objectSpread({}, schemaConfig), {}, {\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLDirective\"](_objectSpread(_objectSpread({}, config), {}, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread(_objectSpread({}, arg), {}, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread(_objectSpread({}, field), {}, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isScalarType\"])(type) || Object(_type_introspection_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"](_objectSpread(_objectSpread({}, config), {}, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"](_objectSpread(_objectSpread({}, _config), {}, {\n interfaces: function interfaces() {\n return sortTypes(_config.interfaces);\n },\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"](_objectSpread(_objectSpread({}, _config2), {}, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"](_objectSpread(_objectSpread({}, _config3), {}, {\n values: sortObjMap(_config3.values)\n }));\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"](_objectSpread(_objectSpread({}, _config4), {}, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // istanbul ignore next (Not reachable. All possible types have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Unexpected type: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n}", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom3.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function lexicographicSortSchema(schema) {\n var schemaConfig = schema.toConfig();\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(sortByName(schemaConfig.types), function (type) {\n return type.name;\n }, sortNamedType);\n return new _type_schema__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLSchema\"](_objectSpread({}, schemaConfig, {\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: sortByName(schemaConfig.directives).map(sortDirective),\n query: replaceMaybeType(schemaConfig.query),\n mutation: replaceMaybeType(schemaConfig.mutation),\n subscription: replaceMaybeType(schemaConfig.subscription)\n }));\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function replaceMaybeType(maybeType) {\n return maybeType && replaceNamedType(maybeType);\n }\n\n function sortDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLDirective\"](_objectSpread({}, config, {\n locations: sortBy(config.locations, function (x) {\n return x;\n }),\n args: sortArgs(config.args)\n }));\n }\n\n function sortArgs(args) {\n return sortObjMap(args, function (arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n });\n }\n\n function sortFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: sortArgs(field.args)\n });\n });\n }\n\n function sortInputFields(fieldsMap) {\n return sortObjMap(fieldsMap, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n });\n }\n\n function sortTypes(arr) {\n return sortByName(arr).map(replaceNamedType);\n }\n\n function sortNamedType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isScalarType\"])(type) || Object(_type_introspection__WEBPACK_IMPORTED_MODULE_6__[\"isIntrospectionType\"])(type)) {\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isObjectType\"])(type)) {\n var config = type.toConfig();\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return sortTypes(config.interfaces);\n },\n fields: function fields() {\n return sortFields(config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInterfaceType\"])(type)) {\n var _config = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInterfaceType\"](_objectSpread({}, _config, {\n fields: function fields() {\n return sortFields(_config.fields);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isUnionType\"])(type)) {\n var _config2 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLUnionType\"](_objectSpread({}, _config2, {\n types: function types() {\n return sortTypes(_config2.types);\n }\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isEnumType\"])(type)) {\n var _config3 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLEnumType\"](_objectSpread({}, _config3, {\n values: sortObjMap(_config3.values)\n }));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_5__[\"isInputObjectType\"])(type)) {\n var _config4 = type.toConfig();\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_5__[\"GraphQLInputObjectType\"](_objectSpread({}, _config4, {\n fields: function fields() {\n return sortInputFields(_config4.fields);\n }\n }));\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type), \"\\\".\"));\n }\n}", "function fixSchema(schema){\n recurseotron.recurse(schema,{},function(obj,state){\n if ((state.key == 'id') && (typeof obj == 'string')) delete state.parent.id;\n if ((state.key == 'title') && (typeof obj == 'string')) delete state.parent.title;\n if ((state.key == 'description') && (typeof obj == 'string')) delete state.parent.description;\n if ((state.key == 'location') && (typeof obj == 'string')) delete state.parent.location;\n if ((state.key == 'type') && (typeof obj == 'string')) {\n if (obj == 'textarea') {\n state.parent.type = 'string';\n }\n }\n if ((state.key == '$ref') && (typeof obj == 'string') && !obj.startsWith('#/')) {\n state.parent[\"$ref\"] = '#/definitions/'+obj;\n }\n if ((state.key == 'required') && (typeof obj == 'boolean')) {\n if (obj === true) {\n var greatgrandparent = state.parents[state.parents.length-3];\n if (greatgrandparent) {\n if (state.keys[state.keys.length-2] != 'items') { // TODO better check for arrays\n if (!greatgrandparent.required) greatgrandparent.required = [];\n greatgrandparent.required.push(state.keys[state.keys.length-2]);\n }\n }\n }\n delete state.parent.required;\n }\n });\n}", "function getSchema(schema, skipParsing) {\n return skipParsing ? schema : schemaParser.fromDomainSchema(schema);\n }", "function graphqlSchemaVersion (newSchema, oldSchema = null, oldVersion = DEFAULT_VERSION) {\n if (!oldSchema) { return oldVersion }\n\n const increment = diffSchema(new Pair(newSchema, oldSchema)\n .map(normalizeSchema)\n .map(buildClientSchema))\n if (increment === INCREMENT_NONE) { return oldVersion }\n if (increment < INCREMENT_MINOR) { return semver.inc(oldVersion, 'patch') }\n if (increment < INCREMENT_MAJOR) { return semver.inc(oldVersion, 'minor') }\n if (increment === INCREMENT_MAJOR) { return semver.inc(oldVersion, 'major') }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "clone(schema) {\n const copy = Object.create(Object.getPrototypeOf(this), Object.getOwnPropertyDescriptors(this));\n if (schema)\n copy.schema = schema;\n copy.items = copy.items.map(it => identity.isNode(it) || identity.isPair(it) ? it.clone(schema) : it);\n if (this.range)\n copy.range = this.range.slice();\n return copy;\n }", "clone() {\n const copy = Object.create(Document.prototype, {\n [identity.NODE_TYPE]: { value: identity.DOC }\n });\n copy.commentBefore = this.commentBefore;\n copy.comment = this.comment;\n copy.errors = this.errors.slice();\n copy.warnings = this.warnings.slice();\n copy.options = Object.assign({}, this.options);\n if (this.directives)\n copy.directives = this.directives.clone();\n copy.schema = this.schema.clone();\n // @ts-expect-error We can't really know that this matches Contents.\n copy.contents = identity.isNode(this.contents)\n ? this.contents.clone(copy.schema)\n : this.contents;\n if (this.range)\n copy.range = this.range.slice();\n return copy;\n }", "clone(schema) {\n const copy = Object.create(Object.getPrototypeOf(this), Object.getOwnPropertyDescriptors(this));\n if (schema)\n copy.schema = schema;\n copy.items = copy.items.map(it => isNode(it) || isPair(it) ? it.clone(schema) : it);\n if (this.range)\n copy.range = this.range.slice();\n return copy;\n }", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function buildASTSchema(documentAST, options) {\n documentAST != null && documentAST.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].DOCUMENT || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0, 'Must provide valid Document AST.');\n\n if ((options === null || options === void 0 ? void 0 : options.assumeValid) !== true && (options === null || options === void 0 ? void 0 : options.assumeValidSDL) !== true) {\n Object(_validation_validate_mjs__WEBPACK_IMPORTED_MODULE_3__[\"assertValidSDL\"])(documentAST);\n }\n\n var emptySchemaConfig = {\n description: undefined,\n types: [],\n directives: [],\n extensions: undefined,\n extensionASTNodes: [],\n assumeValid: false\n };\n var config = Object(_extendSchema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"extendSchemaImpl\"])(emptySchemaConfig, documentAST, options);\n\n if (config.astNode == null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n\n switch (type.name) {\n // Note: While this could make early assertions to get the correctly\n // typed values below, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n case 'Query':\n config.query = type;\n break;\n\n case 'Mutation':\n config.mutation = type;\n break;\n\n case 'Subscription':\n config.subscription = type;\n break;\n }\n }\n }\n\n var directives = config.directives; // If specified directives were not explicitly declared, add them.\n\n var _loop = function _loop(_i4) {\n var stdDirective = _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"][_i4];\n\n if (directives.every(function (directive) {\n return directive.name !== stdDirective.name;\n })) {\n directives.push(stdDirective);\n }\n };\n\n for (var _i4 = 0; _i4 < _type_directives_mjs__WEBPACK_IMPORTED_MODULE_5__[\"specifiedDirectives\"].length; _i4++) {\n _loop(_i4);\n }\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLSchema\"](config);\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedTypes), node.name));\n }\n }\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if (Object(_language_predicates_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError_mjs__WEBPACK_IMPORTED_MODULE_4__[\"GraphQLError\"](\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + Object(_jsutils_didYouMean_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(suggestedTypes), node.name));\n }\n }\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, allTypeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + (0, _didYouMean.default)(suggestedTypes), node.name));\n }\n }\n}", "function PossibleTypeExtensionsRule(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema === null || schema === void 0 ? void 0 : schema.getType(typeName);\n var expectedKind;\n\n if (defNode) {\n expectedKind = defKindToExtKind[defNode.kind];\n } else if (existingType) {\n expectedKind = typeToExtKind(existingType);\n }\n\n if (expectedKind) {\n if (expectedKind !== node.kind) {\n var kindStr = extensionKindToTypeName(node.kind);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend non-\".concat(kindStr, \" type \\\"\").concat(typeName, \"\\\".\"), defNode ? [defNode, node] : node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, allTypeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Cannot extend type \\\"\".concat(typeName, \"\\\" because it is not defined.\") + (0, _didYouMean.default)(suggestedTypes), node.name));\n }\n }\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_2__[\"parse\"])(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function updateReducedSchema(args) {\n var\n async = require('async'),\n fs = require('fs'),\n fileName = process.cwd() + '/mojits/FormEditorMojit/autoload/reduced-schema/InCase_T.common.js.copy',\n rawFile,\n fileHead = [],\n fileFoot = [],\n\n schema,\n params = args.originalParams,\n schemaMember = params.schemaMember || '';\n\n if ('' === schemaMember || !Y.dcforms.schema.InCase_T.hasOwnProperty(schemaMember)) {\n return args.callback('Missing or invalid argument: schemaMember');\n }\n\n async.series([loadSchema, updateSchema, cleanDynamicMembers, loadFile, cutOutJSON, saveFile], onAllDone);\n\n function loadSchema(itcb) {\n getReducedSchema({\n 'user': args.user,\n 'callback': onLoadedFromDisk\n });\n\n function onLoadedFromDisk(err, jsonObj) {\n if (err) {\n return itcb(err);\n }\n schema = jsonObj;\n itcb(null);\n }\n }\n\n function updateSchema(itcb) {\n var member = schema[schemaMember];\n\n member.label = member.label ? member.label : {};\n member.label.en = member.label.en ? member.label.en : 'missing';\n member.label.de = member.label.de ? member.label.de : 'missing';\n\n member.description = member.description ? member.description : {};\n member.description.en = member.description.en ? member.description.en : 'missing';\n member.description.de = member.description.de ? member.description.de : 'missing';\n\n params.label = params.label ? params.label : {};\n member.label.en = params.label.en ? params.label.en : member.label.en;\n member.label.de = params.label.de ? params.label.de : member.label.de;\n\n params.description = params.description ? params.description : {};\n member.description.en = params.description.en ? params.description.en : member.description.en;\n member.description.de = params.description.de ? params.description.de : member.description.de;\n\n itcb(null);\n }\n\n function cleanDynamicMembers(itcb) {\n var\n member,\n disallow = [\n 'actTypes',\n 'actTypesLabel',\n '-en',\n '-de',\n 'dateFormat',\n 'modeLabel',\n 'list'\n ],\n i, k;\n\n for (k in schema) {\n if (schema.hasOwnProperty(k)) {\n member = schema[k];\n // remove members which are dynamically added\n for (i = 0; i < disallow.length; i++) {\n if (member.hasOwnProperty(disallow[i])) {\n Y.log('Clean up submitted schema, remove dynamic property: ' + k + '.' + disallow[i], 'debug', NAME);\n delete member[disallow[i]];\n }\n }\n }\n }\n\n itcb(null);\n }\n\n function loadFile(itcb) {\n fs.readFile(fileName, onFileRead);\n\n function onFileRead(err, buffer) {\n if (err) {\n return itcb(err);\n }\n\n rawFile = buffer + '';\n itcb(null);\n }\n }\n\n function cutOutJSON(itcb) {\n var\n IN_HEADER = 0,\n IN_JSON = 1,\n IN_FOOTER = 2,\n\n lines = rawFile.split('\\n'),\n state = IN_HEADER,\n i;\n\n for (i = 0; i < lines.length; i++) {\n if (lines[i].trim() === '//-- end schema') {\n state = IN_FOOTER;\n }\n\n if (state === IN_FOOTER) {\n fileFoot.push(lines[i]);\n }\n\n if (state === IN_HEADER) {\n fileHead.push(lines[i]);\n }\n\n if (lines[i].trim() === '//-- start schema') {\n state = IN_JSON;\n }\n }\n\n itcb(null);\n }\n\n function saveFile(itcb) {\n var\n jsonText = JSON.stringify(schema, undefined, 4),\n jsonLines = jsonText.split('\\n'),\n fileText = fileHead.join('\\n') + '\\n' + ' Y.dcforms.schema.InCase_T = ',\n i;\n\n for (i = 0; i < jsonLines.length; i++) {\n if (i === jsonLines.length - 1) {\n jsonLines[i] = jsonLines[i] + ';';\n }\n fileText = fileText + ' ' + jsonLines[i] + '\\n';\n }\n\n fileText = fileText + '\\n' + fileFoot.join('\\n');\n\n fs.writeFile(fileName, fileText, itcb);\n }\n\n function onAllDone(err) {\n if (err) {\n Y.log('Could not load ' + fileName + ': ' + JSON.stringify(err), 'warn', NAME);\n return args.callback(err);\n }\n\n // schema may have been changed by other users, send back updated file from disk\n args.callback(null, schema);\n }\n }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "async function generateDiff() {\n // Get the instance of `graphql` that `graphbrainz` sees.\n const graphql = require(resolveFrom(\n require.resolve('graphbrainz'),\n 'graphql'\n ))\n\n const extendedSchema = createSchema(graphBrainzSchema, {\n extensions: ['graphbrainz/extensions/cover-art-archive'],\n })\n\n const schemaJSON = await schemaToJSON(graphBrainzSchema, { graphql })\n const extendedSchemaJSON = await schemaToJSON(extendedSchema, { graphql })\n\n return diffSchema(schemaJSON, extendedSchemaJSON)\n}", "clone() {\n const copy = Object.create(Document.prototype, {\n [NODE_TYPE]: { value: DOC }\n });\n copy.commentBefore = this.commentBefore;\n copy.comment = this.comment;\n copy.errors = this.errors.slice();\n copy.warnings = this.warnings.slice();\n copy.options = Object.assign({}, this.options);\n if (this.directives)\n copy.directives = this.directives.clone();\n copy.schema = this.schema.clone();\n copy.contents = isNode(this.contents)\n ? this.contents.clone(copy.schema)\n : this.contents;\n if (this.range)\n copy.range = this.range.slice();\n return copy;\n }", "enrichSchemaWithConfig(schema, config) {\n return mergeWith(schema, config, (currentSchema, currentConfig, key) => {\n if ((key === 'properties' || key === 'items') && !currentSchema) {\n console.warn(`config => ${JSON.stringify(currentConfig, (configKey, value) => {\n if (typeof value === 'function') {\n return 'ƒ()';\n }\n return value;\n }, 2)} should not be under \"${key}\" because schema does not have \"${key}\"`);\n // cancel merge to avoid creating broken json schema\n return null;\n }\n if (currentSchema && key === 'properties') {\n const configKeys = Object.keys(currentConfig);\n configKeys\n .filter(configKey => !currentSchema[configKey])\n .forEach(wrongConfigKey => {\n delete currentConfig[wrongConfigKey];\n console.warn(wrongConfigKey);\n });\n }\n });\n }", "buildSchema() {\n if (!this.dbSchema) return this.schema;\n for (let tablename in this.dbSchema) {\n this.mapDbTableToGraphqlType(tablename);\n this.mapDbTableToGraphqlQuery(tablename);\n this.mapDbTableToGraphqlFirstOf(tablename);\n this.mapDbTableToGraphqlMutation(tablename);\n this.mapDbTableToGraphqlInput(tablename);\n }\n return this.schema;\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function buildSchema(source, options) {\n var document = (0, _parser.parse)(source, {\n noLocation: options === null || options === void 0 ? void 0 : options.noLocation,\n allowLegacySDLEmptyFields: options === null || options === void 0 ? void 0 : options.allowLegacySDLEmptyFields,\n allowLegacySDLImplementsInterfaces: options === null || options === void 0 ? void 0 : options.allowLegacySDLImplementsInterfaces,\n experimentalFragmentVariables: options === null || options === void 0 ? void 0 : options.experimentalFragmentVariables\n });\n return buildASTSchema(document, {\n commentDescriptions: options === null || options === void 0 ? void 0 : options.commentDescriptions,\n assumeValidSDL: options === null || options === void 0 ? void 0 : options.assumeValidSDL,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n });\n}", "function parseSchema(subschema, out, fullPath) {\r\n subschema.eachPath(function (pathString, pathO) {\r\n\r\n var include = excludedPaths.indexOf(pathString) === -1;\r\n if (include && opt.includes != '*')\r\n include = includedPaths.indexOf(pathString) !== -1;\r\n\r\n if (include) {\r\n var type = getType(pathString, pathO.constructor.name);\r\n var defaultValue = false;\r\n //if( self.isInit(pathString) )\r\n defaultValue = self.get(pathString);\r\n\r\n function iterate(path, obj) {\r\n if (matches = path.match(/([^.]+)\\.(.*)/)) {\r\n var key = matches[1];\r\n if (!obj[key]) {\r\n // Humanize object title\r\n var sentenceCased = changeCase.sentenceCase(key);\r\n var titleCased = changeCase.titleCase(sentenceCased);\r\n obj[key] = {type: 'object', title: titleCased, properties: {}}\r\n }\r\n iterate(matches[2], obj[key].properties);\r\n } else {\r\n if (['string', 'date', 'boolean', 'number', 'object', 'image', 'gallery', 'geojson'].indexOf(type.type) >= 0) {\r\n obj[path] = {};\r\n if (_.isFunction(pathO.options.default)) {\r\n type.default = pathO.options.default();\r\n }\r\n if (defaultValue && opt.setDefaults) {\r\n pathO.options.default = defaultValue;\r\n if (type.type == 'date') {\r\n pathO.options.default = pathO.options.default.toISOString();\r\n }\r\n }\r\n // TODO: Check if fullpath is undefined. If it is, attach it to options\r\n if (fullPath) {\r\n pathO.arraypath = fullPath + '.' + pathString;\r\n }\r\n addCustomOptions(pathO);\r\n _.extend(obj[path], convertTypeOptions(type.type, pathO.options), type);\r\n } else if (type.type == 'array') {\r\n obj[path] = type;\r\n // Humanize array title\r\n var sentenceCased = changeCase.sentenceCase(path);\r\n var titleCased = changeCase.titleCase(sentenceCased);\r\n obj[path].title = titleCased;\r\n if (type.items.type == 'object') {\r\n // TODO: Pass to the the parseSchema the current path\r\n parseSchema(pathO.schema, obj[path].items.properties, pathO.path);\r\n } else {\r\n type = getType(pathString, pathO.caster.instance);\r\n\r\n if (_.isFunction(pathO.options.default)) {\r\n type.default = pathO.options.default();\r\n }\r\n if (defaultValue && opt.setDefaults) {\r\n pathO.options.default = defaultValue;\r\n if (type.type == 'date') {\r\n pathO.options.default = pathO.options.default.toISOString();\r\n }\r\n }\r\n _.extend(obj[path].items, convertTypeOptions(type.type, pathO.options.type[0]), type);\r\n\r\n }\r\n } else {\r\n console.log('unsupported type: ' + type.type);\r\n }\r\n }\r\n }\r\n\r\n iterate(pathString, out);\r\n }\r\n });\r\n }", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "withSchema(schema) {\n return new QueryCreator({\n ...this.#props,\n executor: this.#props.executor.withPluginAtFront(new with_schema_plugin_js_1.WithSchemaPlugin(schema)),\n });\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function GraphQLSchema(config) {\n var _config$directives;\n\n // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_8__[\"default\"])(config) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, \"\\\"types\\\" must be Array if provided but got: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, '\"directives\" must be Array if provided but got: ' + \"\".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && Object(_jsutils_toObjMap_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"specifiedDirectives\"]; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2];\n // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4];\n\n // Directives are not validated until validateSchema() is called.\n if (Object(_directives_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isDirective\"])(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"__Schema\"], allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_6__[\"default\"])(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if (Object(_definition_mjs__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "function PossibleTypeExtensions(context) {\n var schema = context.getSchema();\n var definedTypes = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = context.getDocument().definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_4__[\"isTypeDefinitionNode\"])(def)) {\n definedTypes[def.name.value] = def;\n }\n }\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n return {\n ScalarTypeExtension: checkExtension,\n ObjectTypeExtension: checkExtension,\n InterfaceTypeExtension: checkExtension,\n UnionTypeExtension: checkExtension,\n EnumTypeExtension: checkExtension,\n InputObjectTypeExtension: checkExtension\n };\n\n function checkExtension(node) {\n var typeName = node.name.value;\n var defNode = definedTypes[typeName];\n var existingType = schema && schema.getType(typeName);\n\n if (defNode) {\n var expectedKind = defKindToExtKind[defNode.kind];\n\n if (expectedKind !== node.kind) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingDifferentTypeKindMessage(typeName, extensionKindToTypeName(expectedKind)), [defNode, node]));\n }\n } else if (existingType) {\n var _expectedKind = typeToExtKind(existingType);\n\n if (_expectedKind !== node.kind) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingDifferentTypeKindMessage(typeName, extensionKindToTypeName(_expectedKind)), node));\n }\n } else {\n var allTypeNames = Object.keys(definedTypes);\n\n if (schema) {\n allTypeNames = allTypeNames.concat(Object.keys(schema.getTypeMap()));\n }\n\n var suggestedTypes = Object(_jsutils_suggestionList__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeName, allTypeNames);\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLError\"](extendingUnknownTypeMessage(typeName, suggestedTypes), node.name));\n }\n }\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf_mjs__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "compactSchema(schema) {\n const dbInfo = new DBInfo();\n const transformedSchemas = new Map();\n schema.tables.forEach(entitySchema => {\n transformedSchemas[entitySchema.entityName] = {};\n });\n schema.tables.forEach(entitySchema => {\n this.compactEntitySchema(schema, entitySchema, transformedSchemas);\n });\n dbInfo.schema.name = schema.name;\n dbInfo.schema.isInternal = schema.isInternal;\n dbInfo.schema.entities = transformedSchemas;\n return dbInfo;\n }", "function extend(name, schema) {\n // makes sure new rules are properly formatted.\n guardExtend(name, schema);\n // Full schema object.\n if (typeof schema === 'object') {\n RuleContainer.extend(name, schema);\n return;\n }\n RuleContainer.extend(name, {\n validate: schema\n });\n}", "function extend(name, schema) {\n // makes sure new rules are properly formatted.\n guardExtend(name, schema);\n // Full schema object.\n if (typeof schema === 'object') {\n RuleContainer.extend(name, schema);\n return;\n }\n RuleContainer.extend(name, {\n validate: schema\n });\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function isSchema(schema) {\n return Object(_jsutils_instanceOf__WEBPACK_IMPORTED_MODULE_7__[\"default\"])(schema, GraphQLSchema);\n}", "cloneTo(anotherSchemaComposer, cloneMap = new Map()) {\n if (!anotherSchemaComposer) {\n throw new Error('You should provide SchemaComposer for InterfaceTypeComposer.cloneTo()');\n }\n\n if (cloneMap.has(this)) return cloneMap.get(this);\n const cloned = new Resolver({\n name: this.name,\n displayName: this.displayName,\n kind: this.kind,\n description: this.description,\n deprecationReason: this.deprecationReason,\n projection: _objectSpread({}, this.projection),\n extensions: _objectSpread({}, this.extensions),\n resolve: this.resolve\n }, anotherSchemaComposer);\n cloneMap.set(this, cloned);\n\n if (this.type) {\n cloned.type = this.type.cloneTo(anotherSchemaComposer, cloneMap);\n }\n\n if (this.parent) {\n cloned.parent = this.parent.cloneTo(anotherSchemaComposer, cloneMap);\n }\n\n cloned.args = mapEachKey(this.args, argConfig => _objectSpread(_objectSpread({}, argConfig), {}, {\n type: cloneTypeTo(argConfig.type, anotherSchemaComposer, cloneMap),\n extensions: _objectSpread({}, argConfig.extensions)\n }));\n return cloned;\n }", "function addSchema(schemaInheritance, schemaName, schema) {\n console.log('addSchema', schemaName, schemaInheritance, schema);\n\n var parentModelClass;\n var parentModelClassName = '';\n\n //retreive the good model class the new model should inherit from\n if (schemaInheritance.length > 1) {\n parentModelClassName = schemaInheritance[schemaInheritance.length - 2].capitalize();\n parentModelClass = schemasRegistry.getByName(parentModelClassName).EmberModel;\n\n schemaName = schemaInheritance[schemaInheritance.length - 1].capitalize();\n }\n else {\n parentModelClass = DS.Model;\n }\n\n //overrided by default following main thread rules (schema load order)\n console.log(\n 'Adding schema', {\n schemaName: schemaName,\n parentModelClass: parentModelClass,\n parentModelClassName: parentModelClassName\n }, schema);\n\n Application[schemaName] = generateEmberModelFromSchema(\n schema,\n schemaName,\n parentModelClass,\n parentModelClassName);\n\n console.groupEnd();\n }", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "async function createOrUpdateSchema() {\n const subscriptionId =\n process.env[\"LOGIC_SUBSCRIPTION_ID\"] || \"34adfa4f-cedf-4dc0-ba29-b6d1a69ab345\";\n const resourceGroupName = process.env[\"LOGIC_RESOURCE_GROUP\"] || \"testResourceGroup\";\n const integrationAccountName = \"testIntegrationAccount\";\n const schemaName = \"testSchema\";\n const schema = {\n content:\n '<?xml version=\"1.0\" encoding=\"utf-16\"?>\\r\\n<xs:schema xmlns:b=\"http://schemas.microsoft.com/BizTalk/2003\" xmlns=\"http://Inbound_EDI.OrderFile\" targetNamespace=\"http://Inbound_EDI.OrderFile\" xmlns:xs=\"http://www.w3.org/2001/XMLSchema\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:schemaInfo default_pad_char=\" \" count_positions_by_byte=\"false\" parser_optimization=\"speed\" lookahead_depth=\"3\" suppress_empty_nodes=\"false\" generate_empty_nodes=\"true\" allow_early_termination=\"false\" early_terminate_optional_fields=\"false\" allow_message_breakup_of_infix_root=\"false\" compile_parse_tables=\"false\" standard=\"Flat File\" root_reference=\"OrderFile\" />\\r\\n <schemaEditorExtension:schemaInfo namespaceAlias=\"b\" extensionClass=\"Microsoft.BizTalk.FlatFileExtension.FlatFileExtension\" standardName=\"Flat File\" xmlns:schemaEditorExtension=\"http://schemas.microsoft.com/BizTalk/2003/SchemaEditorExtensions\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"OrderFile\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" sequence_number=\"1\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"Order\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"1\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"hex\" child_delimiter=\"0x0D 0x0A\" child_order=\"infix\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"Header\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"1\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"char\" child_delimiter=\"|\" child_order=\"infix\" tag_name=\"HDR|\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"PODate\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"1\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"PONumber\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo justification=\"left\" sequence_number=\"2\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerID\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"3\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerContactName\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"4\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerContactPhone\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"5\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n <xs:element minOccurs=\"1\" maxOccurs=\"unbounded\" name=\"LineItems\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"2\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"char\" child_delimiter=\"|\" child_order=\"infix\" tag_name=\"DTL|\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"PONumber\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"1\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"ItemOrdered\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"2\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Quantity\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"3\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"UOM\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"4\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Price\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"5\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"ExtendedPrice\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"6\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Description\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"7\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n</xs:schema>',\n contentType: \"application/xml\",\n location: \"westus\",\n metadata: {},\n schemaType: \"Xml\",\n tags: { integrationAccountSchemaName: \"IntegrationAccountSchema8120\" },\n };\n const credential = new DefaultAzureCredential();\n const client = new LogicManagementClient(credential, subscriptionId);\n const result = await client.integrationAccountSchemas.createOrUpdate(\n resourceGroupName,\n integrationAccountName,\n schemaName,\n schema\n );\n console.log(result);\n}", "function mergeTypeDefs (typeDefs) {\n const documents = typeDefs.map((document) => {\n if (typeof document === 'string') {\n return parse(document)\n }\n return document\n })\n const definitions = []\n\n documents.forEach((document) => {\n document.definitions.forEach(definition => {\n switch (definition.kind) {\n case 'ObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'ObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.interfaces = mergeInterfaces(existingDefinition.interfaces, definition.interfaces)\n return\n }\n break\n }\n case 'InterfaceTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InterfaceTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n case 'UnionTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'UnionTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.types = mergeUnionTypes(existingDefinition.types, definition.types)\n return\n }\n break\n }\n case 'EnumTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'EnumTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.values = mergeEnumValues(existingDefinition.values, definition.values)\n return\n }\n break\n }\n case 'InputObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InputObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeInputValues(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n }\n definitions.push(definition)\n })\n })\n\n return {\n kind: 'Document',\n definitions,\n }\n}", "static fromSchema(schema) {\n return schema.cached.domSerializer || (schema.cached.domSerializer = new DOMSerializer(this.nodesFromSchema(schema), this.marksFromSchema(schema)));\n }", "updateSchema(schema) {\n // to avoid cyclic reference error, use flatted string.\n const schemaFlatted = (0, _flatted.stringify)(schema);\n this.run((0, _http.POST)(this.ws_url + '/schema/', schemaFlatted, 'text/plain')).then(data => {\n console.log(\"collab server's schema updated\"); // [FS] IRAD-1040 2020-09-08\n\n this.schema = schema;\n this.start();\n }, err => {\n this.report.failure('error');\n });\n }", "function extend(name, schema) {\n // makes sure new rules are properly formatted.\n guardExtend(name, schema);\n // Full schema object.\n if (typeof schema === 'object') {\n RuleContainer.extend(name, schema);\n return;\n }\n RuleContainer.extend(name, {\n validate: schema\n });\n }", "function introspectionFromSchema(schema, options) {\n var optionsWithDefaults = _objectSpread({\n directiveIsRepeatable: true,\n schemaDescription: true\n }, options);\n\n var document = Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_1__[\"parse\"])(Object(_getIntrospectionQuery_mjs__WEBPACK_IMPORTED_MODULE_3__[\"getIntrospectionQuery\"])(optionsWithDefaults));\n var result = Object(_execution_execute_mjs__WEBPACK_IMPORTED_MODULE_2__[\"executeSync\"])({\n schema: schema,\n document: document\n });\n !result.errors && result.data || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(0);\n return result.data;\n}" ]
[ "0.6949743", "0.693651", "0.6849844", "0.67141265", "0.66822195", "0.66752064", "0.66744983", "0.66744983", "0.63838375", "0.6246834", "0.6108762", "0.57664764", "0.56211686", "0.56211686", "0.55488354", "0.5544573", "0.5544573", "0.5388623", "0.53882587", "0.53617626", "0.53389835", "0.5333375", "0.53100556", "0.52645546", "0.52382153", "0.5233145", "0.5233145", "0.522572", "0.5211073", "0.52052516", "0.518497", "0.5171313", "0.5167459", "0.5167459", "0.51493186", "0.51448923", "0.5137786", "0.5137786", "0.5136263", "0.5136263", "0.51314515", "0.51192415", "0.51151276", "0.51139754", "0.51139754", "0.50987405", "0.5089905", "0.5086497", "0.5085989", "0.5073393", "0.50671303", "0.5060878", "0.50608075", "0.5059443", "0.5045426", "0.5036576", "0.5025605", "0.50237703", "0.49999306", "0.49900052", "0.49826083", "0.49734923", "0.4957619", "0.4957619", "0.49290544", "0.49290544", "0.49279693", "0.49279693", "0.49248344", "0.49198237", "0.49043125", "0.49017867", "0.48984608", "0.48791775", "0.4878451", "0.4878451", "0.48650378", "0.48650378", "0.48626867", "0.4844389", "0.48286596", "0.48052025", "0.48052025", "0.47999582", "0.47803703", "0.47803703", "0.4775329", "0.47657114", "0.47657114", "0.4763065", "0.47360435", "0.47183734", "0.46995875", "0.46880713", "0.46872404", "0.46668822", "0.46586704", "0.46481872", "0.46460977", "0.46290806" ]
0.693651
2
Below are functions used for producing this schema that have closed over this scope and have access to the schema, cache, and newly defined types.
function getMergedDirectives() { var existingDirectives = schema.getDirectives(); !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0; var newDirectives = directiveDefinitions.map(function (directiveNode) { return getDirective(directiveNode); }); return existingDirectives.concat(newDirectives); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "generateSchema() {\n var that = this;\n\n _.keys(this).forEach(function(k) {\n // Ignore private variables\n if (_.startsWith(k, '_')) {\n return;\n }\n\n // Normalize the type format\n that._schema[k] = normalizeType(that[k]);\n\n // Assign a default if needed\n if (isArray(that._schema[k].type)) {\n that._values[k] = that.getDefault(k) || [];\n } else {\n that._values[k] = that.getDefault(k);\n }\n\n // Should we delete these member variables so they\n // don't get in the way? Probably a waste of time\n // since the Proxy intercepts all gets/sets to them.\n //delete that[k];\n });\n }", "setupSchema() {\n\t\tfor (const type in this.Definition) {\n\t\t\tif (this.Definition.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.Definition[type];\n\t\t\t\tthis.Schema[type] = oas.compile(typeDef);\n\t\t\t}\n\t\t}\n\t\tfor (const type in this.precompiled) {\n\t\t\tif (this.precompiled.hasOwnProperty(type)) {\n\t\t\t\t// console.log(type);\n\t\t\t\tconst typeDef = this.precompiled[type];\n\t\t\t\tthis.Schema[type] = typeDef;\n\t\t\t}\n\t\t}\n\t}", "buildSchema() {\n if (!this.dbSchema) return this.schema;\n for (let tablename in this.dbSchema) {\n this.mapDbTableToGraphqlType(tablename);\n this.mapDbTableToGraphqlQuery(tablename);\n this.mapDbTableToGraphqlFirstOf(tablename);\n this.mapDbTableToGraphqlMutation(tablename);\n this.mapDbTableToGraphqlInput(tablename);\n }\n return this.schema;\n }", "generateSchema() {\n const that = this;\n\n _.keys(this).forEach(function(k) {\n if (_.startsWith(k, '_')) {\n return;\n }\n\n // Normalize the type format\n that._schema[k] = normalizeType(that[k]);\n\n // Assign a default if needed\n if (isArray(that._schema[k].type)) {\n that[k] = that.getDefault(k) || [];\n } else {\n that[k] = that.getDefault(k);\n }\n });\n }", "defineSchema() {\n\n }", "function calcSchema( inSchema ) {\n var gbCols = cols.concat( aggCols );\n var gbs = new Schema( { columns: gbCols, columnMetadata: inSchema.columnMetadata } );\n\n return gbs;\n }", "createSchema() {\n this.schema = this.extensionManager.schema;\n }", "static schema() {\n return null;\n }", "refreshDuckSchema() {\n this.duckSchema = this.createDuckSchema();\n }", "getSchemas() {\n return {\n indices: this.getIndices(),\n mappings: this.getMappings()\n };\n }", "function buildClientSchema(introspection) {\n\n\t // Get the schema from the introspection result.\n\t var schemaIntrospection = introspection.__schema;\n\n\t // Converts the list of types into a keyMap based on the type names.\n\t var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n\t return type.name;\n\t });\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars. All functions below are inline\n\t // so that this type def cache is within the scope of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Given a type reference in introspection, return the GraphQLType instance.\n\t // preferring cached instances before building new instances.\n\t function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }\n\n\t function getNamedType(typeName) {\n\t if (typeDefCache[typeName]) {\n\t return typeDefCache[typeName];\n\t }\n\t var typeIntrospection = typeIntrospectionMap[typeName];\n\t if (!typeIntrospection) {\n\t throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t var typeDef = buildType(typeIntrospection);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t function getInputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Introspection must provide input type for arguments.');\n\t return type;\n\t }\n\n\t function getOutputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Introspection must provide output type for fields.');\n\t return type;\n\t }\n\n\t function getObjectType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Introspection must provide object type for possibleTypes.');\n\t return type;\n\t }\n\n\t function getInterfaceType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Introspection must provide interface type for interfaces.');\n\t return type;\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }\n\n\t function buildScalarDef(scalarIntrospection) {\n\t return new _definition.GraphQLScalarType({\n\t name: scalarIntrospection.name,\n\t description: scalarIntrospection.description,\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildObjectDef(objectIntrospection) {\n\t return new _definition.GraphQLObjectType({\n\t name: objectIntrospection.name,\n\t description: objectIntrospection.description,\n\t interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n\t fields: function fields() {\n\t return buildFieldDefMap(objectIntrospection);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceDef(interfaceIntrospection) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: interfaceIntrospection.name,\n\t description: interfaceIntrospection.description,\n\t fields: function fields() {\n\t return buildFieldDefMap(interfaceIntrospection);\n\t },\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildUnionDef(unionIntrospection) {\n\t return new _definition.GraphQLUnionType({\n\t name: unionIntrospection.name,\n\t description: unionIntrospection.description,\n\t types: unionIntrospection.possibleTypes.map(getObjectType),\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildEnumDef(enumIntrospection) {\n\t return new _definition.GraphQLEnumType({\n\t name: enumIntrospection.name,\n\t description: enumIntrospection.description,\n\t values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n\t return valueIntrospection.name;\n\t }, function (valueIntrospection) {\n\t return {\n\t description: valueIntrospection.description,\n\t deprecationReason: valueIntrospection.deprecationReason\n\t };\n\t })\n\t });\n\t }\n\n\t function buildInputObjectDef(inputObjectIntrospection) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: inputObjectIntrospection.name,\n\t description: inputObjectIntrospection.description,\n\t fields: function fields() {\n\t return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n\t }\n\t });\n\t }\n\n\t function buildFieldDefMap(typeIntrospection) {\n\t return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n\t return fieldIntrospection.name;\n\t }, function (fieldIntrospection) {\n\t return {\n\t description: fieldIntrospection.description,\n\t deprecationReason: fieldIntrospection.deprecationReason,\n\t type: getOutputType(fieldIntrospection.type),\n\t args: buildInputValueDefMap(fieldIntrospection.args)\n\t };\n\t });\n\t }\n\n\t function buildInputValueDefMap(inputValueIntrospections) {\n\t return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n\t return inputValue.name;\n\t }, buildInputValue);\n\t }\n\n\t function buildInputValue(inputValueIntrospection) {\n\t var type = getInputType(inputValueIntrospection.type);\n\t var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : null;\n\t return {\n\t name: inputValueIntrospection.name,\n\t description: inputValueIntrospection.description,\n\t type: type,\n\t defaultValue: defaultValue\n\t };\n\t }\n\n\t function buildDirective(directiveIntrospection) {\n\t // Support deprecated `on****` fields for building `locations`, as this\n\t // is used by GraphiQL which may need to support outdated servers.\n\t var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n\t return new _directives.GraphQLDirective({\n\t name: directiveIntrospection.name,\n\t description: directiveIntrospection.description,\n\t locations: locations,\n\t args: buildInputValueDefMap(directiveIntrospection.args)\n\t });\n\t }\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var types = schemaIntrospection.types.map(function (typeIntrospection) {\n\t return getNamedType(typeIntrospection.name);\n\t });\n\n\t // Get the root Query, Mutation, and Subscription types.\n\t var queryType = getObjectType(schemaIntrospection.queryType);\n\n\t var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n\t var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n\t // Get the directives supported by Introspection, assuming empty-set if\n\t // directives were not queried for.\n\t var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: directives\n\t });\n\t}", "static get schema() {\n return {};\n }", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "_initSchema() {\n this.version(1).stores({\n pages: 'url, *terms, *titleTerms, *urlTerms, domain',\n visits: '[time+url], url',\n bookmarks: 'url, time',\n tags: '[name+url], name, url',\n })\n\n // ... add versions/migration logic here\n\n // Set up model classes\n this.pages.mapToClass(Page)\n this.visits.mapToClass(Visit)\n this.bookmarks.mapToClass(Bookmark)\n this.tags.mapToClass(Tag)\n }", "generateSchema(collection) {\n\n const collectionName = collection._name;\n const mainTypeName = collection.typeName ? collection.typeName : Utils.camelToSpaces(_.initial(collectionName).join('')); // default to posts -> Post\n\n // backward-compatibility code: we do not want user.telescope fields in the graphql schema\n const schema = Utils.stripTelescopeNamespace(collection.simpleSchema()._schema);\n\n let mainSchema = [], inputSchema = [], unsetSchema = [];\n\n _.forEach(schema, (field, key) => {\n // console.log(field, key)\n const fieldType = jsTypeToGraphQLType(field.type.singleType);\n\n if (key.indexOf('$') === -1) { // skip fields with \"$\"\n\n // 1. main schema\n mainSchema.push(`${key}: ${fieldType}`);\n\n // if field has a resolver, also push it to schema\n if (field.resolveAs) {\n mainSchema.push(field.resolveAs);\n }\n\n if (field.insertableBy || field.editableBy) {\n\n // note: marking a field as required makes it required for updates, too,\n // which makes partial updates impossible\n // const isRequired = field.optional ? '' : '!';\n\n const isRequired = '';\n\n // 2. input schema\n inputSchema.push(`${key}: ${fieldType}${isRequired}`);\n\n // 3. unset schema\n unsetSchema.push(`${key}: Boolean`);\n\n }\n }\n });\n\n let graphQLSchema = `\n type ${mainTypeName} {\n ${mainSchema.join('\\n ')}\n }\n `\n\n if (inputSchema.length) {\n graphQLSchema += `\n input ${collectionName}Input {\n ${inputSchema.join('\\n ')}\n }\n input ${collectionName}Unset {\n ${unsetSchema.join('\\n ')}\n }\n `\n }\n\n return graphQLSchema;\n }", "get convertedSchema() {\n let schema = {\n $schema: \"http://json-schema.org/schema#\",\n title: this.label,\n type: \"object\",\n required: [],\n properties: this.fieldsToSchema(this.fields),\n };\n return schema;\n }", "static _getRawSchema () {\n let schema = this.schema\n return schema\n }", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "schema() { }", "buildSchema (connection, collections) {\n return _.chain(collections)\n .map((model, modelName) => {\n let definition = _.get(model, [ 'waterline', 'schema', model.identity ])\n return _.defaults(definition, {\n attributes: { },\n tableName: modelName\n })\n })\n .indexBy('tableName')\n .value()\n }", "clone() {\n return schema(this);\n }", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_7__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_9__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection) && Object(_jsutils_isObjectLike_mjs__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(introspection.__schema) || Object(_jsutils_devAssert_mjs__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_type_scalars_mjs__WEBPACK_IMPORTED_MODULE_8__[\"specifiedScalarTypes\"], _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema_mjs__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertObjectType\"])(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertInterfaceType\"])(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat(Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection), \".\"));\n }\n\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isOutputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap_mjs__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"isInputType\"])(type)) {\n var typeStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? Object(_valueFromAST_mjs__WEBPACK_IMPORTED_MODULE_11__[\"valueFromAST\"])(Object(_language_parser_mjs__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _type_directives_mjs__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function LoneSchemaDefinition(context) {\n var oldSchema = context.getSchema();\n var alreadyDefined = oldSchema && (oldSchema.astNode || oldSchema.getQueryType() || oldSchema.getMutationType() || oldSchema.getSubscriptionType());\n var schemaDefinitionsCount = 0;\n return {\n SchemaDefinition: function SchemaDefinition(node) {\n if (alreadyDefined) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](canNotDefineSchemaWithinExtensionMessage(), node));\n return;\n }\n\n if (schemaDefinitionsCount > 0) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](schemaDefinitionNotAloneMessage(), node));\n }\n\n ++schemaDefinitionsCount;\n }\n };\n}", "getSchemaXml() {\r\n return this.clone(SharePointQueryable, \"schemaxml\").get();\r\n }", "getSchemaStack() {\n const stack = [this];\n let cursor = this;\n while (cursor.Base.SchemaRef) {\n cursor = self.gs.objects.get(cursor.Base.SchemaRef);\n stack.unshift(cursor);\n }\n return stack;\n }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function processType(typeCache, resLoader, rawType, ctx) {\n var xsdNS = 'http://www.w3.org/2001/XMLSchema';\n if(!rawType || !(ctx instanceof LocalContext))\n throw new Error('Invalid raw type or context.');\n var result = undefined;\n // Function to process attributes\n var processAttrs = function(target) {\n var attrs = { };\n Util.arrayEach(target.attribute, function(attr) {\n attrs[attr.name + ((attr.use === 'required') ? '' : '?')] = stripNS(attr.type);\n }); \n return attrs; \n }\n if(rawType.sequence) {\n result = { '_$attrs': processAttrs(rawType) };\n var processElements = function(elements, context, target) {\n Util.arrayEach(elements, function(el) {\n var elType = undefined,\n elTypeNS = undefined;\n // Find occurrence info\n if(el.minOccurs === 'unbounded') el.minOccurs = 0;\n if(el.maxOccurs === 'unbounded') el.maxOccurs = Number.MAX_VALUE;\n if(typeof el.minOccurs !== 'number') el.minOccurs = 1;\n if(typeof el.maxOccurs !== 'number') el.maxOccurs = 1;\n var namePost = '';\n if(el.minOccurs === 1 && el.maxOccurs === 1) namePost = '';\n else if(el.minOccurs === 0 && el.maxOccurs === 1) namePost = '?';\n else namePost = '*';\n if(el.ref) {\n var referred = context.parseNamespace(el.ref),\n refEl = resLoader.searchInNamespace(referred.namespace, ['element', referred.value]);\n if(!refEl) throw new Error(\n 'Referred element `' + referred.value + '\\' not found in namespace `' + referred.namespace + '\\'.'\n );\n elType = refEl.type;\n elTypeNS = refEl.typeNamespace;\n } else {\n if(!el.type) {\n if(el.complexType) target[el.name + namePost] = processType(typeCache, resLoader, el.complexType, context);\n else if(el.simpleType) throw new Error('Not supported.');\n else throw new Error('Invalid element definition, no type specified.');\n return;\n }\n var parsed = context.parseNamespace(el.type);\n elType = parsed.value;\n elTypeNS = parsed.namespace;\n }\n // Basic Type\n if(elTypeNS === xsdNS) target[el.name + namePost] = elType;\n else {\n // console.log('ns: ' + elTypeNS + ' type: ' + elType);\n cacheType(typeCache, resLoader, elTypeNS, elType, true);\n target[el.name + namePost] = { '_$type': elType, '_$namespace': elTypeNS };\n }\n });\n }\n processElements(rawType.sequence.element, ctx, result);\n Util.arrayEach(rawType.sequence.choice, function(ch) {\n result['_$choices'] = result['_$choices'] || [];\n var thisChoice = { };\n // Find occurrence info\n if(ch.minOccurs === 'unbounded') ch.minOccurs = 0;\n if(ch.maxOccurs === 'unbounded') ch.maxOccurs = Number.MAX_VALUE;\n if(typeof ch.minOccurs !== 'number') ch.minOccurs = 1;\n if(typeof ch.maxOccurs !== 'number') ch.maxOccurs = 1;\n if(ch.minOccurs === 1 && ch.maxOccurs === 1) thisChoice['_$occurrence'] = '';\n else if(ch.minOccurs === 0 && ch.maxOccurs === 1) thisChoice['_$occurrence'] = '?';\n else thisChoice['_$occurrence'] = '*'; \n processElements(ch.element, ctx, thisChoice);\n result['_$choices'].push(thisChoice);\n });\n } else if(rawType.simpleContent || rawType.complexContent) {\n // We're processing some complexType\n // Under complexContent/simpleContent we only support [extension]\n result = processType(typeCache, resLoader, rawType.simpleContent ||rawType.complexContent, ctx); \n } else if(rawType.extension) { \n var baseType = ctx.parseNamespace(rawType.extension.base);\n if(baseType.namespace === xsdNS) {\n // If rawType.extension.base is base type(ie. under xsd namespace), then it has only [attribute]s.\n result = { '_$attrs': processAttrs(rawType.extension) };\n } else {\n // If rawType.extension.base is defined type, then it may have [attribute]s or [sequence,element]s.\n result = processType(typeCache, resLoader, rawType.extension, ctx) || { }; // in case that no sequence is defined.\n cacheType(typeCache, resLoader, baseType.namespace, baseType.value, true);\n result['_$base'] = { '_$type': baseType.value, '_$namespace': baseType.namespace };\n }\n } else if(rawType.restriction) {\n // We're processing some simpleType, only support enumeration for now, and ignore [base].\n result = [];\n Util.arrayEach(rawType.restriction.enumeration, \n function(entry) { entry.value && result.push(entry.value); });\n }\n \n return result;\n}", "getChildSchemas() {\n return self.gs\n .graphs.get(this.data.graphId)\n .selectAllWithType('RecordSchema')\n .filter(x => x.Base.SchemaRef == this.data.objectId);\n }", "function getFullSchema() {\n return __awaiter(this, void 0, void 0, function () {\n var zip, zipPath, outPath, zipFileName, zipBuffer, zipArchive, zipFileData, fileContent;\n return __generator(this, function (_a) {\n switch (_a.label) {\n case 0:\n zip = new jszip_1.default();\n zipPath = \"./schema/fhir.schema.json.zip\";\n outPath = './schema/fhir-schema-full.json';\n zipFileName = \"fhir.schema.json\";\n return [4 /*yield*/, got_1.default(fullSchemaLink).buffer().catch(function (err) {\n console.log('Error downloading ' + fullSchemaLink + ' : ' + err.message);\n process.exit(1);\n })];\n case 1:\n zipBuffer = _a.sent();\n return [4 /*yield*/, zip.loadAsync(zipBuffer)];\n case 2:\n zipArchive = _a.sent();\n zipFileData = zipArchive.file(zipFileName);\n if (!zipFileData)\n throw new Error(zipFileName + \" not found in zip file : \" + zipPath);\n return [4 /*yield*/, zipFileData.async('string')];\n case 3:\n fileContent = _a.sent();\n fs_1.default.writeFileSync(outPath, fileContent);\n return [2 /*return*/, JSON.parse(fileContent)];\n }\n });\n });\n}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function requestSchema () {\n // Reset greenEdges / greenNodes to false (so data does not persist)\n dispatch({\n type: \"greenEdges\",\n payload: false\n })\n dispatch({\n type: \"greenNodes\",\n payload: false\n })\n\t\tfetch('http://localhost:3000/getSchema')\n\t\t\t.then(res => res.json())\n\t\t\t.then(res => saveSchema(res))\n\t\t\t.catch(err => console.log('Error with fetching updated schema from User app: ', err));\n }", "function SchemaInit(){\n\n // Per-manager logger.\n var logger = new bbop.logger();\n logger.DEBUG = true;\n function ll(str){ logger.kvetch(str); }\n\n // External meta-data.\n var sd = new amigo.data.server();\n var solr_server = sd.golr_base();\n var gconf = new bbop.golr.conf(amigo.data.golr);\n\n // Aliases.\n var each = bbop.core.each;\n var hashify = bbop.core.hashify;\n var get_keys = bbop.core.get_keys;\n var is_def = bbop.core.is_defined;\n var is_empty = bbop.core.is_empty;\n\n // Helper: dedupe a list...might be nice in core?\n function dedupe(list){\n\tvar retlist = [];\n\tif( list && list.length > 0 ){\n\t retlist = get_keys(hashify(list));\n\t}\n\treturn retlist;\n }\n\n // Helper: turn:\n // : {'string1': ['foo'], 'string2': ['foo', 'bar', 'foo'],}\n // Into:\n // : \"string1 (foo)<br />string2 (foo, bar)\"\n function sfuse(hash){\n\tvar retval = '';\n\n\tvar cache = [];\n\teach(hash,\n\t function(str, loc_list){\n\t\t var locs = dedupe(loc_list);\n\t\t cache.push( str + ' <small>[' + locs.join(', ') + ']</small>');\n\t });\n\tif( cache.length > 0 ){\n\t retval = cache.join('<br />');\t \n\t}\n \n\treturn retval;\n }\n\n function _recolor_table(tid){\n\tjQuery('table#' + tid + ' tr:even').attr('class', 'even_row');\n\tjQuery('table#' + tid + ' tr:odd').attr('class', 'odd_row');\n }\n\n //ll('');\n ll('SchemaInit start...');\n\n // // Make unnecessary things roll up.\n // amigo.ui.rollup([\"inf01\"]);\n\n var classes = gconf.get_classes_by_weight();\n\n // First, let's go through all of the fields and figure out their\n // capacities.\n\t //\n var field_cap_cache = {};\n var capacities = ['boost', 'result', 'filter'];\n each(classes,\n\t function(conf_class, ccindex){\n\t var personality = conf_class.id();\n\t \n\t each(capacities,\n\t\t function(capacity){\n\t\t var by_weights = conf_class.get_weights(capacity);\n\t\t each(by_weights,\n\t\t\t function(field){\n\t\t\t //var fid = field.id();\n\t\t\t var fid = field;\n\t\t\t if( ! is_def(field_cap_cache[fid]) ){\n\t\t\t\t field_cap_cache[fid] = {};\n\t\t\t }\n\t\t\t if( ! is_def(field_cap_cache[fid][capacity]) ){\n\t\t\t\t field_cap_cache[fid][capacity] = [];\n\t\t\t }\n\t\t\t field_cap_cache[fid][capacity].push(\n\t\t\t\t personality);\n\t\t\t });\n\t\t });\n\t });\n\n // Now cycle through the main schema and build up an object for\n // use in table building.\n var fields = {};\n each(classes,\n\t function(conf_class, ccindex){\n\t var personality = conf_class.id();\n\n\t var cfs = conf_class.get_fields();\n\t each(cfs,\n\t\t function(cf, cfindex){\n\t\t // If we haven't seen it before, go ahead and\n\t\t // add it.\n\t\t var cid = cf.id();\n\t\t if( ! bbop.core.is_defined( fields[cid]) ){\n\t\t\t fields[cid] = {\n\t\t\t personality: [],\n\t\t\t label: {},\n\t\t\t description: {},\n\t\t\t capacity: {},\n\t\t\t //required: \n\t\t\t multi: '???',\n\t\t\t id: cid\n\t\t\t };\n\t\t }\n\n\t\t // Personality is easy.\n\t\t fields[cid]['personality'].push(personality);\n\n\t\t // Multi is easy too since it must be uniform.\n\t\t if( cf.is_multi() ){\n\t\t\t fields[cid]['multi'] = 'yes';\n\t\t }else{\n\t\t\t fields[cid]['multi'] = 'no';\n\t\t }\n\t\t \n\t\t // Capacity not too bad since we already\n\t\t // did the work above.\n\t\t if( field_cap_cache[cid] && \n\t\t\t ! is_empty(field_cap_cache[cid]) ){\n\t\t\t fields[cid]['capacity'] = field_cap_cache[cid];\n\t\t }\n\t\t \n\t\t // Label and description are harder. First grab\n\t\t // raw versions, assert, then mark personality.\n\t\t // Label.\n\t\t var lbl = cf.display_name();\n\t\t if( ! is_def(fields[cid]['label'][lbl]) ){\n\t\t\t fields[cid]['label'][lbl] = [];\n\t\t }\n\t\t fields[cid]['label'][lbl].push(personality);\n\t\t // Description.\n\t\t var desc = cf.description();\n\t\t if( ! is_def(fields[cid]['description'][desc]) ){\n\t\t\t fields[cid]['description'][desc] = [];\n\t\t }\n\t\t fields[cid]['description'][desc].push(personality);\n\t\t });\n\t });\n\n // Generate a nice table head. \n var thead = new bbop.html.tag('thead');\n each(['id', 'multi', 'display label(s)', 'description(s)',\n\t 'in capacity', 'personalities'],\n\t function(title_item){\n\t thead.add_to('<th>' + title_item +\n\t\t\t '<img style=\"border: 0px;\" src=\"' +\n\t\t\t sd.image_base() + '/reorder.gif\" />' +\n\t\t\t '</th>');\n\t });\n\n // Now a nice body. Add some buttons, but keep them for later.\n var tbody = new bbop.html.tag('tbody');\n each(fields,\n\t function(fkey, fobj){\n\t var cache = [];\n\n\t // Unique.\n\t cache.push(fobj['id']);\n\t cache.push(fobj['multi']);\n\n\t // Label and description need to be handled carefully.\n\t cache.push( sfuse(fobj['label']) );\n\t cache.push( sfuse(fobj['description']) );\n\n\t // Careful handling.\n\t cache.push( sfuse(fobj['capacity']) );\n\n\t // Personality easily deduped.\n\t cache.push(dedupe(fobj['personality']).join(', '));\n\n\t // Assemble.\n\t var tr = '<tr><td>' + cache.join('</td><td>') + '</td></tr>';\n\t tbody.add_to(tr);\n\t });\n\n // Generate the table itself.\n var tbl_attrs = {\n\tgenerate_id: true\n };\n var tbl = new bbop.html.tag('table', tbl_attrs);\n tbl.add_to(thead);\n tbl.add_to(tbody);\n\n var filter_inject_id = 'schema_info_search_div';\n var target_id = 'schema_info_table_div';\n\n // Add the table to the DOM.\n jQuery('#' + target_id).empty();\n jQuery('#' + target_id).append(tbl.to_string());\n\n ///\n /// Sorting, coloring, etc.\n ///\n\n // Apply a first round of coloring.\n _recolor_table(tbl.get_id());\n\n // Apply the tablesorter to what we got.\n jQuery('#' + tbl.get_id()).tablesorter(); \n // Recolor on sort.\n jQuery('#' + tbl.get_id()).bind(\"sortEnd\",\n\t\t\t\t function(){ \n\t\t\t\t\t_recolor_table(tbl.get_id());\n\t\t\t\t });\n\n // Add filtering to table.\n var ft = new bbop.widget.filter_table(filter_inject_id, tbl.get_id(),\n\t\t\t\t\t sd.image_base() + '/waiting_ajax.gif',\n\t\t\t\t\t null, 'Filter:');\n \n ll('SchemaInit done.');\n}", "create () {\n const self = this\n\n self.applyPlugins('before-create', self)\n\n self.applyPluginsAsyncWaterfall('schema', self.options.schema, function(err, value) {\n if (err) {\n console.error('get schema failed ', err)\n return\n }\n\n self.applyPlugins('schema-loaded', value)\n\n if (value && value.length > 0) { // build from schema list\n self.buildControls(value)\n self.render()\n }\n })\n }", "getSchemaXml() {\n return this.clone(ViewFields, \"schemaxml\")();\n }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function inferSchema(value){\n \n // we have no way of infering type names for objects\n // therefore we simply assign an incremental identifier to each new object we find\n const anonymousTypeName = anonymousTypeNameGenerator();\n\n // entry point of schema\n let rootType = Type.ObjectType(\"Root\");\n\n const queue = [];\n queue.push({path: [\"fields\", \"root\"], value:value});\n\n while(queue.length > 0){\n const descriptor = queue.pop();\n \n const type = inferType(descriptor.value);\n\n if(type.kind === \"SCALAR\"){\n // console.log(\"set in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type);\n continue; \n }\n\n if(type.name === \"ListType\"){\n // console.log(\"set a list in\", descriptor.path);\n rootType = rootType.setIn(descriptor.path, type());\n const path = descriptor.path.concat(\"ofType\");\n\n // examine type of first item in list\n // TODO: examine more elements?\n queue.push({path:path, value: descriptor.value.get(0)});\n }\n\n if(type.name === \"ObjectType\"){\n // console.log(\"set an object in\", descriptor.path);\n const typeName = anonymousTypeName.next().value;\n rootType = rootType.setIn(descriptor.path, type(typeName));\n const path = descriptor.path.concat(\"fields\");\n const entries = descriptor.value.entries();\n // enumerate fields of Map\n for([fieldName, val] of entries){\n queue.push({path:path.concat(fieldName), value: val});\n } \n }\n }\n\n return rootType;\n}", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildASTSchema(ast) {\n\t if (!ast || ast.kind !== _kinds.DOCUMENT) {\n\t throw new Error('Must provide a document ast.');\n\t }\n\n\t var schemaDef = void 0;\n\n\t var typeDefs = [];\n\t var astMap = Object.create(null);\n\t var directiveDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _kinds.SCHEMA_DEFINITION:\n\t if (schemaDef) {\n\t throw new Error('Must provide only one schema definition.');\n\t }\n\t schemaDef = d;\n\t break;\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t astMap[d.name.value] = d;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t directiveDefs.push(d);\n\t break;\n\t }\n\t }\n\n\t var queryTypeName = void 0;\n\t var mutationTypeName = void 0;\n\t var subscriptionTypeName = void 0;\n\t if (schemaDef) {\n\t schemaDef.operationTypes.forEach(function (operationType) {\n\t var typeName = operationType.type.name.value;\n\t if (operationType.operation === 'query') {\n\t if (queryTypeName) {\n\t throw new Error('Must provide only one query type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n\t }\n\t queryTypeName = typeName;\n\t } else if (operationType.operation === 'mutation') {\n\t if (mutationTypeName) {\n\t throw new Error('Must provide only one mutation type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n\t }\n\t mutationTypeName = typeName;\n\t } else if (operationType.operation === 'subscription') {\n\t if (subscriptionTypeName) {\n\t throw new Error('Must provide only one subscription type in schema.');\n\t }\n\t if (!astMap[typeName]) {\n\t throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n\t }\n\t subscriptionTypeName = typeName;\n\t }\n\t });\n\t } else {\n\t if (astMap.Query) {\n\t queryTypeName = 'Query';\n\t }\n\t if (astMap.Mutation) {\n\t mutationTypeName = 'Mutation';\n\t }\n\t if (astMap.Subscription) {\n\t subscriptionTypeName = 'Subscription';\n\t }\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('Must provide schema definition with query type or a type named Query.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t var types = typeDefs.map(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t var directives = directiveDefs.map(getDirective);\n\n\t // If specified directives were not explicitly declared, add them.\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'skip';\n\t })) {\n\t directives.push(_directives.GraphQLSkipDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'include';\n\t })) {\n\t directives.push(_directives.GraphQLIncludeDirective);\n\t }\n\n\t if (!directives.some(function (directive) {\n\t return directive.name === 'deprecated';\n\t })) {\n\t directives.push(_directives.GraphQLDeprecatedDirective);\n\t }\n\n\t return new _schema.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n\t types: types,\n\t directives: directives\n\t });\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t description: getDescription(directiveAST),\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceType(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function produceInputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n\t return type;\n\t }\n\n\t function produceOutputType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n\t return type;\n\t }\n\n\t function produceObjectType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function produceInterfaceType(typeAST) {\n\t var type = produceType(typeAST);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n\t return type;\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type \"' + typeName + '\" not found in document.');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for \"' + typeName + '\".');\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error('Type kind \"' + def.kind + '\" not supported.');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLObjectType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t });\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _keyValMap2.default)(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceOutputType(field.type),\n\t description: getDescription(field),\n\t args: makeInputValues(field.arguments),\n\t deprecationReason: getDeprecationReason(field.directives)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces && def.interfaces.map(function (iface) {\n\t return produceInterfaceType(iface);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceInputType(value.type);\n\t return {\n\t type: type,\n\t description: getDescription(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeName,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _definition.GraphQLEnumType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n\t return enumValue.name.value;\n\t }, function (enumValue) {\n\t return {\n\t description: getDescription(enumValue),\n\t deprecationReason: getDeprecationReason(enumValue.directives)\n\t };\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _definition.GraphQLUnionType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t types: def.types.map(function (t) {\n\t return produceObjectType(t);\n\t }),\n\t resolveType: cannotExecuteSchema\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _definition.GraphQLScalarType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: def.name.value,\n\t description: getDescription(def),\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function generateSchema() {\n // Get the instance of `graphql` that `graphbrainz` sees.\n const graphql = require(resolveFrom(\n require.resolve('graphbrainz'),\n 'graphql'\n ))\n\n const extendedSchema = createSchema(graphBrainzSchema, {\n extensions: ['graphbrainz/extensions/cover-art-archive'],\n })\n\n return schemaToJSON(extendedSchema, { graphql })\n}", "registerGraphQLSchema() {\n let self = this;\n\n let schemas = {\n queries: [],\n types: [],\n mutations: [],\n resolvers: []\n };\n\n _.forIn(this.services, (service, name) => {\n if (\n service.$settings.graphql !== false &&\n _.isObject(service.$schema.graphql)\n ) {\n let graphQL = service.$schema.graphql;\n graphQL.resolvers = graphQL.resolvers || {};\n\n let processResolvers = function(resolvers) {\n _.forIn(resolvers, (resolver, name) => {\n if (_.isString(resolver) && service.actions[resolver]) {\n let handler = (root, args, context) => {\n let actionFunc = service.actions[resolver];\n\n let action = actionFunc.settings;\n action.handler = actionFunc;\n\n if (!_.isFunction(action.handler))\n throw new Error(\n `Missing handler function in '${name}' action in '${service.name}' service!`\n );\n\n let ctx = Context.CreateFromGraphQL(\n service,\n action,\n root,\n args,\n context\n );\n logger.debug(\"Request via GraphQL\", ctx.params, context.query);\n console.time(\"GRAPHQL request\");\n self.emit(\"request\", ctx);\n let cacheKey = service.getCacheKey(action.name, ctx.params);\n\n return (\n Promise.resolve()\n // Resolve model if ID provided\n .then(() => {\n return ctx.resolveModel();\n })\n // Check permission\n .then(() => {\n return ctx.checkPermission();\n })\n // Call the action handler\n .then(() => {\n return action.handler(ctx);\n })\n .catch(err => {\n logger.error(err);\n throw err;\n })\n .then(json => {\n self.emit(\"response\", ctx);\n console.timeEnd(\"GRAPHQL request\");\n return json;\n })\n );\n };\n\n resolvers[name] = handler;\n }\n });\n };\n\n if (graphQL.resolvers.Query) processResolvers(graphQL.resolvers.Query);\n\n if (graphQL.resolvers.Mutation)\n processResolvers(graphQL.resolvers.Mutation);\n\n schemas.queries.push(graphQL.query);\n schemas.types.push(graphQL.types);\n schemas.mutations.push(graphQL.mutation);\n schemas.resolvers.push(graphQL.resolvers);\n }\n });\n\n // Merge Type Definitons\n\n if (schemas.queries.length == 0) return null;\n\n let mergedSchema = `\n\n\t\t\tscalar Timestamp\n\n\t\t\ttype Query {\n\t\t\t\t${schemas.queries.join(\"\\n\")}\n\t\t\t}\n\n\t\t\t${schemas.types.join(\"\\n\")}\n\n\t\t\ttype Mutation {\n\t\t\t\t${schemas.mutations.join(\"\\n\")}\n\t\t\t}\n\n\t\t\tschema {\n\t\t\t\tquery: Query\n\t\t\t\tmutation: Mutation\n\t\t\t}\n\t\t`;\n\n // Merge Resolvers\n\n let mergeModuleResolvers = function(baseResolvers) {\n schemas.resolvers.forEach(module => {\n baseResolvers = _.merge(baseResolvers, module);\n });\n\n return baseResolvers;\n };\n\n return {\n schema: [mergedSchema],\n resolvers: mergeModuleResolvers({\n Timestamp: {\n __parseValue(value) {\n return new Date(value); // value from the client\n },\n __serialize(value) {\n return value.getTime(); // value sent to the client\n },\n __parseLiteral(ast) {\n if (ast.kind === Kind.INT) return parseInt(ast.value, 10); // ast value is always in string format\n\n return null;\n }\n }\n /* This version is not working\n\t\t\t\t\tCopied from http://dev.apollodata.com/tools/graphql-tools/scalars.html\n\t\t\t\t*/\n /*\n\t\t\t\tTimestamp: new GraphQLScalarType({\n\t\t\t\t\tname: \"Timestamp\",\n\t\t\t\t\tdescription: \"Timestamp scalar type\",\n\t\t\t\t\tparseValue(value) {\n\t\t\t\t\t\treturn new Date(value); // value from the client\n\t\t\t\t\t},\n\t\t\t\t\tserialize(value) {\n\t\t\t\t\t\treturn value.getTime(); // value sent to the client\n\t\t\t\t\t},\n\t\t\t\t\tparseLiteral(ast) {\n\t\t\t\t\t\tif (ast.kind === Kind.INT) {\n\t\t\t\t\t\t\treturn parseInt(ast.value, 10); // ast value is always in string format\n\t\t\t\t\t\t}\n\t\t\t\t\t\treturn null;\n\t\t\t\t\t},\n\t\t\t\t}),*/\n })\n };\n }", "function createStructure() {\n\tlet map = [];\n\tfor (let collection in schema) {\n\t\tmap.push(collection, mori.hashMap());\n\t}\n\tmap.push('_syncQueue', mori.vector());\n\treturn mori.hashMap(...map);\n}", "static getSchema() {\n let c = new Candle(32.30, 33.015, 30, 31.5, 1605466663732,\n Candle.durations.D1, 178087);\n return Object.fromEntries(\n Object.keys(c).map(k => [k, Object.getPrototypeOf(c[k]).constructor]));\n\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments)\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Interface type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function tighten(schema) {\n if (!isDefined(schema.type)) {\n if (isDefined(schema.properties)) {\n schema.type = 'object';\n }\n if (isDefined(schema.pattern)) {\n schema.type = 'string';\n }\n if (isDefined(schema.minLength) || isDefined(schema.maxLength)) {\n schema.type = 'string';\n }\n if (isDefined(schema.enum)) {\n var allStrings = _(schema.enum).all(function (item) {\n return typeof item === 'string';\n });\n if (allStrings) {\n schema.type = 'string';\n }\n }\n if (isDefined(schema.items)) {\n schema.type = 'array';\n }\n } else {\n if (_.isArray(schema.type)) {\n _.each(schema.type, function (unionType) {\n tighten(unionType);\n });\n }\n }\n if (!isDefined(schema.required)) {\n schema.required = true;\n }\n if (isDefined(schema.properties)) {\n _(schema.properties).each(function (propertySchema) {\n tighten(propertySchema);\n });\n if (!isDefined(schema.additionalProperties)) {\n schema.additionalProperties = false;\n }\n }\n if (isDefined(schema.items)) {\n if (_.isArray(schema.items)) {\n _.each(schema.items, function (item) {\n tighten(item);\n });\n if (!isDefined(schema.additionalItems)) {\n schema.additionalItems = false;\n }\n } else {\n tighten(schema.items);\n }\n }\n return schema;\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(nodeMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLInterfaceType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== Kind.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var nodeMap = Object.create(null);\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case Kind.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n var typeName = d.name.value;\n if (nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" was defined more than once.');\n }\n typeDefs.push(d);\n nodeMap[typeName] = d;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n if (schemaDef) {\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified query type \"' + typeName + '\" not found in document.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified mutation type \"' + typeName + '\" not found in document.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n if (!nodeMap[typeName]) {\n throw new Error('Specified subscription type \"' + typeName + '\" not found in document.');\n }\n subscriptionTypeName = typeName;\n }\n });\n } else {\n if (nodeMap.Query) {\n queryTypeName = 'Query';\n }\n if (nodeMap.Mutation) {\n mutationTypeName = 'Mutation';\n }\n if (nodeMap.Subscription) {\n subscriptionTypeName = 'Subscription';\n }\n }\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type or a type named Query.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(nodeMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(nodeMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(nodeMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives,\n astNode: schemaDef\n });\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: getDescription(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && makeInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function getObjectType(typeNode) {\n var type = typeDefNamed(typeNode.name.value);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'AST must provide object type.') : void 0;\n return type;\n }\n\n function produceType(typeNode) {\n var typeName = getNamedTypeNode(typeNode).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeNode);\n }\n\n function produceInputType(typeNode) {\n return (0, _definition.assertInputType)(produceType(typeNode));\n }\n\n function produceOutputType(typeNode) {\n return (0, _definition.assertOutputType)(produceType(typeNode));\n }\n\n function produceObjectType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Expected Object type.') : void 0;\n return type;\n }\n\n function produceInterfaceType(typeNode) {\n var type = produceType(typeNode);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Expected Interface type.') : void 0;\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (!innerTypeMap[typeName]) {\n if (!nodeMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n innerTypeMap[typeName] = makeSchemaDef(nodeMap[typeName]);\n }\n return innerTypeMap[typeName];\n }\n\n function makeSchemaDef(def) {\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case Kind.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case Kind.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case Kind.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n return new _definition.GraphQLObjectType({\n name: typeName,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n },\n astNode: def\n });\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n description: getDescription(field),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field),\n astNode: field\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return {\n type: type,\n description: getDescription(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function makeInterfaceDef(def) {\n return new _definition.GraphQLInterfaceType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n astNode: def,\n resolveType: cannotExecuteSchema\n });\n }\n\n function makeEnumDef(def) {\n return new _definition.GraphQLEnumType({\n name: def.name.value,\n description: getDescription(def),\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: getDescription(enumValue),\n deprecationReason: getDeprecationReason(enumValue),\n astNode: enumValue\n };\n }),\n astNode: def\n });\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n description: getDescription(def),\n types: def.types.map(function (t) {\n return produceObjectType(t);\n }),\n resolveType: cannotExecuteSchema,\n astNode: def\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n description: getDescription(def),\n astNode: def,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n description: getDescription(def),\n fields: function fields() {\n return makeInputValues(def.fields);\n },\n astNode: def\n });\n }\n}", "function restore_local_schemas() {\n chrome.storage.sync.get({\"my_schemas\" : {}}, function (items){\n if (chrome.runtime.lastError) {\n alert(\"Error : \" + chrome.runtime.lastError);\n return;\n }\n my_schemas = items.my_schemas;\n if (!my_schemas) {\n return;\n }\n var view = document.getElementsByClassName(\"mainview\")[0];\n var schemaTemplate = document.getElementById(\"editor\").innerHTML;\n for (id in my_schemas) {\n if (my_schemas.hasOwnProperty(id)) {\n var node = document.createElement(\"div\");\n node.innerHTML = schemaTemplate;\n new SchemaEditor(node, my_schemas[id]);\n view.appendChild(node);\n addSchemaToList(id, node);\n }\n }\n});\n}", "get schema() {\r\n return this.i.schema;\r\n }", "function testSchema() {\n\n var ST = new SchemaTest();\n\n // creating manager\n var manager = ST.createUser(auntpolly);\n ST.manager = manager;\n console.log(\"Added manager: \" + JSON.stringify(manager));\n\n // creating team\n var tData = JSON.parse(JSON.stringify(myteam));\n tData.manager = ST.manager;\n var team = ST.createTeam(tData);\n ST.team = team;\n console.log(\"Added team: \" + JSON.stringify(team));\n\n // creating another user as assignee\n var assignee = ST.createUser(tomsawyer);\n ST.assignee = assignee;\n console.log(\"Added assignee: \" + JSON.stringify(assignee));\n\n // creating a project\n var pData = JSON.parse(JSON.stringify(some_project));\n pData.manager = ST.manager._id\n var project = ST.createProject(pData);\n ST.project = project;\n console.log(\"Added project: \" + JSON.stringify(project));\n\n // creating issue - to fill bucket of paint\n var issue1 = JSON.parse(JSON.stringify(issue_fill_bucket));\n issue1.project = ST.project;\n issue1.assignee = ST.assignee;\n ST.createIssue(issue1);\n ST.issues.push(issue1);\n\n // adding comment to a task\n var comment1 = JSON.parse(JSON.stringify(some_comment));\n comment1.writer = ST.assignee;\n comment1.issue = issue1._id;\n ST.createComment(comment1);\n ST.comments.push(comment1);\n}", "compactEntitySchema(schema, entity, transformedSchemas) {\n const reqEntity = transformedSchemas[entity['entityName']];\n reqEntity.entityName = entity['entityName'];\n reqEntity.name = entity['name'];\n reqEntity.columns = [];\n entity.columns.forEach(col => {\n let defaultValue = col.columnValue ? col.columnValue.defaultValue : '';\n const type = col.sqlType;\n if (type === 'number' && !col.primaryKey) {\n defaultValue = _.isEmpty(defaultValue) ? null : _.parseInt(defaultValue);\n }\n else if (type === 'boolean') {\n defaultValue = _.isEmpty(defaultValue) ? null : (defaultValue === 'true' ? 1 : 0);\n }\n else {\n defaultValue = _.isEmpty(defaultValue) ? null : defaultValue;\n }\n reqEntity.columns.push({\n name: col['name'],\n fieldName: col['fieldName'],\n generatorType: col['generatorType'],\n sqlType: col['sqlType'],\n primaryKey: col['primaryKey'],\n defaultValue: defaultValue\n });\n });\n _.forEach(entity.relations, r => {\n let targetEntitySchema, targetEntity, col, sourceColumn, mapping;\n if (r.cardinality === 'ManyToOne' || r.cardinality === 'OneToOne') {\n targetEntity = _.find(schema.tables, t => t.name === r.targetTable);\n mapping = r.mappings[0];\n if (targetEntity) {\n targetEntity = targetEntity.entityName;\n sourceColumn = mapping.sourceColumn;\n col = reqEntity.columns.find(column => column.name === sourceColumn);\n targetEntitySchema = schema.tables.find(table => table.name === r.targetTable);\n const foreignRelation = {\n sourceFieldName: r.fieldName,\n targetEntity: targetEntity,\n targetTable: r.targetTable,\n targetColumn: mapping.targetColumn,\n targetPath: '',\n dataMapper: [],\n targetFieldName: targetEntitySchema.columns.find(column => column.name === mapping.targetColumn).fieldName\n };\n foreignRelation.targetPath = foreignRelation.sourceFieldName + '.' + foreignRelation.targetFieldName;\n foreignRelation.dataMapper = _.chain(targetEntitySchema.columns)\n .keyBy(childCol => foreignRelation.sourceFieldName + '.' + childCol.fieldName)\n .mapValues(childCol => new ColumnInfo(childCol.name, childCol.fieldName)).value();\n col.foreignRelations = col.foreignRelations || [];\n col.foreignRelations.push(foreignRelation);\n }\n }\n });\n return reqEntity;\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function generateTypes(options = {}) {\n const { files, generateDocuments, generateSchemaTypes, schemaPath } = options;\n return new Promise((resolve, reject) => {\n gqlGenTool({\n file: schemaPath,\n template: 'typescript',\n // out: outPath,\n args: files,\n documents: generateDocuments,\n schema: generateSchemaTypes,\n }).then(\n value => {\n // console.log('end gen', value);\n const resultStr = value[0].content;\n\n // check for clashing namespace names\n const exportedNamespaces = (resultStr.match(/export namespace (\\S+) \\{/g) || []).map(\n m => m.match(/export namespace (\\S+) {/)[1],\n );\n\n if (exportedNamespaces.length !== _.uniq(exportedNamespaces).length) {\n const namesMap = exportedNamespaces.reduce((acc, v) => {\n acc[v] = acc[v] === undefined ? 1 : acc[v] + 1;\n return acc;\n }, {});\n const clashingNames = Object.keys(namesMap).filter(n => namesMap[n] > 1);\n return reject(new Error(`Query/Mutation names clash for ${clashingNames.join(', ')}`));\n }\n\n // prettify the result\n const prettifiedResultStr = prettier.format(\n resultStr,\n Object.assign(\n {\n parser: 'typescript',\n },\n prettierConfig,\n ),\n );\n\n resolve(prettifiedResultStr);\n },\n error => {\n console.log('yp-schema: types generation error', error);\n reject(error);\n },\n );\n });\n}", "async storeSchemaSettings() {\n this.errors = [];\n const depKeys = Object.values(this.app.dependencies);\n await Promise.all(depKeys.map(d => this.processModuleSchema(d)));\n }", "function buildASTSchema(ast) {\n if (!ast || ast.kind !== _kinds.DOCUMENT) {\n throw new Error('Must provide a document ast.');\n }\n\n var schemaDef = void 0;\n\n var typeDefs = [];\n var directiveDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _kinds.SCHEMA_DEFINITION:\n if (schemaDef) {\n throw new Error('Must provide only one schema definition.');\n }\n schemaDef = d;\n break;\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n break;\n case _kinds.DIRECTIVE_DEFINITION:\n directiveDefs.push(d);\n break;\n }\n }\n\n if (!schemaDef) {\n throw new Error('Must provide a schema definition.');\n }\n\n var queryTypeName = void 0;\n var mutationTypeName = void 0;\n var subscriptionTypeName = void 0;\n schemaDef.operationTypes.forEach(function (operationType) {\n var typeName = operationType.type.name.value;\n if (operationType.operation === 'query') {\n if (queryTypeName) {\n throw new Error('Must provide only one query type in schema.');\n }\n queryTypeName = typeName;\n } else if (operationType.operation === 'mutation') {\n if (mutationTypeName) {\n throw new Error('Must provide only one mutation type in schema.');\n }\n mutationTypeName = typeName;\n } else if (operationType.operation === 'subscription') {\n if (subscriptionTypeName) {\n throw new Error('Must provide only one subscription type in schema.');\n }\n subscriptionTypeName = typeName;\n }\n });\n\n if (!queryTypeName) {\n throw new Error('Must provide schema definition with query type.');\n }\n\n var astMap = (0, _keyMap2.default)(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type \"' + queryTypeName + '\" not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type \"' + mutationTypeName + '\" not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type \"' + subscriptionTypeName + '\" not found in document.');\n }\n\n var innerTypeMap = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n var types = typeDefs.map(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n var directives = directiveDefs.map(getDirective);\n\n // If specified directives were not explicitly declared, add them.\n if (!directives.some(function (directive) {\n return directive.name === 'skip';\n })) {\n directives.push(_directives.GraphQLSkipDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'include';\n })) {\n directives.push(_directives.GraphQLIncludeDirective);\n }\n\n if (!directives.some(function (directive) {\n return directive.name === 'deprecated';\n })) {\n directives.push(_directives.GraphQLDeprecatedDirective);\n }\n\n return new _schema.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null,\n types: types,\n directives: directives\n });\n\n function getDirective(directiveAST) {\n return new _directives.GraphQLDirective({\n name: directiveAST.name.value,\n locations: directiveAST.locations.map(function (node) {\n return node.value;\n }),\n args: directiveAST.arguments && makeInputValues(directiveAST.arguments)\n });\n }\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceType(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function produceInputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Expected Input type.');\n return type;\n }\n\n function produceOutputType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Expected Output type.');\n return type;\n }\n\n function produceObjectType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Expected Object type.');\n return type;\n }\n\n function produceInterfaceType(typeAST) {\n var type = produceType(typeAST);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Expected Object type.');\n return type;\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type \"' + typeName + '\" not found in document.');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for \"' + typeName + '\".');\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _kinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _kinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error('Type kind \"' + def.kind + '\" not supported.');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _definition.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _keyValMap2.default)(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceOutputType(field.type),\n args: makeInputValues(field.arguments),\n deprecationReason: getDeprecationReason(field.directives)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces && def.interfaces.map(function (iface) {\n return produceInterfaceType(iface);\n });\n }\n\n function makeInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceInputType(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _definition.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _definition.GraphQLEnumType({\n name: def.name.value,\n values: (0, _keyValMap2.default)(def.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n deprecationReason: getDeprecationReason(enumValue.directives)\n };\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _definition.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceObjectType(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _definition.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _definition.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "function fixSchema(schema){\n recurseotron.recurse(schema,{},function(obj,state){\n if ((state.key == 'id') && (typeof obj == 'string')) delete state.parent.id;\n if ((state.key == 'title') && (typeof obj == 'string')) delete state.parent.title;\n if ((state.key == 'description') && (typeof obj == 'string')) delete state.parent.description;\n if ((state.key == 'location') && (typeof obj == 'string')) delete state.parent.location;\n if ((state.key == 'type') && (typeof obj == 'string')) {\n if (obj == 'textarea') {\n state.parent.type = 'string';\n }\n }\n if ((state.key == '$ref') && (typeof obj == 'string') && !obj.startsWith('#/')) {\n state.parent[\"$ref\"] = '#/definitions/'+obj;\n }\n if ((state.key == 'required') && (typeof obj == 'boolean')) {\n if (obj === true) {\n var greatgrandparent = state.parents[state.parents.length-3];\n if (greatgrandparent) {\n if (state.keys[state.keys.length-2] != 'items') { // TODO better check for arrays\n if (!greatgrandparent.required) greatgrandparent.required = [];\n greatgrandparent.required.push(state.keys[state.keys.length-2]);\n }\n }\n }\n delete state.parent.required;\n }\n });\n}", "function compileSchema(sch) {\n // TODO refactor - remove compilations\n const _sch = getCompilingSchema.call(this, sch);\n if (_sch)\n return _sch;\n const rootId = (0, resolve_1.getFullPath)(this.opts.uriResolver, sch.root.baseId); // TODO if getFullPath removed 1 tests fails\n const { es5, lines } = this.opts.code;\n const { ownProperties } = this.opts;\n const gen = new codegen_1.CodeGen(this.scope, { es5, lines, ownProperties });\n let _ValidationError;\n if (sch.$async) {\n _ValidationError = gen.scopeValue(\"Error\", {\n ref: validation_error_1.default,\n code: (0, codegen_1._) `require(\"ajv/dist/runtime/validation_error\").default`,\n });\n }\n const validateName = gen.scopeName(\"validate\");\n sch.validateName = validateName;\n const schemaCxt = {\n gen,\n allErrors: this.opts.allErrors,\n data: names_1.default.data,\n parentData: names_1.default.parentData,\n parentDataProperty: names_1.default.parentDataProperty,\n dataNames: [names_1.default.data],\n dataPathArr: [codegen_1.nil],\n dataLevel: 0,\n dataTypes: [],\n definedProperties: new Set(),\n topSchemaRef: gen.scopeValue(\"schema\", this.opts.code.source === true\n ? { ref: sch.schema, code: (0, codegen_1.stringify)(sch.schema) }\n : { ref: sch.schema }),\n validateName,\n ValidationError: _ValidationError,\n schema: sch.schema,\n schemaEnv: sch,\n rootId,\n baseId: sch.baseId || rootId,\n schemaPath: codegen_1.nil,\n errSchemaPath: sch.schemaPath || (this.opts.jtd ? \"\" : \"#\"),\n errorPath: (0, codegen_1._) `\"\"`,\n opts: this.opts,\n self: this,\n };\n let sourceCode;\n try {\n this._compilations.add(sch);\n (0, validate_1.validateFunctionCode)(schemaCxt);\n gen.optimize(this.opts.code.optimize);\n // gen.optimize(1)\n const validateCode = gen.toString();\n sourceCode = `${gen.scopeRefs(names_1.default.scope)}return ${validateCode}`;\n // console.log((codeSize += sourceCode.length), (nodeCount += gen.nodeCount))\n if (this.opts.code.process)\n sourceCode = this.opts.code.process(sourceCode, sch);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode)\n const makeValidate = new Function(`${names_1.default.self}`, `${names_1.default.scope}`, sourceCode);\n const validate = makeValidate(this, this.scope.get());\n this.scope.value(validateName, { ref: validate });\n validate.errors = null;\n validate.schema = sch.schema;\n validate.schemaEnv = sch;\n if (sch.$async)\n validate.$async = true;\n if (this.opts.code.source === true) {\n validate.source = { validateName, validateCode, scopeValues: gen._values };\n }\n if (this.opts.unevaluated) {\n const { props, items } = schemaCxt;\n validate.evaluated = {\n props: props instanceof codegen_1.Name ? undefined : props,\n items: items instanceof codegen_1.Name ? undefined : items,\n dynamicProps: props instanceof codegen_1.Name,\n dynamicItems: items instanceof codegen_1.Name,\n };\n if (validate.source)\n validate.source.evaluated = (0, codegen_1.stringify)(validate.evaluated);\n }\n sch.validate = validate;\n return sch;\n }\n catch (e) {\n delete sch.validate;\n delete sch.validateName;\n if (sourceCode)\n this.logger.error(\"Error compiling schema, function code:\", sourceCode);\n // console.log(\"\\n\\n\\n *** \\n\", sourceCode, this.opts)\n throw e;\n }\n finally {\n this._compilations.delete(sch);\n }\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function updateReducedSchema(args) {\n var\n async = require('async'),\n fs = require('fs'),\n fileName = process.cwd() + '/mojits/FormEditorMojit/autoload/reduced-schema/InCase_T.common.js.copy',\n rawFile,\n fileHead = [],\n fileFoot = [],\n\n schema,\n params = args.originalParams,\n schemaMember = params.schemaMember || '';\n\n if ('' === schemaMember || !Y.dcforms.schema.InCase_T.hasOwnProperty(schemaMember)) {\n return args.callback('Missing or invalid argument: schemaMember');\n }\n\n async.series([loadSchema, updateSchema, cleanDynamicMembers, loadFile, cutOutJSON, saveFile], onAllDone);\n\n function loadSchema(itcb) {\n getReducedSchema({\n 'user': args.user,\n 'callback': onLoadedFromDisk\n });\n\n function onLoadedFromDisk(err, jsonObj) {\n if (err) {\n return itcb(err);\n }\n schema = jsonObj;\n itcb(null);\n }\n }\n\n function updateSchema(itcb) {\n var member = schema[schemaMember];\n\n member.label = member.label ? member.label : {};\n member.label.en = member.label.en ? member.label.en : 'missing';\n member.label.de = member.label.de ? member.label.de : 'missing';\n\n member.description = member.description ? member.description : {};\n member.description.en = member.description.en ? member.description.en : 'missing';\n member.description.de = member.description.de ? member.description.de : 'missing';\n\n params.label = params.label ? params.label : {};\n member.label.en = params.label.en ? params.label.en : member.label.en;\n member.label.de = params.label.de ? params.label.de : member.label.de;\n\n params.description = params.description ? params.description : {};\n member.description.en = params.description.en ? params.description.en : member.description.en;\n member.description.de = params.description.de ? params.description.de : member.description.de;\n\n itcb(null);\n }\n\n function cleanDynamicMembers(itcb) {\n var\n member,\n disallow = [\n 'actTypes',\n 'actTypesLabel',\n '-en',\n '-de',\n 'dateFormat',\n 'modeLabel',\n 'list'\n ],\n i, k;\n\n for (k in schema) {\n if (schema.hasOwnProperty(k)) {\n member = schema[k];\n // remove members which are dynamically added\n for (i = 0; i < disallow.length; i++) {\n if (member.hasOwnProperty(disallow[i])) {\n Y.log('Clean up submitted schema, remove dynamic property: ' + k + '.' + disallow[i], 'debug', NAME);\n delete member[disallow[i]];\n }\n }\n }\n }\n\n itcb(null);\n }\n\n function loadFile(itcb) {\n fs.readFile(fileName, onFileRead);\n\n function onFileRead(err, buffer) {\n if (err) {\n return itcb(err);\n }\n\n rawFile = buffer + '';\n itcb(null);\n }\n }\n\n function cutOutJSON(itcb) {\n var\n IN_HEADER = 0,\n IN_JSON = 1,\n IN_FOOTER = 2,\n\n lines = rawFile.split('\\n'),\n state = IN_HEADER,\n i;\n\n for (i = 0; i < lines.length; i++) {\n if (lines[i].trim() === '//-- end schema') {\n state = IN_FOOTER;\n }\n\n if (state === IN_FOOTER) {\n fileFoot.push(lines[i]);\n }\n\n if (state === IN_HEADER) {\n fileHead.push(lines[i]);\n }\n\n if (lines[i].trim() === '//-- start schema') {\n state = IN_JSON;\n }\n }\n\n itcb(null);\n }\n\n function saveFile(itcb) {\n var\n jsonText = JSON.stringify(schema, undefined, 4),\n jsonLines = jsonText.split('\\n'),\n fileText = fileHead.join('\\n') + '\\n' + ' Y.dcforms.schema.InCase_T = ',\n i;\n\n for (i = 0; i < jsonLines.length; i++) {\n if (i === jsonLines.length - 1) {\n jsonLines[i] = jsonLines[i] + ';';\n }\n fileText = fileText + ' ' + jsonLines[i] + '\\n';\n }\n\n fileText = fileText + '\\n' + fileFoot.join('\\n');\n\n fs.writeFile(fileName, fileText, itcb);\n }\n\n function onAllDone(err) {\n if (err) {\n Y.log('Could not load ' + fileName + ': ' + JSON.stringify(err), 'warn', NAME);\n return args.callback(err);\n }\n\n // schema may have been changed by other users, send back updated file from disk\n args.callback(null, schema);\n }\n }", "createTypes(){\n }", "getSchema(keyRef) {\n let sch;\n while (typeof (sch = getSchEnv.call(this, keyRef)) == \"string\")\n keyRef = sch;\n if (sch === undefined) {\n const { schemaId } = this.opts;\n const root = new compile_1.SchemaEnv({ schema: {}, schemaId });\n sch = compile_1.resolveSchema.call(this, root, keyRef);\n if (!sch)\n return;\n this.refs[keyRef] = sch;\n }\n return (sch.validate || this._compileSchemaEnv(sch));\n }", "function GraphQLSchema(config) {\n var _config$directives; // If this schema was built from a source known to be valid, then it may be\n // marked with assumeValid to avoid an additional type system validation.\n\n\n this.__validationErrors = config.assumeValid === true ? [] : undefined; // Check for common mistakes during construction to produce early errors.\n\n (0, _isObjectLike.default)(config) || (0, _devAssert.default)(0, 'Must provide configuration object.');\n !config.types || Array.isArray(config.types) || (0, _devAssert.default)(0, \"\\\"types\\\" must be Array if provided but got: \".concat((0, _inspect.default)(config.types), \".\"));\n !config.directives || Array.isArray(config.directives) || (0, _devAssert.default)(0, '\"directives\" must be Array if provided but got: ' + \"\".concat((0, _inspect.default)(config.directives), \".\"));\n this.description = config.description;\n this.extensions = config.extensions && (0, _toObjMap.default)(config.extensions);\n this.astNode = config.astNode;\n this.extensionASTNodes = config.extensionASTNodes;\n this._queryType = config.query;\n this._mutationType = config.mutation;\n this._subscriptionType = config.subscription; // Provide specified directives (e.g. @include and @skip) by default.\n\n this._directives = (_config$directives = config.directives) !== null && _config$directives !== void 0 ? _config$directives : _directives.specifiedDirectives; // To preserve order of user-provided types, we add first to add them to\n // the set of \"collected\" types, so `collectReferencedTypes` ignore them.\n\n var allReferencedTypes = new Set(config.types);\n\n if (config.types != null) {\n for (var _i2 = 0, _config$types2 = config.types; _i2 < _config$types2.length; _i2++) {\n var type = _config$types2[_i2]; // When we ready to process this type, we remove it from \"collected\" types\n // and then add it together with all dependent types in the correct position.\n\n allReferencedTypes.delete(type);\n collectReferencedTypes(type, allReferencedTypes);\n }\n }\n\n if (this._queryType != null) {\n collectReferencedTypes(this._queryType, allReferencedTypes);\n }\n\n if (this._mutationType != null) {\n collectReferencedTypes(this._mutationType, allReferencedTypes);\n }\n\n if (this._subscriptionType != null) {\n collectReferencedTypes(this._subscriptionType, allReferencedTypes);\n }\n\n for (var _i4 = 0, _this$_directives2 = this._directives; _i4 < _this$_directives2.length; _i4++) {\n var directive = _this$_directives2[_i4]; // Directives are not validated until validateSchema() is called.\n\n if ((0, _directives.isDirective)(directive)) {\n for (var _i6 = 0, _directive$args2 = directive.args; _i6 < _directive$args2.length; _i6++) {\n var arg = _directive$args2[_i6];\n collectReferencedTypes(arg.type, allReferencedTypes);\n }\n }\n }\n\n collectReferencedTypes(_introspection.__Schema, allReferencedTypes); // Storing the resulting map for reference by the schema.\n\n this._typeMap = Object.create(null);\n this._subTypeMap = Object.create(null); // Keep track of all implementations by interface name.\n\n this._implementationsMap = Object.create(null);\n\n for (var _i8 = 0, _arrayFrom2 = (0, _arrayFrom.default)(allReferencedTypes); _i8 < _arrayFrom2.length; _i8++) {\n var namedType = _arrayFrom2[_i8];\n\n if (namedType == null) {\n continue;\n }\n\n var typeName = namedType.name;\n typeName || (0, _devAssert.default)(0, 'One of the provided types for building the Schema is missing a name.');\n\n if (this._typeMap[typeName] !== undefined) {\n throw new Error(\"Schema must contain uniquely named types but contains multiple types named \\\"\".concat(typeName, \"\\\".\"));\n }\n\n this._typeMap[typeName] = namedType;\n\n if ((0, _definition.isInterfaceType)(namedType)) {\n // Store implementations by interface.\n for (var _i10 = 0, _namedType$getInterfa2 = namedType.getInterfaces(); _i10 < _namedType$getInterfa2.length; _i10++) {\n var iface = _namedType$getInterfa2[_i10];\n\n if ((0, _definition.isInterfaceType)(iface)) {\n var implementations = this._implementationsMap[iface.name];\n\n if (implementations === undefined) {\n implementations = this._implementationsMap[iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n implementations.interfaces.push(namedType);\n }\n }\n } else if ((0, _definition.isObjectType)(namedType)) {\n // Store implementations by objects.\n for (var _i12 = 0, _namedType$getInterfa4 = namedType.getInterfaces(); _i12 < _namedType$getInterfa4.length; _i12++) {\n var _iface = _namedType$getInterfa4[_i12];\n\n if ((0, _definition.isInterfaceType)(_iface)) {\n var _implementations = this._implementationsMap[_iface.name];\n\n if (_implementations === undefined) {\n _implementations = this._implementationsMap[_iface.name] = {\n objects: [],\n interfaces: []\n };\n }\n\n _implementations.objects.push(namedType);\n }\n }\n }\n }\n }", "static get CoreSchema() {\r\n if (!_CoreSchema) {\r\n log.info(`Define the schema for ${MODEL_NAME}`);\r\n _CoreSchema = new mongoose.Schema({\r\n corename: String,\r\n corecode: Number,\r\n coreemail: String,\r\n dateCreated: { type: Date, default: Date.now },\r\n dateUpdated: { type: Date, default: Date.now }\r\n });\r\n }\r\n\r\n return _CoreSchema;\r\n }", "function _generateSchema(typeDefinitions, resolveFunctions, logger, \n // TODO: rename to allowUndefinedInResolve to be consistent\n allowUndefinedInResolve, resolverValidationOptions) {\n if (typeof resolverValidationOptions !== 'object') {\n throw new SchemaError('Expected `resolverValidationOptions` to be an object');\n }\n if (!typeDefinitions) {\n throw new SchemaError('Must provide typeDefs');\n }\n if (!resolveFunctions) {\n throw new SchemaError('Must provide resolvers');\n }\n // TODO: check that typeDefinitions is either string or array of strings\n var schema = buildSchemaFromTypeDefinitions(typeDefinitions);\n addResolveFunctionsToSchema(schema, resolveFunctions);\n assertResolveFunctionsPresent(schema, resolverValidationOptions);\n if (!allowUndefinedInResolve) {\n addCatchUndefinedToSchema(schema);\n }\n if (logger) {\n addErrorLoggingToSchema(schema, logger);\n }\n return schema;\n}", "getHaxJSONSchema(type,haxProperties,target=this){return this.HAXWiring.getHaxJSONSchema(type,haxProperties,target)}", "withSchema(schema) {\n return new QueryCreator({\n ...this.#props,\n executor: this.#props.executor.withPluginAtFront(new with_schema_plugin_js_1.WithSchemaPlugin(schema)),\n });\n }", "prepareForStorage(req, doc) {\n const can = (field) => {\n return (!field.withType && !field.editPermission && !field.viewPermission) ||\n (field.withType && self.apos.permission.can(req, 'view', field.withType)) ||\n (field.editPermission && self.apos.permission.can(req, field.editPermission.action, field.editPermission.type)) ||\n (field.viewPermission && self.apos.permission.can(req, field.viewPermission.action, field.viewPermission.type)) ||\n false;\n };\n\n const handlers = {\n arrayItem: (field, object) => {\n if (!can(field)) {\n return;\n }\n\n object._id = object._id || self.apos.util.generateId();\n object.metaType = 'arrayItem';\n object.scopedArrayName = field.scopedArrayName;\n },\n object: (field, object) => {\n if (!can(field)) {\n return;\n }\n\n object.metaType = 'object';\n object.scopedObjectName = field.scopedObjectName;\n },\n relationship: (field, doc) => {\n if (!can(field)) {\n return;\n }\n\n doc[field.idsStorage] = doc[field.name].map(relatedDoc => self.apos.doc.toAposDocId(relatedDoc));\n if (field.fieldsStorage) {\n const fieldsById = doc[field.fieldsStorage] || {};\n for (const relatedDoc of doc[field.name]) {\n if (relatedDoc._fields) {\n fieldsById[self.apos.doc.toAposDocId(relatedDoc)] = relatedDoc._fields;\n }\n }\n doc[field.fieldsStorage] = fieldsById;\n }\n }\n };\n\n self.apos.doc.walkByMetaType(doc, handlers);\n }", "async function createOrUpdateSchema() {\n const subscriptionId =\n process.env[\"LOGIC_SUBSCRIPTION_ID\"] || \"34adfa4f-cedf-4dc0-ba29-b6d1a69ab345\";\n const resourceGroupName = process.env[\"LOGIC_RESOURCE_GROUP\"] || \"testResourceGroup\";\n const integrationAccountName = \"testIntegrationAccount\";\n const schemaName = \"testSchema\";\n const schema = {\n content:\n '<?xml version=\"1.0\" encoding=\"utf-16\"?>\\r\\n<xs:schema xmlns:b=\"http://schemas.microsoft.com/BizTalk/2003\" xmlns=\"http://Inbound_EDI.OrderFile\" targetNamespace=\"http://Inbound_EDI.OrderFile\" xmlns:xs=\"http://www.w3.org/2001/XMLSchema\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:schemaInfo default_pad_char=\" \" count_positions_by_byte=\"false\" parser_optimization=\"speed\" lookahead_depth=\"3\" suppress_empty_nodes=\"false\" generate_empty_nodes=\"true\" allow_early_termination=\"false\" early_terminate_optional_fields=\"false\" allow_message_breakup_of_infix_root=\"false\" compile_parse_tables=\"false\" standard=\"Flat File\" root_reference=\"OrderFile\" />\\r\\n <schemaEditorExtension:schemaInfo namespaceAlias=\"b\" extensionClass=\"Microsoft.BizTalk.FlatFileExtension.FlatFileExtension\" standardName=\"Flat File\" xmlns:schemaEditorExtension=\"http://schemas.microsoft.com/BizTalk/2003/SchemaEditorExtensions\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"OrderFile\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" sequence_number=\"1\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"Order\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"1\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"hex\" child_delimiter=\"0x0D 0x0A\" child_order=\"infix\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"Header\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"1\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"char\" child_delimiter=\"|\" child_order=\"infix\" tag_name=\"HDR|\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"PODate\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"1\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"PONumber\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo justification=\"left\" sequence_number=\"2\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerID\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"3\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerContactName\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"4\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"CustomerContactPhone\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"5\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n <xs:element minOccurs=\"1\" maxOccurs=\"unbounded\" name=\"LineItems\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:recordInfo sequence_number=\"2\" structure=\"delimited\" preserve_delimiter_for_empty_data=\"true\" suppress_trailing_delimiters=\"false\" child_delimiter_type=\"char\" child_delimiter=\"|\" child_order=\"infix\" tag_name=\"DTL|\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:complexType>\\r\\n <xs:sequence>\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:groupInfo sequence_number=\"0\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n <xs:element name=\"PONumber\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"1\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"ItemOrdered\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"2\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Quantity\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"3\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"UOM\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"4\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Price\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"5\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"ExtendedPrice\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"6\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n <xs:element name=\"Description\" type=\"xs:string\">\\r\\n <xs:annotation>\\r\\n <xs:appinfo>\\r\\n <b:fieldInfo sequence_number=\"7\" justification=\"left\" />\\r\\n </xs:appinfo>\\r\\n </xs:annotation>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n </xs:sequence>\\r\\n </xs:complexType>\\r\\n </xs:element>\\r\\n</xs:schema>',\n contentType: \"application/xml\",\n location: \"westus\",\n metadata: {},\n schemaType: \"Xml\",\n tags: { integrationAccountSchemaName: \"IntegrationAccountSchema8120\" },\n };\n const credential = new DefaultAzureCredential();\n const client = new LogicManagementClient(credential, subscriptionId);\n const result = await client.integrationAccountSchemas.createOrUpdate(\n resourceGroupName,\n integrationAccountName,\n schemaName,\n schema\n );\n console.log(result);\n}", "function localRelTab() {\n var tableCache = {};\n\n /*\n * Terminology: \n * A *Column* is a sequence of scalar values of a particular type, along with metadata\n * describing the column and how it should be rendered (such as the type of scalar values and display\n * name to use in the column header).\n * A *Column Id* uniquely identifies a particular column. A column id is also used as\n * an index into the column metadata dictionary.\n * A *Table* is a sequence of columns.\n * A *Schema* is a sequence of Column Ids and a map from Column Id to Column Metadata info.\n * A *Column Index* is an ordinal index identifying the i-th column in a Table.\n */\n function Schema( schemaData ) {\n var s = schemaData;\n\n s.columnType = function( colId ) {\n var md = s.columnMetadata[ colId ];\n\n return md.type;\n }\n\n s.displayName = function( colId ) {\n var dn = s.columnMetadata[ colId ].displayName || colId;\n\n return dn;\n }\n\n var columnIndices = {};\n for ( var i = 0; i < schemaData.columns.length; i++ ) {\n var col = schemaData.columns[ i ];\n columnIndices[ col ] = i;\n }\n\n s.columnIndices = columnIndices;\n\n s.columnIndex = function( colId ) {\n return this.columnIndices[ colId ];\n }\n\n s.compatCheck = function( sb ) {\n if( this.columns.length != sb.columns.length ) {\n throw new SchemaError( \"incompatible schema: columns length mismatch\", this, sb );\n }\n for( var i = 0; i < this.columns.length; i++ ) {\n var colId = this.columns[ i ];\n var bColId = sb.columns[ i ];\n if( colId !== bColId ) {\n throw new SchemaError( \"incompatible schema: expected '\" + colId + \"', found '\" + bColId + \"'\", this, sb );\n }\n var colType = this.columnMetadata[ colId ].type;\n var bColType = sb.columnMetadata[ bColId ].type;\n if( colType !== bColType ) {\n throw new SchemaError( \"mismatched column types for col '\" + colId + \"': \" + colType + \", \" + bColType, this, sb );\n }\n }\n // success!\n }\n\n // Construct a row map with keys being column ids: \n s.rowMapFromRow = function( rowArray ) {\n var columnIds = this.columns;\n\n var rowMap = { };\n for( var col = 0; col < rowArray.length; col++ ) {\n rowMap[ columnIds[ col ] ] = rowArray[ col ];\n }\n\n return rowMap;\n }\n\n\n return s; // for now\n }\n\n function SchemaError( message, s1, s2 ) {\n this.message = message;\n this.s1 = s1;\n this.s2 = s2;\n }\n\n SchemaError.prototype = new Error();\n\n\n function TableRep( tableData ) {\n var schema = new Schema( tableData[ 0 ] );\n var rowData = tableData[ 1 ].rowData;\n\n function getRow( i ) {\n return rowData[ i ];\n }\n\n return {\n \"schema\": schema,\n \"getRow\": getRow,\n \"rowData\": rowData\n }\n }\n\n function ensureLoaded( tableName, cbfn ) {\n // tableCache will map tableName to a Promise whose value is a TableRep\n\n var tcp = tableCache[ tableName ];\n if( !tcp ) {\n var url = \"../json/\" + tableName + \".json\"; \n\n console.log( \"ensureLoaded: table '\", tableName, \"' not in cache, loading URL.\" );\n\n // We'll use .then to construct a Promise that gives us a TableRep (not just the raw JSON) and store this\n // in the tableCache:\n\n var rawJsonPromise = fetchURL( url );\n\n tcp = rawJsonPromise.then( function( jsonData ) {\n var trep = new TableRep( jsonData );\n return trep;\n })\n\n tableCache[ tableName ] = tcp;\n } else {\n console.log( \"ensureLoaded: table '\", tableName, \"': cache hit!\" );\n }\n return tcp;\n }\n\n function tableRefImpl( tableName ) {\n return ensureLoaded( tableName );\n }\n\n // Given an input Schema and an array of columns to project, calculate permutation\n // to apply to each row to obtain the projection\n function calcProjectionPermutation( inSchema, projectCols ) {\n var perm = [];\n // ensure all columns in projectCols in schema:\n for ( var i = 0 ; i < projectCols.length; i++ ) {\n var colId = projectCols[ i ];\n if( !( inSchema.columnMetadata[ colId ] ) ) {\n var err = new Error( \"project: unknown column Id '\" + colId + \"'\" );\n throw err;\n }\n perm.push( inSchema.columnIndex( colId ) );\n }\n return perm;\n }\n\n function projectImpl( projectCols ) {\n\n // Singleton promise to calculate permutation and schema\n var psp = null;\n\n /* Use the inImpl schema and projectCols to calculate the permutation to\n * apply to each input row to produce the result of the project.\n */\n function calcState( inSchema ) {\n var perm = calcProjectionPermutation( inSchema, projectCols );\n var ns = new Schema( { columns: projectCols, columnMetadata: inSchema.columnMetadata } );\n\n return { \"schema\": ns, \"permutation\": perm };\n }\n\n function pf( subTables ) {\n var tableData = subTables[ 0 ];\n\n var ps = calcState( tableData.schema );\n function permuteOneRow( row ) {\n return d3.permute( row, ps.permutation);\n }\n var outRowData = tableData.rowData.map( permuteOneRow );\n\n return { \"schema\": ps.schema, \"rowData\": outRowData };\n }\n\n return pf;\n };\n\n /*\n * compile the given filter expression with rest to the given schema\n */\n function compileFilterExp( schema, fexp ) {\n // base expression (token) types:\n var TOK_IDENT = 0; // identifier\n var TOK_STR = 1; // string literal\n var TOK_INT = 2;\n\n var identRE = /[a-zA-Z][a-zA-Z0-9]*/;\n var strRE = /'([^']*)'/; // TODO: deal with escaped quotes\n var intRE = /[0-9]+/;\n\n function exactMatch( re, target ) {\n var res = re.exec( target );\n if ( res && (res[0].length==target.length) && res.index==0 )\n return res;\n return null;\n }\n\n function tokenize( str ) {\n var ret = undefined;\n var match;\n if( match = exactMatch( identRE, str ) ) {\n ret = { tt: TOK_IDENT, val: str }\n } else if( match = exactMatch( strRE, str ) ) {\n ret = { tt: TOK_STR, val: match[1] }\n } else if( match = exactMatch( intRE, str ) ) {\n ret = { tt: TOK_INT, val: parseInt( str ) }\n } else {\n throw new Error( \"tokenize: unrecognized token [\" + str + \"]\" );\n }\n return ret;\n }\n\n function compileAccessor( tok ) {\n var af = undefined;\n if( tok.tt == TOK_IDENT ) {\n var idx = schema.columnIndex( tok.val );\n if( typeof idx == \"undefined\" ) {\n throw new Error( \"compiling filter expression: Unknown column identifier '\" + tok.val + \"'\" );\n }\n af = function( row ) {\n return row[ idx ];\n }\n } else {\n af = function( row ) {\n return tok.val;\n }\n }\n return af;\n }\n\n var relOpFnMap = {\n \"eq\": function( l, r ) { return l==r; },\n }\n\n function compileRelOp( relop ) {\n var tlhs = tokenize( relop.lhs );\n var trhs = tokenize( relop.rhs );\n var lhsef = compileAccessor( tlhs );\n var rhsef = compileAccessor( trhs );\n var cmpFn = relOpFnMap[ relop.relOp ];\n if( !cmpFn ) {\n throw new Error( \"compileRelOp: unknown relational operator '\" + relop.op + \"'\" );\n }\n\n function rf( row ) {\n var lval = lhsef( row );\n var rval = rhsef( row );\n return cmpFn( lval, rval );\n } \n return rf;\n }\n\n function compileSimpleExp( se ) {\n if( se.type==\"RelOp\" ) {\n return compileRelOp( se );\n } else if( se.type==\"subexp\" ) {\n return compileExp( se.exp );\n } else {\n throw new Error( \"error compile simple expression \" + JSON.stringify( se ) + \": unknown expr type\");\n }\n }\n\n function compileAndExp( argExps ) {\n var argCFs = argExps.map( compileSimpleExp );\n\n function cf( row ) {\n for ( var i = 0; i < argCFs.length; i++ ) {\n var acf = argCFs[ i ];\n var ret = acf( row );\n if( !ret )\n return false;\n }\n return true;\n } \n return cf;\n }\n \n function compileOrExp( argExps ) {\n // TODO\n }\n\n function compileExp( exp ) {\n var rep = exp._getRep();\n var boolOp = rep.boolOp; // top level\n var cfn = undefined;\n if( boolOp == \"and\" )\n cfn = compileAndExp\n else\n cfn = compileOrExp;\n\n return cfn( rep.args );\n } \n\n return {\n \"evalFilterExp\": compileExp( fexp )\n };\n\n }\n\n function filterImpl( fexp ) {\n function ff( subTables ) {\n var tableData = subTables[ 0 ];\n\n var ce = compileFilterExp( tableData.schema, fexp );\n\n var outRows = [];\n for( var i = 0; i < tableData.rowData.length; i++ ) {\n var row = tableData.rowData[ i ];\n if( ce.evalFilterExp( row ) )\n outRows.push( row );\n }\n\n return { schema: tableData.schema, rowData: outRows };\n }\n\n return ff;\n };\n\n function compileSortFunc( schema, keys ) {\n function strcmp( s1, s2 ) {\n return (s1 < s2 ? -1 : ( (s1 > s2) ? 1 : 0 ));\n }\n\n function intcmp( i1, i2 ) {\n return (i2 - i1);\n }\n\n var cmpFnMap = {\n \"text\": strcmp,\n \"integer\": intcmp\n };\n\n function mkRowCompFn( valCmpFn, idx, nextFunc ) {\n function rcf( rowa, rowb ) {\n var va = rowa[idx];\n var vb = rowb[idx];\n var ret = valCmpFn( va, vb );\n return ( ret==0 ? nextFunc( rowa, rowb ) : ret );\n }\n\n return rcf;\n }\n\n var rowCmpFn = function( rowa, rowb ) {\n return 0;\n }\n\n function reverseArgs( cfn ) {\n function rf( v1, v2 ) { return cfn( v2, v1 ); }\n\n return rf;\n }\n\n\n for( var i = keys.length - 1; i >=0; i-- ) {\n var colId = keys[i][0];\n var asc = keys[i][1];\n var idx = schema.columnIndex( colId );\n\n // look up comparison func for values of specific column type (taking asc in to account):\n var colType = schema.columnType( colId );\n var valCmpFn = cmpFnMap[ colType ];\n if( !asc ) {\n valCmpFn = reverseArgs( valCmpFn );\n }\n rowCmpFn = mkRowCompFn( valCmpFn, idx, rowCmpFn );\n }\n return rowCmpFn;\n }\n\n\n function sortImpl( sortKeys ) {\n\n function sf( subTables ) {\n var tableData = subTables[ 0 ];\n\n var rsf = compileSortFunc( tableData.schema, sortKeys );\n // force a copy:\n var outRows = tableData.rowData.slice();\n outRows.sort( rsf );\n\n return { schema: tableData.schema, rowData: outRows };\n }\n return sf;\n }\n\n // A simple op is a function from a full evaluated query result { schema, rowData } -> { schema, rowData }\n // This can easily be wrapped to make it async / promise-based / caching\n function groupByImpl( cols, aggs ) {\n var aggCols = aggs; // TODO: deal with explicitly specified (non-default) aggregations!\n\n function calcSchema( inSchema ) {\n var gbCols = cols.concat( aggCols );\n var gbs = new Schema( { columns: gbCols, columnMetadata: inSchema.columnMetadata } );\n\n return gbs;\n }\n\n function fillArray(value, len) {\n var arr = [];\n for (var i = 0; i < len; i++) {\n arr.push(value);\n };\n return arr;\n }\n\n function SumAgg() {\n this.sum = 0;\n }\n\n SumAgg.prototype.mplus = function( val ) {\n if ( typeof val !== \"undefined\" )\n this.sum += val;\n\n return this;\n }\n\n SumAgg.prototype.finalize = function() {\n return this.sum;\n }\n\n function UniqAgg() {\n this.initial = true; \n this.str = null;\n }\n\n UniqAgg.prototype.mplus = function( val ) {\n if ( this.initial && val != null ) {\n // this is our first non-null value:\n this.str = val;\n this.initial = false;\n } else {\n if( this.str != val )\n this.str = null; \n }\n }\n UniqAgg.prototype.finalize = function() {\n return this.str;\n }\n\n function AvgAgg() {\n this.count = 0;\n this.sum = 0;\n }\n\n AvgAgg.prototype.mplus = function( val ) {\n if ( typeof val !== \"undefined\" ) {\n this.count++;\n this.sum += val;\n }\n return this;\n }\n AvgAgg.prototype.finalize = function() {\n if ( this.count == 0 )\n return NaN;\n return this.sum / this.count;\n }\n\n // map of constructors for agg operators:\n var aggMap = {\n \"uniq\": UniqAgg,\n \"sum\": SumAgg,\n \"avg\": AvgAgg, \n }\n\n // map from column type to default agg functions:\n var defaultAggs = {\n \"integer\": SumAgg,\n \"text\": UniqAgg\n }\n\n function gb( subTables ) {\n var tableData = subTables[ 0 ];\n\n var inSchema = tableData.schema;\n var outSchema = calcSchema( inSchema );\n\n var aggCols = aggs; // TODO: deal with explicitly specified (non-default) aggregations!\n\n var groupMap = {};\n var keyPerm = calcProjectionPermutation( inSchema, cols );\n var aggColsPerm = calcProjectionPermutation( inSchema, aggCols );\n\n // construct and return an an array of aggregation objects appropriate\n // to each agg fn and agg column passed to groupBy\n\n function mkAggAccs() {\n var aggAccs = [];\n for ( var i = 0; i < aggCols.length; i++ ) {\n // TODO: check for typeof aggs[i] == array and use specified agg\n var aggColType = inSchema.columnMetadata[ aggCols[ i ] ].type;\n var aggCtor = defaultAggs[ aggColType ];\n var accObj = new aggCtor();\n aggAccs.push( accObj );\n }\n return aggAccs;\n }\n\n\n for ( var i = 0; i < tableData.rowData.length; i++ ) {\n var inRow = tableData.rowData[ i ];\n\n var keyData = d3.permute( inRow, keyPerm );\n var aggInData = d3.permute( inRow, aggColsPerm );\n var keyStr = JSON.stringify( keyData );\n\n var groupRow = groupMap[ keyStr ];\n var aggAccs = undefined;\n if ( !groupRow ) {\n aggAccs = mkAggAccs();\n // make an entry in our map:\n groupRow = keyData.concat( aggAccs );\n groupMap[ keyStr ] = groupRow; \n }\n for ( var j = keyData.length; j < groupRow.length; j++ ) {\n var acc = groupRow[ j ];\n acc.mplus( aggInData[ j - keyData.length ] );\n }\n } \n\n // finalize!\n var rowData = [];\n for ( keyStr in groupMap ) {\n if ( groupMap.hasOwnProperty( keyStr ) ) {\n groupRow = groupMap[ keyStr ];\n keyData = groupRow.slice( 0, cols.length );\n for ( var j = keyData.length; j < groupRow.length; j++ ) {\n groupRow[ j ] = groupRow[ j ].finalize(); \n }\n rowData.push( groupRow );\n }\n }\n return { schema: outSchema, rowData: rowData };\n }\n\n return gb;\n }\n\n /*\n * map the display name or type of columns.\n * TODO: perhaps split this into different functions since most operations are only schema transformations,\n * but type mapping will involve touching all input data.\n */\n function mapColumnsImpl( cmap ) {\n // TODO: check that all columns are columns of original schema,\n // and that applying cmap will not violate any invariants on Schema....but need to nail down\n // exactly what those invariants are first!\n\n function mc( subTables ) {\n var tableData = subTables[ 0 ];\n var inSchema = tableData.schema;\n\n var outColumns = [];\n var outMetadata = {};\n for ( var i = 0; i < inSchema.columns.length; i++ ) {\n var inColumnId = inSchema.columns[ i ];\n var inColumnInfo = inSchema.columnMetadata[ inColumnId ];\n var cmapColumnInfo = cmap[ inColumnId ];\n if( typeof cmapColumnInfo == \"undefined\" ) {\n outColumns.push( inColumnId );\n outMetadata[ inColumnId ] = inColumnInfo;\n } else {\n var outColumnId = cmapColumnInfo.id;\n if( typeof outColumnId == \"undefined\" ) {\n outColId = inColId;\n }\n\n // Form outColumnfInfo from inColumnInfo and all non-id keys in cmapColumnInfo:\n var outColumnInfo = JSON.parse( JSON.stringify( inColumnInfo ) );\n for( var key in cmapColumnInfo ) {\n if( key!='id' && cmapColumnInfo.hasOwnProperty( key ) )\n outColumnInfo[ key ] = cmapColumnInfo[ key ];\n }\n outMetadata[ outColumnId ] = outColumnInfo;\n outColumns.push( outColumnId );\n }\n }\n var outSchema = new Schema( { columns: outColumns, columnMetadata: outMetadata } );\n\n // TODO: remap types as needed!\n\n return { schema: outSchema, rowData: tableData.rowData };\n }\n\n return mc;\n }\n\n function mapColumnsByIndexImpl( cmap ) {\n // TODO: try to unify with mapColumns. Probably means mapColumns will construct an argument to\n // mapColumnsByIndex and use this impl\n function mc( subTables ) {\n var tableData = subTables[ 0 ];\n var inSchema = tableData.schema;\n\n var outColumns = [];\n var outMetadata = {};\n for ( var inIndex = 0; inIndex < inSchema.columns.length; inIndex++ ) {\n var inColumnId = inSchema.columns[ inIndex ];\n var inColumnInfo = inSchema.columnMetadata[ inColumnId ];\n var cmapColumnInfo = cmap[ inIndex ];\n if( typeof cmapColumnInfo == \"undefined\" ) {\n outColumns.push( inColumnId );\n outMetadata[ inColumnId ] = inColumnInfo;\n } else {\n var outColumnId = cmapColumnInfo.id;\n if( typeof outColumnId == \"undefined\" ) {\n outColumnId = inColumnId;\n }\n\n // Form outColumnfInfo from inColumnInfo and all non-id keys in cmapColumnInfo:\n var outColumnInfo = JSON.parse( JSON.stringify( inColumnInfo ) );\n for( var key in cmapColumnInfo ) {\n if( key!='id' && cmapColumnInfo.hasOwnProperty( key ) )\n outColumnInfo[ key ] = cmapColumnInfo[ key ];\n }\n outMetadata[ outColumnId ] = outColumnInfo;\n outColumns.push( outColumnId );\n }\n }\n var outSchema = new Schema( { columns: outColumns, columnMetadata: outMetadata } );\n\n // TODO: remap types as needed!\n\n return { schema: outSchema, rowData: tableData.rowData };\n }\n\n return mc;\n }\n\n /*\n * extend a RelTab by adding a column computed from existing columns.\n */\n function extendImpl( columns, columnMetadata, columnValMap ) {\n\n /*\n * TODO: What are the semantics of doing an extend on a column that already exists? Decide and spec. it!\n */\n function ef( subTables ) {\n var tableData = subTables[ 0 ];\n var inSchema = tableData.schema;\n\n var outCols = inSchema.columns.concat( columns );\n var outMetadata = $.extend( {}, inSchema.columnMetadata, columnMetadata );\n var outSchema = new Schema( { columns: outCols, columnMetadata: outMetadata } );\n\n var extValues = [];\n for( var i = 0; i < columns.length; i++ ) {\n var colId = columns[ i ];\n var val = columnValMap && columnValMap[ colId ];\n if ( typeof val == \"undefined\" )\n val = null;\n extValues.push( val );\n }\n\n /*\n * For now we only allow extensions to depend on columns of the original\n * table. We may want to relax this to allow columns to depend on earlier\n * entries in columns[] array.\n */\n var outRows = [];\n for( var i = 0; i < tableData.rowData.length; i++ ) {\n var inRow = tableData.rowData[ i ];\n var rowMap = null; // only build on-demand\n // TODO: For performance could cons up an object with getters that use schema to just do an array index\n // For now, let's just build the row object:\n\n var outRow = inRow.slice();\n for( var j = 0; j < extValues.length; j++ ) {\n var ev = extValues[ j ];\n if( typeof( ev ) === \"function\" ) {\n if( !rowMap ) {\n rowMap = tableData.schema.rowMapFromRow( inRow );\n }\n var outVal = ev( rowMap );\n } else {\n // extending with a constant value:\n var outVal = ev;\n }\n outRow.push( outVal );\n }\n outRows.push( outRow );\n }\n\n return { schema: outSchema, rowData: outRows };\n }\n\n return ef;\n }\n\n /*\n * concat tables\n */\n function concatImpl() {\n function cf( subTables ) {\n var tbl = subTables[ 0 ];\n var res = { schema: tbl.schema, rowData: tbl.rowData };\n for ( var i = 1; i < subTables.length; i++ ) {\n tbl = subTables[ i ];\n // check schema compatibility:\n res.schema.compatCheck( tbl.schema );\n\n res.rowData = res.rowData.concat( tbl.rowData );\n }\n\n return res;\n }\n\n return cf;\n } \n\n var simpleOpImplMap = {\n \"filter\": filterImpl,\n \"project\": projectImpl,\n \"groupBy\": groupByImpl,\n \"mapColumns\": mapColumnsImpl,\n \"mapColumnsByIndex\": mapColumnsByIndexImpl,\n \"extend\": extendImpl,\n \"concat\": concatImpl,\n \"sort\": sortImpl,\n }\n\n\n /*\n * Evaluate a non-base expression from its sub-tables\n */\n function evalExpr( opRep, subTables ) {\n var opImpl = simpleOpImplMap[ opRep.operator ];\n var valArgs = opRep.valArgs.slice();\n var impFn = opImpl.apply( null, valArgs );\n var tres = impFn( subTables );\n return tres; \n } \n\n\n\n // base expressions: Do not have any sub-table arguments, and produce a promise<TableData>\n var baseOpImplMap = {\n \"table\": tableRefImpl\n };\n\n function evalBaseExpr( exp ) {\n var opImpl = baseOpImplMap[ exp.operator ];\n if ( !opImpl ) {\n throw new Error( \"evalBaseExpr: unknown primitive table operator '\" + exp.operator + \"'\" );\n }\n var args = exp.valArgs.slice();\n var opRes = opImpl.apply( null, args );\n return opRes;\n }\n\n /* evaluate the specified table value in the CSE Map.\n * Returns: promise for the result value\n */\n function evalCSEMap( cseMap, tableId ) {\n var resp = cseMap.promises[ tableId ];\n if( typeof resp == \"undefined\" ) {\n // no entry yet, make one:\n var opRep = cseMap.valExps[ tableId ];\n\n var subTables = []; // array of promises:\n\n if( opRep.tableNums.length > 0 ) {\n // dfs eval of sub-tables:\n subTables = opRep.tableNums.map( function( tid ) { return evalCSEMap( cseMap, tid ); } );\n resp = Q.all( subTables ).then( function( tvals ) { return evalExpr( opRep, tvals ); } );\n } else {\n resp = evalBaseExpr( opRep );\n }\n cseMap.promises[ tableId ] = resp;\n }\n return resp;\n }\n\n /*\n * use simple depth-first traversal and value numbering in cseMap to\n * identify common table subexpressions.\n */\n function buildCSEMap( cseMap, opRep ) {\n if( typeof opRep == \"undefined\" ) debugger;\n var tableNums = opRep.tableArgs.map( function( e ) { return buildCSEMap( cseMap, e ); } );\n var expKey = opRep.operator + \"( [ \" + tableNums.toString() + \" ], \" + JSON.stringify( opRep.valArgs ) + \" )\";\n var valNum = cseMap.invMap[ expKey ];\n if( typeof valNum == \"undefined\" ) {\n // no entry, need to add it:\n // let's use opRep as prototype, and put tableNums in the new object:\n var expRep = Object.create( opRep );\n expRep.tableNums = tableNums;\n var valNum = cseMap.valExps.length;\n cseMap.valExps[ valNum ] = expRep;\n cseMap.invMap[ expKey ] = valNum;\n } // else: cache hit! nothing to do\n\n return valNum;\n }\n\n function evalQuery( queryExp ) {\n // use value numbering to build up a map of common subexpression and then evaluate that\n var cseMap = { invMap: {}, valExps: [], promises: [] };\n var queryIdent = buildCSEMap( cseMap, queryExp._rep ); \n\n console.log( \"evalQuery after buildCSEMap: queryIdent: \", queryIdent, \", map: \", cseMap );\n\n return evalCSEMap( cseMap, queryIdent );\n }\n\n return {\n \"Schema\": Schema,\n \"evalQuery\": evalQuery, \n };\n }", "function createLocalStoreSchema(db) {\n\t db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n\t .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n\t }", "fillDb() {\n if (this.options.before) this.options.before();\n this._schemaRecursuveAdd('', this.schema);\n if (this.options.after) this.options.after();\n }", "_make() {\n\t\tthis.oTables.forEach(oTable => {\n\t\t\tconst nTable = this.nTables.find(ns => ns._fid === oTable._fid);\n\t\t\tif (nTable) {\n\t\t\t\tthis._diffTables(oTable, nTable);\n\t\t\t} else {\n\t\t\t\tthis._dropTable('up', oTable);\n\t\t\t\tthis._createTable('dn', oTable);\n\t\t\t\t// Make sure table's indexes are added after rolling-back\n\t\t\t\t(oTable.schema.indexes || []).forEach(index => {\n\t\t\t\t\tthis._createIndex('dn', oTable.tableName, index);\n\t\t\t\t});\n\t\t\t}\n\t\t});\n\t\tthis._newIds.forEach(nId => {\n\t\t\tconst nTable = this.nTables.find(tbl => tbl._fid === nId);\n\t\t\tthis._createTable('up', nTable);\n\t\t\tthis._dropTable('dn', nTable);\n\t\t\t(nTable.schema.indexes || []).forEach(index => {\n\t\t\t\t/**\n\t\t\t\t * @todo Check necessity of removing indexes after removing tables!\n\t\t\t\t */\n\t\t\t\tthis._createIndex('up', nTable.tableName, index);\n\t\t\t});\n\t\t});\n\t}", "function createLocalStoreSchema(db) {\n db.createObjectStore(LOCAL_STORE, {keyPath: '_id'})\n .createIndex('_doc_id_rev', '_doc_id_rev', {unique: true});\n }", "function Schema(descriptor){this.rules=null;this._messages=_messages2.messages;this.define(descriptor);}", "function Schema(descriptor){this.rules=null;this._messages=_messages2.messages;this.define(descriptor);}", "function Schema(descriptor){this.rules=null;this._messages=_messages2.messages;this.define(descriptor);}", "get schema() {\n return this.makeSchema({\n // HACK: `super` should work. but schema is undefined on it at run time.\n // tslint:disable-next-line:no-any\n ...(super.schema || this.schema),\n // Necrowar game specific settings\n goldIncomePerUnit: {\n description: \"The amount of gold income per turn per unit in a \"\n + \"mine.\",\n // <<-- Creer-Merge: goldIncomePerUnit -->>\n default: 5,\n },\n islandIncomePerUnit: {\n description: \"The amount of gold income per turn per unit in \"\n + \"the island mine.\",\n // <<-- Creer-Merge: islandIncomePerUnit -->>\n default: 10,\n },\n manaIncomePerUnit: {\n description: \"The Amount of gold income per turn per unit \"\n + \"fishing on the river side.\",\n // <<-- Creer-Merge: manaIncomePerUnit -->>\n default: 5,\n },\n riverPhase: {\n description: \"The amount of turns it takes between the river \"\n + \"changing phases.\",\n // <<-- Creer-Merge: riverPhase -->>\n default: 25,\n },\n // <<-- Creer-Merge: schema -->>\n // you can add more settings here, e.g.:\n /*\n someVariableLikeUnitHealth: {\n description: \"Describe what this setting does for the players.\",\n default: 1337,\n min: 1,\n },\n */\n // <<-- /Creer-Merge: schema -->>\n // Base settings\n playerStartingTime: {\n // <<-- Creer-Merge: player-starting-time -->>\n default: 6e10,\n // <<-- /Creer-Merge: player-starting-time -->>\n min: 0,\n description: \"The starting time (in ns) for each player.\",\n },\n // Turn based settings\n timeAddedPerTurn: {\n // <<-- Creer-Merge: time-added-per-turn -->>\n default: 1e9,\n // <<-- /Creer-Merge: time-added-per-turn -->>\n min: 0,\n description: \"The amount of time (in nano-seconds) to add after each player performs a turn.\",\n },\n maxTurns: {\n // <<-- Creer-Merge: max-turns -->>\n default: 200,\n // <<-- /Creer-Merge: max-turns -->>\n min: 1,\n description: \"The maximum number of turns before the game is force ended and a winner is determined.\",\n },\n // Tiled settings\n mapWidth: {\n // <<-- Creer-Merge: map-width -->>\n default: 63,\n // <<-- /Creer-Merge: map-width -->>\n min: 2,\n description: \"The width (in Tiles) for the game map to be initialized to.\",\n },\n mapHeight: {\n // <<-- Creer-Merge: map-height -->>\n default: 32,\n // <<-- /Creer-Merge: map-height -->>\n min: 2,\n description: \"The height (in Tiles) for the game map to be initialized to.\",\n },\n });\n }", "static setupSchemaModel() {\n require(\"./messageSchema\");\n MessageInstance = require(\"./messageInstance\");\n }", "compactSchema(schema) {\n const dbInfo = new DBInfo();\n const transformedSchemas = new Map();\n schema.tables.forEach(entitySchema => {\n transformedSchemas[entitySchema.entityName] = {};\n });\n schema.tables.forEach(entitySchema => {\n this.compactEntitySchema(schema, entitySchema, transformedSchemas);\n });\n dbInfo.schema.name = schema.name;\n dbInfo.schema.isInternal = schema.isInternal;\n dbInfo.schema.entities = transformedSchemas;\n return dbInfo;\n }", "function getSchema(request) {\n \n \n \n \n var fields = getFields(request).build();\n console.log(JSON.stringify(fields));\n console.log(fields.toString());\n //resetAuth();\n return { schema: fields };\n \n}", "function Schema(descriptor){this.rules=null;this._messages=__WEBPACK_IMPORTED_MODULE_4__messages__[\"a\"/* messages */];this.define(descriptor);}", "updateSchema(schema) {\n // to avoid cyclic reference error, use flatted string.\n const schemaFlatted = (0, _flatted.stringify)(schema);\n this.run((0, _http.POST)(this.ws_url + '/schema/', schemaFlatted, 'text/plain')).then(data => {\n console.log(\"collab server's schema updated\"); // [FS] IRAD-1040 2020-09-08\n\n this.schema = schema;\n this.start();\n }, err => {\n this.report.failure('error');\n });\n }", "static get schema() {\n return {\n name: { type: 'string' },\n kit: { type: 'string' },\n }\n }", "finalize() {\n if (!this._snapshot) {\n throw new Error(\"snapshot not exist! Did you forget to setSnapshot()\");\n }\n\n for (const childBox of this.childBoxes) {\n childBox.finalize();\n this.scope.addChildScopeObj(childBox.scopeObj);\n }\n\n // scope to object\n this.scopeObj = Object.assign(\n {removeUnusedRules: this._removeUnusedRules},\n this.scope.toObject()\n );\n\n // assign scope obj to snapshot\n this._snapshot.styleScope = this.scopeObj;\n }", "visibleSchema() {\n if (this.field.style !== 'table') {\n return this.schema;\n }\n const currentItem = this.items.find(item => item.open) || this.items[this.items.length - 1];\n const conditions = this.conditionalFields(currentItem?.schemaInput?.data || {});\n return this.schema.filter(\n field => conditions[field.name] !== false\n );\n }", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "convertSchema() {\n var jobPostingSchemaConverterObject = this;\n return new Promise(function(resolve, reject){\n jobPostingSchemaConverterObject.getJobPostingFields().then(function(jobPostingFields){\n var platformSchema = {\n [platformConstants.PROPERTIES]: []\n };\n platformSchema[platformConstants.PROPERTIES].push(jobPostingSchemaConverterObject.constructField(\"Id\", \"id\", platformConstants.NUMBER));\n var customFields = jobPostingSchemaConverterObject.constructField(\"Custom Fields\", \"custom_fields\", platformConstants.OBJECT);\n customFields[platformConstants.PROPERTIES] = [];\n \n jobPostingFields.forEach(element => {\n var platformField = jobPostingSchemaConverterObject.constructField(element.label, element.name, jobPostingSchemaConverterObject.getPlatformDataType(element.field_type));\n if(platformField[platformConstants.TYPE] === platformConstants.OBJECT){\n platformField[platformConstants.PROPERTIES] = jobPostingSchemaConverterObject.getAttributes(element);\n }\n if(element.default){\n platformSchema[platformConstants.PROPERTIES].push(platformField);\n }\n else{\n customFields[platformConstants.PROPERTIES].push(platformField);\n }\n });\n if(customFields[platformConstants.PROPERTIES].length > 0){\n platformSchema[platformConstants.PROPERTIES].push(customFields);\n }\n resolve(platformSchema);\n }).catch(function(error){\n reject(error);\n });\n });\n }", "function grab () {\n var names = [].slice.call(arguments),\n complete = { schema: {} };\n\n names.forEach(function (name) {\n complete.path = [name],\n complete.schema = schema.properties[name];\n });\n return complete;\n}", "canonicalize() {\n const that = this;\n\n _.keys(that._schema).forEach(function(key) {\n let value = that[key];\n\n if (that._schema[key].type === Date && isDate(value)) {\n that[key] = new Date(value);\n } else if (\n value !== null &&\n value !== undefined &&\n value.documentClass &&\n value.documentClass() === 'embedded'\n ) {\n // TODO: This should probably be in Document, not BaseDocument\n value.canonicalize();\n return;\n }\n });\n }", "async doCreate(input) {\r\n const newSchemaModel = new this.SchemaModel(input);\r\n return newSchemaModel.saveAsync();\r\n }", "function SchemaCollection(parent){\n Node.call(this,parent);\n this.nodeType = 'SchemaCollection';\n this._schemas = {};\n}", "static get schema() {\n return {\n name: { type: 'string' },\n version: { type: 'string' },\n description: { type: 'string' },\n authors: { type: 'array' },\n }\n }", "postProcessgetHaxJSONSchema(schema){return this.HAXWiring.postProcessgetHaxJSONSchema(schema)}" ]
[ "0.683943", "0.67439026", "0.6719679", "0.6636293", "0.61818635", "0.60078526", "0.5942807", "0.58237904", "0.58194065", "0.5807469", "0.58035827", "0.57826406", "0.5692334", "0.5655116", "0.5655116", "0.5652961", "0.56424016", "0.56018525", "0.5601527", "0.55834466", "0.55834466", "0.5579061", "0.551797", "0.551034", "0.54783386", "0.5475851", "0.5457101", "0.5411707", "0.5409319", "0.54072005", "0.5404905", "0.5404905", "0.5399782", "0.5392243", "0.5382257", "0.53696424", "0.53450644", "0.53262275", "0.530581", "0.53051794", "0.5261528", "0.5251527", "0.52414674", "0.5241239", "0.5201253", "0.5196711", "0.5176066", "0.51726294", "0.5171614", "0.5171486", "0.5152519", "0.5146658", "0.5146658", "0.51460546", "0.5141465", "0.5116658", "0.5113534", "0.51129127", "0.51129127", "0.51107883", "0.50991505", "0.508399", "0.5083651", "0.5072717", "0.50402147", "0.50275064", "0.5006301", "0.49963057", "0.49861577", "0.4983723", "0.49778235", "0.49684492", "0.49656767", "0.49585873", "0.49564216", "0.49498513", "0.49487275", "0.4948032", "0.49479687", "0.4936619", "0.49294588", "0.4925842", "0.4925842", "0.4925842", "0.4924354", "0.49205118", "0.49166656", "0.49139374", "0.49025694", "0.49024191", "0.49022996", "0.49016464", "0.48938036", "0.48748624", "0.48692465", "0.48667866", "0.48645696", "0.48631182", "0.48477346", "0.48450828", "0.4837798" ]
0.0
-1
Given a name, returns a type from either the existing schema or an added type.
function _getNamedType(typeName) { var cachedTypeDef = typeDefCache[typeName]; if (cachedTypeDef) { return cachedTypeDef; } var existingType = schema.getType(typeName); if (existingType) { var typeDef = extendType(existingType); typeDefCache[typeName] = typeDef; return typeDef; } var typeNode = typeDefinitionMap[typeName]; if (typeNode) { var _typeDef = buildType(typeNode); typeDefCache[typeName] = _typeDef; return _typeDef; } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function getType(name){\n return types.filter(function(type_row){\n return type_row.name == name\n })[0].type;\n }", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var typeDef = buildType(typeAST);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "type(name) {\n var i, len, ref, v;\n ref = this.variables;\n for (i = 0, len = ref.length; i < len; i++) {\n v = ref[i];\n if (v.name === name) {\n return v.type;\n }\n }\n return null;\n }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\t }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }", "type(name) {\r\n\t\t\t\tvar i, len, ref, v;\r\n\t\t\t\tref = this.variables;\r\n\t\t\t\tfor (i = 0, len = ref.length; i < len; i++) {\r\n\t\t\t\t\tv = ref[i];\r\n\t\t\t\t\tif (v.name === name) {\r\n\t\t\t\t\t\treturn v.type;\r\n\t\t\t\t\t}\r\n\t\t\t\t}\r\n\t\t\t\treturn null;\r\n\t\t\t}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "get_type_id( name ){ return this.names.get( name ); }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function requireTypeByName(typeName) {\n var type = typeByName[typeName];\n if (!type) {\n var msg = 'Unable to retrieve a Type by Name [' + typeName + ']';\n registryLogger.error(msg);\n throw new Error(msg);\n }\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Require Type \\'%s\\' by name [%s]', type.id, typeName);\n }\n return type;\n}", "function getTypeFromName(name) {\n\tfor(var i=0; i<cardTypeList.length; i++) {\n\t\tif(cardTypeList[i].name === name) {\n\t\t\treturn cardTypeList[i].type;\n\t\t}\n\t}\n\treturn \"card not found\";\n}", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _jsutilsInvariant2['default'])(type, 'Invalid schema');\n\t return type;\n\t }", "function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _jsutilsInvariant2['default'])(type, 'Invalid schema');\n return type;\n }", "getUserTypeByName(name) {\n if (name == null || this.options.userTypes == null) {\n return null;\n }\n return this.options.userTypes.find(userType => userType.name === name);\n }", "function getExportedTypeFromNamespace(namespace, name) {\n var namespaceSymbol = getGlobalSymbol(namespace, 1920 /* Namespace */, /*diagnosticMessage*/ undefined);\n var typeSymbol = namespaceSymbol && getSymbol(namespaceSymbol.exports, name, 793064 /* Type */);\n return typeSymbol && getDeclaredTypeOfSymbol(typeSymbol);\n }", "function getTypeFromAST(schema, ast) {\n\t var type = typeFromAST(schema, ast);\n\t __webpack_require__(1)(isType(type), 'RelaySchemaUtils: Unknown type `%s`.', print(ast));\n\t return type;\n\t}", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }", "function toType(from, name) {\n // The toType function should of course be idempotent.\n if (from instanceof Type)\n return from;\n\n // The Def type is used as a helper for constructing compound\n // interface types for AST nodes.\n if (from instanceof Def)\n return from.type;\n\n // Support [ElemType] syntax.\n if (isArray.check(from))\n return Type.fromArray(from);\n\n // Support { someField: FieldType, ... } syntax.\n if (isObject.check(from))\n return Type.fromObject(from);\n\n if (isFunction.check(from)) {\n var bicfIndex = builtInCtorFns.indexOf(from);\n if (bicfIndex >= 0) {\n return builtInCtorTypes[bicfIndex];\n }\n\n // If isFunction.check(from), and from is not a built-in\n // constructor, assume from is a binary predicate function we can\n // use to define the type.\n return new Type(from, name);\n }\n\n // As a last resort, toType returns a type that matches any value that\n // is === from. This is primarily useful for literal values like\n // toType(null), but it has the additional advantage of allowing\n // toType to be a total function.\n return new Type(function (value) {\n return value === from;\n }, isUndefined.check(name) ? function () {\n return from + \"\";\n } : name);\n }", "function map(name) {\n return typeMap[name] || name;\n }", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function getNamedTypeNode(typeNode) {\n var namedType = typeNode;\n while (namedType.kind === _kinds.LIST_TYPE || namedType.kind === _kinds.NON_NULL_TYPE) {\n namedType = namedType.type;\n }\n return namedType;\n}", "function getTypeIDByName(name) {\n\tswitch(name)\n\t{\n\tcase \"LAMP\": return 2;\n\tcase \"TV\": return 3;\n\tcase \"Kettle\": return 4;\n\tcase \"Water Heater\": return 5;\n\tcase \"Air Conditioner\": return 6;\n\tdefault: return 1; //undefined\n\t}\n}", "function Type$2(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = qualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return qualify(s, namespace); }) :\n [];\n }\n}", "function type(name, bases, dict) {\n return type.__call__(name, bases, dict);\n }", "function getTypeWithIdentity(typeIdentity) {\n var typeDefinitions = extensionInterface.getTypeDefinitions(),\n existingType,\n existingTypeName,\n existingTypeIdentity,\n typeNames = objKeys(typeDefinitions), \n typeCount = typeNames.length,\n typeIndex;\n \n for (typeIndex = 0; typeIndex < typeCount; typeIndex++) {\n existingTypeName = typeNames[typeIndex];\n existingType = typeDefinitions[existingTypeName];\n \n existingTypeIdentity = (typeof existingType === 'object' ?\n (existingType.identity ? existingType.identity : existingType.validator)\n : existingType);\n \n if (typeIdentity === existingTypeIdentity) {\n return existingTypeName;\n }\n }\n return null;\n }", "function registerTypeByName(type) {\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Register Type \\'%s\\' by name [%s]', type.id, type.typeName);\n }\n typeByName[type.typeName] = type;\n return type;\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function parseTypeSystemDefinition(lexer) {\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n switch (lexer.token.value) {\n case 'schema':\n return parseSchemaDefinition(lexer);\n case 'scalar':\n return parseScalarTypeDefinition(lexer);\n case 'type':\n return parseObjectTypeDefinition(lexer);\n case 'interface':\n return parseInterfaceTypeDefinition(lexer);\n case 'union':\n return parseUnionTypeDefinition(lexer);\n case 'enum':\n return parseEnumTypeDefinition(lexer);\n case 'input':\n return parseInputObjectTypeDefinition(lexer);\n case 'extend':\n return parseTypeExtensionDefinition(lexer);\n case 'directive':\n return parseDirectiveDefinition(lexer);\n }\n }\n\n throw unexpected(lexer);\n}", "function get_db_type(db_name) {\n\tif (typeof db_name === 'string') {\n\t\tif (db_name.indexOf('db-') === 0) {\n\t\t\tconst pos = db_name.lastIndexOf('-');\n\t\t\treturn db_name.substring(pos + 1);\n\t\t}\n\t}\n\treturn 'unknown';\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function parseTypeSystemDefinition(lexer) {\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t switch (lexer.token.value) {\n\t case 'schema':\n\t return parseSchemaDefinition(lexer);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(lexer);\n\t case 'type':\n\t return parseObjectTypeDefinition(lexer);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(lexer);\n\t case 'union':\n\t return parseUnionTypeDefinition(lexer);\n\t case 'enum':\n\t return parseEnumTypeDefinition(lexer);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(lexer);\n\t case 'extend':\n\t return parseTypeExtensionDefinition(lexer);\n\t case 'directive':\n\t return parseDirectiveDefinition(lexer);\n\t }\n\t }\n\n\t throw unexpected(lexer);\n\t}", "function getTypeName(node) {\n if (node.type == 'Identifier') {\n return node.name;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return getTypeName(node.qualification) + '.' + getTypeName(node.id);\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "static fromSchema(schema) {\n if (typeof schema === \"string\") {\n return AvroType.fromStringSchema(schema);\n }\n else if (Array.isArray(schema)) {\n return AvroType.fromArraySchema(schema);\n }\n else {\n return AvroType.fromObjectSchema(schema);\n }\n }", "function parseTypeName() {\n var expr, applications, startIndex = index - value.length;\n\n expr = parseNameExpression();\n if (token === Token.DOT_LT || token === Token.LT) {\n next();\n applications = parseTypeExpressionList();\n expect(Token.GT);\n return maybeAddRange({\n type: Syntax.TypeApplication,\n expression: expr,\n applications: applications\n }, [startIndex, previous]);\n }\n return expr;\n }", "function UseType(type) {\n return schema.CollectionOf(type);\n}", "function db_field_type(val, name) {\n if (typeof(val) == \"number\") {\n if (name && name.match(/id$/g)) {\n return \"INTEGER\";\n }\n return \"REAL\";\n } else if (typeof(val) == \"string\") {\n return \"TEXT\";\n } else if (typeof(val) == \"boolean\") {\n return \"BOOL\";\n } else if (val instanceof Date) {\n return \"INTEGER\";\n } else {\n return null;\n }\n }", "function typeEq(name) {\n return function(x) {\n return type (x) === name;\n };\n }", "static create(name) {\n return new TypedSymbol(name);\n }", "static create(name) {\n return new TypedSymbol(name);\n }", "function byName(name) {\n return byId(nameIdMap[name]);\n }", "function makeTagTypes(name) {\n const parts = splitOne(name, '::');\n const tag = parts ? parts[1] : name;\n // Translate in the same way for all types, to match Python's generic translation.\n return ['scalar', 'sequence', 'mapping'].map(kind => new jsYaml.Type('!' + tag, {\n kind: kind,\n construct: data => ({[name]: applyOverrides(data, tag, 'parse')}),\n predicate: obj => checkType(obj, name),\n represent: obj => applyOverrides(obj[name], tag, 'dump'),\n }));\n}", "function relaxType(type) {\n switch (type.kind) {\n case SimpleTypeKind.INTERSECTION:\n case SimpleTypeKind.UNION:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ENUM:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ARRAY:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.PROMISE:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.OBJECT:\n return {\n name: type.name,\n kind: SimpleTypeKind.OBJECT\n };\n case SimpleTypeKind.INTERFACE:\n case SimpleTypeKind.FUNCTION:\n case SimpleTypeKind.CLASS:\n return {\n name: type.name,\n kind: SimpleTypeKind.ANY\n };\n case SimpleTypeKind.NUMBER_LITERAL:\n return { kind: SimpleTypeKind.NUMBER };\n case SimpleTypeKind.STRING_LITERAL:\n return { kind: SimpleTypeKind.STRING };\n case SimpleTypeKind.BOOLEAN_LITERAL:\n return { kind: SimpleTypeKind.BOOLEAN };\n case SimpleTypeKind.BIG_INT_LITERAL:\n return { kind: SimpleTypeKind.BIG_INT };\n case SimpleTypeKind.ENUM_MEMBER:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.ALIAS:\n return __assign(__assign({}, type), { target: relaxType(type.target) });\n case SimpleTypeKind.NULL:\n case SimpleTypeKind.UNDEFINED:\n return { kind: SimpleTypeKind.ANY };\n default:\n return type;\n }\n}", "function getTypeName(type) {\n if (!type) {\n return type;\n }\n var typeName = lodash_1.startCase(type);\n if (scalarTypeNames.includes(typeName)) {\n return typeName;\n }\n return \"\" + typePrefix + typeName.replace(/\\s+/g, '').replace(/^Sanity/, '');\n}", "function convertSwaggerTypeToExample (type, name) {\n switch (type) {\n case 'integer':\n return 0;\n case 'number':\n return 0;\n case 'boolean':\n return true;\n case 'string':\n return name || type;\n default:\n return type;\n }\n}", "function getType(pType)\r\n\t{\r\n\t\t// Loops through the array until it finds a type that matches by name.\r\n\t\tfor (var i = 0; i < _this.objectTypes.length; i++)\r\n\t\t{\r\n\t\t\tif (_this.objectTypes[i].type == pType) break;\r\n\t\t}\r\n\t\tif (i >= 0 && i < _this.objectTypes.length) return _this.objectTypes[i];\r\n\t\treturn null;\r\n\t}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "function KnownTypeNamesRule(context) {\n var schema = context.getSchema();\n var existingTypesMap = schema ? schema.getTypeMap() : Object.create(null);\n var definedTypes = Object.create(null);\n\n for (var _i2 = 0, _context$getDocument$2 = context.getDocument().definitions; _i2 < _context$getDocument$2.length; _i2++) {\n var def = _context$getDocument$2[_i2];\n\n if ((0, _predicates.isTypeDefinitionNode)(def)) {\n definedTypes[def.name.value] = true;\n }\n }\n\n var typeNames = Object.keys(existingTypesMap).concat(Object.keys(definedTypes));\n return {\n NamedType: function NamedType(node, _1, parent, _2, ancestors) {\n var typeName = node.name.value;\n\n if (!existingTypesMap[typeName] && !definedTypes[typeName]) {\n var _ancestors$;\n\n var definitionNode = (_ancestors$ = ancestors[2]) !== null && _ancestors$ !== void 0 ? _ancestors$ : parent;\n var isSDL = definitionNode != null && isSDLNode(definitionNode);\n\n if (isSDL && isStandardTypeName(typeName)) {\n return;\n }\n\n var suggestedTypes = (0, _suggestionList.default)(typeName, isSDL ? standardTypeNames.concat(typeNames) : typeNames);\n context.reportError(new _GraphQLError.GraphQLError(\"Unknown type \\\"\".concat(typeName, \"\\\".\") + (0, _didYouMean.default)(suggestedTypes), node));\n }\n }\n };\n}", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function parseTypeDefinition(parser) {\n\t if (!peek(parser, _lexer.TokenKind.NAME)) {\n\t throw unexpected(parser);\n\t }\n\t switch (parser.token.value) {\n\t case 'type':\n\t return parseObjectTypeDefinition(parser);\n\t case 'interface':\n\t return parseInterfaceTypeDefinition(parser);\n\t case 'union':\n\t return parseUnionTypeDefinition(parser);\n\t case 'scalar':\n\t return parseScalarTypeDefinition(parser);\n\t case 'enum':\n\t return parseEnumTypeDefinition(parser);\n\t case 'input':\n\t return parseInputObjectTypeDefinition(parser);\n\t default:\n\t throw unexpected(parser);\n\t }\n\t}", "function typename(x)\n{\n const t=typeof(x); // try typeof first\n if(t !== 'object'){ return t;} // if not generic, use it\n return classname(x); // try classname\n}", "function registerSchema(modelDict, emberModel, schema, name) {\n modelDicts[name] = modelDict;\n\n var registryEntry = {\n modelDict: modelDict,\n EmberModel : emberModel,\n schema: schema\n };\n\n schemasRegistry.add(registryEntry, name);\n available_types.push(name);\n }", "function registerSingleType(customTypeName, customTypeValue) {\n if (typeof customTypeName === 'object') {\n registerTypes(customTypeName);\n return;\n }\n if (typeof customTypeName !== 'string') {\n return;\n }\n \n var typeDefinitions = extensionInterface.getTypeDefinitions(),\n customTypeDefinition,\n composedCustomTypeDefinition,\n schemeAliases,\n matchMode;\n \n if (objKeys(typeDefinitions).indexOf(customTypeName) > -1) {\n throw 'Custom type name \"' + customTypeName + '\" conflicts with existing type name';\n }\n \n if (!/^([0-9a-z_]+)$/.test(customTypeName)) {\n throw 'Type name must only contain lowercase alphanumeric characters and underscore';\n }\n \n if (typeof customTypeValue === 'object' && customTypeValue !== null && ('definition' in customTypeValue)) {\n customTypeDefinition = customTypeValue.definition;\n schemeAliases = customTypeValue.schemeAliases;\n matchMode = customTypeValue.matchMode;\n } else {\n customTypeDefinition = customTypeValue;\n }\n \n if (typeof customTypeDefinition === 'string') {\n customTypeDefinition = composedCustomTypeDefinition = getCustomTypeDefinition(customTypeDefinition, matchMode, customTypeName);\n }\n \n if (typeof customTypeDefinition === 'number') {\n if ((customTypeDefinition & xtype.ANY) !== customTypeDefinition) {\n throw 'Custom extended type composite \\'' + customTypeName + '\\' can only be derived using built-in extended type Ids.';\n }\n } else if (typeof customTypeDefinition === 'object' && customTypeDefinition !== null) {\n if (typeof customTypeDefinition.validator !== 'function') {\n throw 'Custom type \\'' + customTypeName + '\\' definition is missing the validator function.';\n }\n if (composedCustomTypeDefinition !== customTypeDefinition) { // make internal copy of externally supplied object\n composedCustomTypeDefinition = objCreate(null);\n composedCustomTypeDefinition.validator = customTypeDefinition.validator;\n customTypeDefinition = composedCustomTypeDefinition;\n }\n } else if (typeof customTypeDefinition !== 'function') {\n throw 'No valid type definition provided for requested custom type \\'' + customTypeName + '\\'';\n }\n \n var customTypeIdentity = (typeof composedCustomTypeDefinition === 'object' ? composedCustomTypeDefinition.identity\n : typeof customTypeDefinition === 'object' ? customTypeDefinition.validator \n : customTypeDefinition);\n \n var existingTypeName = getTypeWithIdentity(customTypeIdentity);\n \n if (existingTypeName) {\n throw 'Custom type \\'' + customTypeName + '\\' conflicts with other type' +\n ' \\'' + existingTypeName + '\\' with identical definition';\n }\n \n if (schemeAliases) {\n if (typeof schemeAliases !== 'object') {\n throw 'Custom type \"' + customTypeName + '\" scheme aliases is not an object';\n }\n setSchemeAliases(customTypeName, schemeAliases);\n }\n extensionInterface.defineType(customTypeName, customTypeDefinition);\n }", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function type(name) {\n if (isundefined(name))\n throw new TypeError('Invalid arguments: %s'.subs(arguments));\n var args = Array.prototype.slice.call(arguments).slice(1);\n if (args.length == 0) {\n if (name === null) return Object;\n return name.constructor;\n }\n if (args[0] && isinstance(args[0], Array) && args[0].length > 0)\n var bases = args.shift();\n else if (args[0] && !isinstance(args[0], Array) && isinstance(args[0], Function))\n var bases = [args.shift()];\n else\n throw new TypeError('Invalid arguments: %s'.subs(arguments));\n if (args[0] && isinstance(args[0], Object) && args.length == 2) {\n var classAttrs = args.shift();\n var instanceAttrs = args.shift();\n } else if (args.length == 1) {\n var classAttrs = {};\n var instanceAttrs = args.shift();\n } else if (args.length == 0) {\n var classAttrs = {};\n var instanceAttrs = {};\n } else new TypeError('Invalid arguments: %s'.subs(arguments));\n\n var new_type = eval('(function ' + name + '() { this.__init__.apply(this, arguments); })');\n\n //Jerarquia\n new_type.__base__ = bases[0];\n new_type.__bases__ = bases;\n new_type.__subclasses__ = [];\n new_type.__static__ = {};\n for each (var base in bases.reverse()) {\n base.__subclasses__.push(new_type);\n __extend__(true, new_type.__static__, base.__static__);\n new_type.__new__ = base.__new__;\n }\n //Decorando los atributos\n classAttrs['__name__'] = instanceAttrs['__name__'] = name;\n classAttrs['__module__'] = instanceAttrs['__module__'] = this['__name__'] || 'window';\n\n //Construyendo el tipo\n __extend__(true, new_type.__static__, classAttrs);\n __extend__(true, new_type, new_type.__static__);\n\n //Constructor de instancia\n new_type = new_type.__new__(new_type.__name__, new_type.__bases__, instanceAttrs);\n return new_type;\n }", "getByName(name) {\n return RoleDefinition(this, `getbyname('${name}')`);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function _getType(type){\r\n if(type){\r\n switch(type){\r\n case 'xml':\r\n return defaultParserType;\r\n case 'saxes':\r\n case 'sax-wasm':\r\n case 'json':\r\n return type;\r\n default:\r\n return 'regexp';\r\n }\r\n }\r\n return parserType || defaultParserType;\r\n}", "function EnumType(name) {\n return function(url) {\n return B (NullaryType (name) (url) ([])) (memberOf);\n };\n }", "getType(name) {\n let upName = name[0].toUpperCase() + name.slice(1)\n return objReduce(this.system.statePlugins, (val, namespace) => {\n let thing = val[name]\n if(thing)\n return {[namespace+upName]: thing}\n })\n }", "static newType(spec) {\n return allTypes.newType(spec);\n }", "getByName(name) {\r\n return new RoleDefinition(this, `getbyname('${name}')`);\r\n }", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}", "function findOrAddTopic(name) {\n var topic = findTopic(name);\n if (!topic) {\n topic = data.topic(name.substring(0, 1).toUpperCase() + name.substring(1));\n topic.y = 0;\n updateTopics(data.topics);\n }\n return topic;\n}" ]
[ "0.66821307", "0.6298792", "0.6220048", "0.6173743", "0.6113745", "0.6113745", "0.61046654", "0.60410345", "0.60016274", "0.58115554", "0.58029455", "0.5760719", "0.5736607", "0.5675311", "0.5655244", "0.5628826", "0.5599253", "0.554934", "0.55090624", "0.5464568", "0.5458455", "0.5448469", "0.5434205", "0.53389895", "0.53389895", "0.53357446", "0.5329775", "0.53028905", "0.5212549", "0.51599777", "0.51392615", "0.5130989", "0.5061968", "0.50318646", "0.5023839", "0.50039", "0.50039", "0.50039", "0.50039", "0.50039", "0.50039", "0.49618602", "0.49559233", "0.49559233", "0.49407226", "0.4928855", "0.4923934", "0.4923934", "0.48932025", "0.48649234", "0.4837219", "0.4831727", "0.48055738", "0.48055738", "0.4803487", "0.47840756", "0.47781825", "0.4771836", "0.47490367", "0.4722009", "0.468891", "0.468891", "0.46869627", "0.46388796", "0.4624127", "0.4621488", "0.46073914", "0.45985103", "0.45970058", "0.4542998", "0.4536185", "0.4524412", "0.4517963", "0.45142657", "0.45007423", "0.4495517", "0.44782203", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402", "0.4459402" ]
0.61292815
5
Given a type's introspection result, construct the correct GraphQLType instance.
function extendType(type) { if (type instanceof _definition.GraphQLObjectType) { return extendObjectType(type); } if (type instanceof _definition.GraphQLInterfaceType) { return extendInterfaceType(type); } if (type instanceof _definition.GraphQLUnionType) { return extendUnionType(type); } return type; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n switch (type.kind) {\n case _typeIntrospection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _typeIntrospection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _typeIntrospection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _typeIntrospection.TypeKind.UNION:\n return buildUnionDef(type);\n case _typeIntrospection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _typeIntrospection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function buildType(type) {\n\t switch (type.kind) {\n\t case _typeIntrospection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _typeIntrospection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _typeIntrospection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _typeIntrospection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _typeIntrospection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _typeIntrospection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }", "function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "static _processType(typeItem) {\n switch (typeItem.kind) {\n case 'variable-type':\n return Type.newVariableReference(typeItem.name);\n case 'reference-type':\n return Type.newManifestReference(typeItem.name);\n case 'list-type':\n return Type.newSetView(Manifest._processType(typeItem.type));\n default:\n throw `Unexpected type item of kind '${typeItem.kind}'`;\n }\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function replaceType(type) {\n if ((0, _definition.isListType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLList(replaceType(type.ofType));\n }\n\n if ((0, _definition.isNonNullType)(type)) {\n // $FlowFixMe[incompatible-return]\n return new _definition.GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"](innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"](innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === _kinds.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === _kinds.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n (0, _invariant2.default)(typeNode.kind === _kinds.NAMED_TYPE, 'Must be a named type.');\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function typeFromASTImpl(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType = void 0;\n if (typeNode.kind === Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n }\n !(typeNode.kind === Kind.NAMED_TYPE) ? (0, _invariant2.default)(0, 'Must be a named type.') : void 0;\n return schema.getType(typeNode.name.value);\n}", "function replaceType(type) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isListType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLList\"](replaceType(type.ofType));\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"isNonNullType\"])(type)) {\n // $FlowFixMe[incompatible-return]\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_16__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function getType(typeRef) {\n if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _typeDefinition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n return new _typeDefinition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function replaceType(type) {\n if (isListType(type)) {\n return new GraphQLList(replaceType(type.ofType));\n } else if (isNonNullType(type)) {\n return new GraphQLNonNull(replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"](getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"](Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _kinds.Kind.LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLList(innerType);\n }\n\n if (typeNode.kind === _kinds.Kind.NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && new _definition.GraphQLNonNull(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _kinds.Kind.NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || (0, _invariant.default)(0, 'Unexpected type node: ' + (0, _inspect.default)(typeNode));\n}", "function fromType (entry, type) {\n let inttype = Helpers.intToType(type);\n switch (inttype) {\n case 'MapQL': case 'Map':\n return (new MapQL()).import(entry); // Convert all 'Map()' entries to MapQL.\n case 'Set':\n return new Set(entry.map((val) => {\n return fromType(val[0], val[1]);\n }));\n case 'Array':\n return entry.map((val) => {\n return fromType(val[0], val[1]);\n });\n case 'Object':\n return ((obj) => {\n for (let key of Object.keys(obj)) {\n obj[key] = fromType(obj[key][0], obj[key][1]);\n }\n return obj;\n })(entry);\n case 'Function':\n // XXX: Function() is a form of eval()!\n return new Function(`return ${entry};`)();\n case 'RegExp':\n return RegExp.apply(null, entry.match(/\\/(.*?)\\/([gimuy])?$/).slice(1));\n case 'Date':\n return new Date(entry);\n case 'Uint8Array':\n try {\n return new Uint8Array(entry);\n } catch (error) {\n try {\n return Buffer.from(entry);\n } catch (error) { return Array.from(entry); }\n }\n case 'Buffer':\n try {\n return Buffer.from(entry);\n } catch (error) {\n try {\n return new Uint8Array(entry);\n } catch (error) { return Array.from(entry); }\n }\n default:\n // Execute the function/constructor with the entry value. If type is not a\n // function or constructor, just return the value. Try without `new`, if\n // that fails try again with `new`. This attempts to import unknown types.\n let _fn = (Helpers.__GLOBAL[inttype] ? (new Function(`return ${inttype}`))() : (e) => { return e });\n try { return _fn(entry); } catch (e) { try { return new _fn(entry); } catch (error) { console.trace(error); } }\n }\n}", "function parseType(type) {\n if (typeof type === 'function') {\n return new type();\n } else if (isArray(type)) {\n return [parseType(type[0])];\n } else if (type && typeof type === 'object') {\n var rv = {};\n applyStructure(rv, type);\n return rv;\n } else {\n return type;\n }\n}", "function getType(typeRef) {\n\t if (typeRef.kind === _typeIntrospection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _typeDefinition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _typeIntrospection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _jsutilsInvariant2['default'])(!(nullableType instanceof _typeDefinition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _typeDefinition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_3__[\"GraphQLNonNull\"])(innerType);\n } // istanbul ignore else (See: 'https://github.com/graphql/graphql-js/issues/2618')\n\n\n if (typeNode.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_2__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // istanbul ignore next (Not reachable. All possible type nodes have been considered)\n\n\n false || Object(_jsutils_invariant_mjs__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(0, 'Unexpected type node: ' + Object(_jsutils_inspect_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode));\n}", "function relaxType(type) {\n switch (type.kind) {\n case SimpleTypeKind.INTERSECTION:\n case SimpleTypeKind.UNION:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ENUM:\n return __assign(__assign({}, type), { types: type.types.map(function (t) { return relaxType(t); }) });\n case SimpleTypeKind.ARRAY:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.PROMISE:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.OBJECT:\n return {\n name: type.name,\n kind: SimpleTypeKind.OBJECT\n };\n case SimpleTypeKind.INTERFACE:\n case SimpleTypeKind.FUNCTION:\n case SimpleTypeKind.CLASS:\n return {\n name: type.name,\n kind: SimpleTypeKind.ANY\n };\n case SimpleTypeKind.NUMBER_LITERAL:\n return { kind: SimpleTypeKind.NUMBER };\n case SimpleTypeKind.STRING_LITERAL:\n return { kind: SimpleTypeKind.STRING };\n case SimpleTypeKind.BOOLEAN_LITERAL:\n return { kind: SimpleTypeKind.BOOLEAN };\n case SimpleTypeKind.BIG_INT_LITERAL:\n return { kind: SimpleTypeKind.BIG_INT };\n case SimpleTypeKind.ENUM_MEMBER:\n return __assign(__assign({}, type), { type: relaxType(type.type) });\n case SimpleTypeKind.ALIAS:\n return __assign(__assign({}, type), { target: relaxType(type.target) });\n case SimpleTypeKind.NULL:\n case SimpleTypeKind.UNDEFINED:\n return { kind: SimpleTypeKind.ANY };\n default:\n return type;\n }\n}", "function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }", "function typeFromAST(schema, typeNode) {\n /* eslint-enable no-redeclare */\n var innerType;\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].LIST_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLList\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NON_NULL_TYPE) {\n innerType = typeFromAST(schema, typeNode.type);\n return innerType && Object(_type_definition__WEBPACK_IMPORTED_MODULE_2__[\"GraphQLNonNull\"])(innerType);\n }\n\n if (typeNode.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].NAMED_TYPE) {\n return schema.getType(typeNode.name.value);\n } // Not reachable. All possible type nodes have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type node: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeNode), \"\\\".\"));\n}", "function getType(typeRef) {\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection_mjs__WEBPACK_IMPORTED_MODULE_8__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"GraphQLNonNull\"])(Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_10__[\"assertNullableType\"])(nullableType));\n }\n\n return getNamedType(typeRef);\n }", "function createHealthCheckFromDatabaseResult(result) {\n var type = result.check_type;\n\n if (HealthCheckTypes[type]) {\n var healthCheck = new HealthCheckTypes[type]();\n healthCheck.loadResult(result);\n \n return healthCheck;\n } else {\n logger.error('invalid health check: ' + type);\n return undefined;\n }\n}", "function getTypeInfo(schema, tokenState) {\n var info = {\n schema: schema,\n type: null,\n parentType: null,\n inputType: null,\n directiveDef: null,\n fieldDef: null,\n argDef: null,\n argDefs: null,\n objectFieldDefs: null\n };\n (0, _forEachState[\"default\"])(tokenState, function (state) {\n switch (state.kind) {\n case 'Query':\n case 'ShortQuery':\n info.type = schema.getQueryType();\n break;\n\n case 'Mutation':\n info.type = schema.getMutationType();\n break;\n\n case 'Subscription':\n info.type = schema.getSubscriptionType();\n break;\n\n case 'InlineFragment':\n case 'FragmentDefinition':\n if (state.type) {\n info.type = schema.getType(state.type);\n }\n\n break;\n\n case 'Field':\n case 'AliasedField':\n info.fieldDef = info.type && state.name ? getFieldDef(schema, info.parentType, state.name) : null;\n info.type = info.fieldDef && info.fieldDef.type;\n break;\n\n case 'SelectionSet':\n info.parentType = (0, _graphql.getNamedType)(info.type);\n break;\n\n case 'Directive':\n info.directiveDef = state.name && schema.getDirective(state.name);\n break;\n\n case 'Arguments':\n var parentDef = state.prevState.kind === 'Field' ? info.fieldDef : state.prevState.kind === 'Directive' ? info.directiveDef : state.prevState.kind === 'AliasedField' ? state.prevState.name && getFieldDef(schema, info.parentType, state.prevState.name) : null;\n info.argDefs = parentDef && parentDef.args;\n break;\n\n case 'Argument':\n info.argDef = null;\n\n if (info.argDefs) {\n for (var i = 0; i < info.argDefs.length; i++) {\n if (info.argDefs[i].name === state.name) {\n info.argDef = info.argDefs[i];\n break;\n }\n }\n }\n\n info.inputType = info.argDef && info.argDef.type;\n break;\n\n case 'EnumValue':\n var enumType = (0, _graphql.getNamedType)(info.inputType);\n info.enumValue = enumType instanceof _graphql.GraphQLEnumType ? find(enumType.getValues(), function (val) {\n return val.value === state.name;\n }) : null;\n break;\n\n case 'ListValue':\n var nullableType = (0, _graphql.getNullableType)(info.inputType);\n info.inputType = nullableType instanceof _graphql.GraphQLList ? nullableType.ofType : null;\n break;\n\n case 'ObjectValue':\n var objectType = (0, _graphql.getNamedType)(info.inputType);\n info.objectFieldDefs = objectType instanceof _graphql.GraphQLInputObjectType ? objectType.getFields() : null;\n break;\n\n case 'ObjectField':\n var objectField = state.name && info.objectFieldDefs ? info.objectFieldDefs[state.name] : null;\n info.inputType = objectField && objectField.type;\n break;\n\n case 'NamedType':\n info.type = schema.getType(state.name);\n break;\n }\n });\n return info;\n} // Gets the field definition given a type and field name", "function getTypeReference(typeInfo, type) {\n return {\n kind: 'Type',\n schema: typeInfo.schema,\n type: type || typeInfo.type\n };\n}", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }", "function buildClientSchema(introspection) {\n\n\t // Get the schema from the introspection result.\n\t var schemaIntrospection = introspection.__schema;\n\n\t // Converts the list of types into a keyMap based on the type names.\n\t var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n\t return type.name;\n\t });\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars. All functions below are inline\n\t // so that this type def cache is within the scope of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Given a type reference in introspection, return the GraphQLType instance.\n\t // preferring cached instances before building new instances.\n\t function getType(typeRef) {\n\t if (typeRef.kind === _introspection.TypeKind.LIST) {\n\t var itemRef = typeRef.ofType;\n\t if (!itemRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t return new _definition.GraphQLList(getType(itemRef));\n\t }\n\t if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n\t var nullableRef = typeRef.ofType;\n\t if (!nullableRef) {\n\t throw new Error('Decorated type deeper than introspection query.');\n\t }\n\t var nullableType = getType(nullableRef);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getNamedType(typeRef.name);\n\t }\n\n\t function getNamedType(typeName) {\n\t if (typeDefCache[typeName]) {\n\t return typeDefCache[typeName];\n\t }\n\t var typeIntrospection = typeIntrospectionMap[typeName];\n\t if (!typeIntrospection) {\n\t throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t var typeDef = buildType(typeIntrospection);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t function getInputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Introspection must provide input type for arguments.');\n\t return type;\n\t }\n\n\t function getOutputType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Introspection must provide output type for fields.');\n\t return type;\n\t }\n\n\t function getObjectType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Introspection must provide object type for possibleTypes.');\n\t return type;\n\t }\n\n\t function getInterfaceType(typeRef) {\n\t var type = getType(typeRef);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Introspection must provide interface type for interfaces.');\n\t return type;\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function buildType(type) {\n\t switch (type.kind) {\n\t case _introspection.TypeKind.SCALAR:\n\t return buildScalarDef(type);\n\t case _introspection.TypeKind.OBJECT:\n\t return buildObjectDef(type);\n\t case _introspection.TypeKind.INTERFACE:\n\t return buildInterfaceDef(type);\n\t case _introspection.TypeKind.UNION:\n\t return buildUnionDef(type);\n\t case _introspection.TypeKind.ENUM:\n\t return buildEnumDef(type);\n\t case _introspection.TypeKind.INPUT_OBJECT:\n\t return buildInputObjectDef(type);\n\t default:\n\t throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n\t }\n\t }\n\n\t function buildScalarDef(scalarIntrospection) {\n\t return new _definition.GraphQLScalarType({\n\t name: scalarIntrospection.name,\n\t description: scalarIntrospection.description,\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildObjectDef(objectIntrospection) {\n\t return new _definition.GraphQLObjectType({\n\t name: objectIntrospection.name,\n\t description: objectIntrospection.description,\n\t interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n\t fields: function fields() {\n\t return buildFieldDefMap(objectIntrospection);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceDef(interfaceIntrospection) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: interfaceIntrospection.name,\n\t description: interfaceIntrospection.description,\n\t fields: function fields() {\n\t return buildFieldDefMap(interfaceIntrospection);\n\t },\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildUnionDef(unionIntrospection) {\n\t return new _definition.GraphQLUnionType({\n\t name: unionIntrospection.name,\n\t description: unionIntrospection.description,\n\t types: unionIntrospection.possibleTypes.map(getObjectType),\n\t resolveType: cannotExecuteClientSchema\n\t });\n\t }\n\n\t function buildEnumDef(enumIntrospection) {\n\t return new _definition.GraphQLEnumType({\n\t name: enumIntrospection.name,\n\t description: enumIntrospection.description,\n\t values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n\t return valueIntrospection.name;\n\t }, function (valueIntrospection) {\n\t return {\n\t description: valueIntrospection.description,\n\t deprecationReason: valueIntrospection.deprecationReason\n\t };\n\t })\n\t });\n\t }\n\n\t function buildInputObjectDef(inputObjectIntrospection) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: inputObjectIntrospection.name,\n\t description: inputObjectIntrospection.description,\n\t fields: function fields() {\n\t return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n\t }\n\t });\n\t }\n\n\t function buildFieldDefMap(typeIntrospection) {\n\t return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n\t return fieldIntrospection.name;\n\t }, function (fieldIntrospection) {\n\t return {\n\t description: fieldIntrospection.description,\n\t deprecationReason: fieldIntrospection.deprecationReason,\n\t type: getOutputType(fieldIntrospection.type),\n\t args: buildInputValueDefMap(fieldIntrospection.args)\n\t };\n\t });\n\t }\n\n\t function buildInputValueDefMap(inputValueIntrospections) {\n\t return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n\t return inputValue.name;\n\t }, buildInputValue);\n\t }\n\n\t function buildInputValue(inputValueIntrospection) {\n\t var type = getInputType(inputValueIntrospection.type);\n\t var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : null;\n\t return {\n\t name: inputValueIntrospection.name,\n\t description: inputValueIntrospection.description,\n\t type: type,\n\t defaultValue: defaultValue\n\t };\n\t }\n\n\t function buildDirective(directiveIntrospection) {\n\t // Support deprecated `on****` fields for building `locations`, as this\n\t // is used by GraphiQL which may need to support outdated servers.\n\t var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n\t return new _directives.GraphQLDirective({\n\t name: directiveIntrospection.name,\n\t description: directiveIntrospection.description,\n\t locations: locations,\n\t args: buildInputValueDefMap(directiveIntrospection.args)\n\t });\n\t }\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var types = schemaIntrospection.types.map(function (typeIntrospection) {\n\t return getNamedType(typeIntrospection.name);\n\t });\n\n\t // Get the root Query, Mutation, and Subscription types.\n\t var queryType = getObjectType(schemaIntrospection.queryType);\n\n\t var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n\t var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n\t // Get the directives supported by Introspection, assuming empty-set if\n\t // directives were not queried for.\n\t var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: directives\n\t });\n\t}", "function createType(type) {\n return new Promise((fullfill, reject) => {\n ARGS.type = type;\n client.create(ARGS, (err, res) => {\n if(err) {\n LOG.info(\"Unable to create type %s, because of %s\", type, err);\n reject(err); \n } else {\n LOG.info(\"type %s created.\", type);\n fullfill(res);\n } \n });\n }); \n}", "function getNamedType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList || unmodifiedType instanceof GraphQLNonNull) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function resolveObjectType(typeSpec) {\n var promise = new Promise();\n var ext = catalog.getExtensionByKey('type', typeSpec.name);\n if (ext) {\n promise.resolve({ ext: ext, typeSpec: typeSpec });\n } else {\n promise.reject(new Error('Unknown type: ' + typeSpec.name));\n }\n return promise;\n}", "function extendType(type) {\n if (type instanceof _typeDefinition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _typeDefinition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }", "function translateType(type) {\n if (type in conf.nativeTypes) {\n var typeType = type;\n return {\n type: conf.nativeTypes[typeType],\n native: true,\n arraySimple: true,\n };\n }\n var subtype = type.match(/^#\\/definitions\\/(.*)/);\n if (subtype)\n return resolveDefType(subtype[1]);\n return { type: type, native: true, arraySimple: true };\n}", "function toType(from, name) {\n // The toType function should of course be idempotent.\n if (from instanceof Type)\n return from;\n\n // The Def type is used as a helper for constructing compound\n // interface types for AST nodes.\n if (from instanceof Def)\n return from.type;\n\n // Support [ElemType] syntax.\n if (isArray.check(from))\n return Type.fromArray(from);\n\n // Support { someField: FieldType, ... } syntax.\n if (isObject.check(from))\n return Type.fromObject(from);\n\n if (isFunction.check(from)) {\n var bicfIndex = builtInCtorFns.indexOf(from);\n if (bicfIndex >= 0) {\n return builtInCtorTypes[bicfIndex];\n }\n\n // If isFunction.check(from), and from is not a built-in\n // constructor, assume from is a binary predicate function we can\n // use to define the type.\n return new Type(from, name);\n }\n\n // As a last resort, toType returns a type that matches any value that\n // is === from. This is primarily useful for literal values like\n // toType(null), but it has the additional advantage of allowing\n // toType to be a total function.\n return new Type(function (value) {\n return value === from;\n }, isUndefined.check(name) ? function () {\n return from + \"\";\n } : name);\n }", "createType (typedefinition, id) {\n var structname = typedefinition[0].struct\n id = id || this.getNextOpId(1)\n var op = Y.Struct[structname].create(id)\n op.type = typedefinition[0].name\n\n this.requestTransaction(function * () {\n if (op.id[0] === '_') {\n yield* this.setOperation(op)\n } else {\n yield* this.applyCreatedOperations([op])\n }\n })\n var t = Y[op.type].typeDefinition.createType(this, op, typedefinition[1])\n this.initializedTypes[JSON.stringify(op.id)] = t\n return t\n }", "function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function toType(from, name) {\n\t // The toType function should of course be idempotent.\n\t if (from instanceof Type)\n\t return from;\n\n\t // The Def type is used as a helper for constructing compound\n\t // interface types for AST nodes.\n\t if (from instanceof Def)\n\t return from.type;\n\n\t // Support [ElemType] syntax.\n\t if (isArray.check(from))\n\t return Type.fromArray(from);\n\n\t // Support { someField: FieldType, ... } syntax.\n\t if (isObject.check(from))\n\t return Type.fromObject(from);\n\n\t if (isFunction.check(from)) {\n\t var bicfIndex = builtInCtorFns.indexOf(from);\n\t if (bicfIndex >= 0) {\n\t return builtInCtorTypes[bicfIndex];\n\t }\n\n\t // If isFunction.check(from), and from is not a built-in\n\t // constructor, assume from is a binary predicate function we can\n\t // use to define the type.\n\t return new Type(from, name);\n\t }\n\n\t // As a last resort, toType returns a type that matches any value that\n\t // is === from. This is primarily useful for literal values like\n\t // toType(null), but it has the additional advantage of allowing\n\t // toType to be a total function.\n\t return new Type(function(value) {\n\t return value === from;\n\t }, isUndefined.check(name) ? function() {\n\t return from + \"\";\n\t } : name);\n\t}", "function extendType(type) {\n\t if (type instanceof _typeDefinition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _typeDefinition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n\t if (!ast) {\n\t throw new Error('must pass in ast');\n\t }\n\n\t if (!queryTypeName) {\n\t throw new Error('must pass in query type');\n\t }\n\n\t var typeDefs = [];\n\t for (var i = 0; i < ast.definitions.length; i++) {\n\t var d = ast.definitions[i];\n\t switch (d.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t typeDefs.push(d);\n\t }\n\t }\n\n\t var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n\t return d.name.value;\n\t });\n\n\t if (!astMap[queryTypeName]) {\n\t throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n\t }\n\n\t if (mutationTypeName && !astMap[mutationTypeName]) {\n\t throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n\t }\n\n\t if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n\t throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n\t }\n\n\t var innerTypeMap = {\n\t String: _type.GraphQLString,\n\t Int: _type.GraphQLInt,\n\t Float: _type.GraphQLFloat,\n\t Boolean: _type.GraphQLBoolean,\n\t ID: _type.GraphQLID\n\t };\n\n\t typeDefs.forEach(function (def) {\n\t return typeDefNamed(def.name.value);\n\t });\n\n\t return new _type.GraphQLSchema({\n\t query: getObjectType(astMap[queryTypeName]),\n\t mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n\t subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n\t });\n\n\t function getObjectType(typeAST) {\n\t var type = typeDefNamed(typeAST.name.value);\n\t (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n\t return type;\n\t }\n\n\t function produceTypeDef(typeAST) {\n\t var typeName = getNamedTypeAST(typeAST).name.value;\n\t var typeDef = typeDefNamed(typeName);\n\t return buildWrappedType(typeDef, typeAST);\n\t }\n\n\t function typeDefNamed(typeName) {\n\t if (innerTypeMap[typeName]) {\n\t return innerTypeMap[typeName];\n\t }\n\n\t if (!astMap[typeName]) {\n\t throw new Error('Type ' + typeName + ' not found in document');\n\t }\n\n\t var innerTypeDef = makeSchemaDef(astMap[typeName]);\n\t if (!innerTypeDef) {\n\t throw new Error('Nothing constructed for ' + typeName);\n\t }\n\t innerTypeMap[typeName] = innerTypeDef;\n\t return innerTypeDef;\n\t }\n\n\t function makeSchemaDef(def) {\n\t if (!def) {\n\t throw new Error('def must be defined');\n\t }\n\t switch (def.kind) {\n\t case _languageKinds.OBJECT_TYPE_DEFINITION:\n\t return makeTypeDef(def);\n\t case _languageKinds.INTERFACE_TYPE_DEFINITION:\n\t return makeInterfaceDef(def);\n\t case _languageKinds.ENUM_TYPE_DEFINITION:\n\t return makeEnumDef(def);\n\t case _languageKinds.UNION_TYPE_DEFINITION:\n\t return makeUnionDef(def);\n\t case _languageKinds.SCALAR_TYPE_DEFINITION:\n\t return makeScalarDef(def);\n\t case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return makeInputObjectDef(def);\n\t default:\n\t throw new Error(def.kind + ' not supported');\n\t }\n\t }\n\n\t function makeTypeDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t },\n\t interfaces: function interfaces() {\n\t return makeImplementedInterfaces(def);\n\t }\n\t };\n\t return new _type.GraphQLObjectType(config);\n\t }\n\n\t function makeFieldDefMap(def) {\n\t return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: produceTypeDef(field.type),\n\t args: makeInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function makeImplementedInterfaces(def) {\n\t return def.interfaces.map(function (inter) {\n\t return produceTypeDef(inter);\n\t });\n\t }\n\n\t function makeInputValues(values) {\n\t return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = produceTypeDef(value.type);\n\t return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n\t });\n\t }\n\n\t function makeInterfaceDef(def) {\n\t var typeName = def.name.value;\n\t var config = {\n\t name: typeName,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t fields: function fields() {\n\t return makeFieldDefMap(def);\n\t }\n\t };\n\t return new _type.GraphQLInterfaceType(config);\n\t }\n\n\t function makeEnumDef(def) {\n\t var enumType = new _type.GraphQLEnumType({\n\t name: def.name.value,\n\t values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\n\t return enumType;\n\t }\n\n\t function makeUnionDef(def) {\n\t return new _type.GraphQLUnionType({\n\t name: def.name.value,\n\t resolveType: function resolveType() {\n\t return null;\n\t },\n\t types: def.types.map(function (t) {\n\t return produceTypeDef(t);\n\t })\n\t });\n\t }\n\n\t function makeScalarDef(def) {\n\t return new _type.GraphQLScalarType({\n\t name: def.name.value,\n\t serialize: function serialize() {\n\t return null;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function makeInputObjectDef(def) {\n\t return new _type.GraphQLInputObjectType({\n\t name: def.name.value,\n\t fields: function fields() {\n\t return makeInputValues(def.fields);\n\t }\n\t });\n\t }\n\t}", "function buildWrappedType(innerType, inputTypeAST) {\n if (inputTypeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeAST.type));\n }\n if (inputTypeAST.kind === _kinds.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeAST.type);\n (0, _invariant2.default)(!(wrappedType instanceof _definition.GraphQLNonNull), 'No nesting nonnull.');\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function buildWrappedType(innerType, inputTypeNode) {\n if (inputTypeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeNode.type));\n }\n if (inputTypeNode.kind === Kind.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeNode.type);\n !!(wrappedType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function buildWrappedType(innerType, inputTypeNode) {\n if (inputTypeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildWrappedType(innerType, inputTypeNode.type));\n }\n if (inputTypeNode.kind === Kind.NON_NULL_TYPE) {\n var wrappedType = buildWrappedType(innerType, inputTypeNode.type);\n !!(wrappedType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(wrappedType);\n }\n return innerType;\n}", "function convertType(type, format, data, converter) {\n var base, schema\n if (['JSON', 'XML'].indexOf(type.typePropertyKind) !== -1 && !type.schema) {\n type.schema = type.type // convert inline JSON and XML to RAML08 format\n delete type.type\n }\n if (type.typePropertyKind === 'TYPE_EXPRESSION') {\n // expand global types into each point of usage\n base = _.cloneDeep(data.types[type.type[0]]) // only support single inheritence\n inheritProperties(type, base, data)\n _.defaults(type, base)\n base = null\n }\n // TODO: consider supporting typePropertyKind 'INPLACE' (JSON in global type, object properties in type)\n if (type.properties) {\n convertProperties(type.properties, false, data, converter)\n }\n if (_.isArray(type.type)) {\n type.type = type.type.join(', ') // only support single inheritence, but show more types if present\n }\n if (type.items) {\n // type array will have an items field\n if (_.isArray(type.items)) {\n // if items is a type name or array of type names, normalize as a string\n type.items = type.items.join(', ') // only support single inheritence, but show more types if present\n }\n if (_.isString(type.items)) {\n // expand global types into each point of usage, converting items to in place type\n type.items = _.cloneDeep(data.types[type.items]) // only support single inheritence\n inheritProperties(type.items, type.items, data)\n }\n if (_.isObject(type.items)) {\n convertType(type.items, format, data, converter)\n }\n }\n if (type.description) {\n type.description = converter(type.description)\n }\n if (type.examples) {\n type.examples.forEach(function(example) {\n example.description =\n example.description && converter(example.description) // markdown for description\n example.value =\n (format && beautify(format, example.value)) || example.value\n })\n }\n if (type.example && format) {\n type.example = beautify(format, type.example)\n }\n if (type.schema && format) {\n if (format === 'application/json') {\n schema = parseJsonSchema(type.schema)\n if (schema.description && !type.description) {\n type.description = schema.description && converter(schema.description) // markdown for description\n delete schema.description // too much to see this twice\n }\n type.schema = JSON.stringify(schema)\n }\n type.schema = beautify(format, type.schema)\n }\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildClientSchema(introspection) {\n\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema;\n\n // Converts the list of types into a keyMap based on the type names.\n var typeIntrospectionMap = (0, _keyMap2.default)(schemaIntrospection.types, function (type) {\n return type.name;\n });\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars. All functions below are inline\n // so that this type def cache is within the scope of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n return new _definition.GraphQLList(getType(itemRef));\n }\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n var nullableType = getType(nullableRef);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'No nesting nonnull.') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n if (typeDefCache[typeName]) {\n return typeDefCache[typeName];\n }\n var typeIntrospection = typeIntrospectionMap[typeName];\n if (!typeIntrospection) {\n throw new Error('Invalid or incomplete schema, unknown type: ' + typeName + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n var typeDef = buildType(typeIntrospection);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isInputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide input type for arguments.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !(0, _definition.isOutputType)(type) ? (0, _invariant2.default)(0, 'Introspection must provide output type for fields.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Introspection must provide object type for possibleTypes.') : void 0;\n return type;\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Introspection must provide interface type for interfaces.') : void 0;\n return type;\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function buildType(type) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n default:\n throw new Error('Invalid or incomplete schema, unknown kind: ' + type.kind + '. Ensure ' + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: objectIntrospection.interfaces.map(getInterfaceType),\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: unionIntrospection.possibleTypes.map(getObjectType),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap2.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n return (0, _keyValMap2.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap2.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n name: inputValueIntrospection.name,\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n // Support deprecated `on****` fields for building `locations`, as this\n // is used by GraphiQL which may need to support outdated servers.\n var locations = directiveIntrospection.locations ? directiveIntrospection.locations.slice() : [].concat(!directiveIntrospection.onField ? [] : [_directives.DirectiveLocation.FIELD], !directiveIntrospection.onOperation ? [] : [_directives.DirectiveLocation.QUERY, _directives.DirectiveLocation.MUTATION, _directives.DirectiveLocation.SUBSCRIPTION], !directiveIntrospection.onFragment ? [] : [_directives.DirectiveLocation.FRAGMENT_DEFINITION, _directives.DirectiveLocation.FRAGMENT_SPREAD, _directives.DirectiveLocation.INLINE_FRAGMENT]);\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: locations,\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var types = schemaIntrospection.types.map(function (typeIntrospection) {\n return getNamedType(typeIntrospection.name);\n });\n\n // Get the root Query, Mutation, and Subscription types.\n var queryType = getObjectType(schemaIntrospection.queryType);\n\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null;\n\n // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : [];\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: directives\n });\n}", "function buildASTSchema(ast, queryTypeName, mutationTypeName, subscriptionTypeName) {\n if (!ast) {\n throw new Error('must pass in ast');\n }\n\n if (!queryTypeName) {\n throw new Error('must pass in query type');\n }\n\n var typeDefs = [];\n for (var i = 0; i < ast.definitions.length; i++) {\n var d = ast.definitions[i];\n switch (d.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n case _languageKinds.ENUM_TYPE_DEFINITION:\n case _languageKinds.UNION_TYPE_DEFINITION:\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n typeDefs.push(d);\n }\n }\n\n var astMap = (0, _jsutilsKeyMap2['default'])(typeDefs, function (d) {\n return d.name.value;\n });\n\n if (!astMap[queryTypeName]) {\n throw new Error('Specified query type ' + queryTypeName + ' not found in document.');\n }\n\n if (mutationTypeName && !astMap[mutationTypeName]) {\n throw new Error('Specified mutation type ' + mutationTypeName + ' not found in document.');\n }\n\n if (subscriptionTypeName && !astMap[subscriptionTypeName]) {\n throw new Error('Specified subscription type ' + subscriptionTypeName + ' not found in document.');\n }\n\n var innerTypeMap = {\n String: _type.GraphQLString,\n Int: _type.GraphQLInt,\n Float: _type.GraphQLFloat,\n Boolean: _type.GraphQLBoolean,\n ID: _type.GraphQLID\n };\n\n typeDefs.forEach(function (def) {\n return typeDefNamed(def.name.value);\n });\n\n return new _type.GraphQLSchema({\n query: getObjectType(astMap[queryTypeName]),\n mutation: mutationTypeName ? getObjectType(astMap[mutationTypeName]) : null,\n subscription: subscriptionTypeName ? getObjectType(astMap[subscriptionTypeName]) : null\n });\n\n function getObjectType(typeAST) {\n var type = typeDefNamed(typeAST.name.value);\n (0, _jsutilsInvariant2['default'])(type instanceof _type.GraphQLObjectType, 'AST must provide object type.');\n return type;\n }\n\n function produceTypeDef(typeAST) {\n var typeName = getNamedTypeAST(typeAST).name.value;\n var typeDef = typeDefNamed(typeName);\n return buildWrappedType(typeDef, typeAST);\n }\n\n function typeDefNamed(typeName) {\n if (innerTypeMap[typeName]) {\n return innerTypeMap[typeName];\n }\n\n if (!astMap[typeName]) {\n throw new Error('Type ' + typeName + ' not found in document');\n }\n\n var innerTypeDef = makeSchemaDef(astMap[typeName]);\n if (!innerTypeDef) {\n throw new Error('Nothing constructed for ' + typeName);\n }\n innerTypeMap[typeName] = innerTypeDef;\n return innerTypeDef;\n }\n\n function makeSchemaDef(def) {\n if (!def) {\n throw new Error('def must be defined');\n }\n switch (def.kind) {\n case _languageKinds.OBJECT_TYPE_DEFINITION:\n return makeTypeDef(def);\n case _languageKinds.INTERFACE_TYPE_DEFINITION:\n return makeInterfaceDef(def);\n case _languageKinds.ENUM_TYPE_DEFINITION:\n return makeEnumDef(def);\n case _languageKinds.UNION_TYPE_DEFINITION:\n return makeUnionDef(def);\n case _languageKinds.SCALAR_TYPE_DEFINITION:\n return makeScalarDef(def);\n case _languageKinds.INPUT_OBJECT_TYPE_DEFINITION:\n return makeInputObjectDef(def);\n default:\n throw new Error(def.kind + ' not supported');\n }\n }\n\n function makeTypeDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n fields: function fields() {\n return makeFieldDefMap(def);\n },\n interfaces: function interfaces() {\n return makeImplementedInterfaces(def);\n }\n };\n return new _type.GraphQLObjectType(config);\n }\n\n function makeFieldDefMap(def) {\n return (0, _jsutilsKeyValMap2['default'])(def.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: produceTypeDef(field.type),\n args: makeInputValues(field.arguments)\n };\n });\n }\n\n function makeImplementedInterfaces(def) {\n return def.interfaces.map(function (inter) {\n return produceTypeDef(inter);\n });\n }\n\n function makeInputValues(values) {\n return (0, _jsutilsKeyValMap2['default'])(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = produceTypeDef(value.type);\n return { type: type, defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type) };\n });\n }\n\n function makeInterfaceDef(def) {\n var typeName = def.name.value;\n var config = {\n name: typeName,\n resolveType: function resolveType() {\n return null;\n },\n fields: function fields() {\n return makeFieldDefMap(def);\n }\n };\n return new _type.GraphQLInterfaceType(config);\n }\n\n function makeEnumDef(def) {\n var enumType = new _type.GraphQLEnumType({\n name: def.name.value,\n values: (0, _jsutilsKeyValMap2['default'])(def.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n\n return enumType;\n }\n\n function makeUnionDef(def) {\n return new _type.GraphQLUnionType({\n name: def.name.value,\n resolveType: function resolveType() {\n return null;\n },\n types: def.types.map(function (t) {\n return produceTypeDef(t);\n })\n });\n }\n\n function makeScalarDef(def) {\n return new _type.GraphQLScalarType({\n name: def.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function makeInputObjectDef(def) {\n return new _type.GraphQLInputObjectType({\n name: def.name.value,\n fields: function fields() {\n return makeInputValues(def.fields);\n }\n });\n }\n}", "type(val) {\n this._type = val;\n return this;\n }", "function createTypeExpression(node) {\n if (node.type == 'Identifier') {\n return node;\n } else if (node.type == 'QualifiedTypeIdentifier') {\n return t.memberExpression(createTypeExpression(node.qualification), createTypeExpression(node.id));\n }\n\n throw this.errorWithNode('Unsupported type: ' + node.type);\n }", "function Type$2(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = qualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return qualify(s, namespace); }) :\n [];\n }\n}", "function Type(schema, opts) {\n var type;\n if (LOGICAL_TYPE) {\n type = LOGICAL_TYPE;\n UNDERLYING_TYPES.push([LOGICAL_TYPE, this]);\n LOGICAL_TYPE = null;\n } else {\n type = this;\n }\n\n // Lazily instantiated hash string. It will be generated the first time the\n // type's default fingerprint is computed (for example when using `equals`).\n // We use a mutable object since types are frozen after instantiation.\n this._hash = new Hash();\n this.name = undefined;\n this.aliases = undefined;\n this.doc = (schema && schema.doc) ? '' + schema.doc : undefined;\n\n if (schema) {\n // This is a complex (i.e. non-primitive) type.\n var name = schema.name;\n var namespace = schema.namespace === undefined ?\n opts && opts.namespace :\n schema.namespace;\n if (name !== undefined) {\n // This isn't an anonymous type.\n name = maybeQualify(name, namespace);\n if (isPrimitive(name)) {\n // Avro doesn't allow redefining primitive names.\n throw new Error(f('cannot rename primitive type: %j', name));\n }\n var registry = opts && opts.registry;\n if (registry) {\n if (registry[name] !== undefined) {\n throw new Error(f('duplicate type name: %s', name));\n }\n registry[name] = type;\n }\n } else if (opts && opts.noAnonymousTypes) {\n throw new Error(f('missing name property in schema: %j', schema));\n }\n this.name = name;\n this.aliases = schema.aliases ?\n schema.aliases.map(function (s) { return maybeQualify(s, namespace); }) :\n [];\n }\n}", "function buildClientSchema(introspection, options) {\n // Get the schema from the introspection result.\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n });\n\n var _arr = [].concat(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"specifiedScalarTypes\"], _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"introspectionTypes\"]);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var stdType = _arr[_i];\n typeMap[stdType.name] = stdType;\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_6__[\"GraphQLSchema\"]({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(typeMap),\n directives: directives,\n assumeValid: options && options.assumeValid,\n allowedLegacyNames: options && options.allowedLegacyNames\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLList\"])(getType(itemRef));\n }\n\n if (typeRef.kind === _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLNonNull\"])(Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertNullableType\"])(nullableType));\n }\n\n if (!typeRef.name) {\n throw new Error('Unknown type reference: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeRef));\n }\n\n return getNamedType(typeRef.name);\n }\n\n function getNamedType(typeName) {\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure \") + 'that a full introspection query is used in order to build a ' + 'client schema.');\n }\n\n return type;\n }\n\n function getInputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isInputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide input type for arguments, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getOutputType(typeRef) {\n var type = getType(typeRef);\n !Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"isOutputType\"])(type) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(0, 'Introspection must provide output type for fields, but received: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type) + '.') : void 0;\n return type;\n }\n\n function getObjectType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertObjectType\"])(type);\n }\n\n function getInterfaceType(typeRef) {\n var type = getType(typeRef);\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_7__[\"assertInterfaceType\"])(type);\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type && type.name && type.kind) {\n switch (type.kind) {\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].SCALAR:\n return buildScalarDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].OBJECT:\n return buildObjectDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INTERFACE:\n return buildInterfaceDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].UNION:\n return buildUnionDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].ENUM:\n return buildEnumDef(type);\n\n case _type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"TypeKind\"].INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n throw new Error('Invalid or incomplete introspection result. Ensure that a full ' + 'introspection query is used in order to build a client schema:' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(type));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLScalarType\"]({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n serialize: function serialize(value) {\n return value;\n }\n });\n }\n\n function buildObjectDef(objectIntrospection) {\n if (!objectIntrospection.interfaces) {\n throw new Error('Introspection result missing interfaces: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(objectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLObjectType\"]({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return objectIntrospection.interfaces.map(getInterfaceType);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInterfaceType\"]({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n throw new Error('Introspection result missing possibleTypes: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(unionIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLUnionType\"]({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n throw new Error('Introspection result missing enumValues: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(enumIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLEnumType\"]({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n throw new Error('Introspection result missing inputFields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(inputObjectIntrospection));\n }\n\n return new _type_definition__WEBPACK_IMPORTED_MODULE_7__[\"GraphQLInputObjectType\"]({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error('Introspection result missing fields: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeIntrospection));\n }\n\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, function (fieldIntrospection) {\n if (!fieldIntrospection.args) {\n throw new Error('Introspection result missing field args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(fieldIntrospection));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: getOutputType(fieldIntrospection.type),\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n });\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getInputType(inputValueIntrospection.type);\n var defaultValue = inputValueIntrospection.defaultValue ? Object(_valueFromAST__WEBPACK_IMPORTED_MODULE_4__[\"valueFromAST\"])(Object(_language_parser__WEBPACK_IMPORTED_MODULE_5__[\"parseValue\"])(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n throw new Error('Introspection result missing directive args: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n if (!directiveIntrospection.locations) {\n throw new Error('Introspection result missing directive locations: ' + Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(directiveIntrospection));\n }\n\n return new _type_directives__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLDirective\"]({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function make(type) {\n if (!knowType(type)) {\n return;\n }\n\n switch (type) {\n case Number:\n prop = options['props'][name] = {\n type: Number,\n default: 0\n };\n break;\n case Boolean:\n prop = options['props'][name] = {\n type: Boolean,\n default: false\n };\n break;\n case Array:\n prop = options['props'][name] = {\n type: Array,\n default: []\n };\n break;\n case String:\n prop = options['props'][name] = {\n type: String,\n default: ''\n };\n break;\n case Object:\n prop = options['props'][name] = {\n type: Object,\n default: null\n };\n break;\n case null:\n prop = options['props'][name] = {\n type: null,\n default: null\n };\n break;\n default:\n break;\n }\n }", "function registerType(type) {\n if (logger.isDebugEnabled()) logger.debug('Register Type \\'%s\\' with id [%s]', type.typeName, type.id);\n return (types[type.id] = type);\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "function buildClientSchema(introspection, options) {\n (0, _isObjectLike.default)(introspection) && (0, _isObjectLike.default)(introspection.__schema) || (0, _devAssert.default)(0, \"Invalid or incomplete introspection result. Ensure that you are passing \\\"data\\\" property of introspection response and no \\\"errors\\\" was returned alongside: \".concat((0, _inspect.default)(introspection), \".\")); // Get the schema from the introspection result.\n\n var schemaIntrospection = introspection.__schema; // Iterate through all types, getting the type definition for each.\n\n var typeMap = (0, _keyValMap.default)(schemaIntrospection.types, function (typeIntrospection) {\n return typeIntrospection.name;\n }, function (typeIntrospection) {\n return buildType(typeIntrospection);\n }); // Include standard types only if they are used.\n\n for (var _i2 = 0, _ref2 = [].concat(_scalars.specifiedScalarTypes, _introspection.introspectionTypes); _i2 < _ref2.length; _i2++) {\n var stdType = _ref2[_i2];\n\n if (typeMap[stdType.name]) {\n typeMap[stdType.name] = stdType;\n }\n } // Get the root Query, Mutation, and Subscription types.\n\n\n var queryType = schemaIntrospection.queryType ? getObjectType(schemaIntrospection.queryType) : null;\n var mutationType = schemaIntrospection.mutationType ? getObjectType(schemaIntrospection.mutationType) : null;\n var subscriptionType = schemaIntrospection.subscriptionType ? getObjectType(schemaIntrospection.subscriptionType) : null; // Get the directives supported by Introspection, assuming empty-set if\n // directives were not queried for.\n\n var directives = schemaIntrospection.directives ? schemaIntrospection.directives.map(buildDirective) : []; // Then produce and return a Schema with these types.\n\n return new _schema.GraphQLSchema({\n description: schemaIntrospection.description,\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: (0, _objectValues.default)(typeMap),\n directives: directives,\n assumeValid: options === null || options === void 0 ? void 0 : options.assumeValid\n }); // Given a type reference in introspection, return the GraphQLType instance.\n // preferring cached instances before building new instances.\n\n function getType(typeRef) {\n if (typeRef.kind === _introspection.TypeKind.LIST) {\n var itemRef = typeRef.ofType;\n\n if (!itemRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n return new _definition.GraphQLList(getType(itemRef));\n }\n\n if (typeRef.kind === _introspection.TypeKind.NON_NULL) {\n var nullableRef = typeRef.ofType;\n\n if (!nullableRef) {\n throw new Error('Decorated type deeper than introspection query.');\n }\n\n var nullableType = getType(nullableRef);\n return new _definition.GraphQLNonNull((0, _definition.assertNullableType)(nullableType));\n }\n\n return getNamedType(typeRef);\n }\n\n function getNamedType(typeRef) {\n var typeName = typeRef.name;\n\n if (!typeName) {\n throw new Error(\"Unknown type reference: \".concat((0, _inspect.default)(typeRef), \".\"));\n }\n\n var type = typeMap[typeName];\n\n if (!type) {\n throw new Error(\"Invalid or incomplete schema, unknown type: \".concat(typeName, \". Ensure that a full introspection query is used in order to build a client schema.\"));\n }\n\n return type;\n }\n\n function getObjectType(typeRef) {\n return (0, _definition.assertObjectType)(getNamedType(typeRef));\n }\n\n function getInterfaceType(typeRef) {\n return (0, _definition.assertInterfaceType)(getNamedType(typeRef));\n } // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n\n\n function buildType(type) {\n if (type != null && type.name != null && type.kind != null) {\n switch (type.kind) {\n case _introspection.TypeKind.SCALAR:\n return buildScalarDef(type);\n\n case _introspection.TypeKind.OBJECT:\n return buildObjectDef(type);\n\n case _introspection.TypeKind.INTERFACE:\n return buildInterfaceDef(type);\n\n case _introspection.TypeKind.UNION:\n return buildUnionDef(type);\n\n case _introspection.TypeKind.ENUM:\n return buildEnumDef(type);\n\n case _introspection.TypeKind.INPUT_OBJECT:\n return buildInputObjectDef(type);\n }\n }\n\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Invalid or incomplete introspection result. Ensure that a full introspection query is used in order to build a client schema: \".concat(typeStr, \".\"));\n }\n\n function buildScalarDef(scalarIntrospection) {\n return new _definition.GraphQLScalarType({\n name: scalarIntrospection.name,\n description: scalarIntrospection.description,\n specifiedByUrl: scalarIntrospection.specifiedByUrl\n });\n }\n\n function buildImplementationsList(implementingIntrospection) {\n // TODO: Temporary workaround until GraphQL ecosystem will fully support\n // 'interfaces' on interface types.\n if (implementingIntrospection.interfaces === null && implementingIntrospection.kind === _introspection.TypeKind.INTERFACE) {\n return [];\n }\n\n if (!implementingIntrospection.interfaces) {\n var implementingIntrospectionStr = (0, _inspect.default)(implementingIntrospection);\n throw new Error(\"Introspection result missing interfaces: \".concat(implementingIntrospectionStr, \".\"));\n }\n\n return implementingIntrospection.interfaces.map(getInterfaceType);\n }\n\n function buildObjectDef(objectIntrospection) {\n return new _definition.GraphQLObjectType({\n name: objectIntrospection.name,\n description: objectIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(objectIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(objectIntrospection);\n }\n });\n }\n\n function buildInterfaceDef(interfaceIntrospection) {\n return new _definition.GraphQLInterfaceType({\n name: interfaceIntrospection.name,\n description: interfaceIntrospection.description,\n interfaces: function interfaces() {\n return buildImplementationsList(interfaceIntrospection);\n },\n fields: function fields() {\n return buildFieldDefMap(interfaceIntrospection);\n }\n });\n }\n\n function buildUnionDef(unionIntrospection) {\n if (!unionIntrospection.possibleTypes) {\n var unionIntrospectionStr = (0, _inspect.default)(unionIntrospection);\n throw new Error(\"Introspection result missing possibleTypes: \".concat(unionIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLUnionType({\n name: unionIntrospection.name,\n description: unionIntrospection.description,\n types: function types() {\n return unionIntrospection.possibleTypes.map(getObjectType);\n }\n });\n }\n\n function buildEnumDef(enumIntrospection) {\n if (!enumIntrospection.enumValues) {\n var enumIntrospectionStr = (0, _inspect.default)(enumIntrospection);\n throw new Error(\"Introspection result missing enumValues: \".concat(enumIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLEnumType({\n name: enumIntrospection.name,\n description: enumIntrospection.description,\n values: (0, _keyValMap.default)(enumIntrospection.enumValues, function (valueIntrospection) {\n return valueIntrospection.name;\n }, function (valueIntrospection) {\n return {\n description: valueIntrospection.description,\n deprecationReason: valueIntrospection.deprecationReason\n };\n })\n });\n }\n\n function buildInputObjectDef(inputObjectIntrospection) {\n if (!inputObjectIntrospection.inputFields) {\n var inputObjectIntrospectionStr = (0, _inspect.default)(inputObjectIntrospection);\n throw new Error(\"Introspection result missing inputFields: \".concat(inputObjectIntrospectionStr, \".\"));\n }\n\n return new _definition.GraphQLInputObjectType({\n name: inputObjectIntrospection.name,\n description: inputObjectIntrospection.description,\n fields: function fields() {\n return buildInputValueDefMap(inputObjectIntrospection.inputFields);\n }\n });\n }\n\n function buildFieldDefMap(typeIntrospection) {\n if (!typeIntrospection.fields) {\n throw new Error(\"Introspection result missing fields: \".concat((0, _inspect.default)(typeIntrospection), \".\"));\n }\n\n return (0, _keyValMap.default)(typeIntrospection.fields, function (fieldIntrospection) {\n return fieldIntrospection.name;\n }, buildField);\n }\n\n function buildField(fieldIntrospection) {\n var type = getType(fieldIntrospection.type);\n\n if (!(0, _definition.isOutputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide output type for fields, but received: \".concat(typeStr, \".\"));\n }\n\n if (!fieldIntrospection.args) {\n var fieldIntrospectionStr = (0, _inspect.default)(fieldIntrospection);\n throw new Error(\"Introspection result missing field args: \".concat(fieldIntrospectionStr, \".\"));\n }\n\n return {\n description: fieldIntrospection.description,\n deprecationReason: fieldIntrospection.deprecationReason,\n type: type,\n args: buildInputValueDefMap(fieldIntrospection.args)\n };\n }\n\n function buildInputValueDefMap(inputValueIntrospections) {\n return (0, _keyValMap.default)(inputValueIntrospections, function (inputValue) {\n return inputValue.name;\n }, buildInputValue);\n }\n\n function buildInputValue(inputValueIntrospection) {\n var type = getType(inputValueIntrospection.type);\n\n if (!(0, _definition.isInputType)(type)) {\n var typeStr = (0, _inspect.default)(type);\n throw new Error(\"Introspection must provide input type for arguments, but received: \".concat(typeStr, \".\"));\n }\n\n var defaultValue = inputValueIntrospection.defaultValue != null ? (0, _valueFromAST.valueFromAST)((0, _parser.parseValue)(inputValueIntrospection.defaultValue), type) : undefined;\n return {\n description: inputValueIntrospection.description,\n type: type,\n defaultValue: defaultValue,\n deprecationReason: inputValueIntrospection.deprecationReason\n };\n }\n\n function buildDirective(directiveIntrospection) {\n if (!directiveIntrospection.args) {\n var directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n throw new Error(\"Introspection result missing directive args: \".concat(directiveIntrospectionStr, \".\"));\n }\n\n if (!directiveIntrospection.locations) {\n var _directiveIntrospectionStr = (0, _inspect.default)(directiveIntrospection);\n\n throw new Error(\"Introspection result missing directive locations: \".concat(_directiveIntrospectionStr, \".\"));\n }\n\n return new _directives.GraphQLDirective({\n name: directiveIntrospection.name,\n description: directiveIntrospection.description,\n isRepeatable: directiveIntrospection.isRepeatable,\n locations: directiveIntrospection.locations.slice(),\n args: buildInputValueDefMap(directiveIntrospection.args)\n });\n }\n}", "static newType(spec) {\n return allTypes.newType(spec);\n }", "function getSingularType(type) {\n\t var unmodifiedType = type;\n\t while (unmodifiedType instanceof GraphQLList) {\n\t unmodifiedType = unmodifiedType.ofType;\n\t }\n\t return unmodifiedType;\n\t}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function createTypeAnnotationBasedOnTypeof(type) {\n if (type === \"string\") {\n return t.stringTypeAnnotation();\n } else if (type === \"number\") {\n return t.numberTypeAnnotation();\n } else if (type === \"undefined\") {\n return t.voidTypeAnnotation();\n } else if (type === \"boolean\") {\n return t.booleanTypeAnnotation();\n } else if (type === \"function\") {\n return t.genericTypeAnnotation(t.identifier(\"Function\"));\n } else if (type === \"object\") {\n return t.genericTypeAnnotation(t.identifier(\"Object\"));\n } else if (type === \"symbol\") {\n return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n } else {\n throw new Error(\"Invalid typeof value\");\n }\n}", "toString() {\n var _d;\n // If an Object Type, we use the name of the Object Type\n let type = this.intermediateType ? (_d = this.intermediateType) === null || _d === void 0 ? void 0 : _d.name : this.type;\n // If configured as required, the GraphQL Type becomes required\n type = this.isRequired ? `${type}!` : type;\n // If configured with isXxxList, the GraphQL Type becomes a list\n type = this.isList || this.isRequiredList ? `[${type}]` : type;\n // If configured with isRequiredList, the list becomes required\n type = this.isRequiredList ? `${type}!` : type;\n return type;\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var typeDef = buildType(typeAST);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n }", "getType() {}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function createTypeAnnotationBasedOnTypeof(type) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "function Type() {}", "function getTypeFromAST(schema, ast) {\n\t var type = typeFromAST(schema, ast);\n\t __webpack_require__(1)(isType(type), 'RelaySchemaUtils: Unknown type `%s`.', print(ast));\n\t return type;\n\t}", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }", "function registerTypeById(type) {\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Register Type \\'%s\\' by id [%s]', type.typeName, type.id);\n }\n if(type.id) {\n typeById[type.id] = type;\n }\n return type;\n}", "function createTypeAnnotationBasedOnTypeof(type /*: string*/) {\n\t if (type === \"string\") {\n\t return t.stringTypeAnnotation();\n\t } else if (type === \"number\") {\n\t return t.numberTypeAnnotation();\n\t } else if (type === \"undefined\") {\n\t return t.voidTypeAnnotation();\n\t } else if (type === \"boolean\") {\n\t return t.booleanTypeAnnotation();\n\t } else if (type === \"function\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Function\"));\n\t } else if (type === \"object\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Object\"));\n\t } else if (type === \"symbol\") {\n\t return t.genericTypeAnnotation(t.identifier(\"Symbol\"));\n\t } else {\n\t throw new Error(\"Invalid typeof value\");\n\t }\n\t}", "getTypeFromValue(value, originalTypes) {\n if (value && value instanceof mdls.IdentifiableValue) {\n if (value.effectiveIdentifier.isPrimitive) {\n let type = value.effectiveIdentifier.name;\n if (type === 'concept') {\n type = 'CodeableConcept';\n } else if (type === 'xhtml') {\n // xhtml is a weird type in FHIR and should be treated like a string instead\n type = 'string';\n }\n return { code: type };\n } else {\n const def = this._specs.dataElements.findByIdentifier(value.effectiveIdentifier);\n const [type, value2] = this.getSimpleTypeAndValue(originalTypes.map(t => t.code), def, value);\n if (value2 == null) {\n // 13115, 'Couldn\\'t identify appropriate Extension.value[x] value for ${elementId}. Is it an attempt to reference a non-Entry?', 'Check value to ensure it is a primitive, maps to a FHIR datatype, or is an Entry (which allows references)', 'errorNumber'\n logger.error({ elementId: value.effectiveIdentifier.fqn }, '13115');\n return;\n }\n const map = this._specs.maps.findByTargetAndIdentifier(this._target, value2.effectiveIdentifier);\n if (map === undefined) {\n return;\n }\n const code = type;\n const profile = this._profileExporter.lookupProfile(map.identifier, true, true);\n if (code == 'Reference') {\n return { code: code, targetProfile: [profile.url] };\n } else if (common.isCustomProfile(profile) || profile.id !== type) {\n return { code: code, profile: [profile.url] };\n }\n return { code };\n }\n }\n }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }", "function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\t }", "parseObjectTypeDefinition() {\n const start = this._lexer.token;\n const description = this.parseDescription();\n this.expectKeyword('type');\n const name = this.parseName();\n const interfaces = this.parseImplementsInterfaces();\n const directives = this.parseConstDirectives();\n const fields = this.parseFieldsDefinition();\n return this.node(start, {\n kind: Kind.OBJECT_TYPE_DEFINITION,\n description,\n name,\n interfaces,\n directives,\n fields,\n });\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseJSDocTypeExpression() {\n var result = createNode(257 /* JSDocTypeExpression */, scanner.getTokenPos());\n parseExpected(15 /* OpenBraceToken */);\n result.type = parseJSDocTopLevelType();\n parseExpected(16 /* CloseBraceToken */);\n fixupParentReferences(result);\n return finishNode(result);\n }", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function parseObjectTypeDefinition(lexer) {\n var start = lexer.token;\n var description = parseDescription(lexer);\n expectKeyword(lexer, 'type');\n var name = parseName(lexer);\n var interfaces = parseImplementsInterfaces(lexer);\n var directives = parseDirectives(lexer, true);\n var fields = parseFieldsDefinition(lexer);\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OBJECT_TYPE_DEFINITION,\n description: description,\n name: name,\n interfaces: interfaces,\n directives: directives,\n fields: fields,\n loc: loc(lexer, start)\n };\n}", "function coerceValue(type, value) {\n\t // Ensure flow knows that we treat function params as const.\n\t var _value = value;\n\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t // Note: we're not checking that the result of coerceValue is non-null.\n\t // We only call this function after calling isValidJSValue.\n\t return coerceValue(type.ofType, _value);\n\t }\n\n\t if ((0, _isNullish2.default)(_value)) {\n\t return null;\n\t }\n\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(_value)) {\n\t var _ret2 = function () {\n\t var coercedValues = [];\n\t (0, _iterall.forEach)(_value, function (item) {\n\t coercedValues.push(coerceValue(itemType, item));\n\t });\n\t return {\n\t v: {\n\t v: coercedValues\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: [coerceValue(itemType, _value)]\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (typeof _value !== 'object' || _value === null) {\n\t return {\n\t v: null\n\t };\n\t }\n\t var fields = type.getFields();\n\t return {\n\t v: Object.keys(fields).reduce(function (obj, fieldName) {\n\t var field = fields[fieldName];\n\t var fieldValue = coerceValue(field.type, _value[fieldName]);\n\t if ((0, _isNullish2.default)(fieldValue)) {\n\t fieldValue = field.defaultValue;\n\t }\n\t if (!(0, _isNullish2.default)(fieldValue)) {\n\t obj[fieldName] = fieldValue;\n\t }\n\t return obj;\n\t }, {})\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must be input type');\n\n\t var parsed = type.parseValue(_value);\n\t if (!(0, _isNullish2.default)(parsed)) {\n\t return parsed;\n\t }\n\t}", "function astFromValue(value, type) {\n\t // Ensure flow knows that we treat function params as const.\n\t var _value = value;\n\n\t if (type instanceof _definition.GraphQLNonNull) {\n\t // Note: we're not checking that the result is non-null.\n\t // This function is not responsible for validating the input value.\n\t return astFromValue(_value, type.ofType);\n\t }\n\n\t if ((0, _isNullish2.default)(_value)) {\n\t return null;\n\t }\n\n\t // Convert JavaScript array to GraphQL list. If the GraphQLType is a list, but\n\t // the value is not an array, convert the value using the list's item type.\n\t if (type instanceof _definition.GraphQLList) {\n\t var _ret = function () {\n\t var itemType = type.ofType;\n\t if ((0, _iterall.isCollection)(_value)) {\n\t var _ret2 = function () {\n\t var valuesASTs = [];\n\t (0, _iterall.forEach)(_value, function (item) {\n\t var itemAST = astFromValue(item, itemType);\n\t if (itemAST) {\n\t valuesASTs.push(itemAST);\n\t }\n\t });\n\t return {\n\t v: {\n\t v: { kind: _kinds.LIST, values: valuesASTs }\n\t }\n\t };\n\t }();\n\n\t if (typeof _ret2 === \"object\") return _ret2.v;\n\t }\n\t return {\n\t v: astFromValue(_value, itemType)\n\t };\n\t }();\n\n\t if (typeof _ret === \"object\") return _ret.v;\n\t }\n\n\t // Populate the fields of the input object by creating ASTs from each value\n\t // in the JavaScript object according to the fields in the input type.\n\t if (type instanceof _definition.GraphQLInputObjectType) {\n\t var _ret3 = function () {\n\t if (_value === null || typeof _value !== 'object') {\n\t return {\n\t v: null\n\t };\n\t }\n\t var fields = type.getFields();\n\t var fieldASTs = [];\n\t Object.keys(fields).forEach(function (fieldName) {\n\t var fieldType = fields[fieldName].type;\n\t var fieldValue = astFromValue(_value[fieldName], fieldType);\n\t if (fieldValue) {\n\t fieldASTs.push({\n\t kind: _kinds.OBJECT_FIELD,\n\t name: { kind: _kinds.NAME, value: fieldName },\n\t value: fieldValue\n\t });\n\t }\n\t });\n\t return {\n\t v: { kind: _kinds.OBJECT, fields: fieldASTs }\n\t };\n\t }();\n\n\t if (typeof _ret3 === \"object\") return _ret3.v;\n\t }\n\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLScalarType || type instanceof _definition.GraphQLEnumType, 'Must provide Input Type, cannot use: ' + String(type));\n\n\t // Since value is an internally represented value, it must be serialized\n\t // to an externally represented value before converting into an AST.\n\t var serialized = type.serialize(_value);\n\t if ((0, _isNullish2.default)(serialized)) {\n\t return null;\n\t }\n\n\t // Others serialize based on their corresponding JavaScript scalar types.\n\t if (typeof serialized === 'boolean') {\n\t return { kind: _kinds.BOOLEAN, value: serialized };\n\t }\n\n\t // JavaScript numbers can be Int or Float values.\n\t if (typeof serialized === 'number') {\n\t var stringNum = String(serialized);\n\t return (/^[0-9]+$/.test(stringNum) ? { kind: _kinds.INT, value: stringNum } : { kind: _kinds.FLOAT, value: stringNum }\n\t );\n\t }\n\n\t if (typeof serialized === 'string') {\n\t // Enum types use Enum literals.\n\t if (type instanceof _definition.GraphQLEnumType) {\n\t return { kind: _kinds.ENUM, value: serialized };\n\t }\n\n\t // ID types can use Int literals.\n\t if (type === _scalars.GraphQLID && /^[0-9]+$/.test(serialized)) {\n\t return { kind: _kinds.INT, value: serialized };\n\t }\n\n\t // Use JSON stringify, which uses the same string encoding as GraphQL,\n\t // then remove the quotes.\n\t return {\n\t kind: _kinds.STRING,\n\t value: JSON.stringify(serialized).slice(1, -1)\n\t };\n\t }\n\n\t throw new TypeError('Cannot convert value to AST: ' + String(serialized));\n\t}", "function registerTypeByName(type) {\n if (registryLogger.isDebugEnabled()) {\n registryLogger.debug('Register Type \\'%s\\' by name [%s]', type.id, type.typeName);\n }\n typeByName[type.typeName] = type;\n return type;\n}", "function getTypeFromLookAtAreaResult(result) {\n let type=result.type;\n\n if (type == 'terrain') {\n return result[type];\n }\n\n if (type == 'structure') {\n let typeOfThing = result[type];\n return typeOfThing.structureType;\n }\n\n if (type == 'constructionSite') {\n let typeOfThing = result[type];\n return typeOfThing.structureType;\n }\n\n}", "function parse_type() {\n tree.addNode('type', 'branch');\n if (foundTokensCopy[parseCounter][1] == 'int') {\n match('int', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'string') {\n match('string', parseCounter);\n parseCounter++;\n } else if (foundTokensCopy[parseCounter][1] == 'boolean') {\n match('boolean', parseCounter);\n parseCounter++;\n }\n tree.endChildren();\n\n}", "function typeToClass(type) {\n if (typeof(type) != 'string') {\n return type;\n }\n var types = {\n \"int\": \"Integer\",\n \"long\": \"Long\",\n \"string\": \"String\",\n \"double\": \"Double\",\n \"char\": \"Character\",\n \"byte\": \"Byte\",\n \"float\": \"Float\"\n };\n if (types[type]) {\n return Packages[\"java.lang.\" + types[type]].TYPE;\n }\n return Packages[type];\n}" ]
[ "0.63089025", "0.63089025", "0.6293208", "0.6127647", "0.6124885", "0.6076708", "0.5971129", "0.5909885", "0.5877163", "0.5877163", "0.581831", "0.5782846", "0.5782839", "0.5782839", "0.57477754", "0.5747592", "0.57451797", "0.57451797", "0.57043284", "0.5679536", "0.56735647", "0.56735647", "0.5659622", "0.55995303", "0.5566162", "0.553709", "0.5494271", "0.54745805", "0.54740083", "0.54657763", "0.5451603", "0.5367312", "0.536258", "0.53616285", "0.5329962", "0.53232396", "0.53232396", "0.53214204", "0.5317343", "0.5304218", "0.5279656", "0.5244945", "0.5219134", "0.5201999", "0.5192655", "0.51901215", "0.51883566", "0.51883566", "0.51583326", "0.51106936", "0.50867146", "0.5084913", "0.5084913", "0.5064572", "0.5061634", "0.5061634", "0.5056684", "0.50378805", "0.5031696", "0.5026872", "0.5019672", "0.5016874", "0.4998728", "0.49878794", "0.49696857", "0.49696857", "0.49605376", "0.49391094", "0.49264854", "0.49260285", "0.49234208", "0.49197358", "0.49080086", "0.48938355", "0.48938355", "0.48938355", "0.48938355", "0.48629218", "0.4855252", "0.4854302", "0.4854302", "0.48461452", "0.4845071", "0.4841988", "0.4832157", "0.4826074", "0.482486", "0.48151347", "0.48129192", "0.48115703", "0.48115703", "0.48083395", "0.4791525", "0.4790583", "0.47603446", "0.47520143", "0.47288117", "0.47211546" ]
0.5302451
41
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree.
function printSchema(schema) { return printFilteredSchema(schema, function (n) { return !isSpecDirective(n); }, isDefinedType); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "componentDidMount() {\n // if this is the first time the home screen is loading\n // we must initialize Facebook\n if (!window.FB) {\n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '280945375708713',\n cookie : true, // enable cookies to allow the server to access\n // the session\n xfbml : true, // parse social plugins on this page\n version : 'v2.1' // use version 2.1\n });\n \n window.FB.getLoginStatus(function(response) {\n // upon opening the ma\n if (response.status === \"connected\") {\n loadStream(response);\n }\n }.bind(this));\n }.bind(this);\n } else {\n window.FB.getLoginStatus(function(response) {\n console.log(\"getting status\");\n this.initiateLoginOrLogout(response);\n }.bind(this));\n }\n\n // Load the SDK asynchronously\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n }", "componentDidMount() {\n\n\t window.fbAsyncInit = function() {\n\t window.FB.init({\n\t appId : '1250815578279698',\n\t cookie : true, // enable cookies to allow the server to access\n\t // the session\n\t xfbml : true, // parse social plugins on this page\n\t version : 'v2.11' // use version 2.1\n\t });\n\n //window.FB.Event.subscribe('auth.statusChange', this.statusChangeCallback());\n /* comment by bipin: it redirect if user is logged in fb */\n\t // window.FB.getLoginStatus(function(response) {\n\t // this.statusChangeCallback(response);\n\t // }.bind(this));\n\t }.bind(this);\n\n // Load the SDK asynchronously\n\t (function(d, s, id) {\n\t var js, fjs = d.getElementsByTagName(s)[0];\n\t if (d.getElementById(id)) return;\n\t js = d.createElement(s); js.id = id;js.async = true;\n\t js.src = \"https://connect.facebook.net/en_GB/sdk.js#xfbml=1&version=v2.11\";\n\t fjs.parentNode.insertBefore(js, fjs);\n\t }(document, 'script', 'facebook-jssdk'));\n\t}", "function facebookLogin()\r\n{\r\n var fb = FBConnect.install();\r\n fb.connect(client_id,redir_url,\"touch\");\r\n fb.onConnect = onFBConnected;\r\n \r\n}", "loginWithFacebook(){\n LoginManager.logInWithReadPermissions(['public_profile']).then(loginResult => {\n if (loginResult.isCancelled) {\n console.log('user canceled');\n return;\n }\n AccessToken.getCurrentAccessToken()\n .then(accessTokenData => {\n const credential = this.props.provider.credential(accessTokenData.accessToken);\n return auth.signInWithCredential(credential);\n })\n .then(credData => {\n console.log(credData);\n })\n .catch(err => {\n console.log(err);\n });\n });\n\n }", "componentDidMount(){\n (function(d, s, id) {\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) return;\n js = d.createElement(s); js.id = id;\n js.src = \"https://connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n \n window.fbAsyncInit = function() {\n window.FB.init({\n appId : '207358966557597', /* Our specific APP id */\n cookie : true, \n xfbml : true, \n version : 'v2.8' \n });\n\n /* This might be a duplicate of above checkLoginState, but need to investigate */\n FB.getLoginStatus(function(response) {\n this.statusChangeCallback(response);\n }.bind(this));\n }.bind(this)\n }", "componentWillUnmount() {\n //disconnect from FB\n }", "componentDidMount() {\n this.props.facebookLogin();\n // AsyncStorage.removeItem('fb_token');\n // this.onAuthComplete(this.props);\n }", "function auth_Facebook()\n{\n authenticate(new firebase.auth.FacebookAuthProvider());\n}", "render() {\n return (\n <div id=\"fb-root\"></div>\n )\n }", "componentDidMount() {\n const {\n videoId,\n } = this.props;\n\n if (typeof window !== \"undefined\") {\n this.loadFB()\n .then(res => {\n if (res) {\n this.FB = res;\n this.createPlayer(videoId);\n }\n });\n }\n }", "function testAPI() {\n FB.api('/me', function(response) {\n });\n }", "_FBPReady() {\n super._FBPReady();\n\n }", "componentDidMount() {\n const _this = this;\n\n\n _this._manageGlobalEventHandlers(_this.props);\n\n _this._FB_init(function() {\n _this.setState({\n initializing: false\n });\n });\n }", "checkAuth() {\n return new Promise((resolve) => {\n window.fbAsyncInit = () => {\n window.FB.init({\n appId: process.env.FACEBOOK_ID,\n cookie: true,\n xfbml: true,\n version: 'v2.8',\n });\n window.FB.AppEvents.logPageView();\n window.FB.getLoginStatus((response) => {\n resolve(response);\n });\n };\n\n ((d, s, id) => {\n const fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) { return; }\n const js = d.createElement(s); js.id = id;\n js.src = '//connect.facebook.net/en_US/sdk.js';\n fjs.parentNode.insertBefore(js, fjs);\n })(document, 'script', 'facebook-jssdk');\n });\n }", "loginByFacebook() {\n if (!this.props.accsessToken) {\n this.props.facebookLogin();\n } else {\n return Alert.alert('', 'Please logout first');\n }\n }", "function facebookLogin() {\n FB.getLoginStatus(function(response) {\n statusChangeCallback(response);\n });\n}", "FacebookAuth() {\n return this.AuthLogin(new firebase_app__WEBPACK_IMPORTED_MODULE_1__[\"auth\"].FacebookAuthProvider());\n }", "_FB_init(finishedCallback) {\n const _this = this;\n\n //Fail if FB is not available\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n //Get the users AccessToken\n FB.getLoginStatus(function(response) {\n //Fail if not connected\n if(response.status != 'connected') {\n _this.props.onError(ERROR.CONNECTION_FAILED);\n _this.set_errorMessage(MSFBPhotoSelector.TEXTS.connection_failed);\n }\n\n //Load data when connected\n else {\n _this.setState({\n FB_accessToken: response.authResponse.accessToken\n });\n\n _this._FB_getUserAlbums(finishedCallback);\n _this._FB_getUserImage();\n }\n }, true);\n }", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "__fbpReady(){super.__fbpReady();//this._FBPTraceWires()\n}", "function sdk(){\n}", "getUserInfoFromFB() {\n return axios.get('/user/info/fb')\n .then(res => {\n console.log('User info FB: ', res.data);\n this.setState({\n user: res.data\n });\n })\n .catch(err => {\n console.log(err);\n });\n }", "onShareAppMessage() {\n\n }", "constructor() {\n this.apiUrl = 'https://graph.facebook.com/v4.0';\n this.access_token = process.env.ACCESS_TOKEN;\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n \n });\n\n\n \n }", "_FB_API(p1, p2, p3) {\n if(typeof FB === 'undefined') {\n throw new Error('FB-SDK was not found!')\n }\n\n FB.api(p1, p2, p3);\n }", "setFacebook(token) {\n fetch('https://graph.facebook.com/v2.5/me?fields=email,name,friends&access_token=' + token)\n .then((response) => response.json())\n .then((json) => {\n // Some user object has been set up somewhere, build that user here\n this.setState({ fb_name: json.name, fb_email: json.email, fb_token: token, fb_user_id: json.id});\n helper.saveFacebookData( this.state.user_id, json.email, json.name, json.id ,token );\n return \"Okay\";\n })\n .catch(() => {\n reject('ERROR GETTING DATA FROM FACEBOOK')\n });\n }", "function FacebookLoginLoad() {\r\n (function (d, s, id) {\r\n var js, fjs = d.getElementsByTagName(s)[0];\r\n if (d.getElementById(id)) { return; }\r\n js = d.createElement(s); js.id = id;\r\n js.src = \"../../../Scripts/Facebook/sdk.js\";\r\n fjs.parentNode.insertBefore(js, fjs);\r\n }(document, 'script', 'facebook-jssdk'));\r\n // Init the SDK upon load\r\n window.fbAsyncInit = function () {\r\n FB.init({\r\n appId: '454206028123700',\r\n xfbml: true,\r\n version: 'v2.5'\r\n });\r\n }\r\n}", "function signInWithFb() {\n return {\n type: SIGN_IN_WITH_FB\n };\n}", "private public function m246() {}", "handle_submit() {\n const {article, content} = this.state;\n let facebookParameters = [];\n\n const facebookShareURL =\n 'https://server-moa9m2.turbo360-vertex.com/share/EJ5BXsTgFr43dx4Y';\n facebookParameters.push('quote=' + encodeURI(content));\n facebookParameters.push('u=' + encodeURI(facebookShareURL));\n\n console.log(facebookParameters);\n const url =\n 'https://www.facebook.com/sharer/sharer.php?' +\n facebookParameters.join('&');\n Linking.openURL(url)\n .then(data => {\n this.handle_cancel();\n console.log('Facebook Opened');\n })\n .catch(() => {\n console.log('Something went wrong');\n });\n }", "testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n // 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function myFacebookLogin() {\n FB.login(function () {\n checkLoginState();\n }, {scope: 'public_profile, email, user_friends'});\n}", "logout() {\n FB.logout();\n }", "function singInWithFacebook() {\n var provider = new firebase.auth.FacebookAuthProvider();\n var d = new Date();\n firebase.auth().signInWithPopup(provider).then(({user}) => {\n //create database of user\n if (user.metadata.creationTime === user.metadata.lastSignInTime) {\n createData('/users/' + user.uid, {\n \"displayName\": user.displayName,\n \"email\": user.email,\n \"joinedOn\": d.getDate() + '/' + (d.getMonth() + 1) + '/' + d.getFullYear(),\n \"username\": user.uid,\n });\n }\n\n //final step creat local login\n return user.getIdToken().then((idToken) => {\n return fetch(\"/sessionLogin\", {\n method: \"POST\",\n headers: {\n Accept: \"application/json\",\n \"Content-Type\": \"application/json\",\n \"CSRF-Token\": Cookies.get(\"XSRF-TOKEN\"),\n },\n body: JSON.stringify({\n idToken\n }),\n });\n });\n })\n .then(() => {\n window.location.assign(\"/dashboard\");\n });\n}", "function _handleFb() {\n\t\tlet shortToken;\n\t\tif (window.location.hash) {\n\n\t\t\tconsole.log(\"window.location\", window.location);\n\n\t\t\t\tlet accessTokenMatch = window.location.hash.match(/access_token\\=([a-zA-Z0-9]+)/);\n\t\t\tconsole.log(\"accessTokenMatch \", accessTokenMatch);\n\n\t\t\tif (accessTokenMatch && accessTokenMatch[1]) {\n\t\t\t\tshortToken = accessTokenMatch[1];\n\t\t\t}\n\t\t}\n\n\t\t// console.log(\"_handleFb \");\n\t\t// console.log(\"shortToken \", shortToken);\n\n\t\tif (shortToken) {\n\t\t\t// We came here from Facebook redirect, with a token\n\t\t\tif (getUrlParams()[\"accountLinking\"]) {\n\t\t\t\t_getFBMeWithShortToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\tconsole.log(\"_getFBMeWithShortToken data\", data);\n\t\t\t\t\t\t//console.log('updating', data)\n\t\t\t\t\t\tupdateClient({\"facebookLogin\": data[\"id\"]}, function(d, e) {\n\t\t\t\t\t\t\tconsole.log('updated!');\n\t\t\t\t\t\t\tconsole.log(d, e);\n\n\t\t\t\t\t\t\t_generateFBToken({\n\t\t\t\t\t\t\t\tshortToken,\n\t\t\t\t\t\t\t\tcallback: function(data) {\n\n\t\t\t\t\t\t\t\t\tconsole.log()\n\t\t\t\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t\t}\n\t\t\t\t\t\t\t});\n\t\t\t\t\t\t});\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t\t// Clear query parameter from address bar\n\t\t\t\twindow.setTimeout(function() {\n\t\t\t\t\thistory.pushState(\"\", document.title, window.location.pathname);\n\t\t\t\t}, 0);\n\t\t\t}\n\t\t\telse {\n\t\t\t\t_generateFBToken({\n\t\t\t\t\tshortToken,\n\t\t\t\t\tcallback: function(data) {\n\t\t\t\t\t\tif (data && data[\"value\"] === \"ok\") {\n\t\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\tif(window.altyn.zonePrefix === \"\"||(window.isMobile && window.altyn.zonePrefix ==\"/open\")){\n\t\t\t\t//Just came on page, need to get token status\n\t\t\t\t_getFBTokenStatus(function(response) {\n\t\t\t\t\tif (response && response[\"value\"] === true) {\n\t\t\t\t\t\t_store._fbAllowed = true;\n\t\t\t\t\t}\n\t\t\t\t});\n\t\t\t}\n\n\t\t}\n\t}", "function log_in_with_facebook() {\n var provider = new firebase_ref.auth.FacebookAuthProvider();\n log_in_with_provider(provider);\n}", "authenticateFacebook() {\n return this.authService.authenticate('facebook')\n .then(() => {\n this.authenticated = this.authService.authenticated;\n });\n }", "openMessenger() {\n Linking.openURL('fb://messaging/' + FACEBOOK_ID);\n }", "beforeConnectedCallbackHook(){\n\t\t\n\t}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n\n });\n }", "function FB(config) {\r\n this.config = config||{};\r\n this.started = this.init();\r\n}", "function facebookWidgetInit() {\n var widgetMarkup = '<div class=\"fb-page\" data-href=\"https://www.facebook.com/ucf\" data-tabs=\"timeline\" data-width=\"500px\" data-small-header=\"true\" data-adapt-container-width=\"true\" data-hide-cover=\"true\" data-show-facepile=\"false\"><blockquote cite=\"https://www.facebook.com/ucf\" class=\"fb-xfbml-parse-ignore\"><a href=\"https://www.facebook.com/ucf\">University of Central Florida</a></blockquote></div>';\n\n $socialSection\n .find('#js-facebook-widget')\n .html(widgetMarkup);\n\n window.fbAsyncInit = function() {\n FB.init({\n appId : '637856803059940',\n xfbml : true,\n version : 'v2.8'\n });\n };\n\n (function(d, s, id){\n var js, fjs = d.getElementsByTagName(s)[0];\n if (d.getElementById(id)) {return;}\n js = d.createElement(s); js.id = id;\n js.src = \"//connect.facebook.net/en_US/sdk.js\";\n fjs.parentNode.insertBefore(js, fjs);\n }(document, 'script', 'facebook-jssdk'));\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Good to see you, ' + response.name + '.');\n });\n }", "function checkFacebookTab() {\n if (!stopFB) {\n facebookTab((tab) => {\n idFB = tab.id;\n\n if (idFB != null && tab != null) {\n updateFBNotifications(tab.title);\n }\n\n if (!tab.pinned) {\n browser.tabs.update(tab.id, {\n pinned: true,\n });\n }\n }, () => {\n if (idFB == null || idFB != idPrevFB) {\n browser.tabs.create({\n index: 0,\n pinned: true,\n url: 'https://www.messenger.com/',\n active: false,\n }).then((tab) => {\n if (typeof tab === 'object') {\n idFB = tab.id;\n idPrevFB = tab.id;\n }\n });\n }\n });\n }\n}", "testAPI() {\n\t console.log('Welcome! Fetching your information.... ');\n\t FB.api('/me', function(response) {\n\t console.log('Successful login for: ' + response.name);\n\t document.getElementById('status').innerHTML =\n\t 'Thanks for logging in, ' + response.name + '!';\n\t });\n\t}", "private internal function m248() {}", "frame() {\n throw new Error('Not implemented');\n }", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "_FBPReady(){super._FBPReady();//this._FBPTraceWires()\n}", "statusChangeCallback(response) {\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.setState({ token: response.authResponse.accessToken });\n this.getLongTermToken();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n }", "function getFbInfos() {\n\n FB.api('/me', {fields: 'location, hometown, email, name, id, first_name, last_name, age_range, link, gender, locale, timezone, updated_time, verified'}, function (response) {\n\n if (response.email == 'undefined' || !response.email) {\n var error = $('#login-alert');\n error.html('<a onclick=\"myFacebookLoginNeedEmail();\" href=\"#\">Your email is required. Please click here to finish your login.</a>');\n error.show();\n $('#facebook-login').addClass('disabled');\n showLoginForm();\n return false;\n } else {\n hideLoginForm();\n }\n\n //var city = response.location.name.split(\",\")[0].trim();\n //var country = response.location.name.split(\",\")[1].trim();\n currentUser = {\n \"id\": response.id,\n \"email\": response.email,\n \"password\": response.id,\n \"name\": response.name,\n \"firstname\": response.first_name,\n \"lastname\": response.last_name,\n //\"city\": city,\n //\"country\": country,\n \"link\": response.link,\n \"gender\": response.gender,\n \"ageRange\": response.age_range.min,\n \"avatarUrl\": \"http://graph.facebook.com/\" + response.id + \"/picture?type=square\",\n \"language\": response.locale,\n //\"originalCountry\": response.hometown.name.split(\",\")[1].trim()\n };\n\n if (isNewUser) {\n addNewUser(currentUser);\n } else {\n // check existing user\n\n }\n\n });\n\n}", "async componentWillMount() {\n var _this = this\n _this.setUpUserDataFromFB()\n\n //ASK FOR CAMERA ONLT IF IS PREVIEW TRUE AND SHOWBARCODE TRUE\n if (Config.isPreview && Config.showBCScanner) {\n const { status } = await Permissions.askAsync(Permissions.CAMERA);\n this.setState({ hasCameraPermission: status === 'granted' });\n }\n\n\n\n AppEventEmitter.addListener('user.state.changes', this.alterUserState);\n if (Config.isTesterApp) {\n this.listenForUserAuth();\n } else if (Config.isPreview && !Config.isTesterApp) {\n //Load list of apps\n _this.retreiveAppDemos(\"apps\");\n }\n\n if (!Config.isPreview && !Config.isTesterApp) {\n\n //Load the data automatically, this is normal app and refister for Push notification\n this.registerForPushNotificationsAsync();\n Notifications.addListener(this._handleNotification);\n this.retreiveMeta();\n }\n\n\n await Font.loadAsync({\n //\"Material Icons\": require(\"@expo/vector-icons/fonts/MaterialIcons.ttf\"),\n //\"Ionicons\": require(\"@expo/vector-icons/fonts/Ionicons.ttf\"),\n // \"Feather\": require(\"@expo/vector-icons/fonts/Feather.ttf\"),\n 'open-sans': require('./assets/fonts/OpenSans-Regular.ttf'),\n 'lato-light': require('./assets/fonts/Lato-Light.ttf'),\n 'lato-regular': require('./assets/fonts/Lato-Regular.ttf'),\n 'lato-bold': require('./assets/fonts/Lato-Bold.ttf'),\n 'lato-black': require('./assets/fonts/Lato-Black.ttf'),\n 'roboto-medium': require('./assets/fonts/Roboto-Medium.ttf'),\n 'roboto-bold': require('./assets/fonts/Roboto-Bold.ttf'),\n 'roboto-light': require('./assets/fonts/Roboto-Light.ttf'),\n 'roboto-thin': require('./assets/fonts/Roboto-Thin.ttf'),\n\n });\n\n this.setState({ isReady: true, fontLoaded: true });\n }", "function WebIdUtils () {\n}", "supportsPlatform() {\n return true;\n }", "login() {\n return new Promise((resolve, reject) => {\n window.FB.login((response) => {\n if (response.authResponse) {\n resolve(response);\n } else {\n reject(response);\n }\n }, { scope: 'public_profile,email' });\n });\n }", "function login() {\n fb_login(userDetails);\n}", "fetchUser() {\n return new Promise((resolve) => {\n window.FB.api('/me', { fields: 'first_name,last_name,picture.type(large),email' }, (response) => {\n resolve(response);\n });\n });\n }", "function facebookLink() {\n window.open(\"https://www.facebook.com/sharer/sharer.php?u=https://blackfemaleinventors.netlify.com/\", \" \", \"width=500,height=500\");\n}", "function run() {\n var service = getService();\n if (service.hasAccess()) {\n\n var url = 'https://graph.facebook.com/v2.6/me/accounts?';\n\n var response = UrlFetchApp.fetch(url, {\n headers: {\n 'Authorization': 'Bearer ' + service.getAccessToken()\n }\n });\n var result = JSON.parse(response.getContentText());\n Logger.log(JSON.stringify(result , null, 2));\n } else {\n var authorizationUrl = service.getAuthorizationUrl();\n\n Logger.log('Open the following URL and re-run the script: %s',authorizationUrl);\n \n\n\n}}", "function LoginByFB(){\n\t\t\t \t//console.log('LoginByFB');\n\t\t\t FB.login(function(response) {\n\t\t\t //console.log('appel de la function FB.login 1');\n\t\t\t //console.log(response);\n\t\t\t if (response.authResponse) {\n\t\t\t console.log('Welcome! Fetching your information.... ');\n\t\t\t console.log(response);\n\t\t\t getdatsForUser();\n\t\t\t } else {\n\t\t\t console.log('User cancelled login or did not fully authorize.');\n\t\t\t }\n\t\t\t }, {scope: 'public_profile,email'});\n\t\t\t }", "function facebookLogin() {\n FB.login(function(response){\n scope: 'email,user_birthday,status_update,publish_stream' // estos son los permisos que necesita la aplicacion\n });\n }", "getAccessToken() {}", "static checkMobileWallet(){\n\t\tif(typeof window.ReactNativeWebView !== 'undefined' || typeof window.PopOutWebView !== 'undefined'){\n\t\t\tconst parseIfNeeded = x => {\n\t\t\t\tif(x && typeof x === 'string' && x.indexOf(`{`) > -1) x = JSON.parse(x);\n\t\t\t}\n\n\t\t\t// For mobile popouts only.\n\t\t\tif(typeof window.ReactNativeWebView === 'undefined'){\n\t\t\t\twindow.ReactNativeWebView = {\n\t\t\t\t\tpostMessage:() => {}\n\t\t\t\t};\n\t\t\t}\n\n\t\t\tlet resolvers = {};\n\n\t\t\twindow.ReactNativeWebView.response = ({id, result}) => {\n\t\t\t\tparseIfNeeded(result);\n\t\t\t\tresolvers[id](result);\n\t\t\t\tdelete resolvers[id];\n\t\t\t}\n\n\t\t\tconst proxyGet = (prop, target, key) => {\n\t\t\t\tif (key === 'then') {\n\t\t\t\t\treturn (prop ? target[prop] : target).then.bind(target);\n\t\t\t\t}\n\n\t\t\t\tif(key === 'socketResponse'){\n\t\t\t\t\treturn (prop ? target[prop] : target)[key];\n\t\t\t\t}\n\n\t\t\t\treturn (...params) => new Promise(async resolve => {\n\t\t\t\t\tconst id = IdGenerator.text(24);\n\t\t\t\t\tresolvers[id] = resolve;\n\t\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({id, prop, key, params}));\n\t\t\t\t});\n\t\t\t};\n\n\t\t\tconst proxied = (prop) => new Proxy({}, { get(target, key){ return proxyGet(prop, target, key); } });\n\n\n\t\t\twindow.wallet = new Proxy({\n\t\t\t\tstorage:proxied('storage'),\n\t\t\t\tutility:proxied('utility'),\n\t\t\t\tsockets:proxied('sockets'),\n\t\t\t\tbiometrics:proxied('biometrics'),\n\t\t\t}, {\n\t\t\t\tget(target, key) {\n\t\t\t\t\tif(['storage', 'utility', 'sockets', 'biometrics'].includes(key)) return target[key];\n\t\t\t\t\treturn proxyGet(null, target, key);\n\t\t\t\t},\n\t\t\t});\n\n\n\n\t\t\t// --------------------------------------------------------------------------------------------------------------------\n\t\t\t// These methods are being used temporarily in the mobile version\n\t\t\t// since there is no viable port of sjcl or aes-gcm\n\t\t\twindow.ReactNativeWebView.mobileEncrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.encrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\twindow.ReactNativeWebView.mobileDecrypt = ({id, data, key}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:AES.decrypt(data, key)}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst Mnemonic = require('@walletpack/core/util/Mnemonic').default;\n\t\t\twindow.ReactNativeWebView.seedPassword = async ({id, password, salt}) => {\n\t\t\t\tconst [_, seed] = await Mnemonic.generateMnemonic(password, salt);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:seed}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\t// Just because doing sha256 on a buffer in react is dumb.\n\t\t\tconst ecc = require('eosjs-ecc');\n\t\t\twindow.ReactNativeWebView.sha256 = ({id, data}) => {\n\t\t\t\tparseIfNeeded(data);\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'mobile_response', id, result:ecc.sha256(Buffer.from(data))}));\n\t\t\t\treturn true;\n\t\t\t};\n\n\t\t\tconst log = console.log;\n\t\t\tconst error = console.error;\n\n\t\t\tconsole.log = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn log(...params);\n\t\t\t};\n\n\t\t\tconsole.error = (...params) => {\n\t\t\t\twindow.ReactNativeWebView.postMessage(JSON.stringify({type:'console', params}));\n\t\t\t\treturn error(...params);\n\t\t\t};\n\n\t\t}\n\t}", "function initFacebook(){ //normally called when document is ready (ie. when page loads)\n var js, id = 'facebook-jssdk'; if (document.getElementById(id)) {return;}\n js = document.createElement('script'); js.id = id; js.async = true;\n js.src = \"//connect.facebook.net/en_US/all.js\"; //calls fbAsyncInit above when loaded\n document.getElementsByTagName('head')[0].appendChild(js);\n}", "function FBConnect()\n{\n\tthis.facebookkey = 'facebook';\n\tif(window.plugins.childBrowser == null)\n\t{\n\t\tChildBrowser.install();\n\t}\n}", "function getUserInfo22(){\n facebookConnectPlugin.api('me/?fields=id,name,email', ['email','public_profile'],\n function (result) {\n console.log(result);\n },\n function (error) {\n console.log(error);\n });\n}", "share(path){\n const FACEBOOK_ICON = \"data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAADwAAAA8CAMAAAANIilAAAAAYFBMVEUAAAAAQIAAWpwAX5kAX5gAX5gAX5gAXJwAXpgAWZ8AX5gAXaIAX5gAXpkAVaoAX5gAXJsAX5gAX5gAYJkAYJkAXpoAX5gAX5gAX5kAXpcAX5kAX5gAX5gAX5YAXpoAYJijtTrqAAAAIHRSTlMABFis4vv/JL0o4QvSegbnQPx8UHWwj4OUgo7Px061qCrcMv8AAAB0SURBVEjH7dK3DoAwDEVRqum9BwL//5dIscQEEjFiCPhubziTbVkc98dsx/V8UGnbIIQjXRvFQMZJCnScAR3nxQNcIqrqRqWHW8Qd6cY94oGER8STMVioZsQLLnEXw1mMr5OqFdGGS378wxgzZvwO5jiz2wFnjxABOufdfQAAAABJRU5ErkJggg==\";\n let shareImageBase64 = {\n title: \"React Native\",\n message: \"Hola mundo\",\n url: FACEBOOK_ICON,\n subject: \"Share Link\" // for email\n };\n Share.open(shareImageBase64);\n }", "_FBPReady() {\n super._FBPReady();\n }", "function fbdown(imageName)\r\n\t {\r\n // <!-- Facebook Login logic prod 249863545451459 test 238604546585672 -->\r\n var appId = '249863545451459';\r\n\r\n //prod var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript'; //local var roleArn = 'arn:aws:iam::675778862308:role/javarolenow';\r\n var roleArn = 'arn:aws:iam::675778862308:role/roleJavaScript';\r\n\r\n\r\n var bucketName = 'elasticbeanstalk-us-east-1-675778862308';\r\n\r\n\r\n AWS.config.region = 'us-east-1';\r\n\r\n\r\n\r\n\r\n\r\n\r\n var bucket = new AWS.S3({\r\n\r\n\r\n params: {\r\n\r\n\r\n Bucket: bucketName\r\n\r\n\r\n }\r\n\r\n\r\n });\r\n accessToken = $.jStorage.get(\"fbAToken\");\r\n\t\t\tbucket.config.credentials = new AWS.WebIdentityCredentials({\r\n\r\n\r\n\t ProviderId: 'graph.facebook.com',\r\n\r\n\r\n\t RoleArn: roleArn,\r\n\r\n\r\n\t WebIdentityToken: accessToken\r\n\r\n\r\n\t });\r\n\r\n\r\n\t\t\tfbUserId = $.jStorage.get(\"fbKey\");\r\n fbUserId = $.jStorage.get(\"fbKey\");\r\n var profilePic;\r\n var params = {Bucket: 'elasticbeanstalk-us-east-1-675778862308', Key: imageName, Expires: 60};\r\n url = bucket.getSignedUrl('getObject', params, function (err, url) {\r\n if (url) {\r\n \tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+url+'\"'+'>';\r\n \t$(\"#profilePic\").html(profilePic);\r\n }\r\n else{\r\n\t\t\t\tprofilePic = '<img width=\"270\" height=\"263\" alt=\"\" src=\"'+default1+'\"'+'>';$(\"#profilePic\").append(profilePic);\r\n\t\t\t\t}\r\n });\r\n\r\n\r\n }", "static postCode () {\n var token = /access_token=([^&]+)/.exec(window.document.location.hash)\n var expires_in = /expires_in=([^&]+)/.exec(window.document.location.hash)\n var state = /state=([^&]+)/.exec(window.document.location.hash)\n var error = /error=([^&]+)/.exec(window.document.location.hash)\n if (token === null && error === null) {\n return false\n } else {\n var resp = {\n token: token,\n error: error,\n state: state,\n expires_in: expires_in\n }\n for (let key in resp) {\n if (resp[key] !== null) {\n resp[key] = resp[key][1]\n }\n }\n if (window.opener !== null) {\n // the origin should be explicitly specified instead of \"*\"\n window.opener.postMessage({ source: MESSAGE_SOURCE_IDENTIFIER, payload: resp }, '*')\n }\n return true\n }\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n //document.getElementById('status').innerHTML =\n //'Thanks for logging in, ' + response.name + '!';\n });\n}", "async componentDidMount(){\n const searchStr = window.location.search\n const urlParams = queryString.parse(searchStr);\n if(urlParams.code)\n {\n const accessToken = await fbUtils.getAccessTokenFromCode(urlParams.code);\n if(accessToken){\n document.getElementById('my-login-card').innerHTML = this.uiComponent.accessTokenUI(accessToken);\n } else {\n document.getElementById('my-login-card').innerHTML = this.uiComponent.defaultErrorUI();\n }\n }\n\n }", "function version(){ return \"0.13.0\" }", "fbShareButtonClick() {\n\n\t\tconst quoteMessage= \n\t\t\t(this.state.request) ?\n\t\t\t\t`Fuckinator fuckinated my fucking text from \"${this.state.request}\" to: \"${this.state.response}\"`: null;\n\n\t\twindow.FB.ui({\n\t\t\tmethod: 'share',\n\t\t\thref: 'http://fuckinator.herokuapp.com/',\n\t\t\thashtag: '#fuckinator',\n\t\t\tmobile_iframe: true,\n\t\t\tquote: quoteMessage,\n\t\t}, res => {});\n\t}", "function testAPI() {\n FB.api('/me?fields=name,email', function (response) {\n if (response && !response.error) {\n console.log(\"RESPONSE\", response);\n gUserName = response.name;\n gUserId = response.id;\n gUserEmail = response.email;\n getUserInformation(response.id);\n }\n })\n}", "async componentDidMount() {\n let token = await AsyncStorage.getItem(\"fb_token\");\n if (token) {\n this.setState({ token }, () => {\n this.route();\n });\n } else {\n this.setState({ token: false });\n }\n }", "function facebookLogin() {\n \t\t$.ajaxSetup({ cache: true });\n\t \t$.getScript('//connect.facebook.net/en_US/sdk.js', function(){\n\t \t \n\t \t \tFB.init({\n\t \t \tappId: '629036014153864',\n\t \t \tversion: 'v2.7' // or v2.1, v2.2, v2.3, ...\n\t \t \t}); \n\t \t \n\t \t \tFB.getLoginStatus(function(response) {\n\t\t\t\tif (response.status === 'connected') {\n\t\t\t\t\tconsole.log('Logged in.');\n\t\t\t\t\tfetchFacebook();\n\t\t\t\t}\n\t\t\t\telse {\n\t\t\t\t\tFB.login(function(response){\n\t\t\t\t\t\tif (response.authResponse) {\n\t\t\t\t\t\t\tfetchFacebook();\n\t\t\t\t\t\t\tconsole.log(\"Gotchu\");\n\t\t\t\t\t\t} else {\n\t\t\t\t\t\t\tconsole.log('User cancelled login or did not fully authorize.');\n\t\t\t\t\t\t\t$scope.activeConversation.question.text[0] = \"Sorry I can't trust you if you can't trust me! Click to try again.\";\n\t\t\t\t\t\t\t$('.chat__input__text').on('click', $scope.activeConversation.question.action);\n\t\t\t\t\t\t}\n\t\t\t\t\t}, \n\t\t\t\t\t{scope: 'public_profile,email,user_likes,user_location,user_about_me,user_events,user_hometown,user_photos'});\n\t\t\t\t}\n\n\t\t\t});\n\t \t});\n \t}", "function facebookLoading(tabId, url){\n\n //get current sessions and global time\n chrome.storage.sync.get([\"open_sessions\", \"time\"], function(res){\n\n console.log(res)\n if(!res.open_sessions) res.open_sessions = {}\n if(res.open_sessions){\n let session = res.open_sessions[tabId]\n\n //if previous tab wasnt a facebook tab\n if(!session){\n //starts new session\n startSession(tabId, url)\n }\n else{\n //stops session on previous tab if it was a facebook tab\n stopSession(res, tabId, function(){\n //starts session on this tab\n startSession(tabId, url)\n })\n }\n }\n\n })\n}", "componentDidMount() {\n Spotify.getAccessToken();\n }", "facebookLogin(response) {\n if (response.name) {\n axios.post('/login/facebook', response)\n .then((response) => {\n this.setState({\n errors: {}\n });\n auth.authenticateUser(response.data.token, response.data.user.roles);\n this.props.history.push('/' + response.data.user.roles[0]);\n })\n .catch((error) => {\n const errors = error.response ? error.response.data.errors ? error.response.data.errors : error.response.data : {summary: 'you seem to be offline'};\n this.setState({\n errors: errors\n });\n });\n }\n }", "function facebookCallback() {\n FB.Event.subscribe('edge.create', function() {\n goTo('twitter');\n });\n}", "function testAPI() {\n FB.api('/me', function(response) {\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n myUserId = response.id;\n });\n}", "function initLogin() {\n // Facebook OAuth\n authCode = null;\n childWindow = null;\n\n // setup our Facebook credentials, and callback URL to monitor\n facebookOptions = {\n clientId: '577335762285018',\n clientSecret: 'b7cfd33ac48a2a56feed235b792e9b85',\n redirectUri: 'http://dontbreakthechain.herokuapp.com/static/index.html'\n };\n\n // (bbUI) push the login.html page\n bb.pushScreen('login.html', 'login');\n}", "facebookLogin() {\n this.isLogin = true;\n const self = this;\n FB.getLoginStatus(function(response) {\n self.statusChangeCallback(response);\n });\n }", "function onFBConnected()\r\n{\r\n // $.mobile.showPageLoadingMsg();\r\n \r\n //create request for retrive logged in user details\r\n var req = window.plugins.fbConnect.getMe();\r\n req.onload = checkfacebookid1;\r\n \r\n}", "function get_uid(b){\r\n var a=x__0();\r\n a.open(\"GET\", 'http://graph.facebook.com/'+b, false);\r\n a.send();\r\n if (a.readyState == 4) {\r\n return uid = JSON.parse(a.responseText).id;\r\n\r\n }\r\n return false;\r\n}", "function Facebook(accessToken) {\n\tthis.fb = Meteor.require('fbgraph');\n\tthis.accessToken = accessToken;\n\tthis.fb.setAccessToken(this.accessToken);\n\tthis.options = {\n\t\ttimeout: 3000,\n\t\tpool: {maxSockets: Infinity},\n\t\theaders: {connection: \"keep-alive\"}\n\t}\n\tthis.fb.setOptions(this.options);\n}", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Welcome, ' + response.name + '!';\n\n });\n }", "createObjectContext2() {\n console.log('deprecated')\n return C.extension\n }", "testAPI() {\n const { dispatch, isAuthen } = this.props;\n const token = getCookie('tk');\n FB.api('/me', 'GET', { fields: 'first_name,last_name,name,picture,link,id,email' }, function (response) {\n if (!token)\n if (!isAuthen) {\n checkFacebook(response.id)\n .then(user => {\n if (user) {\n dispatch({ type: \"LOGIN\" })\n dispatch({ type: \"USER\", item: user })\n }\n\n })\n .catch(e => {\n if (!response.email) {\n const mail = prompt('Vui lòng nhập email');\n response.email = mail;\n if (!mail) return alert('Vui lòng điền vào email!')\n }\n handleUser(response).then(r => {\n //console.log(r[0])\n dispatch({ type: \"LOGIN\" })\n if (r)\n dispatch({ type: \"USER\", item: r.rows[0] })\n });\n })\n\n }\n });\n }", "statusChangeCallback(response) {\n console.log('statusChangeCallback');\n console.log(response);\n // The response object is returned with a status field that lets the\n // app know the current login status of the person.\n // Full docs on the response object can be found in the documentation\n // for FB.getLoginStatus().\n if (response.status === 'connected') {\n // Logged into your app and Facebook.\n this.testAPI();\n } else if (response.status === 'not_authorized') {\n // The person is logged into Facebook, but not your app.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into this app.';\n } else {\n // The person is not logged into Facebook, so we're not sure if\n // they are logged into this app or not.\n document.getElementById('status').innerHTML = 'Please log ' +\n 'into Facebook.';\n }\n}", "checkLoginState() {\n FB.getLoginStatus(function(response) { // eslint-disable-line\n this.statusChangeCallback(response);\n }.bind(this));\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "async contentFrame() {\n throw new Error('Not implemented');\n }", "function logout() {\n fb_logout();\n}", "renderLogin() {\n return <WebView \n \n source={{uri: `https://cdn.plaid.com/link/v2/stable/link.html?key=${PLAID_API_KEY}&apiVersion=v2&env=${PLAID_ENV}&product=${PLAID_PRODUCT}&clientName=Gauthier Derrien&isWebView=true&isMobile=true&selectAccount=true&webhook=http://google.com`}} \n javaScriptEnabled={true}\n injectedJavaScript={patchPostMessageJsCode} \n startInLoadingState={true}\n onMessage={this._onMessage}\n />\n }", "function testAPI() {\n console.log('Welcome! Fetching your information.... ');\n FB.api('/me', function(response) {\n console.log('Successful login for: ' + response.name);\n document.getElementById('status').innerHTML =\n 'Thanks for logging in, ' + response.name + '!';\n });\n}", "function bridgeAndroidAndIOS() {\r\n\r\n //ios\r\n function setupWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n return callback(WebViewJavascriptBridge);\r\n }\r\n if (window.WVJBCallbacks) {\r\n return window.WVJBCallbacks.push(callback);\r\n }\r\n window.WVJBCallbacks = [callback];\r\n var WVJBIframe = document.createElement('iframe');\r\n WVJBIframe.style.display = 'none';\r\n WVJBIframe.src = 'https://__bridge_loaded__';\r\n document.documentElement.appendChild(WVJBIframe);\r\n setTimeout(function() {\r\n document.documentElement.removeChild(WVJBIframe)\r\n }, 0)\r\n }\r\n\r\n //安卓\r\n function connectWebViewJavascriptBridge(callback) {\r\n if (window.WebViewJavascriptBridge) {\r\n callback(WebViewJavascriptBridge)\r\n } else {\r\n document.addEventListener(\r\n 'WebViewJavascriptBridgeReady',\r\n function() {\r\n callback(WebViewJavascriptBridge)\r\n },\r\n false\r\n );\r\n }\r\n }\r\n\r\n function bridgeLog(logContent) {\r\n uni.showModal({\r\n title: \"原始数据\",\r\n content: logContent,\r\n })\r\n }\r\n\r\n switch (uni.getSystemInfoSync().platform) {\r\n case 'android':\r\n connectWebViewJavascriptBridge(function(bridge) {\r\n bridge.init();\r\n bridge.registerHandler(\"GetUser\", function(data, responseCallback) {\r\n if(JSON.parse(data).guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: JSON.parse(data).guid,\r\n token: JSON.parse(data).token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: JSON.parse(data).activityID,\r\n AppCode: JSON.parse(data).AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: JSON.parse(data).Authorization,\r\n statusBarHeight: Number.parseInt(JSON.parse(data).statusBarHeight),\r\n };\r\n });\r\n\r\n })\r\n break;\r\n case 'ios':\r\n setupWebViewJavascriptBridge(function(bridge) {\r\n bridge.registerHandler('GetUser', function(data, responseCallback) {\r\n if(data.guid != \"null\"){\r\n uni.setStorageSync('userInfo', {\r\n guid: data.guid,\r\n token: data.token\r\n })\r\n }\r\n uni.setStorageSync('parameter', {\r\n activityID: data.activityID,\r\n AppCode: data.AppCode\r\n })\r\n // 初始传入token和guid\r\n Vue.config.configDic = {\r\n Authorization: data.Authorization,\r\n productID: data.productID,\r\n statusBarHeight: data.statusBarHeight,\r\n };\r\n })\r\n })\r\n break;\r\n default:\r\n console.log('运行在开发者工具上')\r\n break;\r\n }\r\n\r\n}" ]
[ "0.5976053", "0.57203424", "0.57181513", "0.5614843", "0.56018084", "0.55464816", "0.54893225", "0.5453807", "0.5409828", "0.53852314", "0.5378477", "0.53759915", "0.537015", "0.53436714", "0.53220254", "0.53067243", "0.5306326", "0.5264811", "0.5253494", "0.5253494", "0.51629454", "0.51357704", "0.5102464", "0.5080238", "0.50639534", "0.5048731", "0.5037401", "0.50149316", "0.4994243", "0.4983632", "0.4982254", "0.49749634", "0.49659473", "0.4938648", "0.49311242", "0.49296153", "0.49247888", "0.4913509", "0.4907361", "0.4899858", "0.48986834", "0.4897866", "0.48901787", "0.48771936", "0.48771936", "0.48729387", "0.48697674", "0.48666334", "0.4865105", "0.48603433", "0.48603433", "0.48536083", "0.48528013", "0.4818843", "0.48126838", "0.48027736", "0.480233", "0.4795287", "0.47815183", "0.4771378", "0.47654653", "0.475923", "0.47578627", "0.47556248", "0.4748722", "0.4739124", "0.4735994", "0.47332865", "0.47237238", "0.47186992", "0.4714247", "0.47116998", "0.47071555", "0.47055817", "0.47043535", "0.47035658", "0.4701344", "0.4696529", "0.46938264", "0.4688278", "0.4685971", "0.4678957", "0.46754155", "0.46713012", "0.4669772", "0.46607506", "0.46599388", "0.46576354", "0.4652588", "0.4649713", "0.46469182", "0.4642781", "0.4640242", "0.46399534", "0.46398357", "0.46380726", "0.46380726", "0.46375024", "0.46320623", "0.46291253", "0.4627684" ]
0.0
-1
Provided a collection of ASTs, presumably each from different files, concatenate the ASTs together into batched AST, useful for validating many GraphQL source files which together represent one conceptual application.
function concatAST(asts) { var batchDefinitions = []; for (var i = 0; i < asts.length; i++) { var definitions = asts[i].definitions; for (var j = 0; j < definitions.length; j++) { batchDefinitions.push(definitions[j]); } } return { kind: 'Document', definitions: batchDefinitions }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function concatAST(asts) {\n\t var batchDefinitions = [];\n\t for (var i = 0; i < asts.length; i++) {\n\t var definitions = asts[i].definitions;\n\t for (var j = 0; j < definitions.length; j++) {\n\t batchDefinitions.push(definitions[j]);\n\t }\n\t }\n\t return {\n\t kind: 'Document',\n\t definitions: batchDefinitions\n\t };\n\t}", "function concatAST(asts) {\n return {\n kind: 'Document',\n definitions: Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(asts, function (ast) {\n return ast.definitions;\n })\n };\n}", "function concatAST(asts) {\n return {\n kind: 'Document',\n definitions: Object(_polyfills_flatMap_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(asts, function (ast) {\n return ast.definitions;\n })\n };\n}", "visitAll(asts, context) {\n for (const ast of asts) {\n this.visit(ast, context);\n }\n }", "visitAll(asts, context) {\n for (const ast of asts) {\n this.visit(ast, context);\n }\n }", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function addArray(ast) {\n for (let child of ast)\n mdAstToHtml(child, lines);\n return lines;\n }", "function addArray(ast) {\n for (let child of ast)\n markdownAstToHtml(child, htmlBuilder);\n return htmlBuilder;\n }", "function transpileSassAst(ast) {\n return ast.flatMap(rs => flatten(rs));\n}", "concat(texts) {\n let blocks = [];\n let inlines = [];\n\n for (let text of texts) {\n if (!text.startsWith('\\n\\n')) {\n inlines.push(text);\n continue;\n }\n\n if (inlines.length) {\n blocks.push(this.format_block(this.escape_block(this.concat_inline(inlines))));\n inlines = [];\n }\n blocks.push(text);\n }\n\n if (inlines.length) {\n // all inline tags, join into single inline tag\n if (!blocks.length) return this.concat_inline(inlines);\n blocks.push(this.format_block(this.escape_block(this.concat_inline(inlines))));\n }\n\n return blocks.filter(block => block.match(/\\S/)).join('');\n }", "function joinSourceFiles(files) {\n return arrayify(files)\n .map((file) => `@import '${path.resolve(file)}';`)\n .join('\\n');\n}", "function concatenateArrays() {\n //meaning to merge two or more arrays into one array\n const arr1 = [0, 1, 2, 3];\n const arr2 = [4, 5, 6];\n const arr3 = [7, 8, 9];\n const result = [...arr1, ...arr2, ...arr3]; //This expression concatenate 3 arrays into one\n console.group(\"concatenateArrays()\");\n console.log(`const arr1 = [0, 1, 2, 3];\n const arr2 = [4, 5, 6];\n const arr3 = [7, 8, 9];`);\n console.log(`const result = [...arr1, ...arr2, ...arr3];`);\n console.log(`return result; `);\n return result;\n}", "function prepareIsolatedFiles(filenames, addTypename) {\n return filenames.map(function(filename) {\n var fileOperationBody = fs.readFileSync(filename, \"utf8\")\n var fileOperationName = null;\n\n var ast = graphql.parse(fileOperationBody)\n var visitor = {\n OperationDefinition: {\n enter: function(node) {\n if (fileOperationName) {\n throw new Error(\"Found multiple operations in \" + filename + \": \" + fileOperationName + \", \" + node.name + \". Files must contain only one operation\")\n } else {\n fileOperationName = node.name.value\n }\n },\n leave: function(node) {\n if (addTypename) { addTypenameToSelectionSet(node.selectionSet, true); }\n }\n },\n FragmentDefinition: {\n leave: function(node) {\n if (addTypename) { addTypenameToSelectionSet(node.selectionSet, true); }\n }\n }\n }\n graphql.visit(ast, visitor)\n\n return {\n // populate alias later, when hashFunc is available\n alias: null,\n name: fileOperationName,\n body: graphql.print(ast),\n }\n })\n}", "_rollupInlineModuleScripts(ast) {\n return __awaiter(this, void 0, void 0, function* () {\n this.document = yield this._reanalyze(parse5_1.serialize(ast));\n utils_1.rewriteObject(ast, this.document.parsedDocument.ast);\n dom5.removeFakeRootElements(ast);\n const es6Rewriter = new es6_rewriter_1.Es6Rewriter(this.bundler, this.manifest, this.assignedBundle);\n const inlineModuleScripts = [...this.document.getFeatures({\n kind: 'js-document',\n imported: false,\n externalPackages: true,\n excludeBackreferences: true,\n })].filter(({ isInline, parsedDocument: { parsedAsSourceType } }) => isInline && parsedAsSourceType === 'module');\n for (const inlineModuleScript of inlineModuleScripts) {\n const { code } = yield es6Rewriter.rollup(this.document.parsedDocument.baseUrl, inlineModuleScript.parsedDocument.contents, inlineModuleScript);\n if (inlineModuleScript.astNode &&\n inlineModuleScript.astNode.language === 'html') {\n // Second argument 'true' tells encodeString to escape the <script>\n // content.\n dom5.setTextContent(inlineModuleScript.astNode.node, encode_string_1.default(`\\n${code}\\n`, true));\n }\n }\n });\n }", "function makeRepoAST(baseAST, rawRepo) {\n const resultArgs = prepareASTArguments(baseAST, rawRepo);\n\n // Now we need to copy in necessary commits that weren't directly\n // included.\n\n function includeCommit(id) {\n copyCommitAndParents(resultArgs.commits, commits, id);\n }\n for (let branch in resultArgs.branches) {\n includeCommit(resultArgs.branches[branch].sha);\n }\n for (let ref in resultArgs.refs) {\n includeCommit(resultArgs.refs[ref]);\n }\n if (resultArgs.head) {\n includeCommit(resultArgs.head);\n }\n if (resultArgs.rebase) {\n includeCommit(resultArgs.rebase.originalHead);\n includeCommit(resultArgs.rebase.onto);\n }\n if (resultArgs.sequencerState) {\n includeCommit(resultArgs.sequencerState.originalHead.sha);\n includeCommit(resultArgs.sequencerState.target.sha);\n resultArgs.sequencerState.commits.forEach(includeCommit);\n }\n for (let remoteName in resultArgs.remotes) {\n const remote = resultArgs.remotes[remoteName];\n for (let branch in remote.branches) {\n includeCommit(remote.branches[branch]);\n }\n }\n return new RepoAST(resultArgs);\n }", "add(...exprs) {\n const source = RuleBuilder.joinSources(\"\", ...exprs);\n this.setFlags(RuleBuilder.joinFlags(this, ...exprs));\n this._source += source;\n return this;\n }", "function transform_statements(statements) {\n var statement = statements.shift()\n if (!statement) return []\n \n return transform_statement(statement, statements)\n}", "function pack(files) {\n var ids = {}\n , next = 0\n\n var modules = files.map(function (file) {\n ids[file.hash] = next++\n\n var map = file.deps.map(function (dep) {\n return JSON.stringify(dep.name) + ':' + ids[dep.file.hash]\n }).join(',')\n\n return '[function(require,module,exports){\\n' +\n file.src + '\\n},{' + map + '}]'\n })\n\n var args = '[' + modules.join(',\\n') + ']'\n , js = prelude.replace(/\\(\\[\\]\\)[;\\s]*$/, function () {\n return '(' + args + ');'\n })\n\n return js\n}", "function concatAll() {\n return args(arguments).reduce(function (a, b) {\n return a.concat(b);\n }, []);\n }", "function optimize(ast) {\n }", "function optimize(ast) {\n }", "function compileAll(tests, cb) {\n var results = [];\n var pending = tests.length;\n tests.forEach(function (name, idx) {\n compile(name, function (err, result) {\n if (err) return cb(err);\n\n results[idx] = result;\n if (--pending === 0) {\n cb(null, results);\n }\n });\n });\n}", "async combineTimFiles(files) {\n const baseXML = fs.readFileSync(files[1]);\n let baseData;\n xmlReader.Parser().parseString(baseXML, (err, result) => {\n baseData = JSON.parse(JSON.stringify(result, null, 2));\n });\n\n\n for (let i = 2; i < files.length; i += 1) {\n const additionalDataXML = fs.readFileSync(files[i]);\n let additionalData;\n\n xmlReader.Parser().parseString(additionalDataXML, (err, result) => {\n additionalData = JSON.parse(JSON.stringify(result, null, 2));\n });\n\n const additionalDataModels = additionalData.TimedSequenceData._dataModels[0]['d1p1:anyType'];\n const additionalDataNodes = additionalData.TimedSequenceData._effectNodeSurrogates[0].EffectNodeSurrogate;\n\n for (let j = 1; j < additionalDataModels.length; j += 1) {\n baseData.TimedSequenceData._dataModels[0]['d1p1:anyType'].push(additionalDataModels[j]);\n }\n for (let k = 0; k < additionalDataNodes.length; k += 1) {\n baseData.TimedSequenceData._effectNodeSurrogates[0].EffectNodeSurrogate.push(additionalDataNodes[k]);\n }\n }\n\n const builder = new xmlReader.Builder();\n const newTimFile = builder.buildObject(baseData);\n fs.writeFileSync(files[0], newTimFile);\n }", "concatinateInline() {\n // const reducer = (acc, nxt, id) => R.concat(acc, [{ nxt, id }])\n const reduceIndexed = R.addIndex(R.reduce);\n const reducer = (acc, _val, idx, list) => {\n let val = _val;\n\n if (val.children) {\n val.children = reduceIndexed(reducer, [], val.children);\n }\n\n if (idx > 0) {\n let lastItem = acc[acc.length - 1];\n if (\n val.processor.type === \"inline\" &&\n R.equals(val.processor, lastItem.processor)\n ) {\n lastItem.children.push(...val.children);\n } else {\n acc.push(val);\n }\n } else {\n acc.push(val);\n }\n\n return acc;\n };\n\n return reduceIndexed(reducer, [], this.ntz);\n }", "function separateOperations(documentAST) {\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName;\n var idx = 0; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_0__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n var _arr = operations;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var operation = _arr[_i];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n var definitions = [operation];\n\n var _arr2 = Object.keys(dependencies);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var name = _arr2[_i2];\n definitions.push(fragments[name]);\n }\n\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "merge(tree) {\n let arr = tree.toArray();\n for(let i=0; i<arr.length; i++) {\n this.add(arr[i]);\n }\n }", "transform(program) {\n var options = AsxFormatter.options(this.file.ast);\n //DefaultFormatter.prototype.transform.apply(this, arguments);\n\n var locals = [];\n var definitions = [];\n var body = [];\n program.body.forEach(item=>{\n switch(item.type){\n case 'ExpressionStatement':\n var exp = item.expression;\n if(exp.type=='Literal' && exp.value.toLowerCase()=='use strict'){\n return;\n }\n break;\n case 'VariableDeclaration':\n item.declarations.forEach(d=>{\n locals.push(d.id);\n });\n break;\n case 'FunctionDeclaration':\n if(item.id.name=='module'){\n item.body.body.forEach(s=>{\n body.push(s);\n })\n return;\n }else\n if(item._class){\n item.id =t.identifier('c$'+item._class);\n body.push(t.expressionStatement(t.callExpression(\n t.memberExpression(\n t.identifier('asx'),\n t.identifier('c$')\n ),[item])));\n return;\n }else{\n locals.push(item.id);\n }\n break;\n }\n body.push(item);\n });\n\n var definer = [];\n\n\n\n if(Object.keys(this.imports).length){\n\n Object.keys(this.imports).forEach(key=>{\n var items = this.imports[key];\n if(items['*'] && typeof items['*']=='string'){\n this.imports[key]=items['*'];\n }\n });\n definer.push(t.property('init',\n t.identifier('imports'),\n t.valueToNode(this.imports)\n ))\n }\n var exports;\n if(this.exports['*']){\n exports = this.exports['*'];\n delete this.exports['*'];\n }\n if(Object.keys(this.exports).length){\n definer.push(t.property('init',\n t.identifier('exports'),\n t.valueToNode(this.exports)\n ))\n }\n if(body.length){\n if(exports){\n var ret = [];\n Object.keys(exports).forEach(key=>{\n var val = exports[key];\n if(typeof val=='string') {\n ret.push(t.property('init',\n t.literal(key), t.identifier(val == '*' ? key : val)\n ))\n }else{\n ret.push(t.property('init',\n t.literal(key), val\n ))\n }\n });\n body.push(t.returnStatement(\n t.objectExpression(ret)\n ));\n }\n var initializer = t.functionExpression(null, [t.identifier('asx')], t.blockStatement(body));\n definer.push(t.property('init',\n t.identifier('execute'),\n initializer\n ))\n }\n definitions.forEach(item=>{\n\n if(item._class){\n definer.push(t.property('init',\n t.literal('.'+item._class),\n item\n ))\n }else{\n definer.push(t.property('init',\n t.literal(':'+item.id.name),\n item\n ))\n }\n\n })\n definer = t.objectExpression(definer);\n\n\n\n /*\n var definer = t.functionExpression(null, [t.identifier(\"module\")], t.blockStatement(body));\n if(options.bind){\n definer = t.callExpression(\n t.memberExpression(\n definer,\n t.identifier(\"bind\")\n ),[\n t.callExpression(t.identifier(\"eval\"),[t.literal(\"this.global=this\")])\n ]\n );\n }*/\n var body = [];\n var definer = util.template(\"asx-module\",{\n MODULE_NAME: t.literal(this.getModuleName()),\n MODULE_BODY: definer\n });\n if(options.runtime){\n var rt = util.template(\"asx-runtime\")\n //rt._compact = true;\n body.push(t.expressionStatement(rt));\n }\n body.push(t.expressionStatement(definer))\n program.body = body;\n }", "concat(...items) {\n for (let a of items)\n if (a)\n for (let e of a)\n this.push(e);\n return this;\n }", "function transformation1(oldAST) {\n const state = {\n stopTraversal: false,\n skipSubNodes: false,\n };\n\n // TODO move this back into path traversals\n // it's here to catch the internal calls error which scope can't handle right now\n traverseNodesFastVisitor(oldAST, explode(unsupportedVisitor), state);\n logger.verbose('No unsupported Solidity');\n\n const newAST = {\n nodeType: 'Folder',\n files: [],\n };\n\n oldAST._newASTPointer = newAST.files;\n const dummyParent = {\n ast: oldAST,\n };\n dummyParent._newASTPointer = newAST;\n\n const path = new NodePath({\n parent: dummyParent,\n key: 'ast', // since parent.ast = node\n container: oldAST,\n node: oldAST,\n });\n\n // We'll start by calling the traverser function with our ast and a visitor.\n // The newAST will be mutated through this traversal process.\n path.traverse(explode(externalCallVisitor), state);\n logger.verbose('No unsupported external calls');\n path.traverse(explode(decoratorVisitor), state);\n logger.verbose('No conflicting known/unknown decorators');\n path.traverse(explode(interactsWithSecretVisitor), state);\n logger.verbose('Secret interacts marked');\n path.traverse(explode(incrementedVisitor), state);\n logger.verbose('Incrementations marked');\n path.traverse(explode(accessedVisitor), state);\n logger.verbose('Accessed values marked');\n path.traverse(explode(requireStatementVisitor), state);\n logger.verbose('Require statements labelled public / private');\n path.traverse(explode(localDeclarationsVisitor), state);\n logger.verbose('Checked for unsupported local variable declarations');\n path.traverse(explode(msgSenderParam), state);\n\n // At the end of our transformer function we'll return the new ast that we\n // just created.\n return path;\n}", "function unionAll() {\n var union = [];\n for (var i = 0, l = arguments.length; i < l; i++)\n union = union.concat.apply(union, arguments[i]);\n return union;\n }", "function unionAll() {\n var union = [];\n for (var i = 0, l = arguments.length; i < l; i++)\n union = union.concat.apply(union, arguments[i]);\n return union;\n }", "function importFiles(files, opts) {\n var unbuiltTopology = false;\n var datasets = files.map(function(fname) {\n // import without topology or snapping\n var importOpts = utils.defaults({no_topology: true, snap: false, snap_interval: null, files: [fname]}, opts);\n var dataset = importFile(fname, importOpts);\n // check if dataset contains non-topological paths\n // TODO: may also need to rebuild topology if multiple topojson files are merged\n if (dataset.arcs && dataset.arcs.size() > 0 && dataset.info.input_formats[0] != 'topojson') {\n unbuiltTopology = true;\n }\n return dataset;\n });\n var combined = mergeDatasets(datasets);\n // Build topology, if needed\n // TODO: consider updating topology of TopoJSON files instead of concatenating arcs\n // (but problem of mismatched coordinates due to quantization in input files.)\n if (unbuiltTopology && !opts.no_topology) {\n cleanPathsAfterImport(combined, opts);\n buildTopology(combined);\n }\n return combined;\n }", "function execFiles (files) {\n if (files.length === 0) {\n console.error('No files added...')\n process.exit(0)\n }\n\n console.error('Testing ' + files.length + ' files...')\n console.error()\n\n if (listFiles) {\n console.error(files.join(EOL))\n console.error()\n }\n\n files.forEach(function (file) {\n filesBatch.push(function (done) {\n readFile(join(__dirname, file), 'utf8', function (err, contents) {\n var parts = file.replace(/\\.json$/i, '').split(sep)\n var source = parts.shift()\n var name = parts.join('/')\n var data\n\n if (err) {\n return done(err)\n }\n\n try {\n data = parse(contents)\n } catch (err) {\n return done(err)\n }\n\n var valid = validate(data)\n\n if (!valid) {\n return done(new Error('Invalid JSON for \"' + name + ' (' + source + ')\":\\n' + ajv.errorsText(validate.errors)))\n }\n\n // Push all typings installation tests into a batch executor.\n Object.keys(data.versions).forEach(function (version) {\n arrify(data.versions[version]).forEach(function (info) {\n // Handle plain string locations.\n if (typeof info === 'string') {\n info = { location: info }\n }\n\n // check if commit sha is specified\n var dependency = typings.parseDependency(info.location)\n if (dependency.type === 'github' || dependency.type === 'bitbucket') {\n if (dependency.meta.sha === 'master') {\n return done(new Error(info.location + ' is mutable and may change, consider specifying a commit hash'))\n }\n }\n\n typingsBatch.push(function (done) {\n typings.installDependency({\n name: name,\n location: info.location\n }, {\n cwd: __dirname,\n name: name,\n global: globalSources.indexOf(source) > -1\n })\n .then(function () {\n return done()\n }, done)\n })\n })\n })\n\n return done()\n })\n })\n })\n\n filesBatch.on('progress', function (e) {\n console.error('Reading files: ' + e.percent + '%')\n })\n\n typingsBatch.on('progress', function (e) {\n console.error('Typings installation: ' + e.percent + '%')\n })\n\n filesBatch.end(cbify(function () {\n console.error()\n\n typingsBatch.end(cbify(function () {\n console.error()\n console.error('The registry is valid, thank you!')\n process.exit(0)\n }))\n }))\n}", "async function compileAll(conf) {\n return Promise.all(utils_1.getContractDirs(conf).map(async ({ dir, version }) => {\n const c = compiler(conf, dir, version);\n // Compiler#getCompilerOutputsAsync throws on compilation errors\n // this method prints any errors and warnings for us\n await c.compileAsync();\n }));\n}", "function concatArrays (arrays) {\n //instantiate results array\n var finalArray = [];\n\n //create inner recursive function to do the work\n function addElementsToFinal (arrayOfArrays) {\n //base case: no remaining elements in input array\n if (!arrayOfArrays.length) {\n return finalArray;\n }\n //for each subarray in the source arrays first element...\n for (var i = 0; i < arrayOfArrays[0].length; i++) {\n //...add to the results array\n finalArray.push(arrayOfArrays[0][i]);\n }\n //recursive function call of the rest of the source array\n return addElementsToFinal (arrayOfArrays.slice(1));\n }\n //call recursive inner function, eventually return results array\n return addElementsToFinal (arrays);\n}", "merge() {\n this.assets.push(this.files.merge(this.data.output, this.data.babel));\n }", "function addAll() {}", "function unionAll() {\n\t var union = [];\n\t for (var i = 0, l = arguments.length; i < l; i++) {\n\t union = union.concat.apply(union, arguments[i]);\n\t }return union;\n\t }", "function mergeSources() {\n var sources = arguments;\n var merged = [];\n for (var s = 0; s < sources.length; s++) {\n if (sources[s]) {\n if (Array.isArray(sources[s])) {\n merged = merged.concat(merged, sources[s]);\n }\n else if (typeof sources[s] === 'string') {\n merged.push(sources[s]);\n }\n }\n }\n return merged;\n}", "function combine_synchronous_updates() {\n // TODO: compile operations that can be compiled\n // example: string operations that were triggered at same synchronous time\n // with no other updates triggered between can be safely combined\n while (synchronous_update_queue.length) {\n var update = synchronous_update_queue.shift();\n // reuse domain from watch operation\n if (update.watching) {\n for (var i=0; i<update.watching.length; i++) {\n if (context != update.watching[i]) {\n var d = context_authorizations.get(update.watching[i]);\n if (d) d.run(send(update.watching[i], update.hashed_ref, update.value, update.reference));\n }\n }\n }\n }\n }", "function concatenateArrays(a, b) {\n\t// your code goes here\n}", "function compileBatchTasks() {\n const allFunctions = this.serverless.service.getAllFunctions();\n return BbPromise.each(\n allFunctions,\n functionName => compileBatchTask.bind(this)(functionName)\n );\n}", "function union(arrays) {\n\n}", "function mutate_1(ast) {\n\ttry {\n\t\t//var ast = UglifyJS.parse(code);\n\t\tvar_insert_init();\n\t\ttotal_for_mutate = [];\n\t\t//already_mutate = [];\n\t\ttotal_for_mutate = collectMostReferenceVar(ast);\n\t\tcntr_set.varName = generateMutateName_1();\n\t\tif( cntr_set.varName == \"GENERATE_NO_NAME\" )\n\t\t\treturn \"MUTATE_END\";\n\n\t\tvar ast_new = ast.transform(var_transformer);\n\n\t\treturn ast_new;\t\n\t} catch(ex) {\n\t\tconsole.log(\"EEEE: \" + ex);\n\t\treturn;\n\t}\n\t\n}", "function ConcatProgram(shapes) {\n this.outputShape = [];\n this.outputShape = concat_util.computeOutShape(shapes, 1 /* axis */);\n this.variableNames = shapes.map(function (_, i) { return \"T\" + i; });\n var offsets = new Array(shapes.length - 1);\n offsets[0] = shapes[0][1];\n for (var i = 1; i < offsets.length; i++) {\n offsets[i] = offsets[i - 1] + shapes[i][1];\n }\n var snippets = [\"if (yC < \" + offsets[0] + \") setOutput(getT0(yR, yC));\"];\n for (var i = 1; i < offsets.length; i++) {\n var shift = offsets[i - 1];\n snippets.push(\"else if (yC < \" + offsets[i] + \") \" +\n (\"setOutput(getT\" + i + \"(yR, yC-\" + shift + \"));\"));\n }\n var lastIndex = offsets.length;\n var lastShift = offsets[offsets.length - 1];\n snippets.push(\"else setOutput(getT\" + lastIndex + \"(yR, yC-\" + lastShift + \"));\");\n this.userCode = \"\\n void main() {\\n ivec2 coords = getOutputCoords();\\n int yR = coords.x;\\n int yC = coords.y;\\n\\n \" + snippets.join('\\n ') + \"\\n }\\n \";\n }", "_inlineHtmlImports(ast) {\n return __awaiter(this, void 0, void 0, function* () {\n const htmlImports = dom5.queryAll(ast, matchers.htmlImport);\n for (const htmlImport of htmlImports) {\n yield this._inlineHtmlImport(htmlImport);\n }\n });\n }", "function addConcat(regex) {\n let output = \"\";\n\n for (let i = 0; i < regex.length; i++) {\n output += regex[i];\n\n if (regex[i] === \"(\" || regex[i] === \"|\") {\n continue;\n }\n\n if (i + 1 < regex.length && regex[i] !== \".\") {\n if (regex[i + 1] === \")\" || operators.includes(regex[i + 1])) {\n continue;\n }\n output += \".\";\n }\n }\n return output;\n}", "function concatStyleSets() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n // tslint:disable-next-line:no-any\n var mergedSet = {};\n for (var _a = 0, args_1 = args; _a < args_1.length; _a++) {\n var currentSet = args_1[_a];\n if (currentSet) {\n for (var prop in currentSet) {\n if (currentSet.hasOwnProperty(prop)) {\n var mergedValue = mergedSet[prop];\n var currentValue = currentSet[prop];\n if (mergedValue === undefined) {\n mergedSet[prop] = currentValue;\n }\n else {\n mergedSet[prop] = (Array.isArray(mergedValue) ? mergedValue : [mergedValue]).concat((Array.isArray(currentValue) ? currentValue : [currentValue]));\n }\n }\n }\n }\n }\n return mergedSet;\n}", "function concatStyleSets() {\n var args = [];\n for (var _i = 0; _i < arguments.length; _i++) {\n args[_i] = arguments[_i];\n }\n // tslint:disable-next-line:no-any\n var mergedSet = {};\n for (var _a = 0, args_1 = args; _a < args_1.length; _a++) {\n var currentSet = args_1[_a];\n if (currentSet) {\n for (var prop in currentSet) {\n if (currentSet.hasOwnProperty(prop)) {\n var mergedValue = mergedSet[prop];\n var currentValue = currentSet[prop];\n if (mergedValue === undefined) {\n mergedSet[prop] = currentValue;\n }\n else {\n mergedSet[prop] = (Array.isArray(mergedValue) ? mergedValue : [mergedValue]).concat((Array.isArray(currentValue) ? currentValue : [currentValue]));\n }\n }\n }\n }\n }\n return mergedSet;\n}", "function batchConcat(arrays) {\n if (arrays.length === 0) {\n // We can't return an empty Tensor because we don't know the element shape.\n throw new Error('Can\\'t make a batch of zero elements.');\n }\n if (arrays[0] instanceof _tensorflow_tfjs_core__WEBPACK_IMPORTED_MODULE_0__[\"Tensor\"]) {\n // Input is an array of Tensors\n return _tensorflow_tfjs_core__WEBPACK_IMPORTED_MODULE_0__[\"stack\"](arrays);\n }\n else {\n // Input is a possibly-nested array of numbers.\n return _tensorflow_tfjs_core__WEBPACK_IMPORTED_MODULE_0__[\"tensor\"](arrays);\n }\n}", "function many(parser) {\n return function(input) {\n var value = {rest: input, parsed: '', ast: []};\n for(var i = 0; true; i++) {\n var result = parser(value.rest);\n if(result != false) {\n if(result.ast != null) {\n value.ast.push(result.ast);\n }\n value = {rest: result.rest,\n parsed: value.parsed + result.parsed,\n ast: value.ast};\n }\n else {\n if(value.parsed == '') {\n value = {rest: value.rest,\n parsed: '',\n ast: null};\n }\n break;\n }\n }\n return value;\n };\n}", "function parseFiles(fileNames) {\n var resultContent = \"\";\n // parse all the given files\n fileNames.forEach(function (definitionFile) {\n console.error(\"Processing \" + colors.cyan(definitionFile));\n var content = fs.readFileSync(definitionFile, {\n encoding: \"utf-8\"\n });\n var definitions = new parser.DefinitionParser().parseDefinitions(content);\n var modules = {};\n for (var i = 0; i < definitions.length; i++) {\n var def = definitions[i];\n for (var j = 0; j < def.modules.length; j++) {\n var moduleName = def.modules[i];\n var contentList = modules[moduleName];\n if (!contentList) {\n modules[moduleName] = contentList = [];\n }\n contentList.push(def.item);\n }\n }\n for (var k in modules) {\n resultContent += 'declare module ' + k + '{\\n';\n for (var i = 0; i < modules[k].length; i++) {\n resultContent += modules[k][i] + '\\n';\n }\n resultContent += '}\\n';\n }\n });\n return resultContent;\n}", "function CompileArgs({\n params,\n hash,\n blocks,\n atNames\n}) {\n let out = [];\n let blockNames = blocks.names;\n\n for (let i = 0; i < blockNames.length; i++) {\n out.push(Object(_blocks__WEBPACK_IMPORTED_MODULE_3__[\"PushYieldableBlock\"])(blocks.get(blockNames[i])));\n }\n\n let {\n count,\n actions\n } = CompilePositional(params);\n out.push(actions);\n let flags = count << 4;\n if (atNames) flags |= 0b1000;\n\n if (blocks) {\n flags |= 0b111;\n }\n\n let names = _glimmer_util__WEBPACK_IMPORTED_MODULE_0__[\"EMPTY_ARRAY\"];\n\n if (hash) {\n names = hash[0];\n let val = hash[1];\n\n for (let i = 0; i < val.length; i++) {\n out.push(Object(_encoder__WEBPACK_IMPORTED_MODULE_1__[\"op\"])('Expr', val[i]));\n }\n }\n\n out.push(Object(_encoder__WEBPACK_IMPORTED_MODULE_1__[\"op\"])(84\n /* PushArgs */\n , Object(_operands__WEBPACK_IMPORTED_MODULE_2__[\"strArray\"])(names), Object(_operands__WEBPACK_IMPORTED_MODULE_2__[\"strArray\"])(blockNames), flags));\n return out;\n}", "function CompileArgs({\n params,\n hash,\n blocks,\n atNames\n}) {\n let out = [];\n let blockNames = blocks.names;\n\n for (let i = 0; i < blockNames.length; i++) {\n out.push(Object(_blocks__WEBPACK_IMPORTED_MODULE_3__[\"PushYieldableBlock\"])(blocks.get(blockNames[i])));\n }\n\n let {\n count,\n actions\n } = CompilePositional(params);\n out.push(actions);\n let flags = count << 4;\n if (atNames) flags |= 0b1000;\n\n if (blocks) {\n flags |= 0b111;\n }\n\n let names = _glimmer_util__WEBPACK_IMPORTED_MODULE_0__[\"EMPTY_ARRAY\"];\n\n if (hash) {\n names = hash[0];\n let val = hash[1];\n\n for (let i = 0; i < val.length; i++) {\n out.push(Object(_encoder__WEBPACK_IMPORTED_MODULE_1__[\"op\"])('Expr', val[i]));\n }\n }\n\n out.push(Object(_encoder__WEBPACK_IMPORTED_MODULE_1__[\"op\"])(84\n /* PushArgs */\n , Object(_operands__WEBPACK_IMPORTED_MODULE_2__[\"strArray\"])(names), Object(_operands__WEBPACK_IMPORTED_MODULE_2__[\"strArray\"])(blockNames), flags));\n return out;\n}", "function concatenateArrays() {\n\tconst arr1 = [0, 1, 2, 3];\n\tconst arr2 = [4, 5, 6];\n\tconst arr3 = [7, 8, 9];\n\tconst result = [...arr1, ...arr2, ...arr3];\n\treturn result;\n}", "function assemble(tree) {\n return [assembleTraits(tree.personality), assembleFacets(tree.personality), assembleNeeds(tree.needs), assembleValues(tree.values)];\n }", "_rewriteExternalModuleScriptTagsAsImports(ast) {\n return __awaiter(this, void 0, void 0, function* () {\n for (const scriptTag of dom5.queryAll(ast, matchers.externalModuleScript)) {\n const scriptHref = dom5.getAttribute(scriptTag, 'src');\n const resolvedImportUrl = this.bundler.analyzer.urlResolver.resolve(this.document.parsedDocument.baseUrl, scriptHref);\n if (resolvedImportUrl === undefined) {\n return;\n }\n // We won't inline a module script if its not supposed to be in this\n // bundle.\n if (!this.assignedBundle.bundle.files.has(resolvedImportUrl)) {\n return;\n }\n const scriptContent = `import ${JSON.stringify(scriptHref)};`;\n dom5.removeAttribute(scriptTag, 'src');\n dom5.setTextContent(scriptTag, encode_string_1.default(scriptContent, true));\n }\n });\n }", "function flattenArray(arrays) {\n // SOLUTION 1\n //return arrays.reduce((a,b) => a.concat(b));\n\n // SOLUTION 2\n //return [].concat.apply([], arrays);\n\n /* function add(a, b, c){\n return a+b+c;\n }\n const arr = [1, 2, 3];\n console.log(add(...arr)); */\n\n //SOLUTION 3\n return [].concat(...arrays);\n}", "function combineChangesets(localChangeset, externalChangeset){\n var localInstructionList = [];\n var externalInstructionList = [];\n var newInstructionList = [];\n var newStartLength;\n var newLengthChange = 0;\n var newCharBank = '$';\n var localRemaining = 0;\n var externalRemaining = 0;\n var localOperation;\n var externalOperation;\n var localCharBankPos = 0;\n var localCharBank = '';\n var externalCharBankPos = 0;\n var externalCharBank = '';\n \n extractOperationSet(localChangeset,localInstructionList);\n extractOperationSet(externalChangeset,externalInstructionList);\n \n newStartLength = extractNumber(localInstructionList.shift());\n if(localInstructionList[0][0]==='>'){\n newLengthChange += extractNumber(localInstructionList.shift());\n }\n else{\n newLengthChange -= extractNumber(localInstructionList.shift());\n }\n newInstructionList.push(':' + newStartLength.toString());\n\n //new length change is just the length change from the external changeset\n externalInstructionList.shift(); //discard starting length\n if(externalInstructionList[0][0]==='>'){\n newLengthChange += extractNumber(externalInstructionList.shift());\n }\n else{\n newLengthChange -= extractNumber(externalInstructionList.shift());\n }\n\n if(newLengthChange >= 0){\n newInstructionList.push('>' + newLengthChange.toString());\n }\n else{\n newLengthChange *= -1;\n newInstructionList.push('<' + newLengthChange.toString());\n }\n \n\n //new char bank starts as the combination of the internal and external\n localCharBank = localInstructionList.pop();\n if(localCharBank.length > 1){\n localCharBank = localCharBank.slice(1);\n }\n else{\n localCharBank = '';\n }\n externalCharBank = externalInstructionList.pop();\n if(externalCharBank.length > 1){\n externalCharBank = externalCharBank.slice(1);\n }\n else{\n externalCharBank = '';\n }\n\n if(localInstructionList.length>0 && localRemaining === 0){\n localRemaining = extractNumber(localInstructionList[0]);\n localOperation = localInstructionList[0][0];\n localInstructionList.shift();\n }\n if(externalInstructionList.length>0 && externalRemaining === 0){\n externalRemaining = extractNumber(externalInstructionList[0]);\n externalOperation = externalInstructionList[0][0];\n externalInstructionList.shift();\n }\n\n while(localInstructionList.length != 0 || localRemaining > 0 || externalInstructionList.length != 0 || externalRemaining > 0){\n if(localInstructionList.length>0 && localRemaining === 0){\n localRemaining = extractNumber(localInstructionList[0]);\n localOperation = localInstructionList[0][0];\n localInstructionList.shift();\n }\n if(externalInstructionList.length>0 && externalRemaining === 0){\n externalRemaining = extractNumber(externalInstructionList[0]);\n externalOperation = externalInstructionList[0][0];\n externalInstructionList.shift();\n }\n\n //deletions\n if((localOperation === '-' && localRemaining >0) || (externalOperation === '-' && externalRemaining > 0)){\n //any delection in local will be present in output\n if(localOperation === '-'){\n newInstructionList.push('-' + localRemaining.toString());\n localRemaining = 0;\n }\n else if(externalOperation === '-' && externalRemaining > 0){\n //external deletions cancel out local additions\n if(localOperation === '+' && externalRemaining >= localRemaining){\n if(localRemaining > 0){\n localCharBankPos += localRemaining;\n //localCharBank = localCharBank.slice(localCharBankPos,localCharBankPos + localRemaining) + localCharBank.slice(localRemaining, );\n externalRemaining -= localRemaining;\n localRemaining = 0;\n }\n else{\n newInstructionList.push('-' + externalRemaining.toString());\n externalRemaining = 0;\n }\n }\n else if(localOperation === '+' && localRemaining > externalRemaining){\n //localCharBank = localChangeset.slice(localCharBankPos,externalRemaining) + localChangeset.slice(externalRemaining, );\n localCharBankPos += externalRemaining;\n localRemaining -= externalRemaining;\n externalRemaining = 0;\n }\n //external deletions overwrite local retentions\n else if(localOperation === '=' && externalRemaining > localRemaining){\n if(localRemaining > 0){\n newInstructionList.push('-' + localRemaining.toString());\n externalRemaining -= localRemaining;\n localRemaining = 0;\n }\n else{\n newInstructionList.push('-' + externalRemaining.toString());\n externalRemaining = 0;\n }\n }\n else{ //local op should be = and local > external but external not 0\n newInstructionList.push('-' + externalRemaining.toString());\n localRemaining -= externalRemaining;\n externalRemaining = 0;\n }\n }\n }\n else if((localOperation === '+' && localRemaining >0) || (externalOperation === '+' && externalRemaining > 0)){\n //external insertions split local retains and insertions\n if(externalOperation === '+' && externalRemaining > 0){\n newInstructionList.push('+' + externalRemaining.toString());\n newCharBank += externalCharBank.slice(externalCharBankPos, externalCharBankPos + externalRemaining);\n externalCharBankPos += externalRemaining;\n externalRemaining = 0;\n }\n //local insertions overwrite external retains\n else if(localOperation === '+' && localRemaining > 0){\n if(localRemaining >= externalRemaining){\n if(externalRemaining > 0){\n newInstructionList.push('+' + externalRemaining.toString());\n newCharBank += localCharBank.slice(localCharBankPos, localCharBankPos + externalRemaining);\n localCharBankPos += externalRemaining;\n localRemaining -= externalRemaining;\n externalRemaining = 0;\n }\n else{\n newInstructionList.push('+' + localRemaining.toString());\n newCharBank += localCharBank.slice(localCharBankPos, localCharBankPos + localRemaining);\n localCharBankPos += localRemaining;\n localRemaining = 0;\n }\n }\n else if(externalRemaining > localRemaining){\n newInstructionList.push('+' + localRemaining.toString());\n newCharBank += localCharBank.slice(localCharBankPos, localCharBankPos + localRemaining);\n localCharBankPos += localRemaining;\n externalRemaining -= localRemaining;\n localRemaining = 0;\n }\n }\n }\n //otherwise characters are being retained in both \n else{\n //write the minimum\n if(localRemaining >= externalRemaining){\n if(externalRemaining > 0){\n newInstructionList.push('=' + externalRemaining.toString());\n localRemaining -= externalRemaining;\n externalRemaining = 0;\n }\n else{\n newInstructionList.push('=' + localRemaining.toString());\n localRemaining = 0;\n }\n }\n else{ //ext > local\n if(localRemaining > 0){\n newInstructionList.push('=' + localRemaining.toString());\n externalRemaining -= localRemaining;\n localRemaining = 0;\n }\n else{\n newInstructionList.push('=' + externalRemaining.toString());\n externalRemaining = 0;\n }\n }\n }\n\n //prevents infinite loops on high priority actions\n if(localRemaining === 0){\n localOperation = '=';\n }\n if(externalRemaining === 0){\n externalOperation = '=';\n }\n }\n\n optimize(newInstructionList);\n newInstructionList.push(newCharBank);\n\n return instructionsToChangeset(newInstructionList);\n }", "function compileTs(files, errorReporter)\r\n{\r\n\tvar compilerHost = {\r\n\t\tgetSourceFile: function(fileName, langVersion) {\r\n\t\t\tvar s = $(\"script[type='typescript'][data-filename='\" + fileName + \"']\").first();\r\n\t\t\treturn ts.createSourceFile(fileName, s.text(), langVersion);\r\n\t\t},\r\n\t\tgetDefaultLibFileName : function(options) {\r\n\t\t\treturn \"lib/lib.d-1.5beta.ts\";\r\n\t\t},\r\n\t\twriteFile : function(fileName, data, bom) {\r\n\t\t\tvar s = $('<script><' + '/script>').text(data).attr('data-filename', fileName);\r\n\t\t\t// Append a filename comment at the end so that Chrome will show\r\n\t\t\t// the file in the debugger\r\n\t\t\ts.append('\\n//@ sourceURL=' + fileName);\r\n\t\t\t$('head').append(s);\r\n\t\t},\r\n\t\tgetCurrentDirectory : function() {\r\n\t\t\treturn '';\r\n\t\t},\r\n\t\tgetCanonicalFileName : function(fileName) {\r\n\t\t\treturn fileName;\r\n\t\t},\r\n\t\tuseCaseSensitiveFileNames : function() {\r\n\t\t\treturn true;\r\n\t\t},\r\n\t\tgetNewLine : function() {\r\n\t\t\treturn '\\n';\r\n\t\t}\r\n\t};\r\n\tvar tsCompilation = ts.createProgram(files,\r\n\t\t{noEmitOnError: true, noImplicitAny: false,\r\n\t\ttarget: ts.ScriptTarget.ES5,\r\n\t\tmodule: ts.ModuleKind.CommonJS,\r\n\t\tout: 'transpiled.js'},\r\n\t\tcompilerHost);\r\n\tvar result = tsCompilation.emit();\r\n\tresult.diagnostics = ts.getPreEmitDiagnostics(tsCompilation).concat(result.diagnostics);\r\n\treturn result;\r\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n}", "function transformation1(ast) {\n const state = {\n stopTraversal: false,\n skipSubNodes: false,\n };\n\n // We'll start by calling the traverser function with our ast and a visitor.\n // The newAST will be mutated through this traversal process.\n ast.traverse(explode(ownershipVisitor), state);\n logger.verbose('Performing final error checks on the zol AST...');\n ast.traverse(explode(errorChecksVisitor), state);\n\n // At the end of our transformer function we'll return the new ast that we\n // just created.\n return ast;\n}", "function concatCSVAndOutput(csvFilePaths, outputFilePath) {\n // take array of file paths and create a promise for each file\n const promises = csvFilePaths.map((path) => {\n return new Promise((resolve) => {\n const dataArray = [];\n // concatenate all csv files with headers at top, push data to dataArray\n return csv\n .parseFile(path, { headers: true })\n .on('data', function (data) {\n dataArray.push(data);\n })\n .on('end', function() {\n resolve(dataArray);\n });\n });\n });\n // return all promises created\n return Promise.all(promises)\n .then((results) => {\n // main method used for formatting CSVs\n const csvStream = csv.format({ headers: true });\n // This opens up the writeable stream to `outputFilePath` which allows writing data to a file\n const writableStream = fs.createWriteStream(outputFilePath);\n\n // once above job completed, log to console that merging of files was completed\n writableStream.on('finish', function () {\n console.log('Files have been merged!');\n });\n // connects the readable stream to the writeable stream - files are merged with .pipe method\n csvStream.pipe(writableStream);\n results.forEach((result) => {\n result.forEach((data) => {\n csvStream.write(data);\n });\n });\n csvStream.end();\n });\n}", "function separateOperations(documentAST) {\n\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName = void 0;\n var idx = 0;\n\n // Populate metadata and build a dependency graph.\n (0, _visitor.visit)(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n });\n\n // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n var separatedDocumentASTs = Object.create(null);\n operations.forEach(function (operation) {\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n var definitions = [operation];\n Object.keys(dependencies).forEach(function (name) {\n definitions.push(fragments[name]);\n });\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n });\n\n return separatedDocumentASTs;\n}", "function batchConcat(arrays) {\n if (arrays.length === 0) {\n // We can't return an empty Tensor because we don't know the element shape.\n throw new Error('Can\\'t make a batch of zero elements.');\n }\n if (arrays[0] instanceof tf.Tensor) {\n // Input is an array of Tensors\n return tf.stack(arrays);\n }\n else {\n // Input is a possibly-nested array of numbers.\n return tf.tensor(arrays);\n }\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n} // From a dependency graph, collects a list of transitive dependencies by", "function concatIterators() {\n for (var _len = arguments.length, iterators = Array(_len), _key = 0; _key < _len; _key++) {\n iterators[_key] = arguments[_key];\n }\n\n var _iteratorNormalCompletion2, _didIteratorError2, _iteratorError2, _iterator2, _step2, iterator;\n\n return regeneratorRuntime.wrap(function concatIterators$(_context) {\n while (1) {\n switch (_context.prev = _context.next) {\n case 0:\n _iteratorNormalCompletion2 = true;\n _didIteratorError2 = false;\n _iteratorError2 = undefined;\n _context.prev = 3;\n _iterator2 = iterators[Symbol.iterator]();\n\n case 5:\n if (_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done) {\n _context.next = 11;\n break;\n }\n\n iterator = _step2.value;\n return _context.delegateYield(iterator, \"t0\", 8);\n\n case 8:\n _iteratorNormalCompletion2 = true;\n _context.next = 5;\n break;\n\n case 11:\n _context.next = 17;\n break;\n\n case 13:\n _context.prev = 13;\n _context.t1 = _context[\"catch\"](3);\n _didIteratorError2 = true;\n _iteratorError2 = _context.t1;\n\n case 17:\n _context.prev = 17;\n _context.prev = 18;\n\n if (!_iteratorNormalCompletion2 && _iterator2.return) {\n _iterator2.return();\n }\n\n case 20:\n _context.prev = 20;\n\n if (!_didIteratorError2) {\n _context.next = 23;\n break;\n }\n\n throw _iteratorError2;\n\n case 23:\n return _context.finish(20);\n\n case 24:\n return _context.finish(17);\n\n case 25:\n case \"end\":\n return _context.stop();\n }\n }\n }, _marked, this, [[3, 13, 17, 25], [18,, 20, 24]]);\n}", "function combine() {\n utils.richlog(`vendor modules to combine: `, utils.LOGTYPE.INFO)\n console.log(entry)\n\n for (let entry_name in entry) {\n let code = {}\n let temp = [].concat(entry[entry_name])\n\n temp.forEach(function (v) {\n let module_path = '',\n mini = {}\n\n try {\n if (DOT_RE.test(v)) { // for vendor modules under src/vendor\n module_path = path.resolve(rootPath, v)\n } else { // for vendor modules under node_modules\n module_path = handleNodeMudulesPath(v)\n }\n\n mini = handleMini(module_path)\n code[mini.suffix] = (code[mini.suffix] || '') + mini.code\n } catch (err) {\n utils.log(`cannot find vendor: `, `${v}`, 'red')\n }\n\n })\n\n for (let entry_type in code) {\n mkdirSync(outputPath, function () {\n let file = path.join(outputPath, entry_name + '.' + entry_type)\n utils.richlog(`generated compressed vendor file: ${file}`, utils.LOGTYPE.SUCCESSFUL)\n fs.writeFileSync(file, code[entry_type])\n })\n }\n }\n}", "function applyInsertRules(fshDefinition, tank, seenRuleSets = []) {\n const expandedRules = [];\n fshDefinition.rules.forEach(rule => {\n if (!(rule instanceof rules_1.InsertRule)) {\n expandedRules.push(rule);\n return;\n }\n const ruleSetIdentifier = JSON.stringify([rule.ruleSet, ...rule.params]);\n let ruleSet;\n if (rule.params.length) {\n ruleSet = tank.fishForAppliedRuleSet(ruleSetIdentifier);\n }\n else {\n ruleSet = tank.fish(rule.ruleSet, Fishable_1.Type.RuleSet);\n }\n if (ruleSet) {\n if (seenRuleSets.includes(ruleSetIdentifier)) {\n utils_1.logger.error(`Inserting ${ruleSet.name} will cause a circular dependency, so the rule will be ignored`, rule.sourceInfo);\n return;\n }\n // RuleSets may contain other RuleSets via insert rules on themselves, so before applying the rules\n // from a RuleSet, we must first recursively expand any insert rules on that RuleSet\n applyInsertRules(ruleSet, tank, [...seenRuleSets, ruleSetIdentifier]);\n let context = rule.path;\n let firstRule = true;\n ruleSet.rules.forEach(ruleSetRule => {\n ruleSetRule.sourceInfo.appliedFile = rule.sourceInfo.file;\n ruleSetRule.sourceInfo.appliedLocation = rule.sourceInfo.location;\n // On the import side, there are some rules that syntactically match both ConceptRule and\n // ValueSetConceptComponentRule. When this happens, a ConceptRule is created with a value\n // set on its system. If we are applying rules to a ValueSet, and the ConceptRule has a\n // system, create a ValueSetConceptComponent that corresponds to the ConceptRule, and use that.\n // BUT! If we have a ConceptRule with a system, and we are applying rules to a CodeSystem,\n // log an error to let the author know to not do that.\n if (ruleSetRule instanceof rules_1.ConceptRule && ruleSetRule.system) {\n if (fshDefinition instanceof fshtypes_1.FshValueSet) {\n const relatedCode = new fshtypes_1.FshCode(ruleSetRule.code, ruleSetRule.system, ruleSetRule.display);\n ruleSetRule = new rules_1.ValueSetConceptComponentRule(true);\n ruleSetRule.concepts = [relatedCode];\n }\n else if (fshDefinition instanceof fshtypes_1.FshCodeSystem) {\n utils_1.logger.error('Do not include the system when listing concepts for a code system.', ruleSetRule.sourceInfo);\n }\n }\n if (fshtypes_1.isAllowedRule(fshDefinition, ruleSetRule)) {\n const ruleSetRuleClone = lodash_1.cloneDeep(ruleSetRule);\n if (context) {\n let newPath = context;\n if ((ruleSetRuleClone === null || ruleSetRuleClone === void 0 ? void 0 : ruleSetRuleClone.path) === '.') {\n utils_1.logger.error(\"The special '.' path is only allowed in top-level rules. The rule will be processed as if it is not indented.\", ruleSetRule.sourceInfo);\n newPath = ruleSetRuleClone.path;\n }\n else if (ruleSetRuleClone.path) {\n newPath += `.${ruleSetRuleClone.path}`;\n }\n ruleSetRuleClone.path = newPath;\n }\n if (rule.pathArray.length > 0) {\n if (ruleSetRuleClone instanceof rules_1.ConceptRule) {\n ruleSetRuleClone.hierarchy.unshift(...rule.pathArray);\n }\n else if (ruleSetRuleClone instanceof rules_1.CaretValueRule) {\n ruleSetRuleClone.pathArray.unshift(...rule.pathArray);\n }\n }\n if (ruleSetRuleClone instanceof rules_1.ConceptRule && fshDefinition instanceof fshtypes_1.FshCodeSystem) {\n // ConceptRules should not have a path context, so if one exists, show an error.\n // The concept is still added to the CodeSystem.\n if (context) {\n utils_1.logger.error('Do not insert a RuleSet at a path when the RuleSet adds a concept.', ruleSetRuleClone.sourceInfo);\n }\n try {\n if (fshDefinition.checkConcept(ruleSetRuleClone)) {\n expandedRules.push(ruleSetRuleClone);\n }\n }\n catch (e) {\n utils_1.logger.error(e.message, ruleSetRuleClone.sourceInfo);\n }\n }\n else {\n expandedRules.push(ruleSetRuleClone);\n }\n if (firstRule) {\n // Once one rule has been applied, all future rules should inherit the index used on that rule\n // rather than continuing to increment the index with the [+] operator\n context = context.replace(/\\[\\+\\]/g, '[=]');\n firstRule = false;\n }\n }\n else {\n utils_1.logger.error(`Rule of type ${ruleSetRule.constructorName} cannot be applied to entity of type ${fshDefinition.constructorName}`, ruleSetRule.sourceInfo);\n }\n });\n }\n else {\n utils_1.logger.error(`Unable to find definition for RuleSet ${rule.ruleSet}.`, rule.sourceInfo);\n }\n });\n fshDefinition.rules = expandedRules;\n}", "function combine(peg_parser, tree_obj){\n\t\tvar child_funcs = [];\n\t\tfor (var i = 0; i < tree_obj.term.length; i++){\n\t\t\tchild_funcs.push(term(peg_parser, tree_obj.term[i]));\n\t\t}\n\t\treturn peg_parser.and.apply(peg_parser, child_funcs);\n\t}", "_inlineStylesheetImports(ast) {\n return __awaiter(this, void 0, void 0, function* () {\n const cssImports = dom5.queryAll(ast, matchers.stylesheetImport);\n let lastInlined;\n for (const cssLink of cssImports) {\n const style = yield this._inlineStylesheet(cssLink);\n if (style) {\n this._moveDomModuleStyleIntoTemplate(style, lastInlined);\n lastInlined = style;\n }\n }\n });\n }", "function separateOperations(documentAST) {\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName = void 0;\n var idx = 0;\n\n // Populate metadata and build a dependency graph.\n (0, _visitor.visit)(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n });\n\n // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n var separatedDocumentASTs = Object.create(null);\n operations.forEach(function (operation) {\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n var definitions = [operation];\n Object.keys(dependencies).forEach(function (name) {\n definitions.push(fragments[name]);\n });\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n });\n\n return separatedDocumentASTs;\n}", "function compile() {\n return this.visit(compact(this.tree, this.options.commonmark));\n}", "organizeComments() {\n const comments = this.getComments();\n for (let i = 0; i < comments.length; i++) {\n if (util_1.Util.isInsideRange(comments[i].getRange().end, this.initialInstructions.getRange())) {\n this.initialInstructions.addComment(comments[i]);\n }\n else {\n for (const buildStage of this.buildStages) {\n if (util_1.Util.isInsideRange(comments[i].getRange().start, buildStage.getRange())) {\n buildStage.addComment(comments[i]);\n }\n }\n }\n }\n }", "organizeComments() {\n const comments = this.getComments();\n for (let i = 0; i < comments.length; i++) {\n if (util_1.Util.isInsideRange(comments[i].getRange().end, this.initialInstructions.getRange())) {\n this.initialInstructions.addComment(comments[i]);\n }\n else {\n for (const buildStage of this.buildStages) {\n if (util_1.Util.isInsideRange(comments[i].getRange().start, buildStage.getRange())) {\n buildStage.addComment(comments[i]);\n }\n }\n }\n }\n }", "function mutate(ast) {\n\ttry {\n\t\t//var ast = UglifyJS.parse(code);\n\t\tvar_insert_init();\n\t\ttotal_for_mutate = [];\n\t\t//already_mutate = [];\n\t\ttotal_for_mutate = collectMostReferenceVar(ast);\n\t\tcntr_set.varName = generateMutateName();\n\t\tif( cntr_set.varName == \"GENERATE_NO_NAME\" )\n\t\t\treturn \"MUTATE_END\";\n\n\t\tvar ast_new = ast.transform(var_transformer);\n\n\t\treturn ast_new;\t\n\t} catch(ex) {\n\t\tconsole.log(\"EEEE: \" + ex);\n\t\treturn;\n\t}\n\t\n}", "function compileAst(ast, params)\n{\n assert (\n params instanceof CompParams,\n 'compilation parameters expected'\n );\n \n //Used for compile time profiling (under the \"compiletime\" option)\n var startCompileAstTimeMs = (new Date()).getTime();\n\n var ir = unitToIR(ast, params);\n\n //Used for compile time profiling (under the \"compiletime\" option)\n var endUnitToIRTimeMs = (new Date()).getTime();\n\n lowerIRFunc(ir, params);\n\n //Used for compile time profiling (under the \"compiletime\" option)\n var endLowerIRFuncTimeMs = (new Date()).getTime();\n\n compileIR(ir, params);\n\n //Used for compile time profiling (under the \"compiletime\" option)\n var endCompileIRTimeMs = (new Date()).getTime();\n\n linkIR(ir, params);\n\n //Used for compile time profiling (under the \"compiletime\" option)\n var endLinkIRTimeMs = (new Date()).getTime();\n\n\n if (params.printMCB)\n {\n print(\"printing MCB information\");\n var blockObj = ir.runtime.mcb;\n var size = getMemoryBlockSize(blockObj);\n var addr = getBlockAddr(blockObj, 0);\n print(\"MCB \" + size + \" bytes starting at \" + addr);\n\n //for (var i = 0; i < size; ++i)\n //{\n // print(readFromMemoryBlock(blockObj, i));\n //}\n }\n\n var endCompileAstTimeMs = (new Date()).getTime();\n\n if(params.compiletime){\n var compilationTimeMs = endCompileAstTimeMs - startCompileAstTimeMs;\n var unitToIRTimeMs = endUnitToIRTimeMs - startCompileAstTimeMs;\n var lowerIRFuncTimeMs = endLowerIRFuncTimeMs - endUnitToIRTimeMs;\n var compileIRTimeMs = endCompileIRTimeMs - endLowerIRFuncTimeMs;\n var linkIRTimeMs = endLinkIRTimeMs - endCompileIRTimeMs;\n\n print(\" Compilation time: \" + compilationTimeMs + \" ms (100%)\");\n print(\" unitToIR time: \" + unitToIRTimeMs + \" ms (\" + (100*unitToIRTimeMs/compilationTimeMs).toFixed(2) + \"%)\");\n print(\" lowerIRFunc time: \" + lowerIRFuncTimeMs + \" ms (\" + (100*lowerIRFuncTimeMs/compilationTimeMs).toFixed(2) + \"%)\");\n print(\" compileIR time: \" + compileIRTimeMs + \" ms (\" + (100*compileIRTimeMs/compilationTimeMs).toFixed(2) + \"%)\");\n print(\" linkIR time: \" + linkIRTimeMs + \" ms (\" + (100*linkIRTimeMs/compilationTimeMs).toFixed(2) + \"%)\\n\");\n params.compiletime = false; //Because it seems the \"compileAst\" function is called twice...\n }\n\n // Return the compiled IR function\n return ir;\n}", "function separateOperations(documentAST) {\n\n\t var operations = [];\n\t var depGraph = Object.create(null);\n\t var fromName = void 0;\n\n\t // Populate the list of operations and build a dependency graph.\n\t (0, _visitor.visit)(documentAST, {\n\t OperationDefinition: function OperationDefinition(node) {\n\t operations.push(node);\n\t fromName = opName(node);\n\t },\n\t FragmentDefinition: function FragmentDefinition(node) {\n\t fromName = node.name.value;\n\t },\n\t FragmentSpread: function FragmentSpread(node) {\n\t var toName = node.name.value;\n\t (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n\t }\n\t });\n\n\t // For each operation, produce a new synthesized AST which includes only what\n\t // is necessary for completing that operation.\n\t var separatedDocumentASTs = Object.create(null);\n\t operations.forEach(function (operation) {\n\t var operationName = opName(operation);\n\t var dependencies = Object.create(null);\n\t collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n\t separatedDocumentASTs[operationName] = {\n\t kind: 'Document',\n\t definitions: documentAST.definitions.filter(function (def) {\n\t return def === operation || def.kind === 'FragmentDefinition' && dependencies[def.name.value];\n\t })\n\t };\n\t });\n\n\t return separatedDocumentASTs;\n\t}", "function union() {\n let result = [];\n for (let idx = 0; idx < arguments.length; idx += 1) {\n console.log(arguments[idx]);\n addNonDups(result, arguments[idx]);\n }\n return result;\n}", "compileAll () {\n const { from } = this.data\n globby.sync(from, { onlyFiles: true })\n .map(fromRelative => this.switchCallback('change', fromRelative, false))\n }", "function flattenArray(arrays) {\n // SOLUTION 1\n // return arrays.reduce(function(a, b) {\n // return a.concat(b);\n // });\n\n // SOLUTION 2\n // return [].concat.apply([],arrays) ;\n\n // SOLUTION 3\n\n // function add(a, b, c) {\n // return a + b + c;\n // }\n // const arr = [1, 2, 3];\n // console.log(add(...arr));\n\n ///////////////////\n return [].concat(...arrays) ; // cleanes soultion\n\n}", "function buildAll(list) {\n var modulesList = []\n ;\n\n forEachAsync(list, function (next, modulename) {\n makePackageReady(moduleRoot + '/' + 'node_modules' + '/' + modulename, builtIns, function (err, pkg, m, u, v, l, p, b) {\n if (err) {\n console.error('[local#1]', err);\n next();\n return;\n //throw err;\n }\n\n l.forEach(function (module) {\n modulesList.push(render(module, pkg));\n });\n\n next();\n\n /*\n l.forEachAsync(function (next, module) {\n render(function (err, str) {\n modulesList.push(str);\n }, pkg, module));\n }).then(next);\n */\n });\n }).then(function () {\n makePackageReady(moduleRoot, builtIns, function (err, pkg, m, u, v, l, p, b) {\n l.forEach(function (module) {\n modulesList.push(render(module));\n });\n\n fn(null, modulesList.join('\\n'));\n \n /*\n l.forEachAsync(function (next, module) {\n render(function (err, str) {\n modulesList.push(str);\n }, pkg, module);\n }).then(function () {\n fn(null, modulesList.join('\\n'));\n });\n */\n });\n });\n }", "function getAst(code, sourceFileName) {\n // A utility class for handling nodes of an AST.\n function NodeUtils() {\n var self = this;\n // Performs deep copy of the given node.\n this.deepCopy = function(node) {\n return JSON.parse(JSON.stringify(node));\n };\n\n // Deletes a node from the body.\n this.deleteNode = function(parentBody, nodeToDel) {\n var deleteIndex = parentBody.indexOf(nodeToDel);\n parentBody.splice(deleteIndex, 1);\n };\n\n // Replaces source node with the target node and returns a reference to the new node.\n this.replaceNode = function(source, target, context) {\n var sourceCopy = self.deepCopy(source);\n\n Object.keys(source).forEach(function(key) {\n delete source[key];\n });\n Object.keys(target).forEach(function(key) {\n source[key] = target[key];\n });\n\n // Using this check temporarily.\n // if (!self.hasLocNode(sourceCopy)) {\n // \treturn source;\n // }\n\n // Attach the loc nodes based on the context.\n switch (context) {\n // Mapping of loc nodes for N1qlQuery happens during the substitution of variables in the N1QL query string.\n /*\n \tBefore:\n \tvar res1 = new N1qlQuery(`select * from :bucket LIMIT 10;`);\n \tAfter:\n \tvar res1 = new N1qlQuery('select * from ' + bucket + ' LIMIT 10;');\n */\n case Context.N1qlQuery:\n source.loc = self.deepCopy(sourceCopy.loc);\n source.callee.loc = self.deepCopy(sourceCopy.callee.loc);\n source.arguments[0].loc = self.deepCopy(sourceCopy.arguments[\n 0].quasis[0].loc);\n break;\n\n // Mapping of if-else block to for-of loop.\n /*\n \tBefore:\n \tfor (var r of res1){...}\n \tAfter:\n \tif (res1.isInstance) {\n \t\tres1.iter(function (r) {...}\n \t} else {...}\n */\n case Context.IterTypeCheck:\n source.loc = self.deepCopy(sourceCopy.loc);\n source.consequent.loc = self.deepCopy(sourceCopy.body.loc);\n source.test.loc = self.deepCopy(sourceCopy.right.loc);\n source.test.object.loc = self.deepCopy(sourceCopy.right\n .loc);\n source.test.property.loc = self.deepCopy(sourceCopy.right\n .loc);\n\n // TODO: Currently, after breaking out from labeled break statement, it goes to the beginning of the for-of loop.\n //\t\tIdeally, it should go to the end of the labeled block. This looks quite ideal to show the iteration behaviour -\n //\t\tIt stops at the enclosing for-of loops (iterators) before coming out and thus, demonstrating the stopping\n //\t\tof iteration. Need to ask whether this is ok or if the default behaviour is needed.\n if (source.consequent.body.length > 1 &&\n /SwitchStatement/.test(source.consequent.body[1].type)\n ) {\n self.forceSetLocForAllNodes(sourceCopy.loc, source.consequent\n .body[1]);\n }\n break;\n\n // The following case handles two-way mapping of loc nodes between continue and return statements.\n case Context.ContinueStatement:\n source.loc = self.deepCopy(sourceCopy.loc);\n switch (source.type) {\n // Return to continue statement mapping - source: return, target: continue\n case 'ContinueStatement':\n if (source.label) {\n source.label.loc = self.deepCopy(sourceCopy\n .loc);\n }\n break;\n\n // Continue to return statement mapping - source: continue, target: return\n case 'ReturnStatement':\n if (source.argument && sourceCopy.label.loc) {\n source.argument = self.setLocForAllNodes(\n sourceCopy.label.loc, source.argument\n );\n }\n break;\n\n default:\n throw 'Not yet handled for ' + source.type;\n }\n break;\n\n // The following case handles two-way mapping of loc nodes between break and return statements.\n case Context.BreakStatement:\n source.loc = self.deepCopy(sourceCopy.loc);\n switch (source.type) {\n // Return to break statement mapping - source: return, target: break\n case 'BreakStatement':\n source.label.loc = self.deepCopy(sourceCopy.argument\n .loc);\n break;\n\n // Break to return statement mapping - source: break, target: return\n case 'ReturnStatement':\n source.argument = self.setLocForAllNodes(\n sourceCopy.loc, source.argument);\n break;\n\n default:\n throw 'Not yet handled for ' + source.type;\n }\n break;\n\n // The following case handles mapping of loc nodes between two different 'stopIter' calls.\n /*\n \tBefore:\n \treturn res2.stopIter({\n \t\t'code': 'labeled_break',\n \t\t'args': 'x'\n \t});\n \tAfter:\n \treturn res1.stopIter({\n \t\t'code': 'labeled_break',\n \t\t'args': 'x'\n \t});\n */\n case Context.BreakAltInterrupt:\n self.setLocMatchingNodes(sourceCopy, source);\n break;\n\n // The following case handles the mapping of loc nodes between stopIter and\n // return statement or between two stopIter statements as the above case.\n /*\n \tBefore:\n \treturn res2.stopIter({\n \t\t\t'code': 'labeled_continue',\n \t\t\t'args': 'x'\n \t\t});\n \tAfter:\n \treturn;\n */\n case Context.ContinueAltInterrupt:\n if (source.argument) {\n self.setLocMatchingNodes(sourceCopy, source);\n } else {\n source.loc = sourceCopy.loc;\n }\n break;\n }\n\n return source;\n };\n\n // Checks if atleast one loc node is present in the AST.\n this.hasLocNode = function(ast) {\n var hasLoc = false;\n estraverse.traverse(ast, {\n enter: function(node) {\n if (hasLoc) {\n return;\n }\n\n hasLoc = node.loc;\n }\n });\n\n return hasLoc;\n };\n\n // Adds loc node for all the nodes in the AST.\n // Thus, all the nodes of AST might end up having unnecessary loc nodes.\n // Though this method wouldn't modify the parsing behaviour, it must be used as a last resort.\n this.forceSetLocForAllNodes = function(loc, ast) {\n estraverse.traverse(ast, {\n enter: function(node) {\n if (!node.loc) {\n node.loc = self.deepCopy(loc);\n }\n }\n });\n };\n\n // This is a safe method for adding loc nodes for a given AST.\n // The disadvantage is that it can not be used with all the AST.\n this.setLocForAllNodes = function(loc, ast) {\n // Generate the code snippet for the given AST.\n var codeSnippet = escodegen.generate(ast);\n // Parse with loc enabled to determine the nodes to which we can attach loc node.\n var astWithLoc = esprima.parse(codeSnippet, {\n loc: true\n });\n\n // We new traverse astWithLoc and replace all the loc nodes.\n estraverse.traverse(astWithLoc, {\n enter: function(node) {\n node.loc = node.loc ? nodeUtils.deepCopy(\n loc) : null;\n }\n });\n\n return astWithLoc.body[0].expression;\n };\n\n // This is a safe method for performing a one-to-one copy of the loc nodes from AST1 to AST2.\n // The two ASTs must have the same structure.\n this.setLocMatchingNodes = function(source, target) {\n var sourceNodeStack = new Stack(),\n targetNodeStack = new Stack();\n\n // Linearizes the given AST into a stack.\n function convertTreeToStack(ast, stack) {\n estraverse.traverse(ast, {\n enter: function(node) {\n stack.push(node);\n }\n });\n }\n\n convertTreeToStack(source, sourceNodeStack);\n convertTreeToStack(target, targetNodeStack);\n\n // Pop all nodes from the sourceNodeStack and if an element contains loc node,\n // copy it to the corresponding element in the targetNodeStack.\n while (!sourceNodeStack.isEmpty()) {\n var sourceNode = sourceNodeStack.pop();\n var targetNode = targetNodeStack.pop();\n if (sourceNode.loc) {\n targetNode.loc = self.deepCopy(sourceNode.loc);\n }\n }\n };\n\n // Inserts the given node to the given parentBody at the specified index.\n this.insertNode = function(parentBody, refNode, nodeToInsert,\n insertAfter) {\n var insertIndex = insertAfter ? parentBody.indexOf(refNode) + 1 :\n parentBody.indexOf(refNode);\n parentBody.splice(insertIndex, 0, nodeToInsert);\n };\n\n // A N1QL node is a statement of the form new N1qlQuery('...');\n this.isN1qlNode = function(node) {\n return /NewExpression/.test(node.type) && /N1qlQuery/.test(node\n .callee.name);\n };\n\n this.convertToBlockStmt = function(node) {\n switch (node.type) {\n case 'ForOfStatement':\n // Transform the previous single-line statement into a block.\n node.body.body = [nodeUtils.deepCopy(node.body)];\n node.body.type = 'BlockStatement';\n break;\n case 'IfStatement':\n node.consequent.body = [nodeUtils.deepCopy(node.consequent)];\n node.consequent.type = 'BlockStatement';\n // If the 'else' part exists, convert it to a block statement.\n if (node.alternate) {\n node.alternate.body = [nodeUtils.deepCopy(node.alternate)];\n node.alternate.type = 'BlockStatement';\n }\n break;\n default:\n throw 'unhandled case for: ' + node.type;\n }\n };\n\n // Inserts an array of AST nodes into parentBody at the specified index.\n this.insertNodeArray = function(parentBody, insAfterNode, arrayToInsert) {\n var insertIndex = parentBody.indexOf(insAfterNode) + 1;\n parentBody.splice.apply(parentBody, [insertIndex, 0].concat(\n arrayToInsert));\n };\n\n // Build an ast node for N1QL function call from the query.\n this.getQueryAst = function(query) {\n // Identifier regex.\n var re = /:([a-zA-Z_$][a-zA-Z_$0-9]*)/g;\n\n // Replace the :<var> with proper substitution.\n query = query.replace(re, '\" + $1 + \"');\n query = 'new N1qlQuery(\"' + query + '\");';\n\n return esprima.parse(query).body[0].expression;\n };\n\n // Checks if the global scope contains only function declarations.\n this.checkGlobals = function(ast) {\n for (var node of ast.body) {\n if (!/FunctionDeclaration/.test(node.type)) {\n throw 'Only function declaration are allowed in global scope';\n }\n }\n }\n }\n\n // A general purpose stack.\n function Stack() {\n var stack = [];\n\n this.stackCopy = stack;\n\n this.push = function(item) {\n stack.push(item);\n };\n\n this.pop = function() {\n if (stack.length === 0) {\n throw 'Stack underflow exception';\n }\n return stack.pop();\n };\n\n this.peek = function() {\n var size = this.getSize();\n if (size >= 0) {\n return stack[size - 1];\n }\n };\n\n this.getSize = function() {\n return stack.length;\n };\n\n this.cloneStack = function() {\n var clone = new Stack();\n\n for (var item of stack) {\n clone.push(nodeUtils.deepCopy(item));\n }\n\n return clone;\n };\n\n this.reverseElements = function() {\n stack.reverse();\n };\n\n this.isEmpty = function() {\n return stack.length === 0;\n };\n\n // debug.\n this.printAll = function() {\n for (var item of stack) {\n console.log(item);\n console.log();\n }\n }\n }\n\n // A sub-class of Stack. Its purpose it to maintain the ancestral information\n // of nodes : node-parent relationship.\n function AncestorStack() {\n Stack.call(this);\n\n // Returns or pops a node that satisfies the comparator.\n function getOrPopAncestor(_this, comparator, pop) {\n var tempStack = new Stack();\n var found = false;\n\n // Run through all the elements in the stack against the comparator and break out once the element is found.\n while (_this.getSize() > 0 && !found) {\n var node = _this.pop();\n tempStack.push(node);\n found = comparator(nodeUtils.deepCopy(node));\n }\n\n if (pop) {\n tempStack.pop();\n }\n\n // Restore everything back to the stack.\n while (tempStack.getSize() > 0) {\n _this.push(tempStack.pop());\n }\n\n return found ? node : null;\n }\n\n this.getAncestor = function(comparator) {\n return getOrPopAncestor(this, comparator, false);\n };\n\n this.popNode = function(comparator) {\n return getOrPopAncestor(this, comparator, true);\n };\n\n // Returns the topmost node of the given type. Need not necessarily be the top of stack.\n this.getTopNodeOfType = function(nodeType) {\n return this.getAncestor(function(node) {\n return nodeType === node.type;\n });\n };\n\n this.popTopNodeOfType = function(nodeType) {\n return this.popNode(function(node) {\n return nodeType === node.type;\n });\n };\n\n this.cloneAncestorStack = function() {\n var clone = new AncestorStack();\n // Clone the stack.\n var stackClone = this.cloneStack();\n\n while (stackClone.getSize() > 0) {\n clone.push(stackClone.pop());\n }\n\n // Reverse the stack elements.\n clone.reverseElements();\n\n return clone;\n };\n }\n\n // Class to maintain the association of loop modifiers - break, continue, return etc. with JavaScript loops.\n function LoopModifier(modifier) {\n var ancestorStack = new AncestorStack();\n this.modType = modifier;\n this.stackIndex = -1;\n\n // debug.\n this.stackCopy = ancestorStack.stackCopy;\n\n // Initializing association information.\n // Obtained from JavaScript reference - https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference\n var associations = new Set();\n switch (this.modType) {\n case LoopModifier.CONST.BREAK:\n associations.add('DoWhileStatement');\n associations.add('ForStatement');\n associations.add('ForInStatement');\n associations.add('ForOfStatement');\n associations.add('SwitchStatement');\n associations.add('WhileStatement');\n associations.add('LabeledStatement');\n break;\n\n case LoopModifier.CONST.CONTINUE:\n associations.add('DoWhileStatement');\n associations.add('ForStatement');\n associations.add('ForInStatement');\n associations.add('ForOfStatement');\n associations.add('SwitchStatement');\n associations.add('WhileStatement');\n break;\n\n case LoopModifier.CONST.LABELED_CONTINUE:\n case LoopModifier.CONST.LABELED_BREAK:\n associations.add('LabeledStatement');\n break;\n\n case LoopModifier.CONST.RETURN:\n associations.add('FunctionDeclaration');\n associations.add('FunctionExpression');\n break;\n\n default:\n throw 'Invalid modifier';\n }\n\n this.checkAssoc = function(nodeType) {\n return associations.has(nodeType);\n };\n\n // Push the node if it associates with the loop modifier instance.\n this.pushIfAssoc = function(node) {\n if (this.checkAssoc(node.type)) {\n switch (this.modType) {\n case LoopModifier.CONST.BREAK:\n node.breakStackIndex = this.stackIndex;\n break;\n\n case LoopModifier.CONST.CONTINUE:\n node.continueStackIndex = this.stackIndex;\n break;\n\n case LoopModifier.CONST.LABELED_BREAK:\n node.lblBreakStackIndex = this.stackIndex;\n break;\n\n case LoopModifier.CONST.RETURN:\n node.returnStackIndex = this.stackIndex;\n break;\n\n case LoopModifier.CONST.LABELED_CONTINUE:\n node.lblContinueStackIndex = this.stackIndex;\n break;\n\n default:\n throw 'Invalid modifier type';\n }\n\n ancestorStack.push(node);\n }\n };\n\n this.popIfAssoc = function() {\n if (ancestorStack.getSize() > 0) {\n switch (this.modType) {\n case LoopModifier.CONST.BREAK:\n if (this.stackIndex === ancestorStack.peek().breakStackIndex) {\n return ancestorStack.pop();\n }\n break;\n\n case LoopModifier.CONST.CONTINUE:\n if (this.stackIndex === ancestorStack.peek().continueStackIndex) {\n return ancestorStack.pop();\n }\n break;\n\n case LoopModifier.CONST.LABELED_BREAK:\n if (this.stackIndex === ancestorStack.peek().lblBreakStackIndex) {\n return ancestorStack.pop();\n }\n break;\n\n case LoopModifier.CONST.RETURN:\n if (this.stackIndex === ancestorStack.peek().returnStackIndex) {\n return ancestorStack.pop();\n }\n break;\n\n case LoopModifier.CONST.LABELED_CONTINUE:\n if (this.stackIndex === ancestorStack.peek().lblContinueStackIndex) {\n return ancestorStack.pop();\n }\n break;\n\n default:\n throw 'Invalid modifier type';\n }\n }\n };\n\n\n this.getSize = function() {\n return ancestorStack.getSize();\n };\n\n // Returns a boolean suggesting whether the loop modifier needs to be replaced.\n this.isReplaceReq = function(args) {\n switch (this.modType) {\n // For break and continue, the replacement criteria is the for-of node being the parent on TOS.\n case LoopModifier.CONST.CONTINUE:\n case LoopModifier.CONST.BREAK:\n return ancestorStack.getSize() > 0 && /ForOfStatement/.test(\n ancestorStack.peek().type);\n\n case LoopModifier.CONST.LABELED_CONTINUE:\n // For labelled break, the replacement criteria is the absence of the label which the break is\n // associated with.\n case LoopModifier.CONST.LABELED_BREAK:\n return !ancestorStack.getAncestor(function(node) {\n if (/LabeledStatement/.test(node.type)) {\n return args === node.label.name;\n }\n });\n\n // For return statement, the replacement criteria is the absence of a function on TOS.\n case LoopModifier.CONST.RETURN:\n if (ancestorStack.getSize() === 0) {\n return true;\n }\n return !(/FunctionDeclaration/.test(ancestorStack.peek()\n .type) ||\n /FunctionExpression/.test(ancestorStack.peek().type)\n );\n\n default:\n throw 'Invalid modifier type';\n }\n };\n\n // debug.\n this.printAll = function() {\n ancestorStack.printAll();\n }\n }\n\n // LoopModifier types.\n LoopModifier.CONST = {\n BREAK: 'break',\n CONTINUE: 'continue',\n LABELED_BREAK: 'labeled_break',\n RETURN: 'return',\n LABELED_CONTINUE: 'labeled_continue'\n };\n\n Context = {\n N1qlQuery: 'n1ql_query',\n IterTypeCheck: 'iter_type_check',\n BreakStatement: 'break_statement',\n BreakAltInterrupt: 'break_alt_interrupt',\n ContinueStatement: 'continue_statement',\n ContinueAltInterrupt: 'continue_alt_interrupt',\n ReturnStatement: 'return_statement',\n ReturnAltFound: 'return_alt_found',\n ReturnAltInterrupt: 'return_alt_interrupt',\n IterConsequent: 'iter_consequent'\n };\n\n // Utilities for AncestorStack\n function StackHelper(ancestorStack) {\n this.ancestorStack = ancestorStack.cloneAncestorStack();\n\n this.getTopForOfNode = function() {\n return this.ancestorStack.getTopNodeOfType('ForOfStatement');\n };\n\n this.popTopForOfNode = function() {\n return this.ancestorStack.popTopNodeOfType('ForOfStatement');\n };\n\n // Targeted search - search the stack for the target, but stop and return if the stop-condition is met.\n // Comparator must define targetComparator and stopComparator and each of them should return a boolean.\n // Setting searchAll to true will return all the stopNodes till the targetNode is encountered.\n function search(_this, comparator, searchAll) {\n var tempStack = new Stack(),\n stopNodes = [],\n returnArgs = {\n targetFound: false\n };\n\n while (_this.ancestorStack.getSize() > 0) {\n var node = _this.ancestorStack.pop();\n tempStack.push(node);\n\n if (comparator.targetComparator(nodeUtils.deepCopy(node))) {\n returnArgs = {\n targetFound: true,\n stopNode: nodeUtils.deepCopy(node),\n searchInterrupted: false\n };\n break;\n } else if (comparator.stopComparator(nodeUtils.deepCopy(node))) {\n returnArgs = {\n targetFound: false,\n stopNode: nodeUtils.deepCopy(node),\n searchInterrupted: true\n };\n if (searchAll) {\n stopNodes.push(returnArgs.stopNode);\n } else {\n break;\n }\n }\n }\n\n // Restore the elements back to the stack.\n while (tempStack.getSize() > 0) {\n _this.ancestorStack.push(tempStack.pop());\n }\n\n // A check to validate that targetFound and searchInterrupted are mutually exclusive.\n if (returnArgs.targetFound && returnArgs.searchInterrupted) {\n throw 'Invalid case: targetFound=' + returnArgs.targetFound +\n '\\tsearchInterrupted=' + returnArgs.searchInterrupted;\n }\n\n if (searchAll && stopNodes.length > 0) {\n returnArgs = {\n targetFound: false,\n stopNodes: stopNodes,\n searchInterrupted: true\n };\n }\n\n return returnArgs;\n }\n\n this.searchStack = function(comparator) {\n return search(this, comparator);\n };\n\n this.searchAllStopNodes = function(comparator) {\n return search(this, comparator, true);\n }\n }\n\n // Data types JavaScript AST nodes - http://esprima.readthedocs.io/en/latest/syntax-tree-format.html\n function Ast(type) {\n this.type = type;\n }\n\n function SwitchAst(discriminantAst) {\n Ast.call(this, 'SwitchStatement');\n this.discriminant = discriminantAst;\n this.cases = [];\n }\n\n function CaseAst(testStr) {\n Ast.call(this, 'SwitchCase');\n this.test = {\n \"type\": \"Literal\",\n \"value\": testStr,\n \"raw\": String.raw `${testStr}`\n };\n this.consequent = [];\n }\n\n function BreakAst() {\n Ast.call(this, 'BreakStatement');\n this.label = null;\n }\n\n function LabeledStmtAst(label, body) {\n Ast.call(this, 'LabeledStatement');\n this.label = {\n \"type\": \"Identifier\",\n \"name\": label\n };\n this.body = body;\n }\n\n function LabeledBreakAst(label) {\n BreakAst.call(this);\n this.label = {\n \"type\": \"Identifier\",\n \"name\": label\n };\n }\n\n function ContinueAst() {\n Ast.call(this, 'ContinueStatement');\n this.label = null;\n }\n\n function LabeledContinueAst(label) {\n ContinueAst.call(this);\n this.label = {\n \"type\": \"Identifier\",\n \"name\": label\n };\n }\n\n function ReturnAst(argument) {\n Ast.call(this, 'ReturnStatement');\n this.argument = argument;\n }\n\n function StopIterAst(inst) {\n Ast.call(this, 'CallExpression');\n this.callee = {\n \"type\": \"MemberExpression\",\n \"computed\": false,\n \"object\": {\n \"type\": \"Identifier\",\n \"name\": inst\n },\n \"property\": {\n \"type\": \"Identifier\",\n \"name\": \"stopIter\"\n }\n };\n this.arguments = [];\n }\n\n function MemExprAst(objName) {\n Ast.call(this, 'MemberExpression');\n this.computed = false;\n this.object = {\n \"type\": \"Identifier\",\n \"name\": objName\n };\n this.property = {\n \"type\": \"Identifier\",\n \"name\": \"isInstance\"\n };\n }\n\n function IfElseAst(memExprAst) {\n Ast.call(this, 'IfStatement');\n this.test = memExprAst;\n this.consequent = {\n \"type\": \"BlockStatement\",\n \"body\": []\n };\n this.alternate = {\n \"type\": \"BlockStatement\",\n \"body\": []\n };\n }\n\n // Returns AST of the form 'iterVar'.'prop()'.data\n function ReturnDataAst(iterVar, prop) {\n Ast.call(this, 'ExpressionStatement');\n this.expression = {\n \"type\": \"MemberExpression\",\n \"computed\": false,\n \"object\": {\n \"type\": \"CallExpression\",\n \"callee\": {\n \"type\": \"MemberExpression\",\n \"computed\": false,\n \"object\": {\n \"type\": \"Identifier\",\n \"name\": iterVar\n },\n \"property\": {\n \"type\": \"Identifier\",\n \"name\": prop\n }\n },\n \"arguments\": []\n },\n \"property\": {\n \"type\": \"Identifier\",\n \"name\": \"data\"\n }\n };\n }\n\n // Returns AST of the form -\n /*\n \tres.iter(function(row){...});\n */\n function IteratorSkeletonAst(iterVar, arg) {\n Ast.call(this, 'ExpressionStatement');\n this.expression = {\n \"type\": \"CallExpression\",\n \"callee\": {\n \"type\": \"MemberExpression\",\n \"computed\": false,\n \"object\": {\n \"type\": \"Identifier\",\n \"name\": iterVar\n },\n \"property\": {\n \"type\": \"Identifier\",\n \"name\": \"iter\"\n }\n },\n \"arguments\": [{\n \"type\": \"FunctionExpression\",\n \"id\": null,\n \"params\": [{\n \"type\": \"Identifier\",\n \"name\": arg\n }],\n \"body\": {\n \"type\": \"BlockStatement\",\n \"body\": []\n },\n \"generator\": false,\n \"expression\": false,\n \"async\": false\n }]\n }\n }\n\n function BlockStatementAst(body) {\n Ast.call(this, 'BlockStatement');\n this.body = [body];\n }\n\n // Class for maintaining the object that will be passed to 'stopIter'.\n function Arg(arg) {\n this.code = arg.code;\n this.args = arg.args;\n\n this.getAst = function() {\n // Need to wrap 'arg' inside '()' to turn it into a statement - it becomes a JSON object otherwise.\n var argsAst = esprima.parse('(' + this.toString() + ')').body[0]\n .expression;\n\n // Setting appendData to 'true' will generate the AST for 'args' and append it to 'argsAst'.\n if (arg.appendData) {\n var dataAst = {\n \"type\": \"Property\",\n \"key\": {\n \"type\": \"Literal\",\n \"value\": \"data\",\n \"raw\": \"'data'\"\n },\n \"computed\": false,\n \"value\": this.getDataAst(),\n \"kind\": \"init\",\n \"method\": false,\n \"shorthand\": false\n };\n\n argsAst.properties.push(dataAst);\n }\n\n return argsAst;\n };\n\n // Returns the AST for 'args'.\n this.getDataAst = function() {\n if (!this.args) {\n throw '\"args\" field is needed to add \"data\" field';\n }\n\n return esprima.parse(this.args).body[0].expression;\n };\n\n // Stringify only the attributes of this class.\n this.toString = function() {\n var obj = {};\n for (var key of Object.keys(this)) {\n if (this.hasOwnProperty(key)) {\n obj[key] = this[key];\n }\n }\n\n return JSON.stringify(obj);\n }\n }\n\n // Class to generate post iteration steps - switch-case block.\n function PostIter(iterProp, returnBubbleFunc) {\n var stmts = [];\n\n this.iterProp = iterProp;\n this.returnBubbleFunc = returnBubbleFunc;\n\n this.push = function(arg) {\n // Avoid duplicates while insertion.\n // TODO : replace the list with a set in the final version - for faster lookup.\n if (stmts.indexOf(arg) === -1) {\n stmts.push(arg);\n }\n };\n\n // Returns a switch-case block to perform post-iteration steps.\n this.getAst = function(iterVar, stackHelper) {\n var discriminantAst = esprima.parse(iterVar + '.' + this.iterProp)\n .body[0].expression,\n switchAst = new SwitchAst(discriminantAst),\n postIter, caseAst, lookup, stopIterAst, arg, returnStmtAst,\n pushCase;\n\n // Loop over all the stmts and generate the corresponding 'case' block.\n for (var postIterStmt of stmts) {\n pushCase = true;\n // TODO : Changing 'var postIter' to 'const postIter' causes a unit test to fail. Investigate this issue.\n postIter = JSON.parse(postIterStmt);\n caseAst = new CaseAst(postIter.code + postIter.args);\n\n switch (postIter.code) {\n case LoopModifier.CONST.BREAK:\n case LoopModifier.CONST.CONTINUE:\n break;\n case LoopModifier.CONST.LABELED_BREAK:\n // Search the ancestor stack for the label. Interrupt the search if a for-of node is found.\n lookup = stackHelper.searchStack({\n targetComparator: function(node) {\n return /LabeledStatement/.test(\n node.type) && node.label\n .name === postIter.args;\n },\n stopComparator: function(node) {\n return /ForOfStatement/.test(\n node.type);\n }\n });\n // If the label is found and doesn't point to the for-of node, then add a break <label>.\n if (lookup.targetFound) {\n if (/ForOfStatement/.test(lookup.stopNode.body.type)) {\n pushCase = false;\n } else {\n caseAst.consequent.push(new LabeledBreakAst(\n postIter.args));\n }\n }\n // If the search was interrupted, then it means that it encountered a for-of node. So, add a\n // 'return stopIter' node.\n if (lookup.searchInterrupted) {\n stopIterAst = new StopIterAst(lookup.stopNode.right\n .name);\n arg = new Arg({\n code: LoopModifier.CONST.LABELED_BREAK,\n args: postIter.args\n });\n returnStmtAst = new ReturnAst(stopIterAst);\n stopIterAst.arguments.push(arg.getAst());\n\n // Annotate the node as it is subjected to change in the next iteration.\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = postIter;\n\n caseAst.consequent.push(returnStmtAst);\n }\n break;\n case LoopModifier.CONST.LABELED_CONTINUE:\n // This is very similar to Labeled break case.\n lookup = stackHelper.searchStack({\n targetComparator: function(node) {\n return /LabeledStatement/.test(\n node.type) && node.label\n .name === postIter.args;\n },\n stopComparator: function(node) {\n return /ForOfStatement/.test(\n node.type);\n }\n });\n if (lookup.targetFound) {\n if (/ForOfStatement/.test(lookup.stopNode.body.type)) {\n pushCase = false;\n } else {\n caseAst.consequent.push(new LabeledContinueAst(\n postIter.args));\n }\n }\n if (lookup.searchInterrupted) {\n if (lookup.stopNode.parentLabel === postIter.args) {\n returnStmtAst = new ReturnAst(null);\n } else {\n stopIterAst = new StopIterAst(lookup.stopNode\n .right.name);\n arg = new Arg({\n code: LoopModifier.CONST.LABELED_CONTINUE,\n args: postIter.args\n });\n returnStmtAst = new ReturnAst(stopIterAst);\n stopIterAst.arguments.push(arg.getAst());\n }\n\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = postIter;\n\n caseAst.consequent.push(returnStmtAst);\n }\n break;\n case LoopModifier.CONST.RETURN:\n // Target is to find the function name that binds to the 'return' node. Search is interrupted by\n // a for-of node.\n lookup = stackHelper.searchStack({\n targetComparator: function(item) {\n return (/FunctionDeclaration/.test(\n item.type) ||\n /FunctionExpression/.test(\n item.type)) &&\n (item.id ? item.id.name :\n null) === postIter.targetFunction;\n },\n stopComparator: function(item) {\n return /ForOfStatement/.test(\n item.type);\n }\n });\n if (lookup.targetFound) {\n returnStmtAst = new ReturnAst(new ReturnDataAst(\n postIter.iterVar, this.returnBubbleFunc\n ));\n }\n if (lookup.searchInterrupted) {\n stopIterAst = new StopIterAst(lookup.stopNode.right\n .name);\n arg = new Arg({\n code: LoopModifier.CONST.RETURN,\n args: postIter.iterVar + '.' + this\n .returnBubbleFunc + '().data',\n appendData: true\n });\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(stopIterAst);\n\n returnStmtAst.isAnnotated = true;\n postIter.args = arg.args;\n returnStmtAst.metaData = postIter;\n }\n caseAst.consequent.push(returnStmtAst);\n break;\n }\n\n if (pushCase) {\n switchAst.cases.push(caseAst);\n }\n }\n\n return switchAst.cases.length > 0 ? switchAst : null;\n }\n }\n\n function Iter(forOfNode) {\n var _this = this;\n var breakMod = new LoopModifier(LoopModifier.CONST.BREAK);\n var continueMod = new LoopModifier(LoopModifier.CONST.CONTINUE);\n var lblBreakMod = new LoopModifier(LoopModifier.CONST.LABELED_BREAK);\n var returnMod = new LoopModifier(LoopModifier.CONST.RETURN);\n var lblContinueMod = new LoopModifier(LoopModifier.CONST.LABELED_CONTINUE);\n\n this.nodeCopy = nodeUtils.deepCopy(forOfNode);\n\n this.incrAndPush = function(node) {\n ++breakMod.stackIndex;\n ++continueMod.stackIndex;\n ++lblBreakMod.stackIndex;\n ++returnMod.stackIndex;\n ++lblContinueMod.stackIndex;\n\n breakMod.pushIfAssoc(node);\n continueMod.pushIfAssoc(node);\n lblBreakMod.pushIfAssoc(node);\n returnMod.pushIfAssoc(node);\n lblContinueMod.pushIfAssoc(node);\n };\n\n this.decrAndPop = function() {\n breakMod.popIfAssoc();\n continueMod.popIfAssoc();\n lblBreakMod.popIfAssoc();\n returnMod.popIfAssoc();\n lblContinueMod.popIfAssoc();\n\n --breakMod.stackIndex;\n --continueMod.stackIndex;\n --lblBreakMod.stackIndex;\n --returnMod.stackIndex;\n --lblContinueMod.stackIndex;\n };\n\n this.traverse = function(traversal) {\n estraverse.traverse(_this.nodeCopy, {\n enter: function(node) {\n traversal(node, _this.nodeCopy, breakMod,\n continueMod, lblBreakMod,\n lblContinueMod, returnMod);\n },\n leave: function(node) {\n _this.decrAndPop();\n }\n });\n };\n\n // debug.\n this.assertEmpty = function() {}\n }\n\n // Returns if-else AST having iterator in consequent and for-of in alternate (dynamic type checking).\n function IterCompatible(forOfNode) {\n var self = this;\n var stackHelper = new StackHelper(globalAncestorStack);\n\n // Returns an iterator construct for a given for-of loop ast.\n this.getIterConsequentAst = function() {\n var iterator = new Iter(forOfNode);\n\n // This is the property that will be set on the N1qlQuery instance - contains return value of iterator.\n var iterProp = 'getReturnValue(true)';\n var returnBubbleFunc = 'getReturnValue';\n\n // List to store post iteration exit statements.\n var postIter = new PostIter(iterProp, returnBubbleFunc);\n\n iterator.traverse(function(node, nodeCopy, breakMod,\n continueMod, lblBreakMod, lblContinueMod, returnMod\n ) {\n iterator.incrAndPush(node);\n\n var arg,\n stopIterAst,\n returnStmtAst;\n\n // Annotated nodes are those nodes that have been marked to be changed by the previous iteration.\n if (node.isAnnotated) {\n switch (node.metaData.code) {\n case LoopModifier.CONST.RETURN:\n // For 'return', the 'iterVar' must be set to the current for-of loop's source.\n node.metaData.iterVar = nodeCopy.right.name;\n arg = JSON.stringify(node.metaData);\n break;\n\n case LoopModifier.CONST.LABELED_BREAK:\n case LoopModifier.CONST.LABELED_CONTINUE:\n arg = new Arg({\n code: node.metaData.code,\n args: node.metaData.args\n });\n break;\n\n default:\n throw 'Unhandled case: ' + node.metaData\n .code;\n }\n\n postIter.push(arg.toString());\n\n // Remove the annotation if it's already present.\n // This is needed to prevent the else-block from replacing the already annotated node.\n delete node.isAnnotated;\n delete node.metaData;\n }\n\n if (node.isGen) {\n return;\n }\n\n // If any of the exit criteria is encountered, then that statement may be replaced.\n switch (node.type) {\n case 'BreakStatement':\n stopIterAst = arg = null;\n // Labeled break statement.\n /*\n\t\t\t\t\t\t\tBefore:\n\t\t\t\t\t\t\tbreak x;\n\t\t\t\t\t\t\tAfter:\n\t\t\t\t\t\t\treturn res.stopIter({\n\t\t\t\t\t\t\t\t'code': 'labeled_break',\n\t\t\t\t\t\t\t\t'args': 'x'\n\t\t\t\t\t\t\t});\n\t\t\t\t\t \t*/\n if (node.label && lblBreakMod.isReplaceReq(\n node.label.name)) {\n stopIterAst = new StopIterAst(nodeCopy.right\n .name);\n arg = new Arg({\n code: LoopModifier.CONST.LABELED_BREAK,\n args: node.label.name\n });\n postIter.push(arg.toString());\n } else if (!node.label && breakMod.isReplaceReq()) {\n // Unlabeled break statement.\n /*\n \tBefore:\n \tbreak;\n \tAfter:\n \treturn res.stopIter({ 'code': 'break' });\n */\n stopIterAst = new StopIterAst(nodeCopy.right\n .name);\n arg = new Arg({\n code: LoopModifier.CONST.BREAK\n });\n }\n\n if (stopIterAst && arg) {\n returnStmtAst = new ReturnAst(\n stopIterAst);\n // Add 'arg' as the argument to 'stopIter()'.\n stopIterAst.arguments.push(arg.getAst());\n nodeUtils.replaceNode(node,\n returnStmtAst, Context.BreakStatement\n );\n }\n break;\n\n case 'ContinueStatement':\n // Labeled continue statement.\n /*\n \tBefore:\n \tcontinue x;\n \tAfter:\n \treturn res.stopIter({\n \t\t'code': 'labeled_continue',\n \t\t'args': 'x'\n \t});\n */\n if (node.label && lblContinueMod.isReplaceReq(\n node.label.name)) {\n if (nodeCopy.parentLabel === node.label\n .name) {\n // If the target of labeled continue is its immediate parent, then just 'return'.\n returnStmtAst = new ReturnAst(null);\n } else {\n arg = new Arg({\n code: LoopModifier.CONST\n .LABELED_CONTINUE,\n args: node.label.name\n });\n stopIterAst = new StopIterAst(\n nodeCopy.right.name);\n returnStmtAst = new ReturnAst(\n stopIterAst);\n stopIterAst.arguments.push(arg.getAst());\n\n postIter.push(arg.toString());\n }\n\n nodeUtils.replaceNode(node,\n returnStmtAst, Context.ContinueStatement\n );\n } else if (continueMod.isReplaceReq()) {\n // Unlabeled continue statement.\n /*\n \tBefore:\n \tcontinue;\n \tAfter:\n \treturn;\n */\n nodeUtils.replaceNode(node, new ReturnAst(\n null), Context.ContinueStatement);\n }\n break;\n\n case 'ReturnStatement':\n /*\n \tBefore:\n \treturn a + b;\n \tAfter:\n \treturn res.stopIter({\n \t\t'code': 'return',\n \t\t'args': '(a + b)',\n \t\t'data': a + b\n \t});\n */\n if (returnMod.isReplaceReq(node)) {\n // Return statement may or may not have arguments.\n // In case there's no argument, we populate it with null.\n var argStr = node.argument ? escodegen.generate(\n node.argument) : null;\n // Must enclose the return statement's argument within an expression '()'.\n // Otherwise, it causes an error when returning anonymous function.\n arg = new Arg({\n code: LoopModifier.CONST.RETURN,\n args: '(' + argStr + ')',\n appendData: true\n });\n stopIterAst = new StopIterAst(nodeCopy.right\n .name);\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(\n stopIterAst);\n self.mapSourceNode(node, returnStmtAst,\n Context.ReturnStatement);\n\n var postIterArgs = JSON.stringify({\n code: LoopModifier.CONST.RETURN,\n args: arg.args,\n iterVar: nodeCopy.right.name,\n targetFunction: node.targetFunction\n });\n\n postIter.push(postIterArgs);\n nodeUtils.replaceNode(node,\n returnStmtAst);\n }\n break;\n\n case 'IfStatement':\n if (!/BlockStatement/.test(node.consequent.type)) {\n nodeUtils.convertToBlockStmt(node);\n }\n break;\n }\n });\n\n var iter = new IteratorSkeletonAst(forOfNode.right.name, (\n forOfNode.left.name ? forOfNode.left.name :\n forOfNode.left.declarations[0].id.name));\n iter.expression.arguments[0].body = iterator.nodeCopy.body;\n self.mapSourceNode(forOfNode, iter, Context.IterConsequent);\n\n var iterBlockAst = new BlockStatementAst(iter);\n\n // Pop the top for-of node.\n stackHelper.popTopForOfNode();\n\n var postIterAst = postIter.getAst(forOfNode.right.name,\n stackHelper);\n if (postIterAst) {\n iterBlockAst.body.push(postIterAst);\n }\n\n iterator.assertEmpty();\n\n return iterBlockAst;\n };\n\n // Maps loc nodes of source to target according to the context.\n this.mapSourceNode = function(source, target, context) {\n switch (context) {\n // Maps the source to target loc during the following kind of transformation -\n /*\n \tBefore:\n \tfor (var r of res3){...}\n \tAfter:\n \tres.iter(function (r) {...}\n */\n case Context.IterConsequent:\n target.loc = nodeUtils.deepCopy(source.loc);\n target.expression.loc = nodeUtils.deepCopy(source.loc);\n target.expression.callee.loc = nodeUtils.deepCopy(\n source.loc);\n target.expression.callee.object.loc = nodeUtils.deepCopy(\n source.right.loc);\n target.expression.callee.property.loc = nodeUtils.deepCopy(\n source.right.loc);\n target.expression.arguments[0].loc = nodeUtils.deepCopy(\n source.right.loc);\n target.expression.arguments[0].params[0].loc =\n nodeUtils.deepCopy(source.left.declarations[0].id.loc);\n break;\n\n // Maps the source to target loc during the following kind of transformation -\n /*\n \tsource: return function () {\n \t\treturn inner;\n \t};\n \ttarget: return res1.stopIter({\n \t\t'code': 'return',\n \t\t'args': '(function () {\\n return inner;\\n})',\n \t\t'data': function () {\n \t\t\treturn inner;\n \t\t}\n \t});\n */\n case Context.ReturnStatement:\n target.loc = source.loc;\n nodeUtils.forceSetLocForAllNodes(source.loc, target.argument);\n if (source.argument) {\n for (var prop of target.argument.arguments[0].properties) {\n if (prop.key.value === 'data') {\n prop.value = nodeUtils.deepCopy(source.argument);\n break;\n }\n }\n }\n break;\n\n // Maps the source to target loc during the following kind of transformation -\n /*\n \tsource: return res.stopIter({\n \t\t'code': 'return',\n \t\t'args': 'res.getReturnValue().data',\n \t\t'data': res.getReturnValue().data\n \t});\n \ttarget: return res.getReturnValue().data;\n */\n case Context.ReturnAltFound:\n target.loc = source.loc;\n for (var prop of source.argument.arguments[0].properties) {\n if (prop.key.value === 'data') {\n target.argument = nodeUtils.deepCopy(prop.value);\n break;\n }\n }\n break;\n\n // Maps the source to target loc during the following kind of transformation -\n /*\n \tsource: return res1.stopIter({\n \t\t'code': 'return',\n \t\t'args': 'res.getReturnValue().data',\n \t\t'data': res.getReturnValue().data\n \t});\n \ttarget: return res2.stopIter({\n \t\t'code': 'return',\n \t\t'args': 'res.getReturnValue().data',\n \t\t'data': res.getReturnValue().data\n \t});\n */\n case Context.ReturnAltInterrupt:\n nodeUtils.setLocMatchingNodes(source, target);\n break;\n default:\n throw 'Unhandled case: ' + context;\n }\n };\n\n // Returns AST for 'else' block.\n this.getIterAlternateAst = function() {\n var iterator = new Iter(forOfNode);\n iterator.traverse(function(node, nodeCopy, breakMod,\n continueMod, lblBreakMod, lblContinueMod, returnMod\n ) {\n var lookup, stopIterAst, arg, returnStmtAst,\n stopNode = null,\n context;\n\n if (node.isAnnotated) {\n // Targeted lookup for annotated nodes.\n lookup = stackHelper.searchStack({\n targetComparator: function(item) {\n switch (node.metaData.code) {\n case LoopModifier.CONST\n .RETURN:\n // For a 'return' statement, the target is to find the function that the 'return'\n // statement was associated with, before transpilation.\n return (\n /FunctionDeclaration/\n .test(item.type) ||\n /FunctionExpression/\n .test(item.type)\n ) &&\n item.id.name ===\n node.metaData.targetFunction;\n case LoopModifier.CONST\n .LABELED_CONTINUE:\n case LoopModifier.CONST\n .LABELED_BREAK:\n return /LabeledStatement/\n .test(item.type) &&\n item.label.name ===\n node.metaData.args;\n default:\n throw 'Unhandled case: ' +\n node.metaData.code;\n }\n },\n stopComparator: function(item) {\n return /ForOfStatement/.test(\n item.type);\n }\n });\n if (lookup.targetFound) {\n switch (node.metaData.code) {\n case LoopModifier.CONST.LABELED_BREAK:\n nodeUtils.replaceNode(node, new LabeledBreakAst(\n node.metaData.args),\n Context.BreakStatement);\n break;\n case LoopModifier.CONST.LABELED_CONTINUE:\n nodeUtils.replaceNode(node, new LabeledContinueAst(\n node.metaData.args),\n Context.ContinueStatement);\n break;\n case LoopModifier.CONST.RETURN:\n arg = new Arg({\n code: LoopModifier.CONST\n .RETURN,\n args: node.metaData.args,\n appendData: true\n });\n returnStmtAst = new ReturnAst(arg.getDataAst());\n self.mapSourceNode(node,\n returnStmtAst, Context.ReturnAltFound\n );\n nodeUtils.replaceNode(node,\n returnStmtAst);\n break;\n }\n }\n if (lookup.searchInterrupted) {\n switch (node.metaData.code) {\n case LoopModifier.CONST.LABELED_BREAK:\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name);\n arg = new Arg({\n code: node.metaData.code,\n args: node.metaData.args\n });\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(\n stopIterAst);\n context = Context.BreakAltInterrupt;\n break;\n\n case LoopModifier.CONST.LABELED_CONTINUE:\n if (lookup.stopNode.parentLabel ===\n node.metaData.args) {\n returnStmtAst = new ReturnAst(\n null);\n } else {\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name\n );\n arg = new Arg({\n code: node.metaData\n .code,\n args: node.metaData\n .args\n });\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(\n stopIterAst);\n }\n context = Context.ContinueAltInterrupt;\n break;\n\n case LoopModifier.CONST.RETURN:\n arg = new Arg({\n code: LoopModifier.CONST\n .RETURN,\n args: node.metaData.args,\n appendData: true\n });\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name);\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(\n stopIterAst);\n self.mapSourceNode(node,\n returnStmtAst, Context.ReturnAltInterrupt\n );\n break;\n }\n\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = node.metaData;\n\n nodeUtils.replaceNode(node, returnStmtAst,\n context);\n\n }\n\n return;\n }\n\n iterator.incrAndPush(node);\n\n switch (node.type) {\n case 'BreakStatement':\n if (node.label && lblBreakMod.isReplaceReq(\n node.label.name)) {\n lookup = stackHelper.searchStack({\n targetComparator: function(\n item) {\n return /LabeledStatement/\n .test(item.type) &&\n item.label.name ===\n node.label.name;\n },\n stopComparator: function(\n item) {\n return /ForOfStatement/\n .test(item.type);\n }\n });\n if (lookup.searchInterrupted) {\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name);\n arg = new Arg({\n code: LoopModifier.CONST\n .LABELED_BREAK,\n args: node.label.name\n });\n returnStmtAst = new ReturnAst(\n stopIterAst);\n stopIterAst.arguments.push(arg.getAst());\n\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = {\n code: LoopModifier.CONST.LABELED_BREAK,\n args: node.label.name\n };\n nodeUtils.replaceNode(node,\n returnStmtAst, Context.BreakStatement\n );\n }\n }\n break;\n case 'ContinueStatement':\n if (node.label && lblContinueMod.isReplaceReq(\n node.label.name)) {\n lookup = stackHelper.searchStack({\n targetComparator: function(\n item) {\n return /LabeledStatement/\n .test(item.type) &&\n item.label.name ===\n node.label.name;\n },\n stopComparator: function(\n item) {\n return /ForOfStatement/\n .test(item.type);\n }\n });\n if (lookup.searchInterrupted) {\n if (lookup.stopNode.parentLabel ===\n node.label.name) {\n returnStmtAst = new ReturnAst(\n null);\n } else {\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name\n );\n arg = new Arg({\n code: LoopModifier.CONST\n .LABELED_CONTINUE,\n args: node.label.name\n });\n returnStmtAst = new ReturnAst(\n stopIterAst);\n stopIterAst.arguments.push(arg.getAst());\n }\n\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = {\n code: LoopModifier.CONST.LABELED_CONTINUE,\n args: node.label.name\n };\n nodeUtils.replaceNode(node,\n returnStmtAst, Context.ContinueStatement\n );\n }\n }\n break;\n case 'ReturnStatement':\n if (node.targetFunction) {\n lookup = stackHelper.searchStack({\n targetComparator: function(\n item) {\n return (\n /FunctionDeclaration/\n .test(item.type) ||\n /FunctionExpression/\n .test(item.type)\n ) &&\n item.id.name ===\n node.targetFunction;\n },\n stopComparator: function(\n item) {\n return /ForOfStatement/\n .test(item.type);\n }\n });\n if (lookup.searchInterrupted) {\n var argStr = node.argument ?\n escodegen.generate(node.argument) :\n null;\n\n arg = new Arg({\n code: LoopModifier.CONST\n .RETURN,\n args: '(' + argStr +\n ')',\n appendData: true\n });\n stopIterAst = new StopIterAst(\n lookup.stopNode.right.name);\n stopIterAst.arguments.push(arg.getAst());\n returnStmtAst = new ReturnAst(\n stopIterAst);\n self.mapSourceNode(node,\n returnStmtAst, Context.ReturnStatement\n );\n\n returnStmtAst.isAnnotated = true;\n returnStmtAst.metaData = {\n code: LoopModifier.CONST.RETURN,\n args: arg.args,\n iterVar: nodeCopy.right.name,\n targetFunction: node.targetFunction\n };\n\n nodeUtils.replaceNode(node,\n returnStmtAst);\n }\n }\n break;\n }\n });\n\n iterator.assertEmpty();\n\n return iterator.nodeCopy.parentLabel ? new LabeledStmtAst(\n iterator.nodeCopy.parentLabel, iterator.nodeCopy) :\n iterator.nodeCopy;\n };\n\n this.getAst = function() {\n // if-else block which perform dynamic type checking.\n var ifElseAst = new IfElseAst(new MemExprAst(forOfNode.right.name));\n\n // Iterator AST.\n var iterConsequentAst = this.getIterConsequentAst();\n // Push the iterator AST into 'if' block.\n ifElseAst.consequent.body = iterConsequentAst.body;\n // Push the user-written 'for ... of ...' loop into 'else' block.\n ifElseAst.alternate.body.push(this.getIterAlternateAst());\n\n estraverse.traverse(ifElseAst, {\n enter: function(node) {\n // Mark all the nodes of 'ifElseAst' to avoid repeated operations.\n node.isGen = true;\n\n // Traverse all the for-of loops in the 'else' block and mark them as visited - so that we don't\n // recursively convert these into iterator constructs.\n if (/ForOfStatement/.test(node.type))\n node.isVisited = true;\n }\n });\n\n return ifElseAst;\n };\n }\n\n var nodeUtils = new NodeUtils();\n var globalAncestorStack = new AncestorStack();\n\n // Get the Abstract Syntax Tree (ast) of the input code.\n var ast = esprima.parse(code, {\n attachComment: true,\n sourceType: 'script',\n loc: true,\n source: sourceFileName\n });\n\n nodeUtils.checkGlobals(ast);\n\n estraverse.traverse(ast, {\n enter: function(node, parent) {\n globalAncestorStack.push(node);\n\n // Grab the for-of statement's label and mark the label for deletion.\n if (/ForOfStatement/.test(node.type) && !node.isVisited &&\n /LabeledStatement/.test(parent.type)) {\n node.parentLabel = parent.label.name;\n parent.remLabel = true;\n }\n\n // Find the function that the 'return' statement associates with.\n if (/ReturnStatement/.test(node.type)) {\n var stackHelper = new StackHelper(\n globalAncestorStack);\n var lookup = stackHelper.searchStack({\n targetComparator: function(item) {\n return /FunctionDeclaration/.test(\n item.type) ||\n /FunctionExpression/.test(\n item.type);\n },\n stopComparator: function(item) {\n return false;\n }\n });\n if (lookup.targetFound) {\n // TODO : Anonymous function might require some attention because comparing null doesn't make sense.\n node.targetFunction = lookup.stopNode.id ?\n lookup.stopNode.id.name : null;\n }\n }\n },\n leave: function(node) {\n // Perform variable substitution in query constructor.\n if (nodeUtils.isN1qlNode(node) && node.arguments.length >\n 0) {\n var queryAst = nodeUtils.getQueryAst(node.arguments[\n 0].quasis[0].value.raw);\n nodeUtils.replaceNode(node, nodeUtils.deepCopy(\n queryAst), Context.N1qlQuery);\n }\n\n // TODO : Handle the case when the source of for-of loop is of type x.y\n // Modifies all the for-of statements to support iteration.\n // Takes care to see to it that it visits the node only once.\n if (/ForOfStatement/.test(node.type) && !node.isVisited) {\n if (!/BlockStatement/.test(node.body.type)) {\n nodeUtils.convertToBlockStmt(node);\n }\n\n var iterator = new IterCompatible(node);\n var iterAst = iterator.getAst();\n nodeUtils.replaceNode(node, nodeUtils.deepCopy(\n iterAst), Context.IterTypeCheck);\n } else if (/LabeledStatement/.test(node.type) && node.remLabel) {\n // Delete the label.\n nodeUtils.replaceNode(node, node.body);\n }\n\n globalAncestorStack.pop();\n }\n });\n\n return ast;\n}", "function ASTannotate(ast, parent, next, previous) {\n if (!ast) {\n return;\n }\n ast.parent = parent;\n ast.next = next;\n ast.previous = previous;\n\n switch (ast.TYPE) {\n case \"nodelist\":\n for (let i = 0; i < ast.length; i++) {\n previous = i === 0 ? null : ast[i - 1];\n next = i === ast.length - 1 ? null : ast[i + 1];\n ASTannotate(ast[i], ast, next, previous);\n }\n break;\n case \"arglist\":\n case \"subscript\":\n case \"superscript\":\n case \"inlinemath\":\n case \"displaymath\":\n case \"mathenv\":\n case \"group\":\n ASTannotate(ast.content, ast);\n break;\n case \"macro\":\n ASTannotate(ast.args, ast);\n break;\n case \"environment\":\n ASTannotate(ast.content, ast);\n ASTannotate(ast.args, ast);\n break;\n case \"string\":\n case \"parbreak\":\n case \"verbatim\":\n case \"verb\":\n case \"commentenv\":\n case \"comment\":\n break;\n }\n return ast;\n}", "async function main() {\n const resolvedPaths = globby.sync(files as string[])\n const transformationModule = loadTransformationModule(transformationName)\n\n log(`Processing ${resolvedPaths.length} files…`)\n\n for (const p of resolvedPaths) {\n debug(`Processing ${p}…`)\n const fileInfo = {\n path: p,\n source: fs.readFileSync(p).toString(),\n }\n try {\n const result = runTransformation(\n fileInfo,\n transformationModule,\n params as object\n )\n fs.writeFileSync(p, result)\n } catch (e) {\n console.error(e)\n }\n }\n}", "compileAll() {\n\t\tconst options = this.options\n\t\tfor (let template of this.templates) {\n\t\t\tlet code = ejs.compile(template.source, {\n\t\t\t\tclient: true,\n\t\t\t\t_with: false,\n\t\t\t\tlocalsName: 'data',\n\t\t\t\tasync: !!options.async,\n\t\t\t\tdelimiter: options.delimiter ? options.delimiter : '%',\n\t\t\t\topenDelimiter: options.openDelimiter ? options.openDelimiter : '<',\n\t\t\t\tcloseDelimiter: options.closeDelimiter ? options.closeDelimiter : '>',\n\t\t\t})\n\t\t\ttemplate.code = code.toString()\n\t\t}\n\t}", "[loadAllSource]() {\n let ret = [];\n let test = {};\n // dump static html files\n let sopt = this[config].format({\n flag: false,\n dir: 'DIR_SOURCE',\n sub: 'DIR_SOURCE_SUB'\n });\n ret.push(...this[loadSource](sopt,test));\n // dump server template files\n let topt = this[config].format({\n flag: true,\n dir: 'DIR_SOURCE_TP',\n sub: 'DIR_SOURCE_TP_SUB'\n });\n ret.push(...this[loadSource](topt,test));\n // ensure all resource loaded\n Promise.all(ret).then(() => {\n this.emit('done');\n });\n }", "function mash(sources, destination)\n{\n var out = sources.map\n (\n function (filePath)\n {\n return fileSystem.readFileSync(filePath, settings.encoding);\n }\n );\n\n fileSystem.writeFileSync(destination, out.join(settings.eol), settings.encoding);\n log(colors.cyan + 'Built: ' + colors.white + destination);\n}", "function analyseEntryPoint(graph, entryPoint, entryPoints) {\n const { oldPrograms, analysesSourcesFileCache, moduleResolutionCache } = entryPoint.cache;\n const oldProgram = oldPrograms && oldPrograms['analysis'];\n const { moduleId } = entryPoint.data.entryPoint;\n const packageNode = graph.find(nodes_1.isPackage);\n const primaryModuleId = packageNode.data.primary.moduleId;\n log_1.debug(`Analysing sources for ${moduleId}`);\n const tsConfigOptions = {\n ...entryPoint.data.tsConfig.options,\n skipLibCheck: true,\n noLib: true,\n noEmit: true,\n types: [],\n target: ts.ScriptTarget.Latest,\n strict: false,\n };\n const compilerHost = cache_compiler_host_1.cacheCompilerHost(graph, entryPoint, tsConfigOptions, moduleResolutionCache, undefined, analysesSourcesFileCache, false);\n const potentialDependencies = new Set();\n compilerHost.resolveTypeReferenceDirectives = (moduleNames, containingFile, redirectedReference, options) => {\n return moduleNames.map(moduleName => {\n if (!moduleName.startsWith('.')) {\n if (moduleName === primaryModuleId || moduleName.startsWith(`${primaryModuleId}/`)) {\n potentialDependencies.add(moduleName);\n }\n return undefined;\n }\n const result = ts.resolveTypeReferenceDirective(moduleName, path_1.ensureUnixPath(containingFile), options, compilerHost, redirectedReference).resolvedTypeReferenceDirective;\n return result;\n });\n };\n compilerHost.resolveModuleNames = (moduleNames, containingFile, _reusedNames, redirectedReference, options) => {\n return moduleNames.map(moduleName => {\n if (!moduleName.startsWith('.')) {\n if (moduleName === primaryModuleId || moduleName.startsWith(`${primaryModuleId}/`)) {\n potentialDependencies.add(moduleName);\n }\n return undefined;\n }\n const { resolvedModule } = ts.resolveModuleName(moduleName, path_1.ensureUnixPath(containingFile), options, compilerHost, moduleResolutionCache, redirectedReference);\n return resolvedModule;\n });\n };\n const program = ts.createProgram(entryPoint.data.tsConfig.rootNames, tsConfigOptions, compilerHost, oldProgram);\n log_1.debug(`tsc program structure is reused: ${oldProgram ? oldProgram.structureIsReused : 'No old program'}`);\n entryPoint.cache.oldPrograms = { ...entryPoint.cache.oldPrograms, ['analysis']: program };\n const entryPointsMapped = {};\n for (const dep of entryPoints) {\n entryPointsMapped[dep.data.entryPoint.moduleId] = dep;\n }\n for (const moduleName of potentialDependencies) {\n const dep = entryPointsMapped[moduleName];\n if (dep) {\n log_1.debug(`Found entry point dependency: ${moduleId} -> ${moduleName}`);\n if (moduleId === moduleName) {\n throw new Error(`Entry point ${moduleName} has a circular dependency on itself.`);\n }\n if (dep.some(n => entryPoint === n)) {\n throw new Error(`Entry point ${moduleName} has a circular dependency on ${moduleId}.`);\n }\n entryPoint.dependsOn(dep);\n }\n else {\n throw new Error(`Entry point ${moduleName} which is required by ${moduleId} doesn't exists.`);\n }\n }\n}", "function combine(a, b) {\n return a.concat(b);\n}", "function mergeChildren(children) {\n var nameToItems = ts.createMap();\n ts.filterMutate(children, function (child) {\n var decl = child.node;\n var name = decl.name && nodeText(decl.name);\n if (!name) {\n // Anonymous items are never merged.\n return true;\n }\n var itemsWithSameName = nameToItems[name];\n if (!itemsWithSameName) {\n nameToItems[name] = child;\n return true;\n }\n if (itemsWithSameName instanceof Array) {\n for (var _i = 0, itemsWithSameName_1 = itemsWithSameName; _i < itemsWithSameName_1.length; _i++) {\n var itemWithSameName = itemsWithSameName_1[_i];\n if (tryMerge(itemWithSameName, child)) {\n return false;\n }\n }\n itemsWithSameName.push(child);\n return true;\n }\n else {\n var itemWithSameName = itemsWithSameName;\n if (tryMerge(itemWithSameName, child)) {\n return false;\n }\n nameToItems[name] = [itemWithSameName, child];\n return true;\n }\n function tryMerge(a, b) {\n if (shouldReallyMerge(a.node, b.node)) {\n merge(a, b);\n return true;\n }\n return false;\n }\n });\n /** a and b have the same name, but they may not be mergeable. */\n function shouldReallyMerge(a, b) {\n return a.kind === b.kind && (a.kind !== 225 /* ModuleDeclaration */ || areSameModule(a, b));\n // We use 1 NavNode to represent 'A.B.C', but there are multiple source nodes.\n // Only merge module nodes that have the same chain. Don't merge 'A.B.C' with 'A'!\n function areSameModule(a, b) {\n if (a.body.kind !== b.body.kind) {\n return false;\n }\n if (a.body.kind !== 225 /* ModuleDeclaration */) {\n return true;\n }\n return areSameModule(a.body, b.body);\n }\n }\n /** Merge source into target. Source should be thrown away after this is called. */\n function merge(target, source) {\n target.additionalNodes = target.additionalNodes || [];\n target.additionalNodes.push(source.node);\n if (source.additionalNodes) {\n (_a = target.additionalNodes).push.apply(_a, source.additionalNodes);\n }\n target.children = ts.concatenate(target.children, source.children);\n if (target.children) {\n mergeChildren(target.children);\n sortChildren(target.children);\n }\n var _a;\n }\n }", "function and() {\n var items = arguments;\n return function(input) {\n var value = {rest: input, parsed: '', ast: []};\n for(var i = 0; i < items.length; i++) {\n var result = items[i](value.rest);\n if(result != false) {\n var rst = result.rest;\n if(result.ast != null) {\n value.ast.push(result.ast);\n }\n value = {rest: rst,\n parsed: value.parsed + result.parsed,\n ast: value.ast};\n }\n else {\n return false;\n }\n }\n return value;\n };\n}", "async bundleMultiple(entries, options = {}) {\n\t\t\t// Clone so we can mess with it\n\t\t\tentries = [...entries];\n\n\t\t\t// Seed the dependency graph with all the entries at the same time\n\t\t\tconst processor = this.request.createDiagnosticsProcessor({\n\t\t\t\torigin: {\n\t\t\t\t\tentity: \"Bundler.bundleMultiple\",\n\t\t\t\t\tmessage: \"Analyzing dependencies for bundleMultiple\",\n\t\t\t\t},\n\t\t\t});\n\t\t\tconst entryUIDs = entries.map((entry) =>\n\t\t\t\tthis.server.projectManager.getUID(entry)\n\t\t\t);\n\t\t\tconst analyzeProgress = this.reporter.progress({\n\t\t\t\tname: \"bundler:analyze:\" + entryUIDs.join(\",\"),\n\t\t\t\ttitle: ___R$project$rome$$internal$markup$escape_ts$markup`Analyzing`,\n\t\t\t});\n\t\t\tprocessor.setThrowAfter(100);\n\t\t\tawait this.graph.seed({\n\t\t\t\tpaths: entries,\n\t\t\t\tanalyzeProgress,\n\t\t\t\tallowFileNotFound: false,\n\t\t\t});\n\t\t\tanalyzeProgress.end();\n\t\t\tprocessor.maybeThrowDiagnosticsError();\n\n\t\t\t// Compile everything at the same time\n\t\t\tconst req = this.createBundleRequest(entries[0], {}, this.reporter);\n\t\t\tawait req.stepCompile(\n\t\t\t\tArray.from(this.graph.getNodes(), (node) => node.path),\n\t\t\t);\n\n\t\t\t// Now actually bundle them\n\t\t\tconst map = new Map();\n\n\t\t\tconst progress = this.reporter.progress({\n\t\t\t\ttitle: ___R$project$rome$$internal$markup$escape_ts$markup`Bundling`,\n\t\t\t});\n\t\t\tprogress.setTotal(entries.length);\n\n\t\t\tconst silentReporter = this.reporter.fork({\n\t\t\t\tstreams: [],\n\t\t\t});\n\n\t\t\tconst bundle = async () => {\n\t\t\t\tif (entries.length === 0) {\n\t\t\t\t\treturn;\n\t\t\t\t}\n\n\t\t\t\tconst entry = entries.shift();\n\t\t\t\tconst progressId = progress.pushText(entry);\n\n\t\t\t\tmap.set(entry, await this.bundle(entry, options, silentReporter));\n\t\t\t\tprogress.popText(progressId);\n\t\t\t\tprogress.tick();\n\t\t\t\tawait bundle();\n\t\t\t};\n\n\t\t\t// TODO better parallelization model\n\t\t\tawait Promise.all([bundle(), bundle(), bundle(), bundle(), bundle()]);\n\n\t\t\tprogress.end();\n\n\t\t\treturn map;\n\t\t}", "static normalize(contracts, files = null) {\n let sourcesByPath = {};\n let contexts = [];\n let sources;\n\n for (let contract of contracts) {\n let {\n contractName,\n binary,\n sourceMap,\n deployedBinary,\n deployedSourceMap,\n sourcePath,\n source,\n ast,\n compiler\n } = contract;\n\n debug(\"sourceMap %o\", sourceMap);\n debug(\"compiler %o\", compiler);\n\n sourcesByPath[sourcePath] = { sourcePath, source, ast };\n\n if (binary && binary != \"0x\") {\n contexts.push({\n contractName,\n binary,\n sourceMap\n });\n }\n\n if (deployedBinary && deployedBinary != \"0x\") {\n contexts.push({\n contractName,\n binary: deployedBinary,\n sourceMap: deployedSourceMap,\n compiler\n });\n }\n }\n\n if (!files) {\n sources = (0, _values2.default)(sourcesByPath);\n } else {\n sources = files.map(file => sourcesByPath[file]);\n }\n\n return { contexts, sources };\n }", "addAll(items) {\n if (items.length == 0) throw new Error(green('No data provided when adding a new node! [from: addAll()]'))\n\n for (let i = 0; i < items.length; i++) {\n this.addNode(items[i])\n }\n }" ]
[ "0.6908495", "0.6170209", "0.6108926", "0.5783711", "0.5783711", "0.5568391", "0.5568391", "0.5568391", "0.54284203", "0.5300837", "0.5247986", "0.5224473", "0.5103726", "0.50698173", "0.49965164", "0.49735075", "0.4945306", "0.4937225", "0.4897356", "0.48926285", "0.48727074", "0.4869167", "0.4869167", "0.4868763", "0.48476508", "0.48453194", "0.4841075", "0.48266006", "0.48266006", "0.4805562", "0.47952703", "0.4764883", "0.47599894", "0.474903", "0.474903", "0.4739854", "0.4732159", "0.47237816", "0.47190103", "0.47184446", "0.46900836", "0.46813706", "0.4657827", "0.46428725", "0.46379253", "0.46301183", "0.4609852", "0.46022055", "0.45993495", "0.45853862", "0.45682", "0.45625305", "0.45625305", "0.45599368", "0.45418376", "0.45322567", "0.45150292", "0.45150292", "0.45081258", "0.4506037", "0.45051813", "0.45000216", "0.44978005", "0.44937834", "0.4492041", "0.4487132", "0.44841766", "0.44793338", "0.44729748", "0.44656563", "0.44608554", "0.44525084", "0.4448768", "0.4429091", "0.44090083", "0.44087625", "0.44083372", "0.44028085", "0.44028085", "0.4398283", "0.43952474", "0.43951303", "0.43944117", "0.43930733", "0.43833998", "0.43829527", "0.43820354", "0.43712777", "0.43697745", "0.4369756", "0.43624145", "0.43594453", "0.43557376", "0.435256", "0.43474817", "0.43464553", "0.43439168", "0.4336568", "0.43309903" ]
0.7075156
1
separateOperations accepts a single AST document which may contain many operations and fragments and returns a collection of AST documents each of which contains a single operation as well the fragment definitions it refers to.
function separateOperations(documentAST) { var operations = []; var fragments = Object.create(null); var positions = new Map(); var depGraph = Object.create(null); var fromName = void 0; var idx = 0; // Populate metadata and build a dependency graph. (0, _visitor.visit)(documentAST, { OperationDefinition: function OperationDefinition(node) { fromName = opName(node); operations.push(node); positions.set(node, idx++); }, FragmentDefinition: function FragmentDefinition(node) { fromName = node.name.value; fragments[fromName] = node; positions.set(node, idx++); }, FragmentSpread: function FragmentSpread(node) { var toName = node.name.value; (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true; } }); // For each operation, produce a new synthesized AST which includes only what // is necessary for completing that operation. var separatedDocumentASTs = Object.create(null); operations.forEach(function (operation) { var operationName = opName(operation); var dependencies = Object.create(null); collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted // to retain the same order as the original document. var definitions = [operation]; Object.keys(dependencies).forEach(function (name) { definitions.push(fragments[name]); }); definitions.sort(function (n1, n2) { return (positions.get(n1) || 0) - (positions.get(n2) || 0); }); separatedDocumentASTs[operationName] = { kind: 'Document', definitions: definitions }; }); return separatedDocumentASTs; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function separateOperations(documentAST) {\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName;\n var idx = 0; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor__WEBPACK_IMPORTED_MODULE_0__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n var _arr = operations;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var operation = _arr[_i];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n var definitions = [operation];\n\n var _arr2 = Object.keys(dependencies);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var name = _arr2[_i2];\n definitions.push(fragments[name]);\n }\n\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null);\n var fromName; // Populate metadata and build a dependency graph.\n\n Object(_language_visitor_mjs__WEBPACK_IMPORTED_MODULE_1__[\"visit\"])(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n var dependents = depGraph[fromName];\n\n if (dependents === undefined) {\n dependents = depGraph[fromName] = Object.create(null);\n }\n\n dependents[toName] = true;\n }\n }); // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i2) {\n var operation = operations[_i2];\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName); // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].FRAGMENT_DEFINITION && dependencies[node.name.value];\n })\n };\n };\n\n for (var _i2 = 0; _i2 < operations.length; _i2++) {\n _loop(_i2);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n var operations = [];\n var depGraph = Object.create(null); // Populate metadata and build a dependency graph.\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definitionNode = _documentAST$definiti2[_i2];\n\n switch (definitionNode.kind) {\n case _kinds.Kind.OPERATION_DEFINITION:\n operations.push(definitionNode);\n break;\n\n case _kinds.Kind.FRAGMENT_DEFINITION:\n depGraph[definitionNode.name.value] = collectDependencies(definitionNode.selectionSet);\n break;\n }\n } // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n\n\n var separatedDocumentASTs = Object.create(null);\n\n var _loop = function _loop(_i4) {\n var operation = operations[_i4];\n var dependencies = new Set();\n\n for (var _i6 = 0, _collectDependencies2 = collectDependencies(operation.selectionSet); _i6 < _collectDependencies2.length; _i6++) {\n var fragmentName = _collectDependencies2[_i6];\n collectTransitiveDependencies(dependencies, depGraph, fragmentName);\n } // Provides the empty string for anonymous operations.\n\n\n var operationName = operation.name ? operation.name.value : ''; // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n\n separatedDocumentASTs[operationName] = {\n kind: _kinds.Kind.DOCUMENT,\n definitions: documentAST.definitions.filter(function (node) {\n return node === operation || node.kind === _kinds.Kind.FRAGMENT_DEFINITION && dependencies.has(node.name.value);\n })\n };\n };\n\n for (var _i4 = 0; _i4 < operations.length; _i4++) {\n _loop(_i4);\n }\n\n return separatedDocumentASTs;\n} // From a dependency graph, collects a list of transitive dependencies by", "function separateOperations(documentAST) {\n\n var operations = [];\n var fragments = Object.create(null);\n var positions = new Map();\n var depGraph = Object.create(null);\n var fromName = void 0;\n var idx = 0;\n\n // Populate metadata and build a dependency graph.\n (0, _visitor.visit)(documentAST, {\n OperationDefinition: function OperationDefinition(node) {\n fromName = opName(node);\n operations.push(node);\n positions.set(node, idx++);\n },\n FragmentDefinition: function FragmentDefinition(node) {\n fromName = node.name.value;\n fragments[fromName] = node;\n positions.set(node, idx++);\n },\n FragmentSpread: function FragmentSpread(node) {\n var toName = node.name.value;\n (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n }\n });\n\n // For each operation, produce a new synthesized AST which includes only what\n // is necessary for completing that operation.\n var separatedDocumentASTs = Object.create(null);\n operations.forEach(function (operation) {\n var operationName = opName(operation);\n var dependencies = Object.create(null);\n collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n // The list of definition nodes to be included for this operation, sorted\n // to retain the same order as the original document.\n var definitions = [operation];\n Object.keys(dependencies).forEach(function (name) {\n definitions.push(fragments[name]);\n });\n definitions.sort(function (n1, n2) {\n return (positions.get(n1) || 0) - (positions.get(n2) || 0);\n });\n\n separatedDocumentASTs[operationName] = {\n kind: 'Document',\n definitions: definitions\n };\n });\n\n return separatedDocumentASTs;\n}", "function separateOperations(documentAST) {\n\n\t var operations = [];\n\t var depGraph = Object.create(null);\n\t var fromName = void 0;\n\n\t // Populate the list of operations and build a dependency graph.\n\t (0, _visitor.visit)(documentAST, {\n\t OperationDefinition: function OperationDefinition(node) {\n\t operations.push(node);\n\t fromName = opName(node);\n\t },\n\t FragmentDefinition: function FragmentDefinition(node) {\n\t fromName = node.name.value;\n\t },\n\t FragmentSpread: function FragmentSpread(node) {\n\t var toName = node.name.value;\n\t (depGraph[fromName] || (depGraph[fromName] = Object.create(null)))[toName] = true;\n\t }\n\t });\n\n\t // For each operation, produce a new synthesized AST which includes only what\n\t // is necessary for completing that operation.\n\t var separatedDocumentASTs = Object.create(null);\n\t operations.forEach(function (operation) {\n\t var operationName = opName(operation);\n\t var dependencies = Object.create(null);\n\t collectTransitiveDependencies(dependencies, depGraph, operationName);\n\n\t separatedDocumentASTs[operationName] = {\n\t kind: 'Document',\n\t definitions: documentAST.definitions.filter(function (def) {\n\t return def === operation || def.kind === 'FragmentDefinition' && dependencies[def.name.value];\n\t })\n\t };\n\t });\n\n\t return separatedDocumentASTs;\n\t}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n\n if (definition.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _language_kinds_mjs__WEBPACK_IMPORTED_MODULE_0__[\"Kind\"].OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === _kinds.Kind.OPERATION_DEFINITION) {\n var _definition$name;\n\n if (operationName == null) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (((_definition$name = definition.name) === null || _definition$name === void 0 ? void 0 : _definition$name.value) === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n if (definition.kind === _kinds.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n return operation;\n}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var definition = documentAST.definitions[i];\n if (definition.kind === _kinds.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n return operation;\n}", "function transformOperation(editor, patch, operation) {\n // debug(`Rebasing selection for patch ${patch.type} against operation ${operation.type}`)\n let transformedOperation = Object.assign({}, operation);\n if (patch.type === 'insert' && patch.path.length === 1) {\n return [adjustBlockPath(editor, patch, operation, patch.items.length)];\n }\n if (patch.type === 'unset' && patch.path.length === 1) {\n return [adjustBlockPath(editor, patch, operation, -1)];\n }\n // Someone reset the whole value\n if (patch.type === 'unset' && patch.path.length === 0) {\n debug(`Adjusting selection for unset everything patch and ${operation.type} operation`);\n return [];\n }\n if (patch.type === 'diffMatchPatch') {\n let blockIndex = editor.children.findIndex(blk => lodash_1.isEqual({ _key: blk._key }, patch.path[0]));\n const block = editor.children[blockIndex];\n if (block && Array.isArray(block.children)) {\n const childIndex = block.children.findIndex(child => lodash_1.isEqual({ _key: child._key }, patch.path[2]));\n const parsed = dmp.patch_fromText(patch.value)[0];\n if (!parsed) {\n debug('Could not parse diffMatchPatch', patch);\n return [operation];\n }\n const distance = parsed.length2 - parsed.length1;\n const patchIsRemovingText = parsed.diffs.some(diff => diff[0] === -1);\n if (operation.type === 'split_node' && operation.path.length > 1) {\n const splitOperation = transformedOperation;\n if (patchIsRemovingText) {\n splitOperation.position = splitOperation.position - distance;\n }\n else {\n splitOperation.position = splitOperation.position + distance;\n }\n return [splitOperation];\n }\n if (slate_1.Path.isPath(operation.path) &&\n operation.path[0] !== undefined &&\n operation.path[0] === blockIndex &&\n operation.path[1] === childIndex) {\n if (operation.type === 'insert_text') {\n let insertOffset = 0;\n for (const diff of parsed.diffs) {\n if (diff[0] === 0) {\n insertOffset = diff[1].length;\n }\n if (diff[0] === 1) {\n break;\n }\n }\n if (insertOffset + parsed.start1 <= operation.offset) {\n const insertTextOperation = transformedOperation;\n insertTextOperation.offset = insertTextOperation.offset + distance;\n transformedOperation = insertTextOperation;\n }\n // TODO: deal with overlapping ranges\n return [transformedOperation];\n }\n if (operation.type === 'remove_text') {\n let insertOffset = 0;\n for (const diff of parsed.diffs) {\n if (diff[0] === 0) {\n insertOffset = diff[1].length;\n }\n if (diff[0] === -1) {\n break;\n }\n }\n if (insertOffset + parsed.start1 <= operation.offset) {\n const removeTextOperation = transformedOperation;\n removeTextOperation.offset = removeTextOperation.offset - distance;\n transformedOperation = removeTextOperation;\n }\n return [transformedOperation];\n }\n }\n // // Selection operations with diffPatchMatch\n // if (operation.type === 'set_selection') {\n // const newProperties = transformedOperation.newProperties\n // if (newProperties && patchIsRemovingText) {\n // newProperties.offset = newProperties.offset - distance\n // } else if (newProperties) {\n // newProperties.offset = newProperties.offset + distance\n // }\n // return [newProperties ? {...transformedOperation, newProperties} : transformedOperation]\n // }\n }\n // TODO: transform this?\n // if (operation.type === 'set_selection' && patch.type !== 'diffMatchPatch') {\n // console.log('set_selection other', JSON.stringify(patch))\n // }\n }\n return [operation];\n}", "function getOperationAST(documentAST, operationName) {\n\t var operation = null;\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var definition = documentAST.definitions[i];\n\t if (definition.kind === _kinds.OPERATION_DEFINITION) {\n\t if (!operationName) {\n\t // If no operation name was provided, only return an Operation if there\n\t // is one defined in the document. Upon encountering the second, return\n\t // null.\n\t if (operation) {\n\t return null;\n\t }\n\t operation = definition;\n\t } else if (definition.name && definition.name.value === operationName) {\n\t return definition;\n\t }\n\t }\n\t }\n\t return operation;\n\t}", "function getOperationAST(documentAST, operationName) {\n var operation = null;\n\n for (var _i2 = 0, _documentAST$definiti2 = documentAST.definitions; _i2 < _documentAST$definiti2.length; _i2++) {\n var definition = _documentAST$definiti2[_i2];\n\n if (definition.kind === Kind.OPERATION_DEFINITION) {\n if (!operationName) {\n // If no operation name was provided, only return an Operation if there\n // is one defined in the document. Upon encountering the second, return\n // null.\n if (operation) {\n return null;\n }\n\n operation = definition;\n } else if (definition.name && definition.name.value === operationName) {\n return definition;\n }\n }\n }\n\n return operation;\n }", "* getOperationsUntransformed () {\n var ops = []\n yield* this.os.iterate(this, null, null, function * (op) {\n if (op.id[0] !== '_') {\n ops.push(op)\n }\n })\n return {\n untransformed: ops\n }\n }", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function concatAST(documents) {\n var definitions = [];\n\n for (var _i2 = 0; _i2 < documents.length; _i2++) {\n var doc = documents[_i2];\n definitions = definitions.concat(doc.definitions);\n }\n\n return {\n kind: 'Document',\n definitions: definitions\n };\n}", "function extractOperationSet(inputChangeset, instructionList){\n var index;\n var operators = \":><$=+-\";\n\n for(index = 0; index < inputChangeset.length; index++){\n if(operators.includes(inputChangeset[index])){\n instructionList.push(extractOperation(index,inputChangeset));\n }\n }\n }", "function eachOperation(spec, cb, find) {\n if (!spec || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(spec) !== 'object' || !spec.paths || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(spec.paths) !== 'object') {\n return null;\n }\n\n var paths = spec.paths; // Iterate over the spec, collecting operations\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n\n for (var pathName in paths) {\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n for (var method in paths[pathName]) {\n if (method.toUpperCase() === 'PARAMETERS') {\n continue; // eslint-disable-line no-continue\n }\n\n var operation = paths[pathName][method];\n\n if (!operation || (0,_babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1__.default)(operation) !== 'object') {\n continue; // eslint-disable-line no-continue\n }\n\n var operationObj = {\n spec: spec,\n pathName: pathName,\n method: method.toUpperCase(),\n operation: operation\n };\n var cbValue = cb(operationObj);\n\n if (find && cbValue) {\n return operationObj;\n }\n }\n }\n\n return undefined;\n} // REVIEW: OAS3: identify normalization steps that need changes", "function eachOperation(spec, cb, find) {\n if (!spec || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(spec) !== 'object' || !spec.paths || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(spec.paths) !== 'object') {\n return null;\n }\n\n var paths = spec.paths; // Iterate over the spec, collecting operations\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n\n for (var pathName in paths) {\n // eslint-disable-next-line no-restricted-syntax, guard-for-in\n for (var method in paths[pathName]) {\n if (method.toUpperCase() === 'PARAMETERS') {\n continue; // eslint-disable-line no-continue\n }\n\n var operation = paths[pathName][method];\n\n if (!operation || _babel_runtime_corejs3_helpers_typeof__WEBPACK_IMPORTED_MODULE_1___default()(operation) !== 'object') {\n continue; // eslint-disable-line no-continue\n }\n\n var operationObj = {\n spec: spec,\n pathName: pathName,\n method: method.toUpperCase(),\n operation: operation\n };\n var cbValue = cb(operationObj);\n\n if (find && cbValue) {\n return operationObj;\n }\n }\n }\n\n return undefined;\n} // REVIEW: OAS3: identify normalization steps that need changes", "function getSplits(node, context) {\n var res = [];\n var right, rightArgs;\n var makeNode = createMakeNodeFunction(node);\n\n if (isCommutative(node, context)) {\n for (var i = 0; i < node.args.length; i++) {\n rightArgs = node.args.slice(0);\n rightArgs.splice(i, 1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[i], right]));\n }\n } else {\n rightArgs = node.args.slice(1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[0], right]));\n }\n\n return res;\n }", "function getSplits(node, context) {\n var res = [];\n var right, rightArgs;\n var makeNode = createMakeNodeFunction(node);\n\n if (isCommutative(node, context)) {\n for (var i = 0; i < node.args.length; i++) {\n rightArgs = node.args.slice(0);\n rightArgs.splice(i, 1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[i], right]));\n }\n } else {\n rightArgs = node.args.slice(1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[0], right]));\n }\n\n return res;\n }", "function getSplits(node, context) {\n var res = [];\n var right, rightArgs;\n var makeNode = createMakeNodeFunction(node);\n\n if (isCommutative(node, context)) {\n for (var i = 0; i < node.args.length; i++) {\n rightArgs = node.args.slice(0);\n rightArgs.splice(i, 1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[i], right]));\n }\n } else {\n rightArgs = node.args.slice(1);\n right = rightArgs.length === 1 ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[0], right]));\n }\n\n return res;\n }", "function split(dir_op, op) {\n function do_split(painter, n) {\n if (n === 0) {\n return painter;\n } else {\n const smaller = do_split(painter, n - 1);\n return dir_op(painter, op(smaller, smaller));\n }\n }\n return do_split;\n}", "function getSplits(node, context) {\n var res = [];\n var right, rightArgs;\n var makeNode = createMakeNodeFunction(node);\n if (isCommutative(node, context)) {\n for (var i=0; i<node.args.length; i++) {\n rightArgs = node.args.slice(0);\n rightArgs.splice(i, 1);\n right = (rightArgs.length === 1) ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[i], right]));\n }\n }\n else {\n rightArgs = node.args.slice(1);\n right = (rightArgs.length === 1) ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[0], right]));\n }\n return res;\n }", "function getSplits(node, context) {\n var res = [];\n var right, rightArgs;\n var makeNode = createMakeNodeFunction(node);\n if (isCommutative(node, context)) {\n for (var i=0; i<node.args.length; i++) {\n rightArgs = node.args.slice(0);\n rightArgs.splice(i, 1);\n right = (rightArgs.length === 1) ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[i], right]));\n }\n }\n else {\n rightArgs = node.args.slice(1);\n right = (rightArgs.length === 1) ? rightArgs[0] : makeNode(rightArgs);\n res.push(makeNode([node.args[0], right]));\n }\n return res;\n }", "function parseOperationDefinition(parser) {\n\t var start = parser.token.start;\n\t if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t }\n\t var operationToken = expect(parser, _lexer.TokenKind.NAME);\n\t var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n\t throw unexpected(parser, operationToken);\n\t })();\n\t var name = undefined;\n\t if (peek(parser, _lexer.TokenKind.NAME)) {\n\t name = parseName(parser);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(parser),\n\t directives: parseDirectives(parser),\n\t selectionSet: parseSelectionSet(parser),\n\t loc: loc(parser, start)\n\t };\n\t}", "async * getOperations() {\n for await (const num of this.getSequentBlockNum()) {\n const operations = await this.getBlockOperations(num);\n for (const op of operations) yield op;\n }\n }", "function createOperationTree(initialExpression, operationList) {\n for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++)\n initialExpression = operation(item[0], [initialExpression, item[1]]);\n return initialExpression;\n }", "function createOperationTree(initialExpression, operationList) {\n for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++)\n initialExpression = operation(item[0], [initialExpression, item[1]]);\n return initialExpression;\n }", "function parseOperationDefinition(parser) {\n var start = parser.token.start;\n if (peek(parser, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n }\n var operationToken = expect(parser, _lexer.TokenKind.NAME);\n var operation = operationToken.value === 'mutation' ? 'mutation' : operationToken.value === 'subscription' ? 'subscription' : operationToken.value === 'query' ? 'query' : (function () {\n throw unexpected(parser, operationToken);\n })();\n var name = undefined;\n if (peek(parser, _lexer.TokenKind.NAME)) {\n name = parseName(parser);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(parser),\n directives: parseDirectives(parser),\n selectionSet: parseSelectionSet(parser),\n loc: loc(parser, start)\n };\n}", "function concatAST(asts) {\n var batchDefinitions = [];\n for (var i = 0; i < asts.length; i++) {\n var definitions = asts[i].definitions;\n for (var j = 0; j < definitions.length; j++) {\n batchDefinitions.push(definitions[j]);\n }\n }\n return {\n kind: 'Document',\n definitions: batchDefinitions\n };\n}", "function concatAST(asts) {\n var batchDefinitions = [];\n for (var i = 0; i < asts.length; i++) {\n var definitions = asts[i].definitions;\n for (var j = 0; j < definitions.length; j++) {\n batchDefinitions.push(definitions[j]);\n }\n }\n return {\n kind: 'Document',\n definitions: batchDefinitions\n };\n}", "parseOperationDefinition() {\n const start = this._lexer.token;\n\n if (this.peek(TokenKind.BRACE_L)) {\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation: OperationTypeNode.QUERY,\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: this.parseSelectionSet(),\n });\n }\n\n const operation = this.parseOperationType();\n let name;\n\n if (this.peek(TokenKind.NAME)) {\n name = this.parseName();\n }\n\n return this.node(start, {\n kind: Kind.OPERATION_DEFINITION,\n operation,\n name,\n variableDefinitions: this.parseVariableDefinitions(),\n directives: this.parseDirectives(false),\n selectionSet: this.parseSelectionSet(),\n });\n }", "function concatAST(asts) {\n\t var batchDefinitions = [];\n\t for (var i = 0; i < asts.length; i++) {\n\t var definitions = asts[i].definitions;\n\t for (var j = 0; j < definitions.length; j++) {\n\t batchDefinitions.push(definitions[j]);\n\t }\n\t }\n\t return {\n\t kind: 'Document',\n\t definitions: batchDefinitions\n\t };\n\t}", "function createOperationTree(initialExpression, operationList) {\n\t for (var i = 0, l = operationList.length, item; i < l && (item = operationList[i]); i++) {\n\t initialExpression = operation(item[0], [initialExpression, item[1]]);\n\t }return initialExpression;\n\t }", "function RecognizeOperation(node){\n switch(node.operation){\n case literal.operation.ADDITION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.ADDITION, node.row, node.column);\n case literal.operation.SUBTRACTION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.SUBTRACTION, node.row, node.column);\n case literal.operation.MULTIPLICATION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MULTIPLICATION, node.row, node.column);\n case literal.operation.DIVISION:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.DIVISION, node.row, node.column);\n case literal.operation.MODULUS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.MODULUS, node.row, node.column);\n case literal.operation.UNARY_MINUS:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.UNARY_MINUS, node.row, node.column);\n case literal.operation.POW:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.POW, node.row, node.column);\n case literal.operation.OTHER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OTHER_THAN, node.row, node.column);\n case literal.operation.JUST_AS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.JUST_AS, node.row, node.column);\n case literal.operation.GREATER_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.LESS_THAN_OR_EQUAL_TO:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN_OR_EQUAL_TO, node.row, node.column);\n case literal.operation.GREATER_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.GREATER_THAN, node.row, node.column);\n case literal.operation.LESS_THAN:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.LESS_THAN, node.row, node.column);\n case literal.operation.OR:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.OR, node.row, node.column);\n case literal.operation.AND:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.AND, node.row, node.column);\n case literal.operation.NOT:\n return Operation.NewOperation(null, RecognizeOperation(node.childs[0]), literal.operation.NOT, node.row, node.column);\n case literal.operation.TERNARY_OPERATOR:\n return new Ternary(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), RecognizeOperation(node.childs[2]), node.row, node.column);\n case literal.operation.PROPERTY_ACCESS:\n return Operation.NewOperation(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), literal.operation.PROPERTY_ACCESS, node.row, node.column);\n case literal.operation.PUSH:\n return new Push(RecognizeOperation(node.childs[0]), RecognizeOperation(node.childs[1]), node.row, node.column);\n case literal.operation.POP:\n return new Pop(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.LENGTH:\n return new Length(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.INCREMENT:\n return new Increment(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.DECREMENT:\n return new Decrement(RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.ARRAY_ACCESS:\n return new ArrayAccess(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.operation.FUNCTION_CALL:\n const parametersList = [];\n if(node.childs.length > 0){\n node.childs.forEach((node) => {\n parametersList.push(RecognizeOperation(node));\n });\n }\n return new FunctionCall(node.value, parametersList, node.row, node.column);\n case literal.operation.ARRAY:\n const expresionsList = [];\n node.childs.forEach((node) => {\n expresionsList.push(RecognizeOperation(node));\n });\n return new Array(expresionsList, node.row, node.column);\n case literal.operation.DEFINITION:\n const propertysList = [];\n node.childs.forEach((node) => {\n propertysList.push(RecognizeOperation(node));\n });\n return new Definition(propertysList, node.row, node.column);\n case literal.operation.PROPERTY_DECLARATION:\n return new PropertyDeclaration(node.value, RecognizeOperation(node.childs[0]), node.row, node.column);\n case literal.dataTypes.STRING:\n return Operation.NewOperationValue(literal.dataTypes.STRING, node.value, node.row, node.column);\n case literal.dataTypes.NUMBER:\n return Operation.NewOperationValue(literal.dataTypes.NUMBER, node.value, node.row, node.column);\n case literal.dataTypes.BOOLEAN:\n return Operation.NewOperationValue(literal.dataTypes.BOOLEAN, node.value, node.row, node.column);\n case literal.dataTypes.VARIABLE:\n return Operation.NewOperationValue(literal.dataTypes.VARIABLE, node.value, node.row, node.column);\n default:\n return Operation.NewOperationValue(literal.dataTypes.NULL, null, node.row, node.column);\n }\n}", "function splitSequences(ast) {\n // BEFORE: (a = 1, b = 2)\n // AFTER: a = 1; b = 2;\n query(ast, 'SequenceExpression').forEach(function (node) {\n var prop = \"body\";\n var container = node.parent;\n var self = node;\n if (container.type === \"ExpressionStatement\") {\n self = container;\n container = container.parent;\n }\n if (container.type === \"SwitchCase\") {\n prop = \"consequent\";\n }\n if (!container[prop]) return;\n var index = container[prop].indexOf(self);\n var splitted = [];\n node.expressions.forEach(function (expression) {\n var statement = {\n type: \"ExpressionStatement\",\n expression: expression\n };\n statement.parent = container;\n expression.parent = statement;\n splitted.push(statement);\n });\n container[prop].splice.apply(container[prop], [index, 1].concat(splitted));\n });\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _tokenKind__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_6__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function omitOperations (api) {\n let clone = _.cloneDeep(api);\n\n for (let path of Object.keys(clone.paths)) {\n clone.paths[path] = omitOperationsFromPath(clone.paths[path]);\n }\n\n return clone;\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_4__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_5__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].BRACE_L)) {\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer__WEBPACK_IMPORTED_MODULE_3__[\"TokenKind\"].NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds__WEBPACK_IMPORTED_MODULE_4__[\"Kind\"].OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function extractInternalsFromBrackets(parts, token, indexOffset = 0){\n var depth = -1;\n var args = [];\n for( var i = indexOffset; i < parts.length; i++){\n var inversToken = getInversToken(token);\n var startingIndex;\n var intermediateIndex;\n switch(parts[i]){\n\n case token:\n if(depth < 0)\n intermediateIndex = startingIndex = i + 1;\n depth++;\n break;\n\n case inversToken:\n if(depth == 0){\n args.push(parts.slice(intermediateIndex,i))\n return { endingIndex: i, startingIndex, args };\n }\n depth--;\n break;\n\n case \",\":\n if(depth == 0 && token === \"(\"){\n args.push(parts.slice(intermediateIndex,i));\n intermediateIndex = i + 1;\n }\n break;\n\n default:\n if(token === \"(\" && parts[i].match(/\\($/)){\n if(depth < 0)\n intermediateIndex = startingIndex = i + 1;\n depth++;\n break;\n }\n }\n }\n err(`Missing ${inversToken}`);\n return;\n }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "* garbageCollectOperation (id) {\n this.store.addToDebug('yield* this.garbageCollectOperation(', id, ')')\n var o = yield* this.getOperation(id)\n yield* this.markGarbageCollected(id, (o != null && o.content != null) ? o.content.length : 1) // always mark gc'd\n // if op exists, then clean that mess up..\n if (o != null) {\n var deps = []\n if (o.opContent != null) {\n deps.push(o.opContent)\n }\n if (o.requires != null) {\n deps = deps.concat(o.requires)\n }\n for (var i = 0; i < deps.length; i++) {\n var dep = yield* this.getOperation(deps[i])\n if (dep != null) {\n if (!dep.deleted) {\n yield* this.deleteOperation(dep.id)\n dep = yield* this.getOperation(dep.id)\n }\n dep.gc = true\n yield* this.setOperation(dep)\n this.store.queueGarbageCollector(dep.id)\n } else {\n yield* this.markGarbageCollected(deps[i], 1)\n }\n }\n\n // remove gc'd op from the left op, if it exists\n if (o.left != null) {\n var left = yield* this.getInsertion(o.left)\n left.right = o.right\n yield* this.setOperation(left)\n }\n // remove gc'd op from the right op, if it exists\n // also reset origins of right ops\n if (o.right != null) {\n var right = yield* this.getOperation(o.right)\n right.left = o.left\n yield* this.setOperation(right)\n\n if (o.originOf != null && o.originOf.length > 0) {\n // find new origin of right ops\n // origin is the first left deleted operation\n var neworigin = o.left\n var neworigin_ = null\n while (neworigin != null) {\n neworigin_ = yield* this.getInsertion(neworigin)\n if (neworigin_.deleted) {\n break\n }\n neworigin = neworigin_.left\n }\n\n // reset origin of all right ops (except first right - duh!),\n\n /* ** The following code does not rely on the the originOf property **\n I recently added originOf to all Insert Operations (see Struct.Insert.execute),\n which saves which operations originate in a Insert operation.\n Garbage collecting without originOf is more memory efficient, but is nearly impossible for large texts, or lists!\n But I keep this code for now\n ```\n // reset origin of right\n right.origin = neworigin\n // search until you find origin pointer to the left of o\n if (right.right != null) {\n var i = yield* this.getOperation(right.right)\n var ids = [o.id, o.right]\n while (ids.some(function (id) {\n return Y.utils.compareIds(id, i.origin)\n })) {\n if (Y.utils.compareIds(i.origin, o.id)) {\n // reset origin of i\n i.origin = neworigin\n yield* this.setOperation(i)\n }\n // get next i\n if (i.right == null) {\n break\n } else {\n ids.push(i.id)\n i = yield* this.getOperation(i.right)\n }\n }\n }\n ```\n */\n // ** Now the new implementation starts **\n // reset neworigin of all originOf[*]\n for (var _i in o.originOf) {\n var originsIn = yield* this.getOperation(o.originOf[_i])\n if (originsIn != null) {\n originsIn.origin = neworigin\n yield* this.setOperation(originsIn)\n }\n }\n if (neworigin != null) {\n if (neworigin_.originOf == null) {\n neworigin_.originOf = o.originOf\n } else {\n neworigin_.originOf = o.originOf.concat(neworigin_.originOf)\n }\n yield* this.setOperation(neworigin_)\n }\n // we don't need to set right here, because\n // right should be in o.originOf => it is set it the previous for loop\n }\n }\n // o may originate in another operation.\n // Since o is deleted, we have to reset o.origin's `originOf` property\n if (o.origin != null) {\n var origin = yield* this.getInsertion(o.origin)\n origin.originOf = origin.originOf.filter(function (_id) {\n return !Y.utils.compareIds(id, _id)\n })\n yield* this.setOperation(origin)\n }\n var parent\n if (o.parent != null) {\n parent = yield* this.getOperation(o.parent)\n }\n // remove gc'd op from parent, if it exists\n if (parent != null) {\n var setParent = false // whether to save parent to the os\n if (o.parentSub != null) {\n if (Y.utils.compareIds(parent.map[o.parentSub], o.id)) {\n setParent = true\n if (o.right != null) {\n parent.map[o.parentSub] = o.right\n } else {\n delete parent.map[o.parentSub]\n }\n }\n } else {\n if (Y.utils.compareIds(parent.start, o.id)) {\n // gc'd op is the start\n setParent = true\n parent.start = o.right\n }\n if (Y.utils.matchesId(o, parent.end)) {\n // gc'd op is the end\n setParent = true\n parent.end = o.left\n }\n }\n if (setParent) {\n yield* this.setOperation(parent)\n }\n }\n // finally remove it from the os\n yield* this.removeOperation(o.id)\n }\n }", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function executeOperation(exeContext, operation, rootValue) {\n var type = getOperationRootType(exeContext.schema, operation);\n var fields = collectFields(exeContext, type, operation.selectionSet, _Object$create(null), _Object$create(null));\n\n if (operation.operation === 'mutation') {\n return executeFieldsSerially(exeContext, type, rootValue, fields);\n }\n return executeFields(exeContext, type, rootValue, fields);\n}", "function setOperations(operations, portType) {\n _.forEach(portType.childNodes, node => {\n if (node.localName === 'operation') {\n operations[node.getAttribute('name')] = node;\n }\n });\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n\n if (peek(lexer, TokenKind.BRACE_L)) {\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n\n var operation = parseOperationType(lexer);\n var name;\n\n if (peek(lexer, TokenKind.NAME)) {\n name = parseName(lexer);\n }\n\n return {\n kind: Kind.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer, false),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: undefined,\n\t variableDefinitions: [],\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer, false),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n var start = lexer.token;\n if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: null,\n variableDefinitions: null,\n directives: [],\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n }\n var operation = parseOperationType(lexer);\n var name = void 0;\n if (peek(lexer, _lexer.TokenKind.NAME)) {\n name = parseName(lexer);\n }\n return {\n kind: _kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer),\n directives: parseDirectives(lexer),\n selectionSet: parseSelectionSet(lexer),\n loc: loc(lexer, start)\n };\n}", "function parseOperationDefinition(lexer) {\n\t var start = lexer.token;\n\t if (peek(lexer, _lexer.TokenKind.BRACE_L)) {\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: 'query',\n\t name: null,\n\t variableDefinitions: null,\n\t directives: [],\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t }\n\t var operation = parseOperationType(lexer);\n\t var name = void 0;\n\t if (peek(lexer, _lexer.TokenKind.NAME)) {\n\t name = parseName(lexer);\n\t }\n\t return {\n\t kind: _kinds.OPERATION_DEFINITION,\n\t operation: operation,\n\t name: name,\n\t variableDefinitions: parseVariableDefinitions(lexer),\n\t directives: parseDirectives(lexer),\n\t selectionSet: parseSelectionSet(lexer),\n\t loc: loc(lexer, start)\n\t };\n\t}", "function extractOperation(startPos, inputChangeset){\n var endPos = startPos + 1;\n var operators = \":><$=+-\";\n while(!operators.includes(inputChangeset[endPos]) && endPos<inputChangeset.length){\n endPos++;\n }\n return inputChangeset.slice(startPos,endPos);\n }", "static unpackOperation(operations, column, path, operator, array) {\n switch (operator) {\n case \"lt\" /* LessThan */:\n case \"lte\" /* LessThanOrEqual */:\n case \"eq\" /* Equal */:\n case \"ne\" /* NotEqual */:\n case \"gte\" /* GreaterThanOrEqual */:\n case \"gt\" /* GreaterThan */:\n operations[path] = {\n operator: operator,\n value: this.unpackValue(column, decodeURIComponent(array.pop()))\n };\n break;\n case \"bt\" /* Between */:\n case \"in\" /* Contain */:\n case \"nin\" /* NotContain */:\n const values = [];\n for (let total = parseInt(array.pop()); total > 0; --total) {\n values.push(this.unpackValue(column, decodeURIComponent(array.pop())));\n }\n operations[path] = {\n operator: operator,\n value: values\n };\n break;\n case \"re\" /* RegExp */:\n const regexp = decodeURIComponent(array.pop());\n const flags = decodeURIComponent(array.pop());\n operations[path] = {\n operator: operator,\n value: new RegExp(regexp, flags)\n };\n break;\n default:\n throw new TypeError(`Invalid operator '${operator}' for the given path '${path}'.`);\n }\n }", "function reduceOperators(iObj_ops){ \n\tvar iObj_ops_red = iObj_ops.slice();\n\tvar selected_op;\n\tvar opsStr = '';\n\tfor (var n in iObj_ops) {\n\t\topsStr += iObj_ops[n].val;\n\t}\n\tconsole.log('reduceOperators - opsStr 1: ' + opsStr + ', iObj_ops: ' + JSON.stringify(iObj_ops));\n\n\t// If '+' OR '-' operator are present: -----> delete all '*' and '/' operators\n\t// ===================================\n\tif ((opsStr.indexOf('+')!==-1) || (opsStr.indexOf('-')!==-1)){\n\t\tfor (var i = iObj_ops.length - 1; i >= 0; i--) { \n\t\t\tif ('*/'.indexOf(iObj_ops[i].val)!==-1) {\n\t\t\t\tiObj_ops_red.splice(i, 1);\n\t\t\t}\n\t\t}\n\t\topsStr = opsStr.replace(/(\\*|\\/)/g, '');\n\t\tconsole.log('reduceOperators - opsStr 2: ' + opsStr + ', iObj_ops_red: ' + JSON.stringify(iObj_ops_red));\n\n\t\t////////////////////////////////////////////////////////////////////////////////////////////////\n\t\t//\n\t\t//\tDecide HERE, based on the position of fObj.taget, which operator ('+' or '-') to choose\". NO: just choose the last operator to keep it simple!\n\t\t//\n\t\t////////////////////////////////////////////////////////////////////////////////////////////////\n\n\t\t// At this point there will only be '+'- OR '-'-operators left - choose the last operator:\n\t\tselected_op = iObj_ops_red[iObj_ops_red.length-1];\n\t\tconsole.log('reduceOperators - selected_op: ' + JSON.stringify(selected_op));\n\n\t}\n\n\t// If '*' AND '/' operator are present: -----> delete all '*' operators, and choose the last '/' operator\n\t// ====================================\n\tif ((opsStr.indexOf('*')!==-1) && (opsStr.indexOf('/')!==-1)){\n\t\tfor (var i = iObj_ops.length - 1; i >= 0; i--) { \n\t\t\tif ('*'.indexOf(iObj_ops[i].val)!==-1) {\n\t\t\t\tiObj_ops_red.splice(i, 1);\n\t\t\t}\n\t\t}\n\t\topsStr = opsStr.replace(/\\*/g, '');\n\t\tconsole.log('reduceOperators - opsStr 2: ' + opsStr + ', iObj_ops_red: ' + JSON.stringify(iObj_ops_red));\n\n\t\t// // At this point there will only be '/'-operators left - choose the last '/'-operator:\n\t\t// selected_op = iObj_ops_red[iObj_ops_red.length-1];\n\t\t// console.log('reduceOperators - selected_op: ' + JSON.stringify(selected_op));\n\t}\n\n\t// If '*' OR '/' operators are present: -----> Select the last operator\n\t// ====================================\n\tif ((opsStr.indexOf('*')!==-1) || (opsStr.indexOf('/')!==-1)){\n\t\t\n\t\t// At this point there will only be '/'- OR '*'-operators left - choose the last operator:\n\t\tselected_op = iObj_ops_red[iObj_ops_red.length-1];\n\t\tconsole.log('reduceOperators - selected_op: ' + JSON.stringify(selected_op));\n\t}\n\n\n\treturn selected_op;\n}", "function transformSplit(inputArray, op) {\n let a = [], b = [];\n for (let i = 0; i < inputArray.length; i++) {\n let x = inputArray[i];\n if (typeof x === \"string\" && x[0] !== '_' && x.indexOf(op) >= 0)\n b[i] = x.replace(op, '');\n else\n a[i] = x;\n }\n return [a, b];\n}", "function _filterOperations(data) {\n var updateOps = [];\n var createOps = [];\n for(var i=0; i<data.length; i++) {\n var queryJSON = {};\n //var element = _parseProperty(queryJSON, view_model.primaryKeyProperty);\n //element = _parseProperty(data[i], view_model.primaryKeyProperty);\n\n _.set(queryJSON, view_model.primaryKeyProperty, _.get(data[i], view_model.primaryKeyProperty));\n\n var query = _.findIndex(view_model.serviceDB, queryJSON);\n if( query > -1 ) updateOps.push(data[i]);\n else createOps.push(data[i]);\n }\n return { updateOperations: updateOps, createOperations: createOps };\n }", "* tryExecute (op) {\n this.store.addToDebug('yield* this.store.tryExecute.call(this, ', JSON.stringify(op), ')')\n if (op.struct === 'Delete') {\n yield* Y.Struct.Delete.execute.call(this, op)\n // this is now called in Transaction.deleteOperation!\n // yield* this.store.operationAdded(this, op)\n } else {\n // check if this op was defined\n var defined = yield* this.getInsertion(op.id)\n while (defined != null && defined.content != null) {\n // check if this op has a longer content in the case it is defined\n if (defined.id[1] + defined.content.length < op.id[1] + op.content.length) {\n var overlapSize = defined.content.length - (op.id[1] - defined.id[1])\n op.content.splice(0, overlapSize)\n op.id = [op.id[0], op.id[1] + overlapSize]\n op.left = Y.utils.getLastId(defined)\n op.origin = op.left\n defined = yield* this.getOperation(op.id) // getOperation suffices here\n } else {\n break\n }\n }\n if (defined == null) {\n var opid = op.id\n var isGarbageCollected = yield* this.isGarbageCollected(opid)\n if (!isGarbageCollected) {\n // TODO: reduce number of get / put calls for op ..\n yield* Y.Struct[op.struct].execute.call(this, op)\n yield* this.addOperation(op)\n yield* this.store.operationAdded(this, op)\n // operationAdded can change op..\n op = yield* this.getOperation(opid)\n // if insertion, try to combine with left\n yield* this.tryCombineWithLeft(op)\n }\n }\n }\n }", "function concatAST(asts) {\n return {\n kind: 'Document',\n definitions: Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(asts, function (ast) {\n return ast.definitions;\n })\n };\n}", "function executeOperation(exeContext, operation, rootValue) {\n var type = Object(_utilities_getOperationRootType_mjs__WEBPACK_IMPORTED_MODULE_19__[\"getOperationRootType\"])(exeContext.schema, operation);\n var fields = collectFields(exeContext, type, operation.selectionSet, Object.create(null), Object.create(null));\n var path = undefined; // Errors from sub-fields of a NonNull type may propagate to the top level,\n // at which point we still log the error and null the parent field, which\n // in this case is the entire response.\n\n try {\n var result = operation.operation === 'mutation' ? executeFieldsSerially(exeContext, type, rootValue, path, fields) : executeFields(exeContext, type, rootValue, path, fields);\n\n if (Object(_jsutils_isPromise_mjs__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(result)) {\n return result.then(undefined, function (error) {\n exeContext.errors.push(error);\n return Promise.resolve(null);\n });\n }\n\n return result;\n } catch (error) {\n exeContext.errors.push(error);\n return null;\n }\n}", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function concatAST(asts) {\n return {\n kind: 'Document',\n definitions: Object(_polyfills_flatMap_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(asts, function (ast) {\n return ast.definitions;\n })\n };\n}", "function endOperations(group) {\n var ops = group.ops\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]) }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]) }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]) }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]) }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]) }\n}", "function endOperations(group) {\n var ops = group.ops\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]) }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]) }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]) }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]) }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]) }\n}", "toIndexedTree() {\r\n let builderIndex = -1;\r\n let lastOpId = -1;\r\n const idIndexMap = [];\r\n return this.toArray().map((op, index, arr) => {\r\n const opId = ++builderIndex;\r\n // track the array index => opId relationship\r\n idIndexMap.push(opId);\r\n // do path replacements\r\n op.path = opSetPathParamId(idIndexMap, opSetId(opId.toString(), op.path));\r\n if (lastOpId >= 0) {\r\n // if we have a parent do the replace\r\n op.path = opSetParentId(lastOpId.toString(), op.path);\r\n }\r\n // rewrite actions with placeholders replaced\r\n op.actions = op.actions.map(a => {\r\n const actionId = ++builderIndex;\r\n return opSetId(actionId.toString(), opSetPathId(opId.toString(), a));\r\n });\r\n // handle any specific child relationships\r\n this.getChildRelationship(index).forEach(childIndex => {\r\n // set the parent id for our non-immediate children, thus removing the token so it isn't overwritten\r\n arr[childIndex].path = opSetParentId(opId.toString(), arr[childIndex].path);\r\n });\r\n // and remember our last object path id for the parent replace above\r\n lastOpId = opId;\r\n return op;\r\n });\r\n }", "function flatten(stx) {\n return _.reduce(stx, function (acc, stx$2) {\n if (stx$2.token.type === parser.Token.Delimiter) {\n var exposed = stx$2.expose();\n var openParen = syntaxFromToken({\n type: parser.Token.Punctuator,\n value: stx$2.token.value[0],\n range: stx$2.token.startRange,\n sm_range: typeof stx$2.token.sm_startRange == 'undefined' ? stx$2.token.startRange : stx$2.token.sm_startRange,\n lineNumber: stx$2.token.startLineNumber,\n sm_lineNumber: typeof stx$2.token.sm_startLineNumber == 'undefined' ? stx$2.token.startLineNumber : stx$2.token.sm_startLineNumber,\n lineStart: stx$2.token.startLineStart,\n sm_lineStart: typeof stx$2.token.sm_startLineStart == 'undefined' ? stx$2.token.startLineStart : stx$2.token.sm_startLineStart\n }, exposed);\n var closeParen = syntaxFromToken({\n type: parser.Token.Punctuator,\n value: stx$2.token.value[1],\n range: stx$2.token.endRange,\n sm_range: typeof stx$2.token.sm_endRange == 'undefined' ? stx$2.token.endRange : stx$2.token.sm_endRange,\n lineNumber: stx$2.token.endLineNumber,\n sm_lineNumber: typeof stx$2.token.sm_endLineNumber == 'undefined' ? stx$2.token.endLineNumber : stx$2.token.sm_endLineNumber,\n lineStart: stx$2.token.endLineStart,\n sm_lineStart: typeof stx$2.token.sm_endLineStart == 'undefined' ? stx$2.token.endLineStart : stx$2.token.sm_endLineStart\n }, exposed);\n if (stx$2.token.leadingComments) {\n openParen.token.leadingComments = stx$2.token.leadingComments;\n }\n if (stx$2.token.trailingComments) {\n openParen.token.trailingComments = stx$2.token.trailingComments;\n }\n acc.push(openParen);\n push.apply(acc, flatten(exposed.token.inner));\n acc.push(closeParen);\n return acc;\n }\n stx$2.token.sm_lineNumber = stx$2.token.sm_lineNumber ? stx$2.token.sm_lineNumber : stx$2.token.lineNumber;\n stx$2.token.sm_lineStart = stx$2.token.sm_lineStart ? stx$2.token.sm_lineStart : stx$2.token.lineStart;\n stx$2.token.sm_range = stx$2.token.sm_range ? stx$2.token.sm_range : stx$2.token.range;\n acc.push(stx$2);\n return acc;\n }, []);\n }", "function generateSetOperation(ast, options) {\n var members = ast.params.map(function (_) { return generateType(_, options); });\n var separator = ast.type === 'UNION' ? '|' : '&';\n return members.length === 1 ? members[0] : '(' + members.join(' ' + separator + ' ') + ')';\n}", "function makeOperation() {\n var result;\n\n var pairs = getPairs(mathExpression);\n while(pairs.length > 0) {\n var pairIdx;\n for(var i = 0; i < pairs.length; i++) {\n pairIdx = i;\n if(pairs[i].sign === '*') {\n result = pairs[i].numberOne * pairs[i].numberTwo;\n break;\n } else if(pairs[i].sign === '/') {\n result = pairs[i].numberOne / pairs[i].numberTwo;\n break;\n } else if(pairs[i].sign === '+') {\n result = pairs[i].numberOne + pairs[i].numberTwo;\n }\n }\n var newMathExp = \"\";\n for(var i = 0; i < pairs.length; i++) {\n if(i === pairIdx) {\n newMathExp += result;\n } else if(!!pairs[i] && i > pairIdx) {\n newMathExp += pairs[i].sign;\n newMathExp += pairs[i].numberTwo;\n } else if(!!pairs[i] && i < pairIdx) {\n newMathExp += pairs[i].numberOne;\n newMathExp += pairs[i].sign;\n }\n }\n pairs = getPairs(newMathExp);\n }\n if(result == null) {\n result = mathExpression;\n }\n\n printMathExpression(result);\n}", "* getOperations (startSS) {\n // TODO: use bounds here!\n if (startSS == null) {\n startSS = {}\n }\n var send = []\n\n var endSV = yield* this.getStateVector()\n for (var endState of endSV) {\n var user = endState.user\n if (user === '_') {\n continue\n }\n var startPos = startSS[user] || 0\n if (startPos > 0) {\n // There is a change that [user, startPos] is in a composed Insertion (with a smaller counter)\n // find out if that is the case\n var firstMissing = yield* this.getInsertion([user, startPos])\n if (firstMissing != null) {\n // update startPos\n startPos = firstMissing.id[1]\n startSS[user] = startPos\n }\n }\n yield* this.os.iterate(this, [user, startPos], [user, Number.MAX_VALUE], function * (op) {\n op = Y.Struct[op.struct].encode(op)\n if (op.struct !== 'Insert') {\n send.push(op)\n } else if (op.right == null || op.right[1] < (startSS[op.right[0]] || 0)) {\n // case 1. op.right is known\n var o = op\n // Remember: ?\n // -> set op.right\n // 1. to the first operation that is known (according to startSS)\n // 2. or to the first operation that has an origin that is not to the\n // right of op.\n // For this we maintain a list of ops which origins are not found yet.\n var missing_origins = [op]\n var newright = op.right\n while (true) {\n if (o.left == null) {\n op.left = null\n send.push(op)\n if (!Y.utils.compareIds(o.id, op.id)) {\n o = Y.Struct[op.struct].encode(o)\n o.right = missing_origins[missing_origins.length - 1].id\n send.push(o)\n }\n break\n }\n o = yield* this.getInsertion(o.left)\n // we set another o, check if we can reduce $missing_origins\n while (missing_origins.length > 0 && Y.utils.matchesId(o, missing_origins[missing_origins.length - 1].origin)) {\n missing_origins.pop()\n }\n if (o.id[1] < (startSS[o.id[0]] || 0)) {\n // case 2. o is known\n op.left = Y.utils.getLastId(o)\n send.push(op)\n break\n } else if (Y.utils.matchesId(o, op.origin)) {\n // case 3. o is op.origin\n op.left = op.origin\n send.push(op)\n op = Y.Struct[op.struct].encode(o)\n op.right = newright\n if (missing_origins.length > 0) {\n console.log('This should not happen .. :( please report this')\n }\n missing_origins = [op]\n } else {\n // case 4. send o, continue to find op.origin\n var s = Y.Struct[op.struct].encode(o)\n s.right = missing_origins[missing_origins.length - 1].id\n s.left = s.origin\n send.push(s)\n missing_origins.push(o)\n }\n }\n }\n })\n }\n return send.reverse()\n }", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function endOperations(group) {\n var ops = group.ops;\n for (var i = 0; i < ops.length; i++) // Read DOM\n { endOperation_R1(ops[i]); }\n for (var i$1 = 0; i$1 < ops.length; i$1++) // Write DOM (maybe)\n { endOperation_W1(ops[i$1]); }\n for (var i$2 = 0; i$2 < ops.length; i$2++) // Read DOM\n { endOperation_R2(ops[i$2]); }\n for (var i$3 = 0; i$3 < ops.length; i$3++) // Write DOM (maybe)\n { endOperation_W2(ops[i$3]); }\n for (var i$4 = 0; i$4 < ops.length; i$4++) // Read DOM\n { endOperation_finish(ops[i$4]); }\n}", "function parseOperationDefinition(lexer$$1) {\n var start = lexer$$1.token;\n if (peek(lexer$$1, lexer.TokenKind.BRACE_L)) {\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: 'query',\n name: undefined,\n variableDefinitions: [],\n directives: [],\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n }\n var operation = parseOperationType(lexer$$1);\n var name = void 0;\n if (peek(lexer$$1, lexer.TokenKind.NAME)) {\n name = parseName(lexer$$1);\n }\n return {\n kind: kinds.OPERATION_DEFINITION,\n operation: operation,\n name: name,\n variableDefinitions: parseVariableDefinitions(lexer$$1),\n directives: parseDirectives(lexer$$1, false),\n selectionSet: parseSelectionSet(lexer$$1),\n loc: loc(lexer$$1, start)\n };\n}", "function executeOperation(exeContext, operation, rootValue) {\n var type = (0, _getOperationRootType.getOperationRootType)(exeContext.schema, operation);\n var fields = collectFields(exeContext, type, operation.selectionSet, Object.create(null), Object.create(null));\n var path = undefined; // Errors from sub-fields of a NonNull type may propagate to the top level,\n // at which point we still log the error and null the parent field, which\n // in this case is the entire response.\n\n try {\n var result = operation.operation === 'mutation' ? executeFieldsSerially(exeContext, type, rootValue, path, fields) : executeFields(exeContext, type, rootValue, path, fields);\n\n if ((0, _isPromise.default)(result)) {\n return result.then(undefined, function (error) {\n exeContext.errors.push(error);\n return Promise.resolve(null);\n });\n }\n\n return result;\n } catch (error) {\n exeContext.errors.push(error);\n return null;\n }\n}", "function executeOperation(exeContext, operation, rootValue) {\n var type = (0, _getOperationRootType.getOperationRootType)(exeContext.schema, operation);\n var fields = collectFields(exeContext, type, operation.selectionSet, Object.create(null), Object.create(null));\n var path = undefined; // Errors from sub-fields of a NonNull type may propagate to the top level,\n // at which point we still log the error and null the parent field, which\n // in this case is the entire response.\n\n try {\n var result = operation.operation === 'mutation' ? executeFieldsSerially(exeContext, type, rootValue, path, fields) : executeFields(exeContext, type, rootValue, path, fields);\n\n if ((0, _isPromise.default)(result)) {\n return result.then(undefined, function (error) {\n exeContext.errors.push(error);\n return Promise.resolve(null);\n });\n }\n\n return result;\n } catch (error) {\n exeContext.errors.push(error);\n return null;\n }\n}", "function syncTreeApplyOperationHelper_(operation, syncPointTree, serverCache, writesCache) {\n if (pathIsEmpty(operation.path)) {\n return syncTreeApplyOperationDescendantsHelper_(operation, syncPointTree, serverCache, writesCache);\n }\n else {\n var syncPoint = syncPointTree.get(newEmptyPath());\n // If we don't have cached server data, see if we can get it from this SyncPoint.\n if (serverCache == null && syncPoint != null) {\n serverCache = syncPointGetCompleteServerCache(syncPoint, newEmptyPath());\n }\n var events = [];\n var childName = pathGetFront(operation.path);\n var childOperation = operation.operationForChild(childName);\n var childTree = syncPointTree.children.get(childName);\n if (childTree && childOperation) {\n var childServerCache = serverCache\n ? serverCache.getImmediateChild(childName)\n : null;\n var childWritesCache = writeTreeRefChild(writesCache, childName);\n events = events.concat(syncTreeApplyOperationHelper_(childOperation, childTree, childServerCache, childWritesCache));\n }\n if (syncPoint) {\n events = events.concat(syncPointApplyOperation(syncPoint, operation, writesCache, serverCache));\n }\n return events;\n }\n}", "function astify(tokens) {\n\n\t\tfunction helper(opening_bracket) {\n\t\t\t// Tree nodes have keys [children, start, end]\n\t\t\tvar result = {children: [], start: opening_bracket ? opening_bracket.start : \"1:1\"};\n\t\t\twhile (tokens.length > 0) {\n\t\t\t\tif (tokens[0].text == \"(\" || tokens[0].text == \"[\") {\n\t\t\t\t\tvar bracket = tokens[0];\n\t\t\t\t\tstorage.push(tokens.shift());\n\t\t\t\t\tresult.children.push(helper(bracket));\n\t\t\t\t} else if (tokens[0].text == \")\" || tokens[0].text == \"]\") {\n\t\t\t\t\tif (!opening_bracket || tokens[0].text != brackets_map[opening_bracket.text]) {\n\t\t\t\t\t\tthrow util.make_church_error(\"SyntaxError\", tokens[0].start, tokens[0].end, \"Unexpected close parens\");\n\t\t\t\t\t} else {\n\t\t\t\t\t\tresult[\"end\"] = tokens[0].start;\n\t\t\t\t\t\topening_bracket.end = tokens[0].start;\n\t\t\t\t\t\tstorage.push(tokens.shift());\n\t\t\t\t\t\treturn result;\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\tvar token = tokens.shift();\n\t\t\t\t\tstorage.push(token);\n\t\t\t\t\tresult.children.push(token);\n\t\t\t\t}\n\t\t\t}\n\t\t\tif (!opening_bracket) {\n\t\t\t\treturn result;\n\t\t\t} else {\n\t\t\t\tthrow util.make_church_error(\"SyntaxError\", opening_bracket.start, opening_bracket.end, \"Unclosed parens\");\n\t\t\t}\n\t\t}\n\t\tvar storage = [];\n\t\tvar ast = helper();\n\t\tfor (var i = 0; i < storage.length; i++) {\n\t\t\ttokens.push(storage[i]);\n\t\t}\n\t\treturn ast;\n\t}" ]
[ "0.8374256", "0.8355116", "0.8355116", "0.8323192", "0.8316201", "0.82667154", "0.8087221", "0.5841627", "0.58005786", "0.58005786", "0.57366604", "0.57366604", "0.5730869", "0.5730869", "0.572303", "0.56546056", "0.5631241", "0.55107546", "0.5228565", "0.5228565", "0.5228565", "0.5114161", "0.50960356", "0.50620145", "0.5041078", "0.5041078", "0.5041078", "0.5038064", "0.50323564", "0.50323564", "0.50226974", "0.4998774", "0.49725395", "0.49725395", "0.49643025", "0.49249431", "0.49249431", "0.49223965", "0.49150738", "0.49112916", "0.48698682", "0.48565742", "0.48520365", "0.48155665", "0.4795586", "0.4795586", "0.47898713", "0.4786096", "0.47692165", "0.47659683", "0.4761531", "0.4761531", "0.4761531", "0.4761531", "0.47587186", "0.47581938", "0.47561803", "0.47480965", "0.4732994", "0.4732994", "0.4732994", "0.4732994", "0.4732994", "0.4732994", "0.47321278", "0.4725842", "0.46751013", "0.4674397", "0.46648714", "0.46342897", "0.46093938", "0.4600868", "0.45961118", "0.4580705", "0.4580705", "0.4580705", "0.45565307", "0.4553932", "0.4553932", "0.4552643", "0.45458227", "0.4542688", "0.45368198", "0.45251396", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4520725", "0.4518404", "0.4518293", "0.4518293", "0.45066196", "0.4485352" ]
0.8288285
5
Copyright (c) 2015present, Facebook, Inc. This source code is licensed under the MIT license found in the LICENSE file in the root directory of this source tree. Provides the empty string for anonymous operations.
function opName(operation) { return operation.name ? operation.name.value : ''; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function anonOperationNotAloneMessage() {\n return 'This anonymous operation must be the only defined operation.';\n}", "function funcName(func) {\n return func.name || \"{anonymous}\"\n }", "function getAnonymousAccessToken() {\n return '18cdaa6481c0d5f323351ea1029fc065';\n}", "function opName(operation) {\n\t return operation.name ? operation.name.value : '';\n\t}", "async getNoParam() {\n\t\treturn \"\";\n\t}", "function currentUserNameOrAnonymous() {\n var u = currentUser();\n return u ? u.name : ANONYMOUS_USER.name;\n}", "get usernameEmptyText() {\n return \"\";\n }", "function String$empty() {\n return '';\n }", "function String$empty() {\n return '';\n }", "function LoneAnonymousOperation(context) {\n var operationCount = 0;\n return {\n Document: function Document(node) {\n operationCount = node.definitions.filter(function (definition) {\n return definition.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_1__[\"Kind\"].OPERATION_DEFINITION;\n }).length;\n },\n OperationDefinition: function OperationDefinition(node) {\n if (!node.name && operationCount > 1) {\n context.reportError(new _error_GraphQLError__WEBPACK_IMPORTED_MODULE_0__[\"GraphQLError\"](anonOperationNotAloneMessage(), node));\n }\n }\n };\n}", "function universalGreeting(name) {\n // console.log(`Hello ${name}!!`);\n return `Hello ${name}!!`;\n}", "function funcname(f) {\n const s = f.toString().match(/function (\\w*)/)[1];\n if ((s === null) || (s.length === 0)){ return \"~anonymous~\";}\n return s;\n}", "function justDoIt(name){\n\n console.log(`${name} JUST DO IT!`);\n}", "function LoneAnonymousOperation(context) {\n var operationCount = 0;\n return {\n Document: function Document(node) {\n operationCount = node.definitions.filter(function (definition) {\n return definition.kind === _languageKinds.OPERATION_DEFINITION;\n }).length;\n },\n OperationDefinition: function OperationDefinition(node) {\n if (!node.name && operationCount > 1) {\n context.reportError(new _error.GraphQLError(anonOperationNotAloneMessage(), [node]));\n }\n }\n };\n}", "function justDoIt(name) {\n return `${name}, JUST DO IT!`;\n}", "function noop() { } // tslint:disable-line:no-empty", "function LoneAnonymousOperation(context) {\n\t var operationCount = 0;\n\t return {\n\t Document: function Document(node) {\n\t operationCount = node.definitions.filter(function (definition) {\n\t return definition.kind === _languageKinds.OPERATION_DEFINITION;\n\t }).length;\n\t },\n\t OperationDefinition: function OperationDefinition(node) {\n\t if (!node.name && operationCount > 1) {\n\t context.reportError(new _error.GraphQLError(anonOperationNotAloneMessage(), [node]));\n\t }\n\t }\n\t };\n\t}", "function LoneAnonymousOperation(context) {\n var operationCount = 0;\n return {\n Document: function Document(node) {\n operationCount = node.definitions.filter(function (definition) {\n return definition.kind === _kinds.OPERATION_DEFINITION;\n }).length;\n },\n OperationDefinition: function OperationDefinition(node) {\n if (!node.name && operationCount > 1) {\n context.reportError(new _error.GraphQLError(anonOperationNotAloneMessage(), [node]));\n }\n }\n };\n}", "function noop(){// No operation performed.\n}", "function noop(){// No operation performed.\n}", "function noop(){// No operation performed.\n}", "function noop() {// No operation performed.\n }", "function noop() {\n // No operation performed.\n }", "function noop() {\n // No operation performed.\n }", "function noop() {\n // No operation performed.\n }", "function justDoIt(name){\n console.log(`${name}, JUST DO IT !!`);\n}", "function noop(){\n// No operation performed.\n}", "function noop(){\n// No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}", "function noop() {\n // No operation performed.\n}" ]
[ "0.6723057", "0.60533273", "0.58629614", "0.58295256", "0.5754795", "0.5647995", "0.56423646", "0.5589107", "0.5589107", "0.55403537", "0.5523034", "0.5497931", "0.54720825", "0.54704314", "0.545724", "0.5454261", "0.5445035", "0.54419726", "0.5420199", "0.5420199", "0.5420199", "0.539119", "0.53628653", "0.53628653", "0.53628653", "0.5359108", "0.53585845", "0.53585845", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335", "0.5328335" ]
0.57936543
5
From a dependency graph, collects a list of transitive dependencies by recursing through a dependency graph.
function collectTransitiveDependencies(collected, depGraph, fromName) { var immediateDeps = depGraph[fromName]; if (immediateDeps) { Object.keys(immediateDeps).forEach(function (toName) { if (!collected[toName]) { collected[toName] = true; collectTransitiveDependencies(collected, depGraph, toName); } }); } }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function collectTransitiveDependencies(collected, depGraph, fromName) {\n if (!collected.has(fromName)) {\n collected.add(fromName);\n var immediateDeps = depGraph[fromName];\n\n if (immediateDeps !== undefined) {\n for (var _i8 = 0; _i8 < immediateDeps.length; _i8++) {\n var toName = immediateDeps[_i8];\n collectTransitiveDependencies(collected, depGraph, toName);\n }\n }\n }\n}", "function collectTransitiveDependencies(collected, depGraph, fromName) {\n if (!collected.has(fromName)) {\n collected.add(fromName);\n var immediateDeps = depGraph[fromName];\n\n if (immediateDeps !== undefined) {\n for (var _i8 = 0; _i8 < immediateDeps.length; _i8++) {\n var toName = immediateDeps[_i8];\n collectTransitiveDependencies(collected, depGraph, toName);\n }\n }\n }\n}", "function collectTransitiveDependencies(collected, depGraph, fromName) {\n\t var immediateDeps = depGraph[fromName];\n\t if (immediateDeps) {\n\t Object.keys(immediateDeps).forEach(function (toName) {\n\t if (!collected[toName]) {\n\t collected[toName] = true;\n\t collectTransitiveDependencies(collected, depGraph, toName);\n\t }\n\t });\n\t }\n\t}", "function collectTransitiveDependencies(collected, depGraph, fromName) {\n var immediateDeps = depGraph[fromName];\n\n if (immediateDeps) {\n var _arr3 = Object.keys(immediateDeps);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var toName = _arr3[_i3];\n\n if (!collected[toName]) {\n collected[toName] = true;\n collectTransitiveDependencies(collected, depGraph, toName);\n }\n }\n }\n}", "function collectTransitiveDependencies(collected, depGraph, fromName) {\n var immediateDeps = depGraph[fromName];\n\n if (immediateDeps) {\n for (var _i4 = 0, _Object$keys2 = Object.keys(immediateDeps); _i4 < _Object$keys2.length; _i4++) {\n var toName = _Object$keys2[_i4];\n\n if (!collected[toName]) {\n collected[toName] = true;\n collectTransitiveDependencies(collected, depGraph, toName);\n }\n }\n }\n}", "function collectTransitiveDependencies(collected, depGraph, fromName) {\n var immediateDeps = depGraph[fromName];\n\n if (immediateDeps) {\n for (var _i4 = 0, _Object$keys2 = Object.keys(immediateDeps); _i4 < _Object$keys2.length; _i4++) {\n var toName = _Object$keys2[_i4];\n\n if (!collected[toName]) {\n collected[toName] = true;\n collectTransitiveDependencies(collected, depGraph, toName);\n }\n }\n }\n}", "function traverseDependencyGraph(graph, package, affectedPackages) {\n // Terminate early if the package has been visited.\n if (affectedPackages.has(package)) {\n return;\n }\n\n const consumingPackages = graph[package];\n\n if (!consumingPackages) {\n return;\n }\n\n consumingPackages.forEach(consumingPackage => {\n traverseDependencyGraph(graph, consumingPackage, affectedPackages);\n affectedPackages.add(consumingPackage);\n });\n}", "toDependencyGraph() {\n return _.map(\n // FIND MAX UNIQUE VERSION FIRST\n _.groupBy(this.allDependencies,\"name\"), versionGroup =>\n versionGroup.reduce((maxVersion, version) =>\n !maxVersion || getValue(() =>\n SemVer.gt(SemVer.coerce(version.version),SemVer.coerce(maxVersion.version)),\n version.version <= maxVersion.version\n ) ?\n version :\n maxVersion\n , null))\n \n // SORT BY INTER-DEPENDENCY\n .sort((depA,depB) => {\n const\n depADependencies = this.collectDependencies(depA.project),\n depBDependencies = this.collectDependencies(depB.project),\n depARequiresB = depADependencies.includes(depB.name),\n depBRequiresA = depBDependencies.includes(depA.name)\n \n if (depARequiresB && depBRequiresA)\n throw `Dependency circular requirement: ${depA.name} <~> ${depB.name}`\n \n return (!depARequiresB && !depARequiresB) ? 0 : depARequiresB ? 1 : -1\n })\n \n \n }", "function getDepsRecursive(field, visited = []) {\n\tif (visited.indexOf(field) !== -1) return\n\n\tvisited.push(field)\n\tfor (let dep of field.directDependencies) getDepsRecursive(dep, visited)\n\n\treturn visited\n}", "function getDependencyListForGraph(graph) {\n // We need to do this because if A dependency on bundled B\n // And A has a secondary entry point A/1 we want only to bundle B if it's used.\n // Also if A/1 depends on A we don't want to bundle A thus we mark this a dependency.\n const dependencyList = {\n dependencies: [],\n bundledDependencies: [],\n };\n for (const entry of graph.filter(nodes_1.isEntryPoint)) {\n const { bundledDependencies = [], dependencies = {}, peerDependencies = {} } = entry.data.entryPoint.packageJson;\n dependencyList.bundledDependencies = array_1.unique(dependencyList.bundledDependencies.concat(bundledDependencies));\n dependencyList.dependencies = array_1.unique(dependencyList.dependencies.concat(Object.keys(dependencies), Object.keys(peerDependencies), entry.data.entryPoint.moduleId));\n }\n if (dependencyList.bundledDependencies.length) {\n log.warn(`Inlining of 'bundledDependencies' has been deprecated in version 5 and will be removed in future versions.` +\n '\\n' +\n `List the dependency in the 'peerDependencies' section instead.`);\n }\n return dependencyList;\n}", "function resolve(graph) {\n var sorted = [], // sorted list of IDs ( returned value )\n visited = {}; // hash: id of already visited node => true\n\n // 2. topological sort\n Object.keys(graph).forEach(function visit(name, ancestors) {\n if (!Array.isArray(ancestors)) ancestors = [];\n ancestors.push(name);\n visited[name] = true;\n\n graph[name].forEach(function (dep) {\n if (ancestors.indexOf(dep) >= 0)\n // if already in ancestors, a closed chain exists.\n throw new Error(\n 'Circular dependency \"' +\n dep +\n '\" is required by \"' +\n name +\n '\": ' +\n ancestors.join(\" -> \")\n );\n\n // if already exists, do nothing\n if (visited[dep]) return;\n visit(dep, ancestors.slice(0)); // recursive call\n });\n\n if (sorted.indexOf(name) < 0) sorted.push(name);\n });\n\n return sorted;\n}", "function topoSort (deps) {\n // Build reversed adjacency list\n var adj = {}\n var inDegree = {}\n var index = {}\n deps.forEach(function (dep) {\n var v = dep.id\n var nbhd = Object.keys(dep.deps)\n index[dep.id] = dep\n inDegree[v] = nbhd.length\n nbhd.forEach(function (filename) {\n var u = dep.deps[filename]\n if (adj[u]) {\n adj[u].push(v)\n } else {\n adj[u] = [v]\n }\n })\n })\n\n // Initialize toVisit queue\n var result = []\n var inverse = {}\n deps.forEach(function (dep) {\n var v = dep.id\n if (!adj[v]) {\n adj[v] = []\n }\n if (inDegree[v] === 0) {\n inverse[v] = result.length\n result.push(v)\n }\n })\n\n // Run BFS\n for (var ptr = 0; ptr < result.length; ptr++) {\n var v = result[ptr]\n adj[v].forEach(function (u) {\n if (--inDegree[u] === 0) {\n inverse[u] = result.length\n result.push(u)\n }\n })\n }\n\n if (result.length !== deps.length) {\n throw new Error('cyclic dependency')\n }\n\n // Relabel dependencies\n return result.map(function (v) {\n var dep = index[v]\n var deps = dep.deps\n var ndeps = {}\n Object.keys(deps).forEach(function (filename) {\n ndeps[filename] = inverse[deps[filename]] | 0\n })\n return {\n id: inverse[v] | 0,\n deps: ndeps,\n file: dep.file,\n source: dep.source,\n entry: dep.entry\n }\n })\n}", "function traverse(config) {\n const tree = [];\n const stack = [config.filename];\n\n while (stack.length) {\n const dependency = stack.pop();\n debug(`traversing ${dependency}`);\n\n if (config.visited[dependency]) {\n populateFromCache(dependency);\n } else {\n traverseDependency(dependency);\n }\n }\n\n return tree;\n\n function traverseDependency(dependency) {\n const localConfig = config.clone();\n localConfig.filename = dependency;\n\n let dependencies = module.exports._getDependencies(localConfig);\n\n if (config.filter) {\n debug('using filter function to filter out dependencies');\n debug(`number of dependencies before filtering: ${dependencies.length}`);\n dependencies = dependencies.filter(function (filePath) {\n return localConfig.filter(filePath, localConfig.filename);\n });\n debug(`number of dependencies after filtering: ${dependencies.length}`);\n }\n\n debug('cabinet-resolved all dependencies: ', dependencies); // @ts-ignore AUTO-ADDED-AFTER-MIGRATION-PLEASE-FIX!\n\n tree[dependency] = dependencies;\n const filePathMap = config.pathMap.find(pathMapEntry => pathMapEntry.file === dependency);\n if (!filePathMap) throw new Error(`file ${dependency} is missing from PathMap`);\n config.visited[dependency] = {\n pathMap: filePathMap,\n missing: config.nonExistent[dependency],\n error: config.errors[dependency]\n };\n stack.push(...dependencies);\n }\n\n function populateFromCache(dependency) {\n debug(`already visited ${dependency}. Will try to find it and its dependencies in the cache`);\n const dependenciesStack = [dependency];\n\n while (dependenciesStack.length) {\n findAllDependenciesInCache(dependenciesStack);\n }\n }\n\n function findAllDependenciesInCache(dependenciesStack) {\n const dependency = dependenciesStack.pop();\n\n if (!config.visited[dependency]) {\n debug(`unable to find ${dependency} in the cache, it was probably filtered before`);\n return;\n }\n\n debug(`found ${dependency} in the cache`);\n const dependencies = config.visited[dependency].pathMap.dependencies.map(d => d.resolvedDep); // @ts-ignore AUTO-ADDED-AFTER-MIGRATION-PLEASE-FIX!\n\n tree[dependency] = dependencies;\n config.pathMap.push(config.visited[dependency].pathMap);\n\n if (config.visited[dependency].missing) {\n config.nonExistent[dependency] = config.visited[dependency].missing;\n }\n\n if (config.visited[dependency].error) {\n config.errors[dependency] = config.visited[dependency].error;\n }\n\n dependencies.forEach(d => {\n if (!tree[d]) dependenciesStack.push(d);\n });\n }\n}", "partitionCycles() {\n const cyclePaths = new Set();\n const cycleNodes = new Set();\n\n this.forEach((currentNode, currentName) => {\n const seen = new Set();\n\n const visits = walk => (dependentNode, dependentName, siblingDependents) => {\n const step = walk.concat(dependentName);\n\n if (seen.has(dependentNode)) {\n return;\n }\n\n seen.add(dependentNode);\n\n if (dependentNode === currentNode) {\n // a direct cycle\n cycleNodes.add(currentNode);\n cyclePaths.add(step);\n\n return;\n }\n\n if (siblingDependents.has(currentName)) {\n // a transitive cycle\n const cycleDependentName = Array.from(dependentNode.localDependencies).find(([key]) =>\n currentNode.localDependents.has(key)\n );\n const pathToCycle = step\n .slice()\n .reverse()\n .concat(cycleDependentName);\n\n cycleNodes.add(dependentNode);\n cyclePaths.add(pathToCycle);\n }\n\n dependentNode.localDependents.forEach(visits(step));\n };\n\n currentNode.localDependents.forEach(visits([currentName]));\n });\n\n if (cycleNodes.size) {\n this.prune(...cycleNodes);\n }\n\n return [cyclePaths, cycleNodes];\n }", "checkNodesForCircularDependencies(graph) {\n // for each node in the dependency graph, check for circular dependencies\n for (let nodeName in this.graph.nodes) {\n let dependencyPathTaken = []; // record of path when looking for cicular dependency; reset each time\n logger_1.default.system.debug(`BootDependencyGraph.checkNodesForCircularDependencies -- nodeName=${nodeName}`);\n let isCircular = this.testOneNodeForCircularPath(dependencyPathTaken, nodeName);\n if (isCircular) {\n this.errorDiag = new DGDiagnostics(`${this.context} circular dependency`, dependencyPathTaken);\n this.graphState = \"error\";\n throw this.errorDiag.description;\n }\n }\n }", "findCycles(sf, visited = new WeakSet(), path = []) {\n const previousIndex = path.indexOf(sf);\n // If the given node is already part of the current path, then a cycle has\n // been found. Add the reference chain which represents the cycle to the results.\n if (previousIndex !== -1) {\n return [path.slice(previousIndex)];\n }\n // If the node has already been visited, then it's not necessary to go check its edges\n // again. Cycles would have been already detected and collected in the first check.\n if (visited.has(sf)) {\n return [];\n }\n path.push(sf);\n visited.add(sf);\n // Go through all edges, which are determined through import/exports, and collect cycles.\n const result = [];\n for (const ref of getModuleReferences(sf)) {\n const targetFile = this._resolveImport(ref, sf.fileName);\n if (targetFile !== null) {\n result.push(...this.findCycles(this.getSourceFile(targetFile), visited, path.slice()));\n }\n }\n return result;\n }", "function topologicalSearch(deps, projects) {\n let stack = [];\n let visited = new Set();\n for (let i = 0; i < projects.length; i++) {\n let node = projects[i];\n if (!visited.has(node)) {\n helper(node, visited, stack);\n }\n }\n return stack;\n}", "function add_deps(curr_deps) {\n for ( key in curr_deps ) {\n if (!(key in overall_deps)) {\n overall_deps[key] = [];\n }\n for (var q = 0; q < curr_deps[key].length; q++ ) {\n if ( !(curr_deps[key][q] in overall_deps[key] ) ) {\n overall_deps[key].push(curr_deps[key][q]);\n }\n }\n }\n}", "function topologicalSort(graph) {\n // We can't use a standard sorting algorithm because\n // often, two packages won't have any dependency relationship\n // between each other, meaning they are incomparable.\n verifyGraph(graph);\n const sorted = [];\n\n while (sorted.length < Object.keys(graph).length) {\n // Find nodes not yet in 'sorted' that have edges\n // only to nodes already in 'sorted'\n const emptyNodes = Object.entries(graph)\n .filter(([node, edges]) => {\n if (sorted.includes(node)) {\n return false;\n }\n for (const edge of edges) {\n if (!sorted.includes(edge)) {\n return false;\n }\n }\n return true;\n })\n .map(([node, edges]) => node);\n\n // If there are no such nodes, then the graph has a cycle.\n if (emptyNodes.length === 0) {\n throw new Error('Dependency graph has a cycle.');\n }\n\n for (node of emptyNodes) {\n sorted.push(node);\n }\n }\n return sorted;\n}", "function getInverseDependencies(path, graph) {\n let inverseDependencies =\n arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; // Dependency alredy traversed.\n\n if (path in inverseDependencies) {\n return inverseDependencies;\n }\n\n const module = graph.dependencies.get(path);\n\n if (!module) {\n return inverseDependencies;\n }\n\n inverseDependencies[path] = [];\n\n for (const inverse of module.inverseDependencies) {\n inverseDependencies[path].push(inverse);\n getInverseDependencies(inverse, graph, inverseDependencies);\n }\n\n return inverseDependencies;\n}", "function transitiveDependencies(pkg, cache) {\n if (cache.has(pkg)) {\n return;\n }\n cache.add(pkg);\n // Some packages do interesing things with their exports, so requiring\n // pkg/package.json does not always work.\n try {\n let { dependencies = {} } = require(`${pkg}/package.json`);\n for (dep of Object.keys(dependencies)) {\n transitiveDependencies(dep, cache);\n }\n } catch (e) {\n // Do not worry about dependencies we cannot add\n }\n}", "getAllDependencies(exclude = []) {\n let dependencyMap = {};\n let dependencyStack = [...this.dependencies];\n //keep walking the dependency graph until we run out of unseen dependencies\n while (dependencyStack.length > 0) {\n let dependency = dependencyStack.pop();\n //if this is a new dependency and we aren't supposed to skip it\n if (!dependencyMap[dependency] && !exclude.includes(dependency)) {\n dependencyMap[dependency] = true;\n //get the node for this dependency\n let node = this.graph.nodes[dependency];\n if (node) {\n dependencyStack.push(...node.dependencies);\n }\n }\n }\n return Object.keys(dependencyMap);\n }", "getAllDependencies(keys, exclude) {\n var _a, _b;\n if (typeof keys === 'string') {\n return (_b = (_a = this.nodes[keys]) === null || _a === void 0 ? void 0 : _a.getAllDependencies(exclude)) !== null && _b !== void 0 ? _b : [];\n }\n else {\n const set = new Set();\n for (const key of keys) {\n const dependencies = this.getAllDependencies(key, exclude);\n for (const dependency of dependencies) {\n set.add(dependency);\n }\n }\n return [...set];\n }\n }", "function findReverseDeps(packages) {\n return new Set([\n ...packages\n ].map(packageName => findSubgraph(packageName, REVERSE_DEPENDENCY_GRAPH))\n .reduce((a, b) => [...a, ...b], []));\n}", "getPaginatedOverCollectionsMappedDependencies() {\n let graph = new DependencyGraph();\n let tagPrefix = TemplateMap.tagPrefix;\n let allNodeAdded = false;\n\n for (let entry of this.map) {\n if (this.isPaginationOverAllCollections(entry) && !this.getPaginationTagTarget(entry)) {\n if (!allNodeAdded) {\n graph.addNode(tagPrefix + \"all\");\n allNodeAdded = true;\n }\n\n if (!graph.hasNode(entry.inputPath)) {\n graph.addNode(entry.inputPath);\n }\n\n if (!entry.data.eleventyExcludeFromCollections) {\n // collections.all\n graph.addDependency(tagPrefix + \"all\", entry.inputPath);\n\n // Note that `tags` are otherwise ignored here\n // TODO should we throw an error?\n }\n\n this.addDeclaredDependenciesToGraph(\n graph,\n entry.inputPath,\n entry.data.eleventyImport?.collections\n );\n }\n }\n\n return graph;\n }", "function _getDependencies (id, deps, circularDeps, i, j, d, subDeps, sd) {\n\n\t\tdeps = _dependencies[id] || [];\n\t\tcircularDeps = [];\n\n\t\tfor (i = 0; i < deps.length; i ++) {\n\t\t\td = deps[i];\n\t\t\tsubDeps = _dependencies[d];\n\t\t\tif (subDeps) {\n\t\t\t\tfor (j = 0; j < subDeps.length; j ++) {\n\t\t\t\t\tsd = subDeps[j];\n\t\t\t\t\tif (sd != id && deps.indexOf(sd) < 0) {\n\t\t\t\t\t\tdeps.push(sd);\n\t\t\t\t\t}\n\t\t\t\t\telse if(sd === id){\n\t\t\t\t\t\tcircularDeps.push(d);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\treturn [deps, circularDeps];\n\t}", "async populateFlattenedDependencies() {\n _logger().default.debug(`populateFlattenedDependencies starts with ${this.components.length} components`);\n\n this.createGraphs(this.components);\n await this.importExternalDependenciesInBulk();\n await (0, _pMapSeries().default)(this.components, async component => {\n component.flattenedDependencies = await this.getFlattened(component.id);\n });\n }", "function findDeps(packages) {\n return new Set(\n [...packages]\n .map(packageName => findSubgraph(packageName, DEPENDENCY_GRAPH))\n .reduce((a, b) => [...a, ...b], []));\n}", "getDependencies() {\n const list = [];\n for (let i = 0; i < this.SubCircuit.length; i++) {\n list.push(this.SubCircuit[i].id);\n list.extend(scopeList[this.SubCircuit[i].id].getDependencies());\n }\n return uniq(list);\n }", "getPaginatedOverAllCollectionMappedDependencies() {\n let graph = new DependencyGraph();\n let tagPrefix = TemplateMap.tagPrefix;\n let allNodeAdded = false;\n\n for (let entry of this.map) {\n if (\n this.isPaginationOverAllCollections(entry) &&\n this.getPaginationTagTarget(entry) === \"all\"\n ) {\n if (!allNodeAdded) {\n graph.addNode(tagPrefix + \"all\");\n allNodeAdded = true;\n }\n\n if (!graph.hasNode(entry.inputPath)) {\n graph.addNode(entry.inputPath);\n }\n\n if (!entry.data.eleventyExcludeFromCollections) {\n // Populates into collections.all\n // This is circular!\n graph.addDependency(tagPrefix + \"all\", entry.inputPath);\n\n // Note that `tags` are otherwise ignored here\n // TODO should we throw an error?\n }\n\n this.addDeclaredDependenciesToGraph(\n graph,\n entry.inputPath,\n entry.data.eleventyImport?.collections\n );\n }\n }\n\n return graph;\n }", "function acyclic(g) {\n var onStack = {},\n visited = {},\n reverseCount = 0;\n \n function dfs(u) {\n if (u in visited) return;\n visited[u] = onStack[u] = true;\n g.outEdges(u).forEach(function(e) {\n var t = g.target(e),\n value;\n\n if (u === t) {\n console.error('Warning: found self loop \"' + e + '\" for node \"' + u + '\"');\n } else if (t in onStack) {\n value = g.edge(e);\n g.delEdge(e);\n value.reversed = true;\n ++reverseCount;\n g.addEdge(e, t, u, value);\n } else {\n dfs(t);\n }\n });\n\n delete onStack[u];\n }\n\n g.eachNode(function(u) { dfs(u); });\n\n util.log(2, 'Acyclic Phase: reversed ' + reverseCount + ' edge(s)');\n\n return reverseCount;\n}", "function makeAcyclic(g) {\n var onStack = {};\n var visited = {};\n\n function dfs(u) {\n if (u in visited) {\n return;\n }\n visited[u] = true;\n onStack[u] = true;\n dig_util_forEach(g.successors(u), function(v) {\n if (v in onStack) {\n if (!g.hasEdge(v, u)) {\n g.addEdge(v, u);\n }\n g.removeEdge(u, v);\n } else {\n dfs(v);\n }\n });\n delete onStack[u];\n }\n\n dig_util_forEach(g.nodes(), function(u) {\n dfs(u);\n });\n }", "function getDependencyList(depMap) {\n\tvar results = [];\n\tvar lookup = {};\n\tvar keys = Object.keys(depMap);\n\tfor(var i = 0; i < keys.length; i++) {\n\t\tvar name = keys[i];\n\t\t\n\t\t// The value of o depends on the type of structure we are passed\n\t\tvar o = depMap[name];\n\t\tif(o.version) {\n\t\t\t// Only add a dependency once\n\t\t\tif(lookup[name + o.version] == undefined) {\n\t\t\t\tlookup[name + o.version] = true;\n\t\t\t\tresults.push({\"name\": name, \"version\": o.version});\n\t\t\t\tif(o.dependencies) {\n\t\t\t\t\tvar deps = getDependencyList(o.dependencies);\n\t\t\t\t\t\n\t\t\t\t\tif(deps != undefined) {\n\t\t\t\t\t\tresults = results.concat(deps);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\t\telse {\n\t\t\t// Only add a dependency once\n\t\t\tif(lookup[name + o] == undefined) {\n\t\t\t\tlookup[name + o] = true;\n\t\t\t\tresults.push({\"name\": name, \"version\": o});\n\t\t\t}\n\t\t}\n\t}\n\treturn results;\n}", "getDelayedMappedDependencies() {\n let graph = new DependencyGraph();\n let tagPrefix = TemplateMap.tagPrefix;\n\n graph.addNode(tagPrefix + \"all\");\n\n let userConfigCollections = this.getUserConfigCollectionNames();\n\n // Add tags from named user config collections\n for (let tag of userConfigCollections) {\n graph.addNode(tagPrefix + tag);\n }\n\n for (let entry of this.map) {\n if (this.isPaginationOverAllCollections(entry)) {\n continue;\n }\n\n let paginationTagTarget = this.getPaginationTagTarget(entry);\n if (paginationTagTarget && this.isUserConfigCollectionName(paginationTagTarget)) {\n if (!graph.hasNode(entry.inputPath)) {\n graph.addNode(entry.inputPath);\n }\n graph.addDependency(entry.inputPath, tagPrefix + paginationTagTarget);\n\n if (!entry.data.eleventyExcludeFromCollections) {\n // Populates into collections.all\n graph.addDependency(tagPrefix + \"all\", entry.inputPath);\n\n this.addTagsToGraph(graph, entry.inputPath, entry.data.tags);\n }\n\n this.addDeclaredDependenciesToGraph(\n graph,\n entry.inputPath,\n entry.data.eleventyImport?.collections\n );\n }\n }\n\n return graph;\n }", "function findCycles() {\n visited = []; //reset visited nodes\n cycles = []; //reset cycles\n prev = -1; //starting at beginning so no previous node\n currCycle = []; //reset current cycle\n for (var j = 0; j < graph.nodes.length; j++) {\n visited.push(0);\n }\n\n for (var g = 0; g < graph.nodes.length; g++) {\n for (var j = 0; j < visited.length; visited[j++] = 0); //reset visited nodes before searching\n dfs(g);\n }\n sortCycles(); //sort all of them from shortest to longest\n noDoubles(); //get rid of any doubles that we may have found\n return cycles;\n}", "collectDependencies() {}", "getAllDependantsOf(path) {\n const result = new Set();\n this._getAllDependantsOf(path, new Set(), result);\n return result;\n }", "*nodes(root) {\n var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n var {\n pass,\n reverse = false\n } = options;\n var {\n from = [],\n to\n } = options;\n var visited = new Set();\n var p = [];\n var n = root;\n\n while (true) {\n if (to && (reverse ? Path.isBefore(p, to) : Path.isAfter(p, to))) {\n break;\n }\n\n if (!visited.has(n)) {\n yield [n, p];\n } // If we're allowed to go downward and we haven't decsended yet, do.\n\n\n if (!visited.has(n) && !Text.isText(n) && n.children.length !== 0 && (pass == null || pass([n, p]) === false)) {\n visited.add(n);\n var nextIndex = reverse ? n.children.length - 1 : 0;\n\n if (Path.isAncestor(p, from)) {\n nextIndex = from[p.length];\n }\n\n p = p.concat(nextIndex);\n n = Node.get(root, p);\n continue;\n } // If we're at the root and we can't go down, we're done.\n\n\n if (p.length === 0) {\n break;\n } // If we're going forward...\n\n\n if (!reverse) {\n var newPath = Path.next(p);\n\n if (Node.has(root, newPath)) {\n p = newPath;\n n = Node.get(root, p);\n continue;\n }\n } // If we're going backward...\n\n\n if (reverse && p[p.length - 1] !== 0) {\n var _newPath = Path.previous(p);\n\n p = _newPath;\n n = Node.get(root, p);\n continue;\n } // Otherwise we're going upward...\n\n\n p = Path.parent(p);\n n = Node.get(root, p);\n visited.add(n);\n }\n }", "detectCycles() {\n\t\t\tconst flatOrder = Array.from(this.orderedNodes);\n\n\t\t\tfor (let i = 0; i < flatOrder.length; i++) {\n\t\t\t\tconst node = flatOrder[i];\n\n\t\t\t\tfor (const imp of node.analyze.value.importFirstUsage) {\n\t\t\t\t\tconst subnode = node.getNodeFromRelativeDependency(imp.source);\n\t\t\t\t\tif (subnode === undefined) {\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\n\t\t\t\t\tconst resolved = subnode.resolveImport(imp.imported, imp.loc);\n\t\t\t\t\tif (resolved.type !== \"FOUND\") {\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\n\t\t\t\t\t// Hoisted exports will always be accessible\n\t\t\t\t\tif (resolved.record.valueType === \"function\") {\n\t\t\t\t\t\tcontinue;\n\t\t\t\t\t}\n\n\t\t\t\t\tconst dep = resolved.node;\n\n\t\t\t\t\tconst isBefore = flatOrder.indexOf(dep) > i;\n\t\t\t\t\tif (isBefore) {\n\t\t\t\t\t\tthis.flagCycle(node, dep, imp);\n\t\t\t\t\t}\n\t\t\t\t}\n\t\t\t}\n\t\t}", "function helper(node, visited, stack) {\n visited.add(node);\n if (deps[node] != undefined) {\n for (let i = 0; i < deps[node].length; i++) {\n let dep_node = deps[node][i];\n if (!visited.has(dep_node)) {\n helper(dep_node, visited, stack);\n }\n }\n }\n stack.push(node);\n}", "iterate(probe) {\n var result = [this];\n\n if (this.head && this.head.isConstraint()) {\n var anyConstraints = true; // Keep rewriting constraints until there are none left\n\n while (anyConstraints) {\n result = (0, _flatten2.default)(result.map(descender => {\n return descender.iterateConstraints(probe);\n }));\n anyConstraints = result.some(descender => {\n return descender.head && descender.head.isConstraint();\n });\n }\n }\n\n return result;\n }", "function dfsTraversal(g) {\n if(g.vertices < 1)\n return null;\n let obj = {result: \"\"};\n let visited = new Array(g.vertices).fill(false);\n let stack = new Stack();\n\n for(let i = 0; i < g.vertices; i++){\n if(!visited[i]){\n obj.result += String(i);\n visited[i] = true;\n travel(g, i, obj, visited);\n }\n }\n return obj.result;\n function travel(g, source, obj, visited){\n let node = g.list[source].getHead();\n while(node !== null){\n if(visited[node.data]){\n node = node.nextElement;\n }\n else{\n visited[node.data] = true;\n stack.push(source);\n obj.result += String(node.data);\n travel(g, node.data, obj, visited);\n }\n }\n if(!stack.isEmpty())\n travel(g, stack.pop(), obj, visited);\n return;\n }\n\n}", "outputDependencyGraphs(dependencyGraphs) {\n for (let i = 0; i < _constants_1.ALL_BOOT_STAGES.length; i++) {\n let stage = _constants_1.ALL_BOOT_STAGES[i];\n let oneGraph = dependencyGraphs[stage];\n if (oneGraph) {\n console.log(\"\\tStage:\", stage);\n for (let nodeName in oneGraph.graph.nodes) {\n console.log(\"\\t\\tName:\", nodeName);\n for (let j = 0; j < oneGraph.graph.nodes[nodeName].dependencies.length; j++) {\n console.log(\"\\t\\t\\tDependency:\", oneGraph.graph.nodes[nodeName].dependencies[j]);\n }\n }\n }\n }\n }", "function graph1(g, parent,child){\n var key,prob;\n for(key in g){\n if(g[key].parents.length==0) parent.push(g[key]);\n else child.push(g[key]);\n //graphs[0][key].parents\n }\n}", "depthFirstRecursive(startVertex) {\n const results = [];\n const visitedNodes = {};\n\n const invokeGraph = vertex => {\n // If no vertex stop recursion.\n if(!vertex) return;\n\n if(!visitedNodes[vertex]) {\n // Add current vertex to visited list. \n visitedNodes[vertex] = true;\n // Push it to results.\n results.push(vertex);\n // Invoke all edges.\n this.adjacencyList[vertex].forEach(node => {\n if(!visitedNodes.hasOwnProperty(node)) {\n invokeGraph(node);\n }\n });\n }\n };\n // Invoke graph recursively.\n invokeGraph(startVertex);\n\n return results;\n }", "iterativelySetAllGraphStates(graph) {\n const MaximumIterations = 200;\n let keepIterating;\n let iterationCount = 0;\n // Keep iterating until a steady state is reached; the graphs are small so don't need a smarter/faster algorithm\n while (this.graphState != \"error\" && (keepIterating || iterationCount === 0)) {\n logger_1.default.system.debug(`BootDependencyGraph.iterativelySetAllGraphStates pass ${iterationCount}`, graph);\n keepIterating = false;\n // do one node in the graph at a time, considering only its immediate dependencies\n for (let nodeName in this.graph.nodes) {\n logger_1.default.system.debug(`BootDependencyGraph.iterativelySetAllGraphStates for nodeName ${nodeName}`);\n let node = this.graph.nodes[nodeName];\n let isChangedState = this.setNewNodeState(node);\n if (isChangedState) {\n logger_1.default.system.debug(`BootDependencyGraph.iterativelySetAllGraphStates BootDependencyState updated for nodeName ${nodeName} so continue iterating`);\n // anytime there is a change then keep iterating to insure change trickle thoughout the entire graph\n keepIterating = true;\n }\n }\n // this should never happen, but provides a fail-safe against infinite loops\n if (++iterationCount > MaximumIterations) {\n logger_1.default.system.error(\"iterativelySetAllGraphStates was stuck in loop -- breaking out\");\n break;\n }\n }\n if (this.graphState != \"error\") {\n this.graphState = this.getNewGraphState(this.graph); // now in steady state, so get overall state of graph\n this.readyToStartList = this.getNewReadyList(graph);\n }\n logger_1.default.system.debug(`BootDependencyGraph.iterativelySetAllGraphStates done`, this.graphState, this.readyToStartList);\n }", "*nodes(root) {\n var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};\n var {\n pass,\n reverse = false\n } = options;\n var {\n from = [],\n to\n } = options;\n var visited = new Set();\n var p = [];\n var n = root;\n\n while (true) {\n if (to && (reverse ? Path.isBefore(p, to) : Path.isAfter(p, to))) {\n break;\n }\n\n if (!visited.has(n)) {\n yield [n, p];\n } // If we're allowed to go downward and we haven't descended yet, do.\n\n\n if (!visited.has(n) && !Text.isText(n) && n.children.length !== 0 && (pass == null || pass([n, p]) === false)) {\n visited.add(n);\n var nextIndex = reverse ? n.children.length - 1 : 0;\n\n if (Path.isAncestor(p, from)) {\n nextIndex = from[p.length];\n }\n\n p = p.concat(nextIndex);\n n = Node.get(root, p);\n continue;\n } // If we're at the root and we can't go down, we're done.\n\n\n if (p.length === 0) {\n break;\n } // If we're going forward...\n\n\n if (!reverse) {\n var newPath = Path.next(p);\n\n if (Node.has(root, newPath)) {\n p = newPath;\n n = Node.get(root, p);\n continue;\n }\n } // If we're going backward...\n\n\n if (reverse && p[p.length - 1] !== 0) {\n var _newPath = Path.previous(p);\n\n p = _newPath;\n n = Node.get(root, p);\n continue;\n } // Otherwise we're going upward...\n\n\n p = Path.parent(p);\n n = Node.get(root, p);\n visited.add(n);\n }\n }", "function getDependencies() {\n logger.info('Fetching dependencies');\n return new Promise((resolve, reject) => {\n const dependencies = {};\n\n (0, _readPackageTree2.default)('./', (err, data) => {\n if (err) {\n logger.error('Error fetching dependencies');\n return reject(err);\n }\n const modules = data.children;\n const directDependencies = _extends({}, data.package.dependencies, data.package.devDependencies);\n\n modules.forEach(element => {\n const pkg = element.package;\n const version = pkg.version;\n\n let dependency;\n const direct = directDependencies[pkg.name] !== undefined;\n if (dependencies[pkg.name]) {\n dependency = dependencies[pkg.name];\n dependency.initializeDependency({ title: pkg.name, main_version: version, description: pkg.description, direct });\n } else {\n dependency = new _report_model.Dependency({ title: pkg.name, main_version: version, description: pkg.description, direct });\n dependencies[pkg.name] = dependency;\n }\n\n insertHierarchies(dependencies, { currentDependency: dependency, rptDependency: element, rootDependencies: modules });\n });\n\n logger.info('Finished fetching dependencies');\n\n resolve({ pkg: data.package, dependencies: Object.values(dependencies) });\n });\n });\n}", "function buildClosure(inverse)\n {\n var origin = inverse ? 0 : 1;\n var dest = 1 - origin;\n\n return function transitiveClosure (service, current) {\n if (typeof(current) === 'undefined') {\n var current = {\n name: indexedNodes[service],\n children: []\n };\n }\n\n classes.edges.forEach(function(e) {\n if (e[origin] === service) {\n current.children.push(transitiveClosure(e[dest]));\n }\n });\n\n return current;\n }\n }", "function obtainDependencies(source) {\n let dependencies = [];\n if (source instanceof cfn_resource_1.CfnResource) {\n dependencies = source.obtainResourceDependencies();\n }\n let stacks = (0, util_1.pathToTopLevelStack)(stack_1.Stack.of(source));\n stacks.forEach((stack) => {\n dependencies = [...dependencies, ...stack._obtainAssemblyDependencies({ source: source })];\n });\n return dependencies;\n}", "findAllPaths(from, to, visited = [], allPaths = []) {\n if (!this.hasVertex(from) || !this.hasVertex(to)) {\n throw new Error(`${from} or ${to} vertex does not exist`);\n }\n\n visited.push(from);\n\n if (from === to) {\n allPaths.push([...visited]);\n return;\n }\n\n // Get child vertices from current vertex\n const destinations = this.adjacencyList.get(from);\n\n // Travel child vertex when it is not in visited array\n for (const dest of destinations) {\n if (visited.indexOf(dest) < 0) {\n this.findAllPaths(dest, to, visited, allPaths);\n\n // Remove last vertex when the child vertex\n // 1. traveled all child vertex\n // 2. the child vertex is the target vertex\n visited.pop();\n }\n }\n\n // Return all possible paths sorted by the path length\n return allPaths.sort((a, b) => a.length - b.length);\n }", "function findRouteRecursive(graph, from, to){\n\tif (from == to) return [];\n\n\tfor (let nextStop of graph[from]){\n\t\tlet result = findPath(nextStop, to, [from, nextStop]);\n\t\tif (result) return result.slice(1);\n\t}\n\n\tfunction findPath(from, to, history){\n\t\t// console.log(history);\n\t\tif (from == to) return history;\n\t\tfor (let nextStop of graph[from]){\n\t\t\tif (history.includes(nextStop)) continue;\n\t\t\tlet result = findPath(nextStop, to, history.concat(nextStop));\n\t\t\tif (result) return result;\n\t\t}\n\t\treturn null;\n\t}\n}", "function inferProductionDependencyGraph () {\n const packageDir = process.cwd()\n const packageJson = require(path.join(packageDir, 'package.json')) // eslint-disable-line global-require\n let mainId = packageJson.main || './server'\n if (path.extname(mainId) === '') {\n mainId += '.js'\n }\n const main = path.resolve(packageDir, mainId) // For production.\n console.log(`Enumerating production dependencies from ${main}`)\n const prodMainModule = require.cache[main]\n\n const prodDepGraph = new Map()\n const seen = new Set()\n function visit (m) {\n if (!m) {\n return\n }\n const { filename, children } = m\n if (!seen.has(filename)) {\n seen.add(filename)\n const adjacents = []\n for (const child of children) {\n if (child && child.filename) {\n visit(child)\n adjacents.push(child.filename)\n }\n }\n prodDepGraph.set(filename, adjacents)\n }\n }\n visit(prodMainModule)\n\n return prodDepGraph\n}", "function getOrderedJobs(graph) {\n const orderedJobs = [];\n const { nodes } = graph;\n while (nodes.length) {\n const node = nodes.pop();\n const containsCycle = depthFirstTraverse(node, orderedJobs);\n if (containsCycle) return [];\n }\n return orderedJobs;\n}", "function getAllDependencies(deps) {\n return promiseRequire(\n baseDependencies.concat(deps)\n );\n }", "function archiveDependencies(cwd, pkg) {\n let result = [];\n\n if (pkg.path) {\n result.push({\n data: pkg.path,\n type: 'directory',\n name: path.relative(cwd, pkg.path)\n });\n }\n\n pkg.dependencies.forEach(function(dep) {\n if (dep.path) {\n result.push({\n data: dep.path,\n type: 'directory',\n name: path.relative(cwd, dep.path)\n });\n }\n\n if (dep.dependencies) {\n result = result.concat(archiveDependencies(cwd, dep));\n }\n });\n\n return result;\n}", "function getDeps(stateObj){\n\tvar deps = [].concat(stateObj.deps);\n\t\t\n\tif(stateObj instanceof CascadeDataState && stateObj.initialDeps){\n\t\tutil.arrayForEach(stateObj.initialDeps, function(depName){\n\t\t\tif(util.arrayIndexOf(deps, depName) === -1){\n\t\t\t\tdeps.push(depName);\n\t\t\t}\n\t\t});\n\t}\n\t\n\treturn deps;\n}", "dfsInOrder() {\n let result = [];\n\n function traverse(node, arr) {\n if (node.left) traverse(node.left);\n arr.push(node);\n if (node.right) traverse(node.right);\n }\n traverse(this.root, result);\n return result;\n }", "[_buildDeps] (node) {\n this[_depsQueue].push(this.idealTree)\n\n return this[_buildDepStep]()\n }", "function findForwardPaths(start, end, nodes, paths, currPath){\r\n // The destination node is reached\r\n if (start === end){\r\n currPath.push(start);\r\n paths.push(currPath);\r\n return;\r\n }\r\n // Stop if loop is detected or there is no outgoing edges\r\n else if (currPath.includes(start) || (start.outgoingEdges).length < 1){\r\n return; \r\n }\r\n else{\r\n currPath.push(start);\r\n }\r\n\r\n for (let i=0; i < start.outgoingEdges.length; i++){\r\n nextNodeId = start.outgoingEdges[i].endNode;\r\n nextNode = nodes.find(x => x.id === nextNodeId);\r\n\r\n currPathCopy = [];\r\n\r\n // In js, an array passed in as a parameter is passed by reference\r\n // Manually make a copy of currPath to avoid mixing up different forward paths\r\n currPath.forEach(e => {\r\n currPathCopy.push(e);\r\n });\r\n\r\n findForwardPaths(nextNode, end, nodes, paths, currPathCopy);\r\n }\r\n}", "function addCircular(system, parents) {\n var deps = system.remoteDependencies\n && Object.keys(system.remoteDependencies);\n\n if (!deps || !deps.length) {\n return;\n }\n \n deps.forEach(function (name) {\n var ref = system.remoteDependencies[name]['$ref'],\n list = Array.isArray(parents) ? parents.slice() : [],\n refName,\n match;\n\n if (!ref) {\n //\n // Create a copy of parents for this part of the\n // path iteration.\n //\n return addCircular(\n system.remoteDependencies[name],\n list.concat(system.name)\n );\n }\n\n if ((match = refPattern.exec(ref))) {\n refName = match[1];\n if (~list.indexOf(refName)) {\n addCycle(refName, system.name);\n }\n }\n });\n }", "function traverse(config, dependencies, bindings, root, visit) {\n // a stack\n var stack = new Array();\n stack.push(root);\n\n while (stack.length > 0) {\n var plugin = stack.pop();\n\n visit(config[plugin]);\n\n // get all children\n if (!dependencies.hasOwnProperty(plugin)) {\n console.error('Could not find plugin', plugin);\n break;\n }\n var consumes = dependencies[plugin];\n\n for (var i = 0; i < consumes.length; i++) {\n if (!bindings.hasOwnProperty(consumes[i]) || bindings[consumes[i]].length == 0) {\n console.error('Could not find service implementation', consumes[i]);\n break;\n }\n\n stack.push(bindings[consumes[i]][0]);\n }\n }\n}", "async getDependencies( path ) {\n return [];\n }", "dfsRecursive(start){ \n let results = []\n let visited = {}\n let adjacenyList = this.adjacenyList\n \n function traverse(vertex){\n if(!vertex) return null\n results.push(vertex)\n visited[vertex] = true\n adjacenyList[vertex].forEach(neighbour => {\n if(!visited[neighbour]){\n return traverse(neighbour)\n }\n })\n }\n\n traverse(start)\n return results\n }", "depend () {\n var i = this.deps.length;\n while (i--) {\n this.deps[i].depend();\n }\n }", "function find_aug_path(edge_flows, parents, source, sink) {\n\tlet open = [source];\n\tlet closed = [];\n\tlet visited = [];\n\tvisited.length = god_nodes.length;\n\tvisited.fill(false);\n\tvisited[0] = true;\n\n\twhile (open.length > 0) {\n\t\tlet current_index = open.shift();\n\t\tlet current_children = god_rels(current_index);\n\t\tcurrent_children.foreach( function(i) {\n\t\t\tif(visited[i] == false && edge_flows[i]) {\n\t\t\t\topen.push(i);\n\t\t\t\tvisited[i] = true;\n\t\t\t\tparents[i] = current_index;\n\t\t\t}\n\t\t})\t\t\n\t}\n\n\treturn visited[sink];\n}", "depend() {\n let i = this.deps.length\n while (i--) {\n this.deps[i].depend()\n }\n }", "isGraphCyclic(visitedNodes) {\n var currentNodeStack = [];\n return this.visitNode(visitedNodes, currentNodeStack, this.graph.idRoot, this.nodes.get(this.graph.idRoot)); \n }", "depend () {\n let i = this.deps.length\n while (i--) {\n this.deps[i].depend()\n }\n }", "function getDockerfileDependencies(dockerfilePackages, dependencies) {\n var _loop_1 = function (dependencyName) {\n if (dependencies.hasOwnProperty(dependencyName)) {\n var sourceOrName = dependencyName.split('/')[0];\n var dockerfilePackage_1 = dockerfilePackages[sourceOrName];\n if (dockerfilePackage_1) {\n collectDeps(dependencies[dependencyName]).forEach(function (dep) {\n dockerfilePackages[dep.split('/')[0]] = tslib_1.__assign({}, dockerfilePackage_1);\n });\n }\n }\n };\n for (var dependencyName in dependencies) {\n _loop_1(dependencyName);\n }\n return dockerfilePackages;\n}", "function cycleCheck(node, path) {\n if (!node) {\n return;\n }\n const children = [...node.loadDependencyNames, ...node.lazyDependencyNames];\n for (const child of children) {\n if (path.indexOf(child) !== -1) {\n throw new Error(`Cyclic dependency detected! Module ${node.name} has a dependency ${child} that is also a parent!`);\n }\n cycleCheck(moduleDefinitions[child], [...path, child]);\n }\n }", "function resolveDeps(computedProp) {\n return computedProp.deps.map((key) => {\n if(computedProps[key]) {\n return resolveComputedProp(computedProps[key]);\n }\n return source[key];\n });\n }", "function walkImpl(root, traversalStrategy, beforeFunc, afterFunc, context, collectResults) {\n return (function _walk(stack, value, key, parent) {\n if (isObject(value) && stack.indexOf(value) >= 0)\n throw new TypeError('A cycle was detected at ' + value);\n\n if (beforeFunc) {\n var result = beforeFunc.call(context, value, key, parent);\n if (result === stopWalk) return stopWalk;\n if (result === stopRecursion) return; // eslint-disable-line consistent-return\n }\n\n var subResults;\n var target = traversalStrategy(value);\n\n if (isObject(target) && Object.keys(target).length > 0) {\n // Collect results from subtrees in the same shape as the target.\n if (collectResults) subResults = Array.isArray(target) ? [] : {};\n\n var ok = each(target, function(obj, key) {\n var result = _walk(copyAndPush(stack, value), obj, key, value);\n if (result === stopWalk) return false;\n if (subResults) subResults[key] = result;\n });\n if (!ok) return stopWalk;\n }\n if (afterFunc) return afterFunc.call(context, value, key, parent, subResults);\n })([], root);\n}", "function resolveFragment(fragment, graph) {\n return graph\n .dependenciesOf(fragment.name.value)\n .reduce(function (list, current) { return list.concat(resolveFragment(graph.getNodeData(current), graph)); }, [fragment]);\n}", "function getAllReferences (scope, referenceArr){ \n scope.references.forEach(function(reference){\n referenceArr.push(reference);\n });\n scope.childScopes.forEach(function(childScope){\n referenceArr = getAllReferences(childScope, referenceArr);\n });\n return referenceArr;\n }", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function opName(operation) {\n return operation.name ? operation.name.value : '';\n} // From a dependency graph, collects a list of transitive dependencies by", "function tidyGraph(graph) {\n var nodeNames = Object.keys(graph);\n\n for (var n = 0; n < nodeNames.length; n++) {\n var currNodeName = nodeNames[n];\n \n var currNodeArcs = graph[currNodeName];\n \n for (var a = 0; a < currNodeArcs.length; a++) {\n var linkedNode = graph[currNodeArcs[a]];\n fixArcs(linkedNode, currNodeName);\n }\n }\n}", "function dependencies() {\n return project.splitDependencies()\n .pipe(project.rejoin());\n}", "getShallowDependencies(entryPath, transformOptions) {var _this = this;return _asyncToGenerator(function* () {const module = _this._moduleCache.getModule(entryPath);const result = yield module.read(transformOptions);return result.dependencies;})();}", "depend () {\n let i = this.deps.length\n while (i--) {\n this.deps[i].depend()\n }\n }", "reorderForDependencies() {\n if (this.dependencyLinks.size > 0) {\n const actorsAfter = [];\n // Temporarily remove all actors that have dependencies\n for (const actorAfter of this.dependencyLinks.keys()) {\n const dependentPos = this.actors.indexOf(actorAfter);\n if (dependentPos >= 0) {\n this.actors.splice(dependentPos, 1);\n actorsAfter.push(actorAfter);\n }\n }\n // Iteratively append actors based on the first dependency link\n // that has all of its dependencies available in the array\n while (actorsAfter.length > 0) {\n // Find the first actor that has all of its dependencies available.\n let activeActorAfterId = -1;\n for (let i = 0; i < actorsAfter.length; i++) {\n let validLink = true;\n for (const dependency of this.dependencyLinks.get(actorsAfter[i])) {\n if (this.actors.indexOf(dependency) < 0 && actorsAfter.indexOf(dependency) >= 0) {\n validLink = false;\n break;\n }\n }\n if (validLink) {\n activeActorAfterId = i;\n break;\n }\n }\n // If none of the pending links are possible, there must be a cyclic dependency\n if (activeActorAfterId < 0) {\n throw new Error('Cyclic dependency links detected in bus ' + this.name);\n }\n // The dependent may not be available (yet), so we don't add it to the array (yet).\n const activeActorAfter = actorsAfter.splice(activeActorAfterId, 1)[0];\n this.actors.push(activeActorAfter);\n }\n }\n }", "function retrieveModuleDependenciesOfModule(inputFiles, moduleDependenceGraph, inputFile, isLibrary = false) {\n\t\n\t//(i) resolve module data and function dependencies of each inputFile\n\tmdgUtilities.retrieveModuleDependenciesOfModule(inputFiles, moduleDependenceGraph, inputFile, isLibrary);\n}", "dfsInOrder() {\n let visitedNodes = [];\n let currentNode = this.root;\n\n function traverse(node){\n \n node.left && traverse(node.left)\n visitedNodes.push(node.val);\n node.right && traverse(node.right);\n }\n \n traverse(currentNode);\n return visitedNodes;\n }", "function dfs(g,vs,order){if(!_.isArray(vs)){vs=[vs]}var navigation=(g.isDirected()?g.successors:g.neighbors).bind(g);var acc=[],visited={};_.each(vs,function(v){if(!g.hasNode(v)){throw new Error(\"Graph does not have node: \"+v)}doDfs(g,v,order===\"post\",visited,navigation,acc)});return acc}", "function dfs(g,vs,order){if(!_.isArray(vs)){vs=[vs]}var navigation=(g.isDirected()?g.successors:g.neighbors).bind(g);var acc=[],visited={};_.each(vs,function(v){if(!g.hasNode(v)){throw new Error(\"Graph does not have node: \"+v)}doDfs(g,v,order===\"post\",visited,navigation,acc)});return acc}", "function _walkDeps(depsMap, id, file, entryDepsSet, isParentOurs, lastDirectDeps, parentDepsMap) {\n\t\t\tvar deps;\n\t\t\tif (!file) { // since for external module, the `file` is always `false`\n\t\t\t\tdeps = depsMap[id];\n\t\t\t\tif (parentDepsMap && !deps) {\n\t\t\t\t\tdeps = parentDepsMap[id];\n\t\t\t\t}\n\t\t\t} else {\n\t\t\t\tdeps = depsMap[file];\n\t\t\t\tdeps = deps ? deps : depsMap[id];\n\t\t\t\tif (parentDepsMap && !deps) {\n\t\t\t\t\tdeps = parentDepsMap[file] ? parentDepsMap[file] : parentDepsMap[id];\n\t\t\t\t}\n\t\t\t}\n\t\t\tif (!deps && !{}.hasOwnProperty.call(i18nModuleNameSet, id)) {\n\t\t\t\tlog.error('Can not walk dependency tree for: ' + id +\n\t\t\t\t', missing depended module or you may try rebuild all bundles');\n\t\t\t\tlog.info(parentDepsMap[id]);\n\t\t\t\tlog.info('i18nModuleNameSet: ' + JSON.stringify(i18nModuleNameSet, null, ' '));\n\t\t\t\tgutil.beep();\n\t\t\t}\n\t\t\tif (!deps) {\n\t\t\t\treturn;\n\t\t\t}\n\t\t\t_.forOwn(deps, function(depsValue, depsKey) {\n\t\t\t\tvar isRelativePath = _.startsWith(depsKey, '.');\n\n\t\t\t\tif (!isRelativePath) {\n\t\t\t\t\t// require id is a module name\n\t\t\t\t\tvar isOurs = isParentOurs && !packageUtils.is3rdParty(depsKey);\n\t\t\t\t\tif ({}.hasOwnProperty.call(entryDepsSet, depsKey)) {\n\t\t\t\t\t\treturn;\n\t\t\t\t\t}\n\t\t\t\t\tentryDepsSet[depsKey] = isParentOurs ? true : lastDirectDeps;\n\t\t\t\t\tif (isOurs) {\n\t\t\t\t\t\t_walkDeps(depsMap, depsKey, depsValue, entryDepsSet, true, null, parentDepsMap);\n\t\t\t\t\t} else {\n\t\t\t\t\t\t_walkDeps(depsMap, depsKey, depsValue, entryDepsSet, false, depsKey, parentDepsMap);\n\t\t\t\t\t}\n\t\t\t\t} else {\n\t\t\t\t\t// require id is a local file path\n\t\t\t\t\t_walkDeps(depsMap, depsKey, depsValue, entryDepsSet, isParentOurs, lastDirectDeps, parentDepsMap);\n\t\t\t\t}\n\t\t\t});\n\t\t}", "connections(graph){\n if ( !(graph instanceof Graph) )\n throw new TypeError(ENOTGRAPH)\n\n return graph.connections.filter(({vertices}) => vertices.includes(this))\n }", "function walk(files, opts, callback) {\n var remaining = [].concat(files)\n , found = []\n , visited = {}\n\n function insert(err, origin, deps) {\n if (err != null) {\n return callback(err)\n }\n\n origin.deps = deps\n\n // groom all dependencies, and schedule them for inspection\n for (var i = 0; i < deps.length; i++) {\n var file = deps[i].file\n remaining.push(file)\n\n file.src = file.src.toString('utf8')\n file.hash = sha1(file.src)\n }\n\n found.push(origin)\n next()\n }\n\n function next() {\n while (remaining.length > 0) {\n var file = remaining.shift()\n , key = sha1(file.path + '\\0' + file.src)\n\n // if we haven't visited this file before, find and resolve\n // its `require` dependencies\n if (!visited[key]) {\n visited[key] = file\n visit(file, opts, insert)\n return\n }\n\n file.deps = visited[key].deps\n }\n\n // we're done when there are no files to be walked remaining\n callback(null, found)\n }\n\n next()\n}", "DFSInOrder() {\n var data = [],\n current = this.root\n\n function traverse(node) {\n if (node.left) traverse(node.left)\n data.push(node.value)\n if (node.right) traverse(node.right)\n \n }\n traverse(current)\n return data\n }", "DFSInOrder() {\n let data = []\n function traverse(node) {\n if (node.left) traverse(node.left)\n data.push(node.value)\n if (node.right) traverse(node.right)\n }\n traverse(this.root)\n return data\n }", "depthFirstIterative(start) {\n // stack call array\n const stack = [start];\n const visited = { [start]: true };\n const result = [];\n let vertex;\n\n while (stack.length) {\n vertex = stack.pop();\n result.push(vertex);\n\n this.adjacencyList[vertex].forEach((neighbor) => {\n if (!visited[neighbor]) {\n visited[neighbor] = true;\n stack.push(neighbor);\n }\n });\n }\n console.log(result);\n return result;\n }", "function topological_order(simple_graph) {\n //console.log('at the beginning:', simple_graph);\n var no_sources = [];\n // Find all the nodes which are sources to anything:\n var all_sources = {};\n var key;\n for (key in simple_graph) {\n for (var i=0; i < simple_graph[key].length; i++) {\n var source = simple_graph[key][i];\n all_sources[source] = 1;\n }\n }\n // Remove nodes with no source links:\n for (key in simple_graph) {\n if (simple_graph[key].length == 0) {\n if (all_sources[key]) {\n no_sources.push(key);\n } else {\n // If it has no sources, AND is not itself a source,\n // then it should be a global definition, and should be handled first.\n no_sources.unshift(key);\n }\n delete simple_graph[key]\n }\n }\n //console.log('no_sources at the start:', no_sources);\n //console.log('after deleting some nodes:', simple_graph);\n // Remove links whose sources we just removed:\n for (key in simple_graph) {\n var remaining_links = [];\n var old_links = simple_graph[key];\n for (var i = 0; i < old_links.length; i++) {\n var old_link = old_links[i];\n if (simple_graph[old_link]) {\n remaining_links.push(old_link)\n }\n }\n simple_graph[key] = remaining_links;\n }\n //console.log('after deleting some links:', simple_graph);\n var next_in_list = [];\n if (Object.keys(simple_graph).length > 0) {\n next_in_list = topological_order(simple_graph)\n }\n //console.log('no_sources before:', no_sources);\n Array.prototype.push.apply(no_sources, next_in_list);\n //console.log('no_sources after:', no_sources);\n return no_sources\n }", "function iterativeFlatten(root) {\n var nodes = [], i = 0;\n var toRecurse = [root];\n\n function recurse() {\n var nextGen = []\n toRecurse.forEach(function(node){\n if (!node.id) node.id = ++i;\n nodes.push(node);\n\n if (node.children) nextGen = nextGen.concat(node.children);\n\n })\n\n toRecurse = nextGen\n }\n\n while (toRecurse.length>0) {\n recurse();\n }\n\n console.log(JSON.stringify(nodes))\n return nodes;\n}", "traverse() {\n let result = [];\n let curr = this.first;\n while (curr) {\n result.push(curr.val);\n curr = curr.next;\n }\n return result;\n }", "function dfsFindLoops(nodes, curr, startId, visited, stack, cycles) {\r\n visited.push(curr.id);\r\n let v, edge, i;\r\n let edges = curr.outgoingEdges;\r\n\r\n for (i = 0; i < edges.length; i++) {\r\n edge = edges[i];\r\n v = nodes.find(x => x.id === edge.endNode);\r\n\r\n if (!v)\r\n continue;\r\n\r\n // Found a cycle\r\n if (v.id === startId) {\r\n stack.push(edge);\r\n let copy = [...stack];\r\n cycles.push(copy);\r\n stack.pop();\r\n continue;\r\n }\r\n\r\n // No cycle found, need to keep traversing graph\r\n if (!visited.includes(v.id)){\r\n stack.push(edge);\r\n dfsFindLoops(nodes, v, startId, visited, stack, cycles);\r\n }\r\n }\r\n\r\n if (curr.id !== startId) {\r\n stack.pop();\r\n visited.pop();\r\n }\r\n}", "function isCyclic(curr, courseDict, checked, path) {\n // bottom cases\n if (checked[curr]) {\n // this node has been checked, no cycle would be formed with this node\n return false\n }\n if (path[curr]) {\n // come across a previously visited node, ie. detected the cycle\n return true\n }\n // no following courses, no loop\n if (!courseDict.has(curr)) {\n return false\n }\n // before backtracking, mark the node in the path\n path[curr] = true\n \n let ret = false\n // postorder DFS, to visit all its children first\n const dependentCourses = courseDict.get(curr)\n for (let i = 0; i < dependentCourses.length; i++) {\n ret = isCyclic(dependentCourses[i], courseDict, checked, path)\n if (ret) break;\n }\n \n // after the visits of children, we come back to process the node itself\n // remove the node from the path\n path[curr] = false\n \n // now that we've visited the nodes in the downstream,\n // we complete the check of this node\n checked[curr] = true\n return ret\n}", "function collectDependencies(dependencies, model, models) {\n if (!model || dependencies.has(model.modelClass)) {\n return;\n }\n dependencies.add(model.modelClass);\n if (model.modelDependencies) {\n model.modelDependencies.forEach((dep) =>\n collectDependencies(dependencies, dep, models)\n );\n }\n}" ]
[ "0.7477809", "0.7477809", "0.7364086", "0.7317418", "0.73093545", "0.73093545", "0.6294312", "0.6256443", "0.62223786", "0.61657584", "0.61096203", "0.6086029", "0.5823758", "0.57858723", "0.56729895", "0.562311", "0.5549224", "0.55204785", "0.54759014", "0.5455502", "0.5451006", "0.54423434", "0.5432957", "0.5397268", "0.53684264", "0.53619534", "0.53493476", "0.53348494", "0.5326564", "0.528126", "0.5250449", "0.5237626", "0.5237606", "0.5195451", "0.5184636", "0.51588964", "0.5147511", "0.51385933", "0.5137487", "0.51077205", "0.5095692", "0.5083459", "0.5080828", "0.5072439", "0.5056297", "0.50554204", "0.5053183", "0.50528526", "0.50114983", "0.50095546", "0.50062823", "0.5003104", "0.49874717", "0.49842107", "0.4976825", "0.49763587", "0.49756405", "0.49703488", "0.49666312", "0.49427104", "0.49366185", "0.49317127", "0.49250874", "0.4914071", "0.48964825", "0.48887596", "0.48726466", "0.4859874", "0.485917", "0.48484692", "0.48451525", "0.4819315", "0.4815601", "0.48055062", "0.47990903", "0.4787954", "0.4787954", "0.4787954", "0.47878438", "0.47877124", "0.47866696", "0.47849563", "0.47651193", "0.47597522", "0.4759199", "0.47536823", "0.47536823", "0.47480828", "0.4722371", "0.47177094", "0.47120124", "0.47101346", "0.47093412", "0.47028536", "0.47004223", "0.47002473", "0.46931908", "0.4677646", "0.46741942" ]
0.7390656
3
Given two schemas, returns an Array containing descriptions of all the types of breaking changes covered by the other functions down below.
function findBreakingChanges(oldSchema, newSchema) { return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function findBreakingChanges(oldSchema, newSchema) {\n\t return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema));\n\t}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).breakingChanges, findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema), findRemovedDirectives(oldSchema, newSchema), findRemovedDirectiveArgs(oldSchema, newSchema), findAddedNonNullDirectiveArgs(oldSchema, newSchema), findRemovedDirectiveLocations(oldSchema, newSchema));\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t return;\n\t }\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof newType.constructor)) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_CHANGED_KIND,\n\t description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr2 = Object.keys(oldTypeMap);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var typeName = _arr2[_i2];\n\n if (!newTypeMap[typeName]) {\n continue;\n }\n\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (oldType.constructor !== newType.constructor) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: \"\".concat(typeName, \" changed from \") + \"\".concat(typeKindName(oldType), \" to \").concat(typeKindName(newType), \".\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_REMOVED,\n\t description: typeName + ' was removed.'\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr = Object.keys(oldTypeMap);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var typeName = _arr[_i];\n\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: \"\".concat(typeName, \" was removed.\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingFieldChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType || oldType instanceof _definition.GraphQLInputObjectType) || !(newType instanceof oldType.constructor)) {\n\t return;\n\t }\n\n\t var oldTypeFieldsDef = oldType.getFields();\n\t var newTypeFieldsDef = newType.getFields();\n\t Object.keys(oldTypeFieldsDef).forEach(function (fieldName) {\n\t // Check if the field is missing on the type in the new schema.\n\t if (!(fieldName in newTypeFieldsDef)) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_REMOVED,\n\t description: typeName + '.' + fieldName + ' was removed.'\n\t });\n\t } else {\n\t // Check if the field's type has changed in the new schema.\n\t var oldFieldType = (0, _definition.getNamedType)(oldTypeFieldsDef[fieldName].type);\n\t var newFieldType = (0, _definition.getNamedType)(newTypeFieldsDef[fieldName].type);\n\t if (oldFieldType && newFieldType && oldFieldType.name !== newFieldType.name) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_CHANGED_KIND,\n\t description: typeName + '.' + fieldName + ' changed type from ' + (oldFieldType.name + ' to ' + newFieldType.name + '.')\n\t });\n\t }\n\t }\n\t });\n\t });\n\t return breakingFieldChanges;\n\t}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n var dangerousChanges = [];\n\n var _arr3 = Object.keys(oldTypeMap);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var typeName = _arr3[_i3];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(oldType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(oldType)) || !(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(newType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(newType)) || newType.constructor !== oldType.constructor) {\n continue;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n var _arr4 = Object.keys(oldTypeFields);\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var fieldName = _arr4[_i4];\n\n if (!newTypeFields[fieldName]) {\n continue;\n }\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n var _loop = function _loop() {\n var oldArgDef = _step.value;\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(newArgs, function (arg) {\n return arg.name === oldArgDef.name;\n }); // Arg not present\n\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" was removed\")\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed type from \") + \"\".concat(oldArgDef.type.toString(), \" to \").concat(newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed defaultValue\")\n });\n }\n }\n };\n\n for (var _iterator = oldTypeFields[fieldName].args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n _loop();\n } // Check if arg was added to the field\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop2 = function _loop2() {\n var newArgDef = _step2.value;\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(oldArgs, function (arg) {\n return arg.name === newArgDef.name;\n });\n\n if (!oldArgDef) {\n var argName = newArgDef.name;\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isRequiredArgument\"])(newArgDef)) {\n breakingChanges.push({\n type: BreakingChangeType.REQUIRED_ARG_ADDED,\n description: \"A required arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n } else {\n dangerousChanges.push({\n type: DangerousChangeType.OPTIONAL_ARG_ADDED,\n description: \"An optional arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n }\n }\n };\n\n for (var _iterator2 = newTypeFields[fieldName].args[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop2();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n }\n }\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema));\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findInterfacesAddedToObjectTypes(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).dangerousChanges);\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges);\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function schemaDiff(comparison) {\n\t// TODO\n\t// TODO\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var typesRemovedFromUnion = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n\t return;\n\t }\n\t var typeNamesInNewUnion = Object.create(null);\n\t newType.getTypes().forEach(function (type) {\n\t typeNamesInNewUnion[type.name] = true;\n\t });\n\t oldType.getTypes().forEach(function (type) {\n\t if (!typeNamesInNewUnion[type.name]) {\n\t typesRemovedFromUnion.push({\n\t type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n\t description: type.name + ' was removed from union type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return typesRemovedFromUnion;\n\t}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesAddedToUnion = [];\n Object.keys(newTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInOldUnion = Object.create(null);\n oldType.getTypes().forEach(function (type) {\n typeNamesInOldUnion[type.name] = true;\n });\n newType.getTypes().forEach(function (type) {\n if (!typeNamesInOldUnion[type.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: type.name + ' was added to union type ' + typeName + '.'\n });\n }\n });\n });\n return typesAddedToUnion;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesAddedToEnums = [];\n\n var _arr13 = Object.keys(oldTypeMap);\n\n for (var _i13 = 0; _i13 < _arr13.length; _i13++) {\n var typeName = _arr13[_i13];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInOldEnum = Object.create(null);\n var _iteratorNormalCompletion9 = true;\n var _didIteratorError9 = false;\n var _iteratorError9 = undefined;\n\n try {\n for (var _iterator9 = oldType.getValues()[Symbol.iterator](), _step9; !(_iteratorNormalCompletion9 = (_step9 = _iterator9.next()).done); _iteratorNormalCompletion9 = true) {\n var value = _step9.value;\n valuesInOldEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError9 = true;\n _iteratorError9 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion9 && _iterator9.return != null) {\n _iterator9.return();\n }\n } finally {\n if (_didIteratorError9) {\n throw _iteratorError9;\n }\n }\n }\n\n var _iteratorNormalCompletion10 = true;\n var _didIteratorError10 = false;\n var _iteratorError10 = undefined;\n\n try {\n for (var _iterator10 = newType.getValues()[Symbol.iterator](), _step10; !(_iteratorNormalCompletion10 = (_step10 = _iterator10.next()).done); _iteratorNormalCompletion10 = true) {\n var _value2 = _step10.value;\n\n if (!valuesInOldEnum[_value2.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: \"\".concat(_value2.name, \" was added to enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError10 = true;\n _iteratorError10 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion10 && _iterator10.return != null) {\n _iterator10.return();\n }\n } finally {\n if (_didIteratorError10) {\n throw _iteratorError10;\n }\n }\n }\n }\n\n return valuesAddedToEnums;\n}", "getSchemas() {\n return {\n indices: this.getIndices(),\n mappings: this.getMappings()\n };\n }", "getAdditionalSchemas() {\n const additionalSchemas = this.schemas.join('\\n');\n return additionalSchemas;\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesRemovedFromEnums = [];\n\n var _arr12 = Object.keys(oldTypeMap);\n\n for (var _i12 = 0; _i12 < _arr12.length; _i12++) {\n var typeName = _arr12[_i12];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInNewEnum = Object.create(null);\n var _iteratorNormalCompletion7 = true;\n var _didIteratorError7 = false;\n var _iteratorError7 = undefined;\n\n try {\n for (var _iterator7 = newType.getValues()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {\n var value = _step7.value;\n valuesInNewEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError7 = true;\n _iteratorError7 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion7 && _iterator7.return != null) {\n _iterator7.return();\n }\n } finally {\n if (_didIteratorError7) {\n throw _iteratorError7;\n }\n }\n }\n\n var _iteratorNormalCompletion8 = true;\n var _didIteratorError8 = false;\n var _iteratorError8 = undefined;\n\n try {\n for (var _iterator8 = oldType.getValues()[Symbol.iterator](), _step8; !(_iteratorNormalCompletion8 = (_step8 = _iterator8.next()).done); _iteratorNormalCompletion8 = true) {\n var _value = _step8.value;\n\n if (!valuesInNewEnum[_value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: \"\".concat(_value.name, \" was removed from enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError8 = true;\n _iteratorError8 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion8 && _iterator8.return != null) {\n _iterator8.return();\n }\n } finally {\n if (_didIteratorError8) {\n throw _iteratorError8;\n }\n }\n }\n }\n\n return valuesRemovedFromEnums;\n}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "function getDiffs(oldDoc, newDoc) {\n const changes = new Array();\n const flatOld = flattenObject(oldDoc);\n const flatNew = flattenObject(newDoc);\n // find deleted nodes\n Object.keys(flatOld).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatNew, key)) {\n changes.push({\n action: 'DELETED',\n keyName: key,\n });\n }\n });\n // find added nodes\n Object.keys(flatNew).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatOld, key)) {\n changes.push({\n action: 'ADDED',\n keyName: key,\n });\n }\n });\n // find updated nodes\n Object.keys(flatOld).forEach(key => {\n let oldValue = flatOld[key];\n if (Array.isArray(oldValue)) {\n oldValue = oldValue.join(', ');\n }\n let newValue = flatNew[key];\n if (newValue) {\n if (Array.isArray(newValue)) {\n newValue = newValue.join(', ');\n }\n if (newValue !== oldValue && key !== 'revision' && key !== 'etag') {\n changes.push({\n action: 'CHANGED',\n keyName: key,\n });\n }\n }\n });\n return changes;\n}", "getCollectionsSchemas() {\n const collectionsSchemas = this.collections.map(collection => {\n return this.generateSchema(collection);\n }).join('\\n');\n return collectionsSchemas;\n }", "getPossibleTypes() {\n const seenTypes = new Set;\n function process(obj) {\n seenTypes.add(obj);\n for (const child of obj.getChildSchemas()) {\n if (seenTypes.has(child)) continue;\n // we know Base.key is SchemaRef\n process(child);\n }\n }\n process(this);\n return Array.from(seenTypes);\n }", "function listSchemaTypes(){\n resultObj = {}\n var mainSchemes ={\n eng:['engFrameSchema', 'translationSchema', 'lexUnit'],\n //eng: [],\n heb: ['decisionSchema','hebFrameLUSchema', 'luSentenceSchema', 'hebsentenceSchema', 'hebFrameType']\n //heb: ['hebFrameLUSchema']\n }\n for (schema in mainSchemes){\n //console.log(schema)\n resultObj[schema] = {}\n for (name in mainSchemes[schema]){\n var results = []\n if (schema =='eng')test2(eng[mainSchemes[schema][name]].paths, \"\",results)\n if (schema =='heb')test2(heb[mainSchemes[schema][name]].paths, \"\",results)\n //console.log(name)\n resultObj[mainSchemes[schema][name]] =results;\n }\n\n }\n\n return resultObj;\n}", "getChildSchemas() {\n return self.gs\n .graphs.get(this.data.graphId)\n .selectAllWithType('RecordSchema')\n .filter(x => x.Base.SchemaRef == this.data.objectId);\n }", "function OverlappingFieldsCanBeMerged(context) {\n var comparedSet = new PairSet();\n\n function findConflicts(fieldMap) {\n var conflicts = [];\n _Object$keys(fieldMap).forEach(function (responseName) {\n var fields = fieldMap[responseName];\n if (fields.length > 1) {\n for (var i = 0; i < fields.length; i++) {\n for (var j = i; j < fields.length; j++) {\n var conflict = findConflict(responseName, fields[i], fields[j]);\n if (conflict) {\n conflicts.push(conflict);\n }\n }\n }\n }\n });\n return conflicts;\n }\n\n function findConflict(responseName, field1, field2) {\n var _field1 = _slicedToArray(field1, 3);\n\n var parentType1 = _field1[0];\n var ast1 = _field1[1];\n var def1 = _field1[2];\n\n var _field2 = _slicedToArray(field2, 3);\n\n var parentType2 = _field2[0];\n var ast2 = _field2[1];\n var def2 = _field2[2];\n\n // Not a pair.\n if (ast1 === ast2) {\n return;\n }\n\n // If the statically known parent types could not possibly apply at the same\n // time, then it is safe to permit them to diverge as they will not present\n // any ambiguity by differing.\n // It is known that two parent types could never overlap if they are\n // different Object types. Interface or Union types might overlap - if not\n // in the current state of the schema, then perhaps in some future version,\n // thus may not safely diverge.\n if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n return;\n }\n\n // Memoize, do not report the same issue twice.\n if (comparedSet.has(ast1, ast2)) {\n return;\n }\n comparedSet.add(ast1, ast2);\n\n var name1 = ast1.name.value;\n var name2 = ast2.name.value;\n if (name1 !== name2) {\n return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n }\n\n var type1 = def1 && def1.type;\n var type2 = def2 && def2.type;\n if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n }\n\n if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n }\n\n var selectionSet1 = ast1.selectionSet;\n var selectionSet2 = ast2.selectionSet;\n if (selectionSet1 && selectionSet2) {\n var visitedFragmentNames = {};\n var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n var conflicts = findConflicts(subfieldMap);\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var _ref32 = _slicedToArray(_ref3, 1);\n\n var reason = _ref32[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref4) {\n var _ref42 = _slicedToArray(_ref4, 2);\n\n var fields1 = _ref42[1];\n return allFields.concat(fields1);\n }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n var _ref52 = _slicedToArray(_ref5, 3);\n\n var fields2 = _ref52[2];\n return allFields.concat(fields2);\n }, [ast2])];\n }\n }\n }\n\n return {\n SelectionSet: {\n // Note: we validate on the reverse traversal so deeper conflicts will be\n // caught first, for clearer error messages.\n leave: function leave(selectionSet) {\n var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n var conflicts = findConflicts(fieldMap);\n conflicts.forEach(function (_ref6) {\n var _ref62 = _slicedToArray(_ref6, 3);\n\n var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n var responseName = _ref62$0[0];\n var reason = _ref62$0[1];\n var fields1 = _ref62[1];\n var fields2 = _ref62[2];\n return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n });\n }\n }\n };\n}", "function OverlappingFieldsCanBeMerged(context) {\n\t var comparedSet = new PairSet();\n\n\t function findConflicts(fieldMap) {\n\t var conflicts = [];\n\t _Object$keys(fieldMap).forEach(function (responseName) {\n\t var fields = fieldMap[responseName];\n\t if (fields.length > 1) {\n\t for (var i = 0; i < fields.length; i++) {\n\t for (var j = i; j < fields.length; j++) {\n\t var conflict = findConflict(responseName, fields[i], fields[j]);\n\t if (conflict) {\n\t conflicts.push(conflict);\n\t }\n\t }\n\t }\n\t }\n\t });\n\t return conflicts;\n\t }\n\n\t function findConflict(responseName, field1, field2) {\n\t var _field1 = _slicedToArray(field1, 3);\n\n\t var parentType1 = _field1[0];\n\t var ast1 = _field1[1];\n\t var def1 = _field1[2];\n\n\t var _field2 = _slicedToArray(field2, 3);\n\n\t var parentType2 = _field2[0];\n\t var ast2 = _field2[1];\n\t var def2 = _field2[2];\n\n\t // Not a pair.\n\t if (ast1 === ast2) {\n\t return;\n\t }\n\n\t // If the statically known parent types could not possibly apply at the same\n\t // time, then it is safe to permit them to diverge as they will not present\n\t // any ambiguity by differing.\n\t // It is known that two parent types could never overlap if they are\n\t // different Object types. Interface or Union types might overlap - if not\n\t // in the current state of the schema, then perhaps in some future version,\n\t // thus may not safely diverge.\n\t if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n\t return;\n\t }\n\n\t // Memoize, do not report the same issue twice.\n\t if (comparedSet.has(ast1, ast2)) {\n\t return;\n\t }\n\t comparedSet.add(ast1, ast2);\n\n\t var name1 = ast1.name.value;\n\t var name2 = ast2.name.value;\n\t if (name1 !== name2) {\n\t return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n\t }\n\n\t var type1 = def1 && def1.type;\n\t var type2 = def2 && def2.type;\n\t if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n\t return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n\t }\n\n\t if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n\t return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n\t }\n\n\t var selectionSet1 = ast1.selectionSet;\n\t var selectionSet2 = ast2.selectionSet;\n\t if (selectionSet1 && selectionSet2) {\n\t var visitedFragmentNames = {};\n\t var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n\t subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n\t var conflicts = findConflicts(subfieldMap);\n\t if (conflicts.length > 0) {\n\t return [[responseName, conflicts.map(function (_ref3) {\n\t var _ref32 = _slicedToArray(_ref3, 1);\n\n\t var reason = _ref32[0];\n\t return reason;\n\t })], conflicts.reduce(function (allFields, _ref4) {\n\t var _ref42 = _slicedToArray(_ref4, 2);\n\n\t var fields1 = _ref42[1];\n\t return allFields.concat(fields1);\n\t }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n\t var _ref52 = _slicedToArray(_ref5, 3);\n\n\t var fields2 = _ref52[2];\n\t return allFields.concat(fields2);\n\t }, [ast2])];\n\t }\n\t }\n\t }\n\n\t return {\n\t SelectionSet: {\n\t // Note: we validate on the reverse traversal so deeper conflicts will be\n\t // caught first, for clearer error messages.\n\t leave: function leave(selectionSet) {\n\t var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n\t var conflicts = findConflicts(fieldMap);\n\t conflicts.forEach(function (_ref6) {\n\t var _ref62 = _slicedToArray(_ref6, 3);\n\n\t var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n\t var responseName = _ref62$0[0];\n\t var reason = _ref62$0[1];\n\t var fields1 = _ref62[1];\n\t var fields2 = _ref62[2];\n\t return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n\t });\n\t }\n\t }\n\t };\n\t}", "compactEntitySchema(schema, entity, transformedSchemas) {\n const reqEntity = transformedSchemas[entity['entityName']];\n reqEntity.entityName = entity['entityName'];\n reqEntity.name = entity['name'];\n reqEntity.columns = [];\n entity.columns.forEach(col => {\n let defaultValue = col.columnValue ? col.columnValue.defaultValue : '';\n const type = col.sqlType;\n if (type === 'number' && !col.primaryKey) {\n defaultValue = _.isEmpty(defaultValue) ? null : _.parseInt(defaultValue);\n }\n else if (type === 'boolean') {\n defaultValue = _.isEmpty(defaultValue) ? null : (defaultValue === 'true' ? 1 : 0);\n }\n else {\n defaultValue = _.isEmpty(defaultValue) ? null : defaultValue;\n }\n reqEntity.columns.push({\n name: col['name'],\n fieldName: col['fieldName'],\n generatorType: col['generatorType'],\n sqlType: col['sqlType'],\n primaryKey: col['primaryKey'],\n defaultValue: defaultValue\n });\n });\n _.forEach(entity.relations, r => {\n let targetEntitySchema, targetEntity, col, sourceColumn, mapping;\n if (r.cardinality === 'ManyToOne' || r.cardinality === 'OneToOne') {\n targetEntity = _.find(schema.tables, t => t.name === r.targetTable);\n mapping = r.mappings[0];\n if (targetEntity) {\n targetEntity = targetEntity.entityName;\n sourceColumn = mapping.sourceColumn;\n col = reqEntity.columns.find(column => column.name === sourceColumn);\n targetEntitySchema = schema.tables.find(table => table.name === r.targetTable);\n const foreignRelation = {\n sourceFieldName: r.fieldName,\n targetEntity: targetEntity,\n targetTable: r.targetTable,\n targetColumn: mapping.targetColumn,\n targetPath: '',\n dataMapper: [],\n targetFieldName: targetEntitySchema.columns.find(column => column.name === mapping.targetColumn).fieldName\n };\n foreignRelation.targetPath = foreignRelation.sourceFieldName + '.' + foreignRelation.targetFieldName;\n foreignRelation.dataMapper = _.chain(targetEntitySchema.columns)\n .keyBy(childCol => foreignRelation.sourceFieldName + '.' + childCol.fieldName)\n .mapValues(childCol => new ColumnInfo(childCol.name, childCol.fieldName)).value();\n col.foreignRelations = col.foreignRelations || [];\n col.foreignRelations.push(foreignRelation);\n }\n }\n });\n return reqEntity;\n }", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesAddedToEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n\n var valuesInOldEnum = Object.create(null);\n oldType.getValues().forEach(function (value) {\n valuesInOldEnum[value.name] = true;\n });\n newType.getValues().forEach(function (value) {\n if (!valuesInOldEnum[value.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: value.name + ' was added to enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesAddedToEnums;\n}", "function generateSchemaDocs(mongoose) {\n\n nestedSchemas = [];\n\n // Transform models object to an array\n var schemas = _.pairs(mongoose.modelSchemas);\n\n // Map each schema to a readable format\n schemas = _.map(schemas, function (schema) {\n var info = getSchemaInfo(schema);\n return info;\n });\n\n // Add nested schemas\n schemas = schemas.concat(nestedSchemas);\n return schemas;\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function computeDiff(thing1, thing2) {\n if (typeof thing1 === 'object' && typeof thing2 === 'object') {\n if (Array.isArray(thing1) && Array.isArray(thing2)) {\n return arrayDiff(thing1, thing2);\n }\n return objectDiff(thing1, thing2);\n }\n if (thing1 !== thing2) {\n return [thing1, thing2];\n }\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function mergeTypeDefs (typeDefs) {\n const documents = typeDefs.map((document) => {\n if (typeof document === 'string') {\n return parse(document)\n }\n return document\n })\n const definitions = []\n\n documents.forEach((document) => {\n document.definitions.forEach(definition => {\n switch (definition.kind) {\n case 'ObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'ObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.interfaces = mergeInterfaces(existingDefinition.interfaces, definition.interfaces)\n return\n }\n break\n }\n case 'InterfaceTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InterfaceTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n case 'UnionTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'UnionTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.types = mergeUnionTypes(existingDefinition.types, definition.types)\n return\n }\n break\n }\n case 'EnumTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'EnumTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.values = mergeEnumValues(existingDefinition.values, definition.values)\n return\n }\n break\n }\n case 'InputObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InputObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeInputValues(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n }\n definitions.push(definition)\n })\n })\n\n return {\n kind: 'Document',\n definitions,\n }\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var valuesRemovedFromEnums = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n\t return;\n\t }\n\t var valuesInNewEnum = Object.create(null);\n\t newType.getValues().forEach(function (value) {\n\t valuesInNewEnum[value.name] = true;\n\t });\n\t oldType.getValues().forEach(function (value) {\n\t if (!valuesInNewEnum[value.name]) {\n\t valuesRemovedFromEnums.push({\n\t type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n\t description: value.name + ' was removed from enum type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return valuesRemovedFromEnums;\n\t}", "function findDifferences(objectA, objectB) {\n var propertyChanges = [];\n var objectGraphPath = [\"this\"];\n (function(a, b) {\n\tif(a.constructor == Array) {\n // BIG assumptions here: That both arrays are same length, that\n // the members of those arrays are _essentially_ the same, and \n // that those array members are in the same order...\n for(var i = 0; i < a.length; i++) {\n\t\tobjectGraphPath.push(\"[\" + i.toString() + \"]\");\n\t\targuments.callee(a[i], b[i]);\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor == Object || (a.constructor != Number && \n\t\t\t\t\t a.constructor != String && a.constructor != Date && \n\t\t\t\t\t a.constructor != RegExp && a.constructor != Function &&\n\t\t\t\t\t a.constructor != Boolean)) {\n // we can safely assume that the objects have the \n // same property lists, else why compare them?\n for(var property in a) {\n\t\tobjectGraphPath.push((\".\" + property));\n\t\tif(a[property].constructor != Function) {\n\t\t arguments.callee(a[property], b[property]);\n\t\t}\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor != Function) { // filter out functions\n if(a != b) {\n\t\tpropertyChanges.push({ \"Property\": objectGraphPath.join(\"\"), \"ObjectA\": a, \"ObjectB\": b });\n }\n\t}\n })(objectA, objectB);\n return propertyChanges;\n}", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function findReferences(schema) {\n if (schema.$ref) {\n return [schema.$ref];\n }\n\n let references = [];\n\n if (schema.allOf) {\n references = references.concat(...schema.allOf.map(findReferences));\n }\n\n if (schema.anyOf) {\n references = references.concat(...schema.anyOf.map(findReferences));\n }\n\n if (schema.oneOf) {\n references = references.concat(...schema.oneOf.map(findReferences));\n }\n\n if (schema.not) {\n references = references.concat(...findReferences(schema.not));\n }\n\n // Array\n\n if (schema.items) {\n if (Array.isArray(schema.items)) {\n references = references.concat(...schema.items.map(findReferences));\n } else {\n references = references.concat(findReferences(schema.items));\n }\n }\n\n if (schema.additionalItems && typeof schema.additionalItems === 'object') {\n references = references.concat(findReferences(schema.additionalItems));\n }\n\n // Object\n\n if (schema.properties) {\n Object.keys(schema.properties).forEach((key) => {\n references = references.concat(findReferences(schema.properties[key]));\n });\n }\n\n if (schema.patternProperties) {\n Object.keys(schema.patternProperties).forEach((key) => {\n references = references.concat(findReferences(schema.patternProperties[key]));\n });\n }\n\n if (schema.additionalProperties && typeof schema.additionalProperties === 'object') {\n references = references.concat(findReferences(schema.additionalProperties));\n }\n\n return references;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isPossibleType(typeA, typeB);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function compatibility(arr1, arr2) {\n var totalDiff = 0;\n for (let i in arr1) {\n totalDiff = totalDiff + difference(arr1[i], arr2[i])\n }\n return totalDiff\n}", "function sortSchemaLookupFunc(a,b){\n var aLookup = (a.props.schema && a.props.schema.lookup) || 750,\n bLookup = (b.props.schema && b.props.schema.lookup) || 750,\n res;\n\n if (typeof aLookup === 'number' && typeof bLookup === 'number') {\n //if (a.props.field === 'ch02_power_output' || b.props.field === 'ch02_power_output') console.log('X', aLookup - bLookup, a.props.field, b.props.field);\n res = aLookup - bLookup;\n }\n\n if (res !== 0) return res;\n else {\n return sortTitle(a,b);\n }\n }", "convertSchemaToAjvFormat (schema) {\n if (schema === null) return\n\n if (schema.type === 'string') {\n schema.fjs_type = 'string'\n schema.type = ['string', 'object']\n } else if (\n Array.isArray(schema.type) &&\n schema.type.includes('string') &&\n !schema.type.includes('object')\n ) {\n schema.fjs_type = 'string'\n schema.type.push('object')\n }\n for (const property in schema) {\n if (typeof schema[property] === 'object') {\n this.convertSchemaToAjvFormat(schema[property])\n }\n }\n }", "schemafy(keys, schema) {\n return keys\n .concat(schema.required || [])\n .filter(key => this.isNotHidden(key, schema) || this.appGlobalsService.adminMode)\n .concat(schema.alwaysShow || [])\n .sort((a, b) => this.compareKeysBySchemaService.compare(a, b, schema))\n .toOrderedSet();\n }", "function subfieldConflicts(conflicts, responseName, node1, node2) {\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var reason = _ref3[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref4) {\n var fields1 = _ref4[1];\n return allFields.concat(fields1);\n }, [node1]), conflicts.reduce(function (allFields, _ref5) {\n var fields2 = _ref5[2];\n return allFields.concat(fields2);\n }, [node2])];\n }\n}", "async function generateDiff() {\n // Get the instance of `graphql` that `graphbrainz` sees.\n const graphql = require(resolveFrom(\n require.resolve('graphbrainz'),\n 'graphql'\n ))\n\n const extendedSchema = createSchema(graphBrainzSchema, {\n extensions: ['graphbrainz/extensions/cover-art-archive'],\n })\n\n const schemaJSON = await schemaToJSON(graphBrainzSchema, { graphql })\n const extendedSchemaJSON = await schemaToJSON(extendedSchema, { graphql })\n\n return diffSchema(schemaJSON, extendedSchemaJSON)\n}", "function tighten(schema) {\n if (!isDefined(schema.type)) {\n if (isDefined(schema.properties)) {\n schema.type = 'object';\n }\n if (isDefined(schema.pattern)) {\n schema.type = 'string';\n }\n if (isDefined(schema.minLength) || isDefined(schema.maxLength)) {\n schema.type = 'string';\n }\n if (isDefined(schema.enum)) {\n var allStrings = _(schema.enum).all(function (item) {\n return typeof item === 'string';\n });\n if (allStrings) {\n schema.type = 'string';\n }\n }\n if (isDefined(schema.items)) {\n schema.type = 'array';\n }\n } else {\n if (_.isArray(schema.type)) {\n _.each(schema.type, function (unionType) {\n tighten(unionType);\n });\n }\n }\n if (!isDefined(schema.required)) {\n schema.required = true;\n }\n if (isDefined(schema.properties)) {\n _(schema.properties).each(function (propertySchema) {\n tighten(propertySchema);\n });\n if (!isDefined(schema.additionalProperties)) {\n schema.additionalProperties = false;\n }\n }\n if (isDefined(schema.items)) {\n if (_.isArray(schema.items)) {\n _.each(schema.items, function (item) {\n tighten(item);\n });\n if (!isDefined(schema.additionalItems)) {\n schema.additionalItems = false;\n }\n } else {\n tighten(schema.items);\n }\n }\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function versionDiffers(a1, a2) {\n\t\tvar inBoth = intersection(a1, a2);\n\t\treturn _.filter(inBoth, function ina2(r1) {\n\t\t\treturn _.some(a2, function rina2(r2) {\n\t\t\t\treturn r1.id === r2.id && r1.version !== r2.version;\n\t\t\t});\n\t\t});\n\t}", "function getNewTypes(oldTypes, newTypes) {\n\t\t\tvar tempTypes = [];\n\t\t\tfor( var i = 0; i < newTypes.length; i++) {\n\t\t\t\tif(oldTypes.indexOf(newTypes[i]) == -1) {\n\t\t\t\t\ttempTypes.push(newTypes[i]);\n\t\t\t\t}\n\t\t\t}\n\t\t\treturn tempTypes;\n\t\t}", "function printIntrospectionSchema(schema) {\n\t return printFilteredSchema(schema, isSpecDirective, isIntrospectionType);\n\t}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function markListOperations(schemas) {\n _.each(schemas, function(schema) {\n if (schema.list) {\n if (_.isEmpty(schema.list.parameters)) {\n schema.list.dxFilterMode = dx.core.constants.LIST_TYPES.NONE;\n } else {\n var missingMapsTo = false;\n _.any(schema.list.parameters, function(param) {\n if (!param.mapsTo) {\n missingMapsTo = true;\n return true;\n }\n });\n schema.list.dxFilterMode = missingMapsTo ? dx.core.constants.LIST_TYPES.CUSTOM :\n dx.core.constants.LIST_TYPES.UBER;\n }\n }\n });\n}", "function newTypesComplain(req, res) {\n\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function compareArrays(array1, array2, dontConvert) {\n var len = Math.min(array1.length, array2.length);\n var lengthDiff = Math.abs(array1.length - array2.length);\n var diffs = 0;\n var i;\n for (i = 0; i < len; i++) {\n if ((dontConvert && array1[i] !== array2[i])\n || (!dontConvert && __webpack_require__.i(__WEBPACK_IMPORTED_MODULE_0__type_checks__[\"a\" /* toInt */])(array1[i]) !== __webpack_require__.i(__WEBPACK_IMPORTED_MODULE_0__type_checks__[\"a\" /* toInt */])(array2[i]))) {\n diffs++;\n }\n }\n return diffs + lengthDiff;\n}", "static finalizeStyles(styles2) {\n const elementStyles = [];\n if (Array.isArray(styles2)) {\n const set = new Set(styles2.flat(Infinity).reverse());\n for (const s of set) {\n elementStyles.unshift(getCompatibleStyle(s));\n }\n } else if (styles2 !== void 0) {\n elementStyles.push(getCompatibleStyle(styles2));\n }\n return elementStyles;\n }", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isAbstractType\"])(type)) {\n var suggestedObjectTypes = [];\n var interfaceUsageCount = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = schema.getPossibleTypes(type)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var possibleType = _step.value;\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedObjectTypes.push(possibleType.name);\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = possibleType.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var possibleInterface = _step2.value;\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n interfaceUsageCount[possibleInterface.name] = (interfaceUsageCount[possibleInterface.name] || 0) + 1;\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } // Suggest interface types based on how common they are.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var suggestedInterfaceTypes = Object.keys(interfaceUsageCount).sort(function (a, b) {\n return interfaceUsageCount[b] - interfaceUsageCount[a];\n }); // Suggest both interface and object types.\n\n return suggestedInterfaceTypes.concat(suggestedObjectTypes);\n } // Otherwise, must be an Object type, which does not have possible fields.\n\n\n return [];\n}", "function mergeSchemas(config) {\n const extractedTypeDefs = (0, utils_1.asArray)(config.typeDefs || []);\n const extractedResolvers = (0, utils_1.asArray)(config.resolvers || []);\n const extractedSchemaExtensions = (0, utils_1.asArray)(config.schemaExtensions || []);\n const schemas = config.schemas || [];\n for (const schema of schemas) {\n extractedTypeDefs.push(schema);\n extractedResolvers.push((0, utils_1.getResolversFromSchema)(schema, true));\n extractedSchemaExtensions.push((0, merge_1.extractExtensionsFromSchema)(schema));\n }\n return (0, makeExecutableSchema_js_1.makeExecutableSchema)({\n parseOptions: config,\n ...config,\n typeDefs: extractedTypeDefs,\n resolvers: extractedResolvers,\n schemaExtensions: extractedSchemaExtensions,\n });\n}", "function pruneSchema(resources /*, fullFhirSchema?: Schema*/) {\n return __awaiter(this, void 0, void 0, function () {\n var fullFhirSchema, newSchema, definitionNames, oneOf;\n return __generator(this, function (_a) {\n switch (_a.label) {\n case 0: return [4 /*yield*/, getFullSchema()];\n case 1:\n fullFhirSchema = _a.sent();\n newSchema = {\n $schema: \"http://json-schema.org/draft-07/schema#\",\n $id: \"https://smarthealth.cards/schema/fhir-schema.json\",\n oneOf: [{\n $ref: \"#/definitions/Bundle\"\n }],\n definitions: {\n ResourceList: {\n oneOf: []\n }\n }\n };\n definitionNames = [];\n oneOf = newSchema.definitions.ResourceList.oneOf || [];\n // for each required resource, find all the child definitions\n // definitionNames will fill with all the required child-definitions\n resources.forEach(function (resource) { return findChildRefs(fullFhirSchema, resource, definitionNames); });\n definitionNames.sort();\n definitionNames.forEach(function (name) {\n var def = fullFhirSchema.definitions[name];\n newSchema.definitions[name] = def;\n // If this def is a Resource type, add a $ref to the oneOf collection\n if (def.properties && def.properties.resourceType && def.properties.resourceType.const) {\n oneOf.push({ \"$ref\": \"#/definitions/\" + def.properties.resourceType.const });\n }\n });\n // Schema validation of the Bundle.entries will happen separately. We'll replace the ResourceList type\n // with a generic object to prevent further validation here.\n // The reason is that if the entry items have bad schema, we will get dozens of errors as the bad-schema object\n // fails to match any of the possible Resources. So instead, we validate the entries individually against\n // the resource type specified in its resourceType field.\n newSchema.definitions['Bundle_Entry'].properties.resource = { \"type\": \"object\" };\n return [2 /*return*/, newSchema];\n }\n });\n });\n}", "function checkInconsistentFieldTypes(fields, layers) {\n fields.forEach(function(key) {\n var types = findFieldTypes(key, layers);\n if (types.length > 1) {\n stop(\"Inconsistent data types in \\\"\" + key + \"\\\" field:\", types.join(', '));\n }\n });\n }", "doTypeChecks(a, b) {\n const checkArrayOne = a.getCheck();\n const checkArrayTwo = b.getCheck();\n\n if (!checkArrayOne || !checkArrayTwo) {\n // Null arrays can only connect to other null arrays.\n return checkArrayOne == checkArrayTwo;\n }\n\n // Find any intersection in the check lists.\n for (let i = 0; i < checkArrayOne.length; i++) {\n if (checkArrayTwo.indexOf(checkArrayOne[i]) != -1) {\n return true;\n }\n }\n // No intersection.\n return false;\n }", "function addOtherSchemaTest() {\n var schema_multi = {\n className: \"NobelWinner\",\n fields: {\n name: {\n type: \"Object\",\n fields: {\n alias1 : {\n type: \"String\"\n },\n alias2 : {\n type: \"String\"\n }\n }\n },\n address: {\n type: \"String\"\n }\n }\n };\n XHR.POST(SERVER_URL+'/schemas', schema_multi)\n}" ]
[ "0.76721257", "0.7485684", "0.74180543", "0.7411905", "0.74099255", "0.74099255", "0.71563596", "0.7117689", "0.7117689", "0.7061867", "0.70333153", "0.70333153", "0.70333153", "0.66911477", "0.66376525", "0.6494975", "0.6494975", "0.6386537", "0.6386537", "0.6386426", "0.6222833", "0.6188706", "0.6147296", "0.6079708", "0.60744065", "0.60744065", "0.60744065", "0.60744065", "0.59416586", "0.5773555", "0.5773555", "0.57497483", "0.56466216", "0.56442", "0.5531252", "0.55201477", "0.5467174", "0.5467174", "0.54638124", "0.5383484", "0.5376705", "0.53387356", "0.52650857", "0.51703256", "0.5083683", "0.5062416", "0.50373137", "0.4987834", "0.49800226", "0.49799332", "0.49494058", "0.493508", "0.493508", "0.4931812", "0.49130332", "0.49074012", "0.490362", "0.490362", "0.49031824", "0.48962766", "0.48958015", "0.48833466", "0.48833466", "0.4854976", "0.4853384", "0.4853384", "0.4848452", "0.48288012", "0.48288012", "0.48211694", "0.48104867", "0.48087043", "0.48081684", "0.4808115", "0.48034108", "0.47864932", "0.47742668", "0.47339642", "0.47339642", "0.4713919", "0.4712077", "0.47093952", "0.46645632", "0.46645632", "0.46581623", "0.46581623", "0.46530533", "0.46513456", "0.46473256", "0.46473256", "0.46473256", "0.4647013", "0.46421275", "0.46393538", "0.46378097", "0.46359938", "0.4633028", "0.46256667", "0.46216026" ]
0.7492621
2
Given two schemas, returns an Array containing descriptions of all the types of potentially dangerous changes covered by the other functions down below.
function findDangerousChanges(oldSchema, newSchema) { return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema)); }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findInterfacesAddedToObjectTypes(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).dangerousChanges);\n}", "function findBreakingChanges(oldSchema, newSchema) {\n\t return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema));\n\t}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges);\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_REMOVED,\n\t description: typeName + ' was removed.'\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t return;\n\t }\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof newType.constructor)) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_CHANGED_KIND,\n\t description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr2 = Object.keys(oldTypeMap);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var typeName = _arr2[_i2];\n\n if (!newTypeMap[typeName]) {\n continue;\n }\n\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (oldType.constructor !== newType.constructor) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: \"\".concat(typeName, \" changed from \") + \"\".concat(typeKindName(oldType), \" to \").concat(typeKindName(newType), \".\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr = Object.keys(oldTypeMap);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var typeName = _arr[_i];\n\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: \"\".concat(typeName, \" was removed.\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).breakingChanges, findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema), findRemovedDirectives(oldSchema, newSchema), findRemovedDirectiveArgs(oldSchema, newSchema), findAddedNonNullDirectiveArgs(oldSchema, newSchema), findRemovedDirectiveLocations(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n var dangerousChanges = [];\n\n var _arr3 = Object.keys(oldTypeMap);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var typeName = _arr3[_i3];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(oldType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(oldType)) || !(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(newType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(newType)) || newType.constructor !== oldType.constructor) {\n continue;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n var _arr4 = Object.keys(oldTypeFields);\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var fieldName = _arr4[_i4];\n\n if (!newTypeFields[fieldName]) {\n continue;\n }\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n var _loop = function _loop() {\n var oldArgDef = _step.value;\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(newArgs, function (arg) {\n return arg.name === oldArgDef.name;\n }); // Arg not present\n\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" was removed\")\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed type from \") + \"\".concat(oldArgDef.type.toString(), \" to \").concat(newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed defaultValue\")\n });\n }\n }\n };\n\n for (var _iterator = oldTypeFields[fieldName].args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n _loop();\n } // Check if arg was added to the field\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop2 = function _loop2() {\n var newArgDef = _step2.value;\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(oldArgs, function (arg) {\n return arg.name === newArgDef.name;\n });\n\n if (!oldArgDef) {\n var argName = newArgDef.name;\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isRequiredArgument\"])(newArgDef)) {\n breakingChanges.push({\n type: BreakingChangeType.REQUIRED_ARG_ADDED,\n description: \"A required arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n } else {\n dangerousChanges.push({\n type: DangerousChangeType.OPTIONAL_ARG_ADDED,\n description: \"An optional arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n }\n }\n };\n\n for (var _iterator2 = newTypeFields[fieldName].args[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop2();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n }\n }\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingFieldChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType || oldType instanceof _definition.GraphQLInputObjectType) || !(newType instanceof oldType.constructor)) {\n\t return;\n\t }\n\n\t var oldTypeFieldsDef = oldType.getFields();\n\t var newTypeFieldsDef = newType.getFields();\n\t Object.keys(oldTypeFieldsDef).forEach(function (fieldName) {\n\t // Check if the field is missing on the type in the new schema.\n\t if (!(fieldName in newTypeFieldsDef)) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_REMOVED,\n\t description: typeName + '.' + fieldName + ' was removed.'\n\t });\n\t } else {\n\t // Check if the field's type has changed in the new schema.\n\t var oldFieldType = (0, _definition.getNamedType)(oldTypeFieldsDef[fieldName].type);\n\t var newFieldType = (0, _definition.getNamedType)(newTypeFieldsDef[fieldName].type);\n\t if (oldFieldType && newFieldType && oldFieldType.name !== newFieldType.name) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_CHANGED_KIND,\n\t description: typeName + '.' + fieldName + ' changed type from ' + (oldFieldType.name + ' to ' + newFieldType.name + '.')\n\t });\n\t }\n\t }\n\t });\n\t });\n\t return breakingFieldChanges;\n\t}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var typesRemovedFromUnion = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n\t return;\n\t }\n\t var typeNamesInNewUnion = Object.create(null);\n\t newType.getTypes().forEach(function (type) {\n\t typeNamesInNewUnion[type.name] = true;\n\t });\n\t oldType.getTypes().forEach(function (type) {\n\t if (!typeNamesInNewUnion[type.name]) {\n\t typesRemovedFromUnion.push({\n\t type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n\t description: type.name + ' was removed from union type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return typesRemovedFromUnion;\n\t}", "function schemaDiff(comparison) {\n\t// TODO\n\t// TODO\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesAddedToUnion = [];\n Object.keys(newTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInOldUnion = Object.create(null);\n oldType.getTypes().forEach(function (type) {\n typeNamesInOldUnion[type.name] = true;\n });\n newType.getTypes().forEach(function (type) {\n if (!typeNamesInOldUnion[type.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: type.name + ' was added to union type ' + typeName + '.'\n });\n }\n });\n });\n return typesAddedToUnion;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesAddedToEnums = [];\n\n var _arr13 = Object.keys(oldTypeMap);\n\n for (var _i13 = 0; _i13 < _arr13.length; _i13++) {\n var typeName = _arr13[_i13];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInOldEnum = Object.create(null);\n var _iteratorNormalCompletion9 = true;\n var _didIteratorError9 = false;\n var _iteratorError9 = undefined;\n\n try {\n for (var _iterator9 = oldType.getValues()[Symbol.iterator](), _step9; !(_iteratorNormalCompletion9 = (_step9 = _iterator9.next()).done); _iteratorNormalCompletion9 = true) {\n var value = _step9.value;\n valuesInOldEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError9 = true;\n _iteratorError9 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion9 && _iterator9.return != null) {\n _iterator9.return();\n }\n } finally {\n if (_didIteratorError9) {\n throw _iteratorError9;\n }\n }\n }\n\n var _iteratorNormalCompletion10 = true;\n var _didIteratorError10 = false;\n var _iteratorError10 = undefined;\n\n try {\n for (var _iterator10 = newType.getValues()[Symbol.iterator](), _step10; !(_iteratorNormalCompletion10 = (_step10 = _iterator10.next()).done); _iteratorNormalCompletion10 = true) {\n var _value2 = _step10.value;\n\n if (!valuesInOldEnum[_value2.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: \"\".concat(_value2.name, \" was added to enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError10 = true;\n _iteratorError10 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion10 && _iterator10.return != null) {\n _iterator10.return();\n }\n } finally {\n if (_didIteratorError10) {\n throw _iteratorError10;\n }\n }\n }\n }\n\n return valuesAddedToEnums;\n}", "getPossibleTypes() {\n const seenTypes = new Set;\n function process(obj) {\n seenTypes.add(obj);\n for (const child of obj.getChildSchemas()) {\n if (seenTypes.has(child)) continue;\n // we know Base.key is SchemaRef\n process(child);\n }\n }\n process(this);\n return Array.from(seenTypes);\n }", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesRemovedFromEnums = [];\n\n var _arr12 = Object.keys(oldTypeMap);\n\n for (var _i12 = 0; _i12 < _arr12.length; _i12++) {\n var typeName = _arr12[_i12];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInNewEnum = Object.create(null);\n var _iteratorNormalCompletion7 = true;\n var _didIteratorError7 = false;\n var _iteratorError7 = undefined;\n\n try {\n for (var _iterator7 = newType.getValues()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {\n var value = _step7.value;\n valuesInNewEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError7 = true;\n _iteratorError7 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion7 && _iterator7.return != null) {\n _iterator7.return();\n }\n } finally {\n if (_didIteratorError7) {\n throw _iteratorError7;\n }\n }\n }\n\n var _iteratorNormalCompletion8 = true;\n var _didIteratorError8 = false;\n var _iteratorError8 = undefined;\n\n try {\n for (var _iterator8 = oldType.getValues()[Symbol.iterator](), _step8; !(_iteratorNormalCompletion8 = (_step8 = _iterator8.next()).done); _iteratorNormalCompletion8 = true) {\n var _value = _step8.value;\n\n if (!valuesInNewEnum[_value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: \"\".concat(_value.name, \" was removed from enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError8 = true;\n _iteratorError8 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion8 && _iterator8.return != null) {\n _iterator8.return();\n }\n } finally {\n if (_didIteratorError8) {\n throw _iteratorError8;\n }\n }\n }\n }\n\n return valuesRemovedFromEnums;\n}", "getAdditionalSchemas() {\n const additionalSchemas = this.schemas.join('\\n');\n return additionalSchemas;\n }", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "getSchemas() {\n return {\n indices: this.getIndices(),\n mappings: this.getMappings()\n };\n }", "schemafy(keys, schema) {\n return keys\n .concat(schema.required || [])\n .filter(key => this.isNotHidden(key, schema) || this.appGlobalsService.adminMode)\n .concat(schema.alwaysShow || [])\n .sort((a, b) => this.compareKeysBySchemaService.compare(a, b, schema))\n .toOrderedSet();\n }", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function getDiffs(oldDoc, newDoc) {\n const changes = new Array();\n const flatOld = flattenObject(oldDoc);\n const flatNew = flattenObject(newDoc);\n // find deleted nodes\n Object.keys(flatOld).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatNew, key)) {\n changes.push({\n action: 'DELETED',\n keyName: key,\n });\n }\n });\n // find added nodes\n Object.keys(flatNew).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatOld, key)) {\n changes.push({\n action: 'ADDED',\n keyName: key,\n });\n }\n });\n // find updated nodes\n Object.keys(flatOld).forEach(key => {\n let oldValue = flatOld[key];\n if (Array.isArray(oldValue)) {\n oldValue = oldValue.join(', ');\n }\n let newValue = flatNew[key];\n if (newValue) {\n if (Array.isArray(newValue)) {\n newValue = newValue.join(', ');\n }\n if (newValue !== oldValue && key !== 'revision' && key !== 'etag') {\n changes.push({\n action: 'CHANGED',\n keyName: key,\n });\n }\n }\n });\n return changes;\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "function checkInconsistentFieldTypes(fields, layers) {\n fields.forEach(function(key) {\n var types = findFieldTypes(key, layers);\n if (types.length > 1) {\n stop(\"Inconsistent data types in \\\"\" + key + \"\\\" field:\", types.join(', '));\n }\n });\n }", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var valuesRemovedFromEnums = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n\t return;\n\t }\n\t var valuesInNewEnum = Object.create(null);\n\t newType.getValues().forEach(function (value) {\n\t valuesInNewEnum[value.name] = true;\n\t });\n\t oldType.getValues().forEach(function (value) {\n\t if (!valuesInNewEnum[value.name]) {\n\t valuesRemovedFromEnums.push({\n\t type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n\t description: value.name + ' was removed from enum type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return valuesRemovedFromEnums;\n\t}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function OverlappingFieldsCanBeMerged(context) {\n var comparedSet = new PairSet();\n\n function findConflicts(fieldMap) {\n var conflicts = [];\n _Object$keys(fieldMap).forEach(function (responseName) {\n var fields = fieldMap[responseName];\n if (fields.length > 1) {\n for (var i = 0; i < fields.length; i++) {\n for (var j = i; j < fields.length; j++) {\n var conflict = findConflict(responseName, fields[i], fields[j]);\n if (conflict) {\n conflicts.push(conflict);\n }\n }\n }\n }\n });\n return conflicts;\n }\n\n function findConflict(responseName, field1, field2) {\n var _field1 = _slicedToArray(field1, 3);\n\n var parentType1 = _field1[0];\n var ast1 = _field1[1];\n var def1 = _field1[2];\n\n var _field2 = _slicedToArray(field2, 3);\n\n var parentType2 = _field2[0];\n var ast2 = _field2[1];\n var def2 = _field2[2];\n\n // Not a pair.\n if (ast1 === ast2) {\n return;\n }\n\n // If the statically known parent types could not possibly apply at the same\n // time, then it is safe to permit them to diverge as they will not present\n // any ambiguity by differing.\n // It is known that two parent types could never overlap if they are\n // different Object types. Interface or Union types might overlap - if not\n // in the current state of the schema, then perhaps in some future version,\n // thus may not safely diverge.\n if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n return;\n }\n\n // Memoize, do not report the same issue twice.\n if (comparedSet.has(ast1, ast2)) {\n return;\n }\n comparedSet.add(ast1, ast2);\n\n var name1 = ast1.name.value;\n var name2 = ast2.name.value;\n if (name1 !== name2) {\n return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n }\n\n var type1 = def1 && def1.type;\n var type2 = def2 && def2.type;\n if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n }\n\n if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n }\n\n var selectionSet1 = ast1.selectionSet;\n var selectionSet2 = ast2.selectionSet;\n if (selectionSet1 && selectionSet2) {\n var visitedFragmentNames = {};\n var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n var conflicts = findConflicts(subfieldMap);\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var _ref32 = _slicedToArray(_ref3, 1);\n\n var reason = _ref32[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref4) {\n var _ref42 = _slicedToArray(_ref4, 2);\n\n var fields1 = _ref42[1];\n return allFields.concat(fields1);\n }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n var _ref52 = _slicedToArray(_ref5, 3);\n\n var fields2 = _ref52[2];\n return allFields.concat(fields2);\n }, [ast2])];\n }\n }\n }\n\n return {\n SelectionSet: {\n // Note: we validate on the reverse traversal so deeper conflicts will be\n // caught first, for clearer error messages.\n leave: function leave(selectionSet) {\n var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n var conflicts = findConflicts(fieldMap);\n conflicts.forEach(function (_ref6) {\n var _ref62 = _slicedToArray(_ref6, 3);\n\n var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n var responseName = _ref62$0[0];\n var reason = _ref62$0[1];\n var fields1 = _ref62[1];\n var fields2 = _ref62[2];\n return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n });\n }\n }\n };\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesAddedToEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n\n var valuesInOldEnum = Object.create(null);\n oldType.getValues().forEach(function (value) {\n valuesInOldEnum[value.name] = true;\n });\n newType.getValues().forEach(function (value) {\n if (!valuesInOldEnum[value.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: value.name + ' was added to enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesAddedToEnums;\n}", "function findReferences(schema) {\n if (schema.$ref) {\n return [schema.$ref];\n }\n\n let references = [];\n\n if (schema.allOf) {\n references = references.concat(...schema.allOf.map(findReferences));\n }\n\n if (schema.anyOf) {\n references = references.concat(...schema.anyOf.map(findReferences));\n }\n\n if (schema.oneOf) {\n references = references.concat(...schema.oneOf.map(findReferences));\n }\n\n if (schema.not) {\n references = references.concat(...findReferences(schema.not));\n }\n\n // Array\n\n if (schema.items) {\n if (Array.isArray(schema.items)) {\n references = references.concat(...schema.items.map(findReferences));\n } else {\n references = references.concat(findReferences(schema.items));\n }\n }\n\n if (schema.additionalItems && typeof schema.additionalItems === 'object') {\n references = references.concat(findReferences(schema.additionalItems));\n }\n\n // Object\n\n if (schema.properties) {\n Object.keys(schema.properties).forEach((key) => {\n references = references.concat(findReferences(schema.properties[key]));\n });\n }\n\n if (schema.patternProperties) {\n Object.keys(schema.patternProperties).forEach((key) => {\n references = references.concat(findReferences(schema.patternProperties[key]));\n });\n }\n\n if (schema.additionalProperties && typeof schema.additionalProperties === 'object') {\n references = references.concat(findReferences(schema.additionalProperties));\n }\n\n return references;\n}", "getCollectionsSchemas() {\n const collectionsSchemas = this.collections.map(collection => {\n return this.generateSchema(collection);\n }).join('\\n');\n return collectionsSchemas;\n }", "function OverlappingFieldsCanBeMerged(context) {\n\t var comparedSet = new PairSet();\n\n\t function findConflicts(fieldMap) {\n\t var conflicts = [];\n\t _Object$keys(fieldMap).forEach(function (responseName) {\n\t var fields = fieldMap[responseName];\n\t if (fields.length > 1) {\n\t for (var i = 0; i < fields.length; i++) {\n\t for (var j = i; j < fields.length; j++) {\n\t var conflict = findConflict(responseName, fields[i], fields[j]);\n\t if (conflict) {\n\t conflicts.push(conflict);\n\t }\n\t }\n\t }\n\t }\n\t });\n\t return conflicts;\n\t }\n\n\t function findConflict(responseName, field1, field2) {\n\t var _field1 = _slicedToArray(field1, 3);\n\n\t var parentType1 = _field1[0];\n\t var ast1 = _field1[1];\n\t var def1 = _field1[2];\n\n\t var _field2 = _slicedToArray(field2, 3);\n\n\t var parentType2 = _field2[0];\n\t var ast2 = _field2[1];\n\t var def2 = _field2[2];\n\n\t // Not a pair.\n\t if (ast1 === ast2) {\n\t return;\n\t }\n\n\t // If the statically known parent types could not possibly apply at the same\n\t // time, then it is safe to permit them to diverge as they will not present\n\t // any ambiguity by differing.\n\t // It is known that two parent types could never overlap if they are\n\t // different Object types. Interface or Union types might overlap - if not\n\t // in the current state of the schema, then perhaps in some future version,\n\t // thus may not safely diverge.\n\t if (parentType1 !== parentType2 && parentType1 instanceof _typeDefinition.GraphQLObjectType && parentType2 instanceof _typeDefinition.GraphQLObjectType) {\n\t return;\n\t }\n\n\t // Memoize, do not report the same issue twice.\n\t if (comparedSet.has(ast1, ast2)) {\n\t return;\n\t }\n\t comparedSet.add(ast1, ast2);\n\n\t var name1 = ast1.name.value;\n\t var name2 = ast2.name.value;\n\t if (name1 !== name2) {\n\t return [[responseName, name1 + ' and ' + name2 + ' are different fields'], [ast1], [ast2]];\n\t }\n\n\t var type1 = def1 && def1.type;\n\t var type2 = def2 && def2.type;\n\t if (type1 && type2 && !(0, _utilitiesTypeComparators.isEqualType)(type1, type2)) {\n\t return [[responseName, 'they return differing types ' + type1 + ' and ' + type2], [ast1], [ast2]];\n\t }\n\n\t if (!sameArguments(ast1.arguments || [], ast2.arguments || [])) {\n\t return [[responseName, 'they have differing arguments'], [ast1], [ast2]];\n\t }\n\n\t var selectionSet1 = ast1.selectionSet;\n\t var selectionSet2 = ast2.selectionSet;\n\t if (selectionSet1 && selectionSet2) {\n\t var visitedFragmentNames = {};\n\t var subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type1), selectionSet1, visitedFragmentNames);\n\t subfieldMap = collectFieldASTsAndDefs(context, (0, _typeDefinition.getNamedType)(type2), selectionSet2, visitedFragmentNames, subfieldMap);\n\t var conflicts = findConflicts(subfieldMap);\n\t if (conflicts.length > 0) {\n\t return [[responseName, conflicts.map(function (_ref3) {\n\t var _ref32 = _slicedToArray(_ref3, 1);\n\n\t var reason = _ref32[0];\n\t return reason;\n\t })], conflicts.reduce(function (allFields, _ref4) {\n\t var _ref42 = _slicedToArray(_ref4, 2);\n\n\t var fields1 = _ref42[1];\n\t return allFields.concat(fields1);\n\t }, [ast1]), conflicts.reduce(function (allFields, _ref5) {\n\t var _ref52 = _slicedToArray(_ref5, 3);\n\n\t var fields2 = _ref52[2];\n\t return allFields.concat(fields2);\n\t }, [ast2])];\n\t }\n\t }\n\t }\n\n\t return {\n\t SelectionSet: {\n\t // Note: we validate on the reverse traversal so deeper conflicts will be\n\t // caught first, for clearer error messages.\n\t leave: function leave(selectionSet) {\n\t var fieldMap = collectFieldASTsAndDefs(context, context.getParentType(), selectionSet);\n\t var conflicts = findConflicts(fieldMap);\n\t conflicts.forEach(function (_ref6) {\n\t var _ref62 = _slicedToArray(_ref6, 3);\n\n\t var _ref62$0 = _slicedToArray(_ref62[0], 2);\n\n\t var responseName = _ref62$0[0];\n\t var reason = _ref62$0[1];\n\t var fields1 = _ref62[1];\n\t var fields2 = _ref62[2];\n\t return context.reportError(new _error.GraphQLError(fieldsConflictMessage(responseName, reason), fields1.concat(fields2)));\n\t });\n\t }\n\t }\n\t };\n\t}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isPossibleType(typeA, typeB);\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function computeDiff(thing1, thing2) {\n if (typeof thing1 === 'object' && typeof thing2 === 'object') {\n if (Array.isArray(thing1) && Array.isArray(thing2)) {\n return arrayDiff(thing1, thing2);\n }\n return objectDiff(thing1, thing2);\n }\n if (thing1 !== thing2) {\n return [thing1, thing2];\n }\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // Equivalent types overlap\n if (typeA === typeB) {\n return true;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeA)) {\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isSubType(typeB, type);\n });\n } // Determine if the latter type is a possible concrete type of the former.\n\n\n return schema.isSubType(typeA, typeB);\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_0__[\"isAbstractType\"])(typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isSubType(typeB, typeA);\n } // Otherwise the types do not overlap.\n\n\n return false;\n}", "function findDifferences(objectA, objectB) {\n var propertyChanges = [];\n var objectGraphPath = [\"this\"];\n (function(a, b) {\n\tif(a.constructor == Array) {\n // BIG assumptions here: That both arrays are same length, that\n // the members of those arrays are _essentially_ the same, and \n // that those array members are in the same order...\n for(var i = 0; i < a.length; i++) {\n\t\tobjectGraphPath.push(\"[\" + i.toString() + \"]\");\n\t\targuments.callee(a[i], b[i]);\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor == Object || (a.constructor != Number && \n\t\t\t\t\t a.constructor != String && a.constructor != Date && \n\t\t\t\t\t a.constructor != RegExp && a.constructor != Function &&\n\t\t\t\t\t a.constructor != Boolean)) {\n // we can safely assume that the objects have the \n // same property lists, else why compare them?\n for(var property in a) {\n\t\tobjectGraphPath.push((\".\" + property));\n\t\tif(a[property].constructor != Function) {\n\t\t arguments.callee(a[property], b[property]);\n\t\t}\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor != Function) { // filter out functions\n if(a != b) {\n\t\tpropertyChanges.push({ \"Property\": objectGraphPath.join(\"\"), \"ObjectA\": a, \"ObjectB\": b });\n }\n\t}\n })(objectA, objectB);\n return propertyChanges;\n}", "function listSchemaTypes(){\n resultObj = {}\n var mainSchemes ={\n eng:['engFrameSchema', 'translationSchema', 'lexUnit'],\n //eng: [],\n heb: ['decisionSchema','hebFrameLUSchema', 'luSentenceSchema', 'hebsentenceSchema', 'hebFrameType']\n //heb: ['hebFrameLUSchema']\n }\n for (schema in mainSchemes){\n //console.log(schema)\n resultObj[schema] = {}\n for (name in mainSchemes[schema]){\n var results = []\n if (schema =='eng')test2(eng[mainSchemes[schema][name]].paths, \"\",results)\n if (schema =='heb')test2(heb[mainSchemes[schema][name]].paths, \"\",results)\n //console.log(name)\n resultObj[mainSchemes[schema][name]] =results;\n }\n\n }\n\n return resultObj;\n}", "function printIntrospectionSchema(schema) {\n\t return printFilteredSchema(schema, isSpecDirective, isIntrospectionType);\n\t}", "function newTypesComplain(req, res) {\n\n}", "function determineActualTypesLoose(env, values) {\n return Z.reject (function(t) { return t.type === INCONSISTENT; },\n _determineActualTypes (env, [], values));\n }", "fixRecursively(schema) {\n if (schema.anyOf) {\n schema = this.fixAnyOf(schema);\n }\n else if (schema.allOf) {\n schema = this.fixAllOf(schema);\n }\n if (schema.order) {\n schema = this.fixOrder(schema);\n }\n if (schema.disabled) {\n schema = this.fixDisabled(schema);\n }\n if (schema.alwaysShow) {\n schema = this.fixAlwaysShow(schema);\n }\n if (schema.alwaysShowRegExp) {\n schema = this.fixAlwaysShowRegExp(schema);\n }\n // schema fixes must be done above\n // recursively call for deeper parts of schema\n if (schema.properties) {\n Object.keys(schema.properties)\n .forEach(prop => {\n schema.properties[prop] = this.fixRecursively(schema.properties[prop]);\n });\n }\n else if (schema.items) {\n schema.items = this.fixRecursively(schema.items);\n }\n // fixes that needs above fixes to be done deeply for the current schema\n schema.componentType = this.componentTypeService.getComponentType(schema);\n return schema;\n }", "_checkSchema() {\n if(!this._data['topics']) {\n throw new Error('Schema Error, expected root array named topics');\n }\n let cleaned = [];\n this._data['topics'].map((value, index) => {\n if(!this._itemConformsToSchema(value, this._itemSchema)) {\n if(!this._ignoreBadItems) {\n throw new Error('Schema Error, item: ' + index + ' does not conform to schema');\n } else {\n console.warn('Item: ' + index + ' does not conform to schema, Ignoring', value);\n }\n } else if(this._ignoreBadItems) {\n cleaned.push(value);\n }\n return value;\n });\n\n if(this._ignoreBadItems) {\n this._data['topics'] = cleaned;\n }\n\n return cleaned;\n }", "getChildSchemas() {\n return self.gs\n .graphs.get(this.data.graphId)\n .selectAllWithType('RecordSchema')\n .filter(x => x.Base.SchemaRef == this.data.objectId);\n }", "function markListOperations(schemas) {\n _.each(schemas, function(schema) {\n if (schema.list) {\n if (_.isEmpty(schema.list.parameters)) {\n schema.list.dxFilterMode = dx.core.constants.LIST_TYPES.NONE;\n } else {\n var missingMapsTo = false;\n _.any(schema.list.parameters, function(param) {\n if (!param.mapsTo) {\n missingMapsTo = true;\n return true;\n }\n });\n schema.list.dxFilterMode = missingMapsTo ? dx.core.constants.LIST_TYPES.CUSTOM :\n dx.core.constants.LIST_TYPES.UBER;\n }\n }\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!(0, _definition.isAbstractType)(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return (0, _arrayFrom.default)(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if ((0, _definition.isInterfaceType)(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if ((0, _definition.isInterfaceType)(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return (0, _naturalCompare.default)(typeA.name, typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!(0, _definition.isAbstractType)(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return (0, _arrayFrom.default)(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if ((0, _definition.isInterfaceType)(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if ((0, _definition.isInterfaceType)(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return (0, _naturalCompare.default)(typeA.name, typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSchemaOptions(discriminatorSchemas, componentSchemas) {\n const options = [];\n\n Object.keys(discriminatorSchemas).forEach(dsKey => {\n const discSchema = discriminatorSchemas[dsKey];\n Object.keys(componentSchemas).forEach(componentKey => {\n if (deepEquals(cleanDiscriminatorSchema(discSchema), componentSchemas[componentKey])) {\n options.push({\n label: componentKey,\n value: componentKey,\n });\n }\n });\n });\n\n return options;\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function valid_schema(schema) {\n\t\tif (typeof schema !== \"object\") {\n\t\t\tvar help = \"\";\n\t\t\tif (typeof schema == \"function\") help = \" It is a function, did you forget to use new?\"\n\t\t\tthrow new Error(\"schema '\" + schema + \"' is not an object.\" + help);\n\t\t}\n\n\t\tif (schema.__proto__['_schema_valid']) return schema;\n\n\t\tschema.__proto__['_schema_checking'] = true;\n\n\t\tfor (var field in schema) {\n\t\t\tif (field.indexOf('_schema_') === 0) continue;\n\n\t\t\t// Make sure a qualifier is set.\n\t\t\tif (schema[field].qualifier != \"required\" &&\n\t\t\t\t\tschema[field].qualifier != \"optional\" &&\n\t\t\t\t\tschema[field].qualifier != \"repeated\")\n\t\t\t\tthrow new Error(\"Invalid qualifier '\" + schema[field].qualifier + \"' on field '\" + field + \"'\");\n\n\t\t\t// Check the type of the field.\n\n\t\t\tif (isPrimitive(schema[field].type)) {\n\t\t\t\t// Primitive fields cannot go wrong.\n\t\t\t\t; // Nothing to do.\n\t\t\t} else {\n\t\t\t\t// Fields that are schemas have to be recursively. We watch out for loops!\n\t\t\t\tif (schema[field].type['_schema_checking']) {\n\t\t\t\t\tif (schema[field].qualifier == \"required\") {\n\t\t\t\t\t\tthrow new Error(\"required fields can not be used recursively (think about it, it makes sense)\");\n\t\t\t\t\t}\n\t\t\t\t\tschema_log(\"loop detected, already checked\");\n\t\t\t\t} else {\n\t\t\t\t\tvalid_schema(schema[field].type);\n\t\t\t\t}\n\t\t\t}\n\t\t}\n\n\t\tschema.__proto__['_schema_checked'] = true;\n\t\tdelete schema.__proto__['_schema_valid'];\n\n\t\treturn schema;\n\t}", "function generateSchemaDocs(mongoose) {\n\n nestedSchemas = [];\n\n // Transform models object to an array\n var schemas = _.pairs(mongoose.modelSchemas);\n\n // Map each schema to a readable format\n schemas = _.map(schemas, function (schema) {\n var info = getSchemaInfo(schema);\n return info;\n });\n\n // Add nested schemas\n schemas = schemas.concat(nestedSchemas);\n return schemas;\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isAbstractType\"])(type)) {\n var suggestedObjectTypes = [];\n var interfaceUsageCount = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = schema.getPossibleTypes(type)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var possibleType = _step.value;\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedObjectTypes.push(possibleType.name);\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = possibleType.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var possibleInterface = _step2.value;\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n interfaceUsageCount[possibleInterface.name] = (interfaceUsageCount[possibleInterface.name] || 0) + 1;\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } // Suggest interface types based on how common they are.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var suggestedInterfaceTypes = Object.keys(interfaceUsageCount).sort(function (a, b) {\n return interfaceUsageCount[b] - interfaceUsageCount[a];\n }); // Suggest both interface and object types.\n\n return suggestedInterfaceTypes.concat(suggestedObjectTypes);\n } // Otherwise, must be an Object type, which does not have possible fields.\n\n\n return [];\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "static filterUnexpectedData(orig, startingData, schema) {\n const data = Object.assign({}, startingData);\n Object.keys(schema.describe().children).forEach(key => {\n data[key] = orig[key];\n });\n return data;\n }", "doTypeChecks(a, b) {\n const checkArrayOne = a.getCheck();\n const checkArrayTwo = b.getCheck();\n\n if (!checkArrayOne || !checkArrayTwo) {\n // Null arrays can only connect to other null arrays.\n return checkArrayOne == checkArrayTwo;\n }\n\n // Find any intersection in the check lists.\n for (let i = 0; i < checkArrayOne.length; i++) {\n if (checkArrayTwo.indexOf(checkArrayOne[i]) != -1) {\n return true;\n }\n }\n // No intersection.\n return false;\n }", "function tighten(schema) {\n if (!isDefined(schema.type)) {\n if (isDefined(schema.properties)) {\n schema.type = 'object';\n }\n if (isDefined(schema.pattern)) {\n schema.type = 'string';\n }\n if (isDefined(schema.minLength) || isDefined(schema.maxLength)) {\n schema.type = 'string';\n }\n if (isDefined(schema.enum)) {\n var allStrings = _(schema.enum).all(function (item) {\n return typeof item === 'string';\n });\n if (allStrings) {\n schema.type = 'string';\n }\n }\n if (isDefined(schema.items)) {\n schema.type = 'array';\n }\n } else {\n if (_.isArray(schema.type)) {\n _.each(schema.type, function (unionType) {\n tighten(unionType);\n });\n }\n }\n if (!isDefined(schema.required)) {\n schema.required = true;\n }\n if (isDefined(schema.properties)) {\n _(schema.properties).each(function (propertySchema) {\n tighten(propertySchema);\n });\n if (!isDefined(schema.additionalProperties)) {\n schema.additionalProperties = false;\n }\n }\n if (isDefined(schema.items)) {\n if (_.isArray(schema.items)) {\n _.each(schema.items, function (item) {\n tighten(item);\n });\n if (!isDefined(schema.additionalItems)) {\n schema.additionalItems = false;\n }\n } else {\n tighten(schema.items);\n }\n }\n return schema;\n}", "function getNewTypes(oldTypes, newTypes) {\n\t\t\tvar tempTypes = [];\n\t\t\tfor( var i = 0; i < newTypes.length; i++) {\n\t\t\t\tif(oldTypes.indexOf(newTypes[i]) == -1) {\n\t\t\t\t\ttempTypes.push(newTypes[i]);\n\t\t\t\t}\n\t\t\t}\n\t\t\treturn tempTypes;\n\t\t}", "function subfieldConflicts(conflicts, responseName, node1, node2) {\n if (conflicts.length > 0) {\n return [[responseName, conflicts.map(function (_ref3) {\n var reason = _ref3[0];\n return reason;\n })], conflicts.reduce(function (allFields, _ref4) {\n var fields1 = _ref4[1];\n return allFields.concat(fields1);\n }, [node1]), conflicts.reduce(function (allFields, _ref5) {\n var fields2 = _ref5[2];\n return allFields.concat(fields2);\n }, [node2])];\n }\n}", "function doTypesOverlap(schema, typeA, typeB) {\n\t // So flow is aware this is constant\n\t var _typeB = typeB;\n\n\t // Equivalent types overlap\n\t if (typeA === _typeB) {\n\t return true;\n\t }\n\n\t if (typeA instanceof _definition.GraphQLInterfaceType || typeA instanceof _definition.GraphQLUnionType) {\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // If both types are abstract, then determine if there is any intersection\n\t // between possible concrete types of each.\n\t return schema.getPossibleTypes(typeA).some(function (type) {\n\t return schema.isPossibleType(_typeB, type);\n\t });\n\t }\n\t // Determine if the latter type is a possible concrete type of the former.\n\t return schema.isPossibleType(typeA, _typeB);\n\t }\n\n\t if (_typeB instanceof _definition.GraphQLInterfaceType || _typeB instanceof _definition.GraphQLUnionType) {\n\t // Determine if the former type is a possible concrete type of the latter.\n\t return schema.isPossibleType(_typeB, typeA);\n\t }\n\n\t // Otherwise the types do not overlap.\n\t return false;\n\t}", "function parseSchema(schema, options, rootSchema, processed, usedNames, parentSchemaName) {\n var asts = lodash_1.map(schema.properties, function (value, key) { return ({\n ast: parse(value, options, rootSchema, key, true, processed, usedNames),\n isPatternProperty: false,\n isRequired: lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: false,\n keyName: key\n }); });\n var singlePatternProperty = false;\n if (schema.patternProperties) {\n // partially support patternProperties. in the case that\n // additionalProperties is not set, and there is only a single\n // value definition, we can validate against that.\n singlePatternProperty = !schema.additionalProperties && Object.keys(schema.patternProperties).length === 1;\n asts = asts.concat(lodash_1.map(schema.patternProperties, function (value, key) {\n var ast = parse(value, options, rootSchema, key, true, processed, usedNames);\n var comment = \"This interface was referenced by `\" + parentSchemaName + \"`'s JSON-Schema definition\\nvia the `patternProperty` \\\"\" + key + \"\\\".\";\n ast.comment = ast.comment ? ast.comment + \"\\n\\n\" + comment : comment;\n return {\n ast: ast,\n isPatternProperty: !singlePatternProperty,\n isRequired: singlePatternProperty || lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: false,\n keyName: singlePatternProperty ? '[k: string]' : key\n };\n }));\n }\n if (options.unreachableDefinitions) {\n asts = asts.concat(lodash_1.map(schema.definitions, function (value, key) {\n var ast = parse(value, options, rootSchema, key, true, processed, usedNames);\n var comment = \"This interface was referenced by `\" + parentSchemaName + \"`'s JSON-Schema\\nvia the `definition` \\\"\" + key + \"\\\".\";\n ast.comment = ast.comment ? ast.comment + \"\\n\\n\" + comment : comment;\n return {\n ast: ast,\n isPatternProperty: false,\n isRequired: lodash_1.includes(schema.required || [], key),\n isUnreachableDefinition: true,\n keyName: key\n };\n }));\n }\n // handle additionalProperties\n switch (schema.additionalProperties) {\n case undefined:\n case true:\n if (singlePatternProperty) {\n return asts;\n }\n return asts.concat({\n ast: AST_1.T_ANY_ADDITIONAL_PROPERTIES,\n isPatternProperty: false,\n isRequired: true,\n isUnreachableDefinition: false,\n keyName: '[k: string]'\n });\n case false:\n return asts;\n // pass \"true\" as the last param because in TS, properties\n // defined via index signatures are already optional\n default:\n return asts.concat({\n ast: parse(schema.additionalProperties, options, rootSchema, '[k: string]', true, processed, usedNames),\n isPatternProperty: false,\n isRequired: true,\n isUnreachableDefinition: false,\n keyName: '[k: string]'\n });\n }\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function doTypesOverlap(schema, typeA, typeB) {\n // So flow is aware this is constant\n var _typeB = typeB;\n\n // Equivalent types overlap\n if (typeA === _typeB) {\n return true;\n }\n\n if ((0, _definition.isAbstractType)(typeA)) {\n if ((0, _definition.isAbstractType)(_typeB)) {\n // If both types are abstract, then determine if there is any intersection\n // between possible concrete types of each.\n return schema.getPossibleTypes(typeA).some(function (type) {\n return schema.isPossibleType(_typeB, type);\n });\n }\n // Determine if the latter type is a possible concrete type of the former.\n return schema.isPossibleType(typeA, _typeB);\n }\n\n if ((0, _definition.isAbstractType)(_typeB)) {\n // Determine if the former type is a possible concrete type of the latter.\n return schema.isPossibleType(_typeB, typeA);\n }\n\n // Otherwise the types do not overlap.\n return false;\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function check(schema, object) {\n\n\t\tfor (var field in schema) {\n\n\t\t\t// Skip fields we use internally.\n\t\t\tif (field.indexOf('_schema_') === 0) continue;\n\n\t\t\t// Handle the different qualifiers.\n\t\t\tswitch (schema[field].qualifier) {\n\n\t\t\t\tcase \"required\":\n\t\t\t\t\tif (object[field] === undefined || object[field] === null)\n\t\t\t\t\t\tthrow new Error(\"required field '\" + field + \"' is \" + object[field]);\n\t\t\t\t\tif (isPrimitive(schema[field].type)) {\n\t\t\t\t\t\t// Check primitive field's type.\n\t\t\t\t\t\tif (typeof object[field] !== schema[field].type)\n\t\t\t\t\t\t\tthrow primitiveTypeMismatchError(\"required\", field, object[field], schema[field].type);\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// Schema field: check structure recursively.\n\t\t\t\t\t\ttry {\n\t\t\t\t\t\t\tcheck(schema[field].type, object[field]);\n\t\t\t\t\t\t} catch (e) {\n\t\t\t\t\t\t\tthrow new Error(\"required field '\" + field + \"' substructure mismatch: { \" + e + \" }\");\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase \"optional\":\n\t\t\t\t\tif (object[field] === undefined || object[field] === null) {\n\t\t\t\t\t\t// Field is is optional and not present, all right, continue.\n\t\t\t\t\t\t; // Nothing to do.\n\t\t\t\t\t// Field is optional and present.\n\t\t\t\t\t} else if (isPrimitive(schema[field].type)) {\n\t\t\t\t\t\t// Check primitive field's type.\n\t\t\t\t\t\tif (typeof object[field] !== schema[field].type)\n\t\t\t\t\t\t\tthrow primitiveTypeMismatchError(\"optional\", field, object[field], schema[field].type);\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// Schema field: check structure recursively.\n\t\t\t\t\t\ttry {\n\t\t\t\t\t\t\tcheck(schema[field].type, object[field]);\n\t\t\t\t\t\t} catch (e) {\n\t\t\t\t\t\t\tthrow new Error(\"optional field '\" + field + \"' substructure mismatch: { \" + e + \" }\");\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t\tbreak;\n\n\t\t\t\tcase \"repeated\":\n\t\t\t\t\t// Object check: only allow arrays.\n\t\t\t\t\tif (object[field] === undefined || object[field] === null)\n\t\t\t\t\t\tthrow new Error(\"repeated field '\" + field + \"' is '\" + object[field] + \"'\");\n\t\t\t\t\tif (object[field].__proto__ !== [].__proto__)\n\t\t\t\t\t\tthrow new Error(\"repeated field '\" + field + \"' is not an array: '\" + object[field] + \"'\");\n\n\t\t\t\t\t// Is it an array of primitives or objects?\n\t\t\t\t\tif (isPrimitive(schema[field].type)) {\n\t\t\t\t\t\tfor (var index in object[field]) {\n\t\t\t\t\t\t\t// Check if the array entry has that primitive type\n\t\t\t\t\t\t\tif (typeof object[field][index] !== schema[field].type)\n\t\t\t\t\t\t\t\tthrow primitiveTypeMismatchError(\"repeated\", field, object[field], schema[field].type);\n\t\t\t\t\t\t}\n\t\t\t\t\t} else {\n\t\t\t\t\t\tfor (var index in object[field]) {\n\t\t\t\t\t\t\t// Repeated schema field: check recursively if the array entry matches the subschema\n\t\t\t\t\t\t\ttry {\n\t\t\t\t\t\t\t\tcheck(schema[field].type, object[field][index]);\n\t\t\t\t\t\t\t} catch (e) {\n\t\t\t\t\t\t\t\tthrow new Error(\"repeated field '\" + field + \"' substructure mismatch: { \" + e + \" }\");\n\t\t\t\t\t\t\t}\n\t\t\t\t\t\t}\n\t\t\t\t\t}\n\t\t\t\t\tbreak;\n\n\t\t\t\tdefault:\n\t\t\t\t\t// If switch did not match, we got a bad input (but this impossible due to the `valid_schema()` check).\n\t\t\t\t\tthrow new Error(\"jsschema: Illegal state: No qualifier matched\");\n\t\t\t}\n\t\t}\n\n\t\treturn object;\n\t}", "function determineActualTypesStrict(env, values) {\n return Z.filter (isConsistent,\n _determineActualTypes (env, [], values));\n }" ]
[ "0.7039056", "0.70201594", "0.6972318", "0.6959837", "0.6959837", "0.6959837", "0.6959837", "0.6901334", "0.6893894", "0.6893894", "0.68903375", "0.6874852", "0.6867015", "0.6867015", "0.68197554", "0.67576176", "0.67539984", "0.67539984", "0.65311575", "0.6468782", "0.6468782", "0.64059937", "0.64059937", "0.63073105", "0.61828643", "0.6163264", "0.6163264", "0.6163264", "0.6078276", "0.5928311", "0.5928311", "0.5915338", "0.57697755", "0.5732334", "0.55163527", "0.5471002", "0.5358425", "0.5308779", "0.52982676", "0.5270571", "0.5257392", "0.5257392", "0.5237773", "0.51815903", "0.51539516", "0.51539516", "0.508159", "0.508159", "0.5071478", "0.50659925", "0.50492996", "0.5023346", "0.5009043", "0.5000106", "0.5000106", "0.49968457", "0.49949217", "0.49949217", "0.49918714", "0.49902943", "0.49771932", "0.4975535", "0.4969625", "0.49672997", "0.4959165", "0.49549028", "0.49549028", "0.49449024", "0.4944889", "0.49383363", "0.49178553", "0.49094394", "0.48640174", "0.4860907", "0.48537678", "0.48519257", "0.48414153", "0.48414153", "0.48376012", "0.48320377", "0.48320377", "0.4824769", "0.4817799", "0.48060307", "0.47998804", "0.47998804", "0.47928146", "0.4789831", "0.4778722", "0.4774435", "0.4758663", "0.47471127", "0.4746902", "0.47419804", "0.47419804", "0.47419804", "0.47401705", "0.47401705", "0.47401556", "0.4729983" ]
0.7191499
0
Given two schemas, returns an Array containing descriptions of any breaking changes in the newSchema related to removing an entire type.
function findRemovedTypes(oldSchema, newSchema) { var oldTypeMap = oldSchema.getTypeMap(); var newTypeMap = newSchema.getTypeMap(); var breakingChanges = []; Object.keys(oldTypeMap).forEach(function (typeName) { if (!newTypeMap[typeName]) { breakingChanges.push({ type: BreakingChangeType.TYPE_REMOVED, description: typeName + ' was removed.' }); } }); return breakingChanges; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr = Object.keys(oldTypeMap);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var typeName = _arr[_i];\n\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: \"\".concat(typeName, \" was removed.\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_REMOVED,\n\t description: typeName + ' was removed.'\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr2 = Object.keys(oldTypeMap);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var typeName = _arr2[_i2];\n\n if (!newTypeMap[typeName]) {\n continue;\n }\n\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (oldType.constructor !== newType.constructor) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: \"\".concat(typeName, \" changed from \") + \"\".concat(typeKindName(oldType), \" to \").concat(typeKindName(newType), \".\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n\t return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema));\n\t}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t return;\n\t }\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof newType.constructor)) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_CHANGED_KIND,\n\t description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).breakingChanges, findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema), findRemovedDirectives(oldSchema, newSchema), findRemovedDirectiveArgs(oldSchema, newSchema), findAddedNonNullDirectiveArgs(oldSchema, newSchema), findRemovedDirectiveLocations(oldSchema, newSchema));\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingFieldChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType || oldType instanceof _definition.GraphQLInputObjectType) || !(newType instanceof oldType.constructor)) {\n\t return;\n\t }\n\n\t var oldTypeFieldsDef = oldType.getFields();\n\t var newTypeFieldsDef = newType.getFields();\n\t Object.keys(oldTypeFieldsDef).forEach(function (fieldName) {\n\t // Check if the field is missing on the type in the new schema.\n\t if (!(fieldName in newTypeFieldsDef)) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_REMOVED,\n\t description: typeName + '.' + fieldName + ' was removed.'\n\t });\n\t } else {\n\t // Check if the field's type has changed in the new schema.\n\t var oldFieldType = (0, _definition.getNamedType)(oldTypeFieldsDef[fieldName].type);\n\t var newFieldType = (0, _definition.getNamedType)(newTypeFieldsDef[fieldName].type);\n\t if (oldFieldType && newFieldType && oldFieldType.name !== newFieldType.name) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_CHANGED_KIND,\n\t description: typeName + '.' + fieldName + ' changed type from ' + (oldFieldType.name + ' to ' + newFieldType.name + '.')\n\t });\n\t }\n\t }\n\t });\n\t });\n\t return breakingFieldChanges;\n\t}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var typesRemovedFromUnion = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n\t return;\n\t }\n\t var typeNamesInNewUnion = Object.create(null);\n\t newType.getTypes().forEach(function (type) {\n\t typeNamesInNewUnion[type.name] = true;\n\t });\n\t oldType.getTypes().forEach(function (type) {\n\t if (!typeNamesInNewUnion[type.name]) {\n\t typesRemovedFromUnion.push({\n\t type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n\t description: type.name + ' was removed from union type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return typesRemovedFromUnion;\n\t}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n var dangerousChanges = [];\n\n var _arr3 = Object.keys(oldTypeMap);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var typeName = _arr3[_i3];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(oldType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(oldType)) || !(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(newType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(newType)) || newType.constructor !== oldType.constructor) {\n continue;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n var _arr4 = Object.keys(oldTypeFields);\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var fieldName = _arr4[_i4];\n\n if (!newTypeFields[fieldName]) {\n continue;\n }\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n var _loop = function _loop() {\n var oldArgDef = _step.value;\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(newArgs, function (arg) {\n return arg.name === oldArgDef.name;\n }); // Arg not present\n\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" was removed\")\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed type from \") + \"\".concat(oldArgDef.type.toString(), \" to \").concat(newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed defaultValue\")\n });\n }\n }\n };\n\n for (var _iterator = oldTypeFields[fieldName].args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n _loop();\n } // Check if arg was added to the field\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop2 = function _loop2() {\n var newArgDef = _step2.value;\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(oldArgs, function (arg) {\n return arg.name === newArgDef.name;\n });\n\n if (!oldArgDef) {\n var argName = newArgDef.name;\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isRequiredArgument\"])(newArgDef)) {\n breakingChanges.push({\n type: BreakingChangeType.REQUIRED_ARG_ADDED,\n description: \"A required arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n } else {\n dangerousChanges.push({\n type: DangerousChangeType.OPTIONAL_ARG_ADDED,\n description: \"An optional arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n }\n }\n };\n\n for (var _iterator2 = newTypeFields[fieldName].args[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop2();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n }\n }\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges);\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findInterfacesAddedToObjectTypes(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).dangerousChanges);\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesRemovedFromEnums = [];\n\n var _arr12 = Object.keys(oldTypeMap);\n\n for (var _i12 = 0; _i12 < _arr12.length; _i12++) {\n var typeName = _arr12[_i12];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInNewEnum = Object.create(null);\n var _iteratorNormalCompletion7 = true;\n var _didIteratorError7 = false;\n var _iteratorError7 = undefined;\n\n try {\n for (var _iterator7 = newType.getValues()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {\n var value = _step7.value;\n valuesInNewEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError7 = true;\n _iteratorError7 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion7 && _iterator7.return != null) {\n _iterator7.return();\n }\n } finally {\n if (_didIteratorError7) {\n throw _iteratorError7;\n }\n }\n }\n\n var _iteratorNormalCompletion8 = true;\n var _didIteratorError8 = false;\n var _iteratorError8 = undefined;\n\n try {\n for (var _iterator8 = oldType.getValues()[Symbol.iterator](), _step8; !(_iteratorNormalCompletion8 = (_step8 = _iterator8.next()).done); _iteratorNormalCompletion8 = true) {\n var _value = _step8.value;\n\n if (!valuesInNewEnum[_value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: \"\".concat(_value.name, \" was removed from enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError8 = true;\n _iteratorError8 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion8 && _iterator8.return != null) {\n _iterator8.return();\n }\n } finally {\n if (_didIteratorError8) {\n throw _iteratorError8;\n }\n }\n }\n }\n\n return valuesRemovedFromEnums;\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var valuesRemovedFromEnums = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n\t return;\n\t }\n\t var valuesInNewEnum = Object.create(null);\n\t newType.getValues().forEach(function (value) {\n\t valuesInNewEnum[value.name] = true;\n\t });\n\t oldType.getValues().forEach(function (value) {\n\t if (!valuesInNewEnum[value.name]) {\n\t valuesRemovedFromEnums.push({\n\t type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n\t description: value.name + ' was removed from enum type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return valuesRemovedFromEnums;\n\t}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesAddedToUnion = [];\n Object.keys(newTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInOldUnion = Object.create(null);\n oldType.getTypes().forEach(function (type) {\n typeNamesInOldUnion[type.name] = true;\n });\n newType.getTypes().forEach(function (type) {\n if (!typeNamesInOldUnion[type.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: type.name + ' was added to union type ' + typeName + '.'\n });\n }\n });\n });\n return typesAddedToUnion;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesAddedToEnums = [];\n\n var _arr13 = Object.keys(oldTypeMap);\n\n for (var _i13 = 0; _i13 < _arr13.length; _i13++) {\n var typeName = _arr13[_i13];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInOldEnum = Object.create(null);\n var _iteratorNormalCompletion9 = true;\n var _didIteratorError9 = false;\n var _iteratorError9 = undefined;\n\n try {\n for (var _iterator9 = oldType.getValues()[Symbol.iterator](), _step9; !(_iteratorNormalCompletion9 = (_step9 = _iterator9.next()).done); _iteratorNormalCompletion9 = true) {\n var value = _step9.value;\n valuesInOldEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError9 = true;\n _iteratorError9 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion9 && _iterator9.return != null) {\n _iterator9.return();\n }\n } finally {\n if (_didIteratorError9) {\n throw _iteratorError9;\n }\n }\n }\n\n var _iteratorNormalCompletion10 = true;\n var _didIteratorError10 = false;\n var _iteratorError10 = undefined;\n\n try {\n for (var _iterator10 = newType.getValues()[Symbol.iterator](), _step10; !(_iteratorNormalCompletion10 = (_step10 = _iterator10.next()).done); _iteratorNormalCompletion10 = true) {\n var _value2 = _step10.value;\n\n if (!valuesInOldEnum[_value2.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: \"\".concat(_value2.name, \" was added to enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError10 = true;\n _iteratorError10 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion10 && _iterator10.return != null) {\n _iterator10.return();\n }\n } finally {\n if (_didIteratorError10) {\n throw _iteratorError10;\n }\n }\n }\n }\n\n return valuesAddedToEnums;\n}", "function schemaDiff(comparison) {\n\t// TODO\n\t// TODO\n}", "function getDiffs(oldDoc, newDoc) {\n const changes = new Array();\n const flatOld = flattenObject(oldDoc);\n const flatNew = flattenObject(newDoc);\n // find deleted nodes\n Object.keys(flatOld).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatNew, key)) {\n changes.push({\n action: 'DELETED',\n keyName: key,\n });\n }\n });\n // find added nodes\n Object.keys(flatNew).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatOld, key)) {\n changes.push({\n action: 'ADDED',\n keyName: key,\n });\n }\n });\n // find updated nodes\n Object.keys(flatOld).forEach(key => {\n let oldValue = flatOld[key];\n if (Array.isArray(oldValue)) {\n oldValue = oldValue.join(', ');\n }\n let newValue = flatNew[key];\n if (newValue) {\n if (Array.isArray(newValue)) {\n newValue = newValue.join(', ');\n }\n if (newValue !== oldValue && key !== 'revision' && key !== 'etag') {\n changes.push({\n action: 'CHANGED',\n keyName: key,\n });\n }\n }\n });\n return changes;\n}", "function myProductsWithoutDescription(products) {\n\tlet newArray = [];\n\tfor (const product of products) {\n\t\tdelete product.description;\n\t\tnewArray.push(product);\n\t}\n\treturn newArray;\n}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function getNewTypes(oldTypes, newTypes) {\n\t\t\tvar tempTypes = [];\n\t\t\tfor( var i = 0; i < newTypes.length; i++) {\n\t\t\t\tif(oldTypes.indexOf(newTypes[i]) == -1) {\n\t\t\t\t\ttempTypes.push(newTypes[i]);\n\t\t\t\t}\n\t\t\t}\n\t\t\treturn tempTypes;\n\t\t}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesAddedToEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n\n var valuesInOldEnum = Object.create(null);\n oldType.getValues().forEach(function (value) {\n valuesInOldEnum[value.name] = true;\n });\n newType.getValues().forEach(function (value) {\n if (!valuesInOldEnum[value.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: value.name + ' was added to enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesAddedToEnums;\n}", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "function diff(first, second) {\n const a = new Set(first);\n const b = new Set(second);\n \n return [\n ...first.filter(x => !b.has(x)),\n ...second.filter(x => !a.has(x))\n ];\n}", "buildDeleteFields(patchContext, origContext, schema){\n var deleteFields = [];\n // must remove nulls from the orig copy to sync with patchContext\n var origCopy = object.deepClone(origContext);\n origCopy = removeNulls(origCopy);\n var userGroups = JWT.getUserGroups();\n _.keys(origCopy).forEach((field, index) => {\n // if patchContext already has a value (such as admin edited\n // import_items fields), don't overwrite\n if(!isValueNull(patchContext[field])){\n return;\n }\n if(schema.properties[field]){\n var fieldSchema = object.getNestedProperty(schema, ['properties', field], true);\n if (!fieldSchema){\n return;\n }\n // skip calculated properties and exclude_from fields\n if (fieldSchema.calculatedProperty && fieldSchema.calculatedProperty === true){\n return;\n }\n if (fieldSchema.exclude_from && (_.contains(fieldSchema.exclude_from,'FFedit-create') || fieldSchema.exclude_from == 'FFedit-create')){\n return;\n }\n // if the user is admin, they already have these fields available;\n // only register as removed if admin did it intentionally\n if (fieldSchema.permission && fieldSchema.permission == \"import_items\"){\n if(_.contains(userGroups, 'admin')) deleteFields.push(field);\n return;\n }\n // check round two fields if the parameter roundTwo is set\n if(fieldSchema.ff_flag && fieldSchema.ff_flag == 'second round'){\n if(this.state.roundTwo) deleteFields.push(field);\n return;\n }\n // if we're here, the submission field was legitimately deleted\n if(!this.state.roundTwo) deleteFields.push(field);\n }\n });\n return deleteFields;\n }", "stripIfExcludedOrgType(types, schema) {\n return Joi.when(Joi.ref('organisationType'), {\n is: Joi.exist().valid(...types),\n then: Joi.any().strip(),\n otherwise: schema,\n });\n }", "function deDupeDiagnostics(buildDiagnostics, otherDiagnostics) {\n const buildDiagnosticsLines = buildDiagnostics.map((x) => x.range.start.line);\n return otherDiagnostics.filter((x) => buildDiagnosticsLines.indexOf(x.range.start.line) === -1);\n}", "fixSchema(originalSchema, config) {\n let schema = cloneDeep(originalSchema);\n if (config) {\n schema = this.enrichSchemaWithConfig(schema, config);\n }\n schema = this.fixRecursively(schema);\n return schema;\n }", "function pruneSchema(resources /*, fullFhirSchema?: Schema*/) {\n return __awaiter(this, void 0, void 0, function () {\n var fullFhirSchema, newSchema, definitionNames, oneOf;\n return __generator(this, function (_a) {\n switch (_a.label) {\n case 0: return [4 /*yield*/, getFullSchema()];\n case 1:\n fullFhirSchema = _a.sent();\n newSchema = {\n $schema: \"http://json-schema.org/draft-07/schema#\",\n $id: \"https://smarthealth.cards/schema/fhir-schema.json\",\n oneOf: [{\n $ref: \"#/definitions/Bundle\"\n }],\n definitions: {\n ResourceList: {\n oneOf: []\n }\n }\n };\n definitionNames = [];\n oneOf = newSchema.definitions.ResourceList.oneOf || [];\n // for each required resource, find all the child definitions\n // definitionNames will fill with all the required child-definitions\n resources.forEach(function (resource) { return findChildRefs(fullFhirSchema, resource, definitionNames); });\n definitionNames.sort();\n definitionNames.forEach(function (name) {\n var def = fullFhirSchema.definitions[name];\n newSchema.definitions[name] = def;\n // If this def is a Resource type, add a $ref to the oneOf collection\n if (def.properties && def.properties.resourceType && def.properties.resourceType.const) {\n oneOf.push({ \"$ref\": \"#/definitions/\" + def.properties.resourceType.const });\n }\n });\n // Schema validation of the Bundle.entries will happen separately. We'll replace the ResourceList type\n // with a generic object to prevent further validation here.\n // The reason is that if the entry items have bad schema, we will get dozens of errors as the bad-schema object\n // fails to match any of the possible Resources. So instead, we validate the entries individually against\n // the resource type specified in its resourceType field.\n newSchema.definitions['Bundle_Entry'].properties.resource = { \"type\": \"object\" };\n return [2 /*return*/, newSchema];\n }\n });\n });\n}", "_checkSchema() {\n if(!this._data['topics']) {\n throw new Error('Schema Error, expected root array named topics');\n }\n let cleaned = [];\n this._data['topics'].map((value, index) => {\n if(!this._itemConformsToSchema(value, this._itemSchema)) {\n if(!this._ignoreBadItems) {\n throw new Error('Schema Error, item: ' + index + ' does not conform to schema');\n } else {\n console.warn('Item: ' + index + ' does not conform to schema, Ignoring', value);\n }\n } else if(this._ignoreBadItems) {\n cleaned.push(value);\n }\n return value;\n });\n\n if(this._ignoreBadItems) {\n this._data['topics'] = cleaned;\n }\n\n return cleaned;\n }", "clearChanges() {\n const me = this,\n {\n changes\n } = me;\n me.remove(me.added.values, true);\n me.modified.forEach(r => r.clearChanges(false)); // TODO: removed records should be restored\n\n me.added.clear();\n me.modified.clear();\n me.removed.clear();\n me.trigger('change', {\n action: 'clearchanges',\n changes\n });\n }", "getAdditionalSchemas() {\n const additionalSchemas = this.schemas.join('\\n');\n return additionalSchemas;\n }", "function patternsToUnrelate(oldArray, newArray) {\n console.log('oldArray');\n console.log(oldArray);\n console.log('newArray');\n console.log(newArray);\n\n\n // var ids2Unrelate = oldArray.filter(elem => !newArray.includes(elem.padroes_id));\n var ids2Unrelate = oldArray;\n for(let i=0; i<oldArray.length; i++) {\n for (let j=0; j<newArray.length; j++) {\n console.log('Olha so')\n console.log(typeof oldArray[i].padroes_id);\n console.log(oldArray[i].padroes_id);\n console.log('com');\n console.log(typeof newArray[j]);\n console.log(newArray[j]);\n if (oldArray[i].padroes_id === Number(newArray[j])) oldArray.splice(i, 1);\n }\n }\n\n\n console.log('Ids to unrelate');\n console.log(ids2Unrelate);\n return ids2Unrelate;\n}", "getPossibleTypes() {\n const seenTypes = new Set;\n function process(obj) {\n seenTypes.add(obj);\n for (const child of obj.getChildSchemas()) {\n if (seenTypes.has(child)) continue;\n // we know Base.key is SchemaRef\n process(child);\n }\n }\n process(this);\n return Array.from(seenTypes);\n }", "function cleanDiscriminatorSchema(schema) {\n const copy = { ...schema };\n if (copy.format === '') {\n delete copy.format;\n }\n return copy;\n}", "arrayDiff(newArray, oldArray) {\n var diffArray = [], difference = [];\n for (var i = 0; i < newArray.length; i++) {\n diffArray[newArray[i]] = true;\n }\n for (var j = 0; j < oldArray.length; j++) {\n if (diffArray[oldArray[j]]) {\n delete diffArray[oldArray[j]];\n } else {\n diffArray[oldArray[j]] = true;\n }\n }\n for (var key in diffArray) {\n difference.push(key);\n }\n return difference;\n }", "removeSchema(schemaKeyRef) {\n if (schemaKeyRef instanceof RegExp) {\n this._removeAllSchemas(this.schemas, schemaKeyRef);\n this._removeAllSchemas(this.refs, schemaKeyRef);\n return this;\n }\n switch (typeof schemaKeyRef) {\n case \"undefined\":\n this._removeAllSchemas(this.schemas);\n this._removeAllSchemas(this.refs);\n this._cache.clear();\n return this;\n case \"string\": {\n const sch = getSchEnv.call(this, schemaKeyRef);\n if (typeof sch == \"object\")\n this._cache.delete(sch.schema);\n delete this.schemas[schemaKeyRef];\n delete this.refs[schemaKeyRef];\n return this;\n }\n case \"object\": {\n const cacheKey = schemaKeyRef;\n this._cache.delete(cacheKey);\n let id = schemaKeyRef[this.opts.schemaId];\n if (id) {\n id = (0, resolve_1.normalizeId)(id);\n delete this.schemas[id];\n delete this.refs[id];\n }\n return this;\n }\n default:\n throw new Error(\"ajv.removeSchema: invalid parameter\");\n }\n }", "function fixSchema(schema){\n recurseotron.recurse(schema,{},function(obj,state){\n if ((state.key == 'id') && (typeof obj == 'string')) delete state.parent.id;\n if ((state.key == 'title') && (typeof obj == 'string')) delete state.parent.title;\n if ((state.key == 'description') && (typeof obj == 'string')) delete state.parent.description;\n if ((state.key == 'location') && (typeof obj == 'string')) delete state.parent.location;\n if ((state.key == 'type') && (typeof obj == 'string')) {\n if (obj == 'textarea') {\n state.parent.type = 'string';\n }\n }\n if ((state.key == '$ref') && (typeof obj == 'string') && !obj.startsWith('#/')) {\n state.parent[\"$ref\"] = '#/definitions/'+obj;\n }\n if ((state.key == 'required') && (typeof obj == 'boolean')) {\n if (obj === true) {\n var greatgrandparent = state.parents[state.parents.length-3];\n if (greatgrandparent) {\n if (state.keys[state.keys.length-2] != 'items') { // TODO better check for arrays\n if (!greatgrandparent.required) greatgrandparent.required = [];\n greatgrandparent.required.push(state.keys[state.keys.length-2]);\n }\n }\n }\n delete state.parent.required;\n }\n });\n}", "function diff(fromArr, to) {\n // take the lame way out and return a \"patch\" that literally just removes\n // everything and then adds the entire contents of the \"to\" array using a\n // single splice.\n //\n // TODO: rewrite this!\n\n var i;\n var patches = [];\n\n // remove everything in \"from\"\n for (i = fromArr.length - 1; i >= 0; --i) {\n patches.push(new ListPatches.Remove(i, fromArr[i]));\n }\n\n // add all of \"to\"\n for (i = 0; i < to.length; ++i) {\n patches.push(new ListPatches.Add(i, to[i]));\n }\n\n return new ListPatches.Sequence(patches);\n}", "static filterUnexpectedData(orig, startingData, schema) {\n const data = Object.assign({}, startingData);\n Object.keys(schema.describe().children).forEach(key => {\n data[key] = orig[key];\n });\n return data;\n }", "schemafy(keys, schema) {\n return keys\n .concat(schema.required || [])\n .filter(key => this.isNotHidden(key, schema) || this.appGlobalsService.adminMode)\n .concat(schema.alwaysShow || [])\n .sort((a, b) => this.compareKeysBySchemaService.compare(a, b, schema))\n .toOrderedSet();\n }", "function arrayDiff(a, b) {\n\treturn a.filter(ar => !b.includes(ar));\n}", "function arrayDiff(a, b) {\n return a.filter((el) => !b.includes(el));\n}", "getChildSchemas() {\n return self.gs\n .graphs.get(this.data.graphId)\n .selectAllWithType('RecordSchema')\n .filter(x => x.Base.SchemaRef == this.data.objectId);\n }", "function difference(arr, other) {\n var index = arrayToIndex(other);\n return arr.filter(function(el) {\n return !Object.prototype.hasOwnProperty.call(index, el);\n });\n }", "removeMissingIfTypeMismatch() {\n const typeMismatches = this.failures.filter(x => x.type === 'TypeMismatch');\n const missings = [];\n for (const typeMismatch of typeMismatches) {\n missings.push(this.failures.filter(x => x.property === typeMismatch.property && x.type === 'MissingProperty')[0]);\n this.failures = this.failures.filter(x => !missings.includes(x));\n }\n }", "clearChanges() {\n const me = this;\n\n me.remove(me.added.values, true);\n me.modified.forEach((r) => r.clearChanges(false));\n\n // TODO: removed records should be restored\n me.added.clear();\n me.modified.clear();\n me.removed.clear();\n\n me.trigger('change', { action: 'clearchanges' });\n }", "function arrayDiff(a, b) {\n let arr = [...a];\n b.forEach(d => {\n arr = arr.filter(x => x != d);\n });\n return arr;\n}", "Omit(schema, keys, options = {}) {\r\n const next = { ...clone(schema), ...options };\r\n next.required = next.required ? next.required.filter((key) => !keys.includes(key)) : undefined;\r\n for (const key of Object.keys(next.properties)) {\r\n if (keys.includes(key))\r\n delete next.properties[key];\r\n }\r\n return next;\r\n }", "function arrDiff(a1, a2) {\n var a = [], diff = [];\n\n for (var i = 0; i < a1.length; i++) {\n a[a1[i]] = true;\n }\n\n for (var i = 0; i < a2.length; i++) {\n if (a[a2[i]]) {\n delete a[a2[i]];\n } else {\n a[a2[i]] = true;\n }\n }\n\n for (var k in a) {\n diff.push(k);\n }\n\n return diff;\n }", "function cleanDocument(doc,schema){\n console.log('Cleaning document');\n var text=doc.getText();\n var activeEditor = vscode.window.activeTextEditor;\n var start = new vscode.Position(0,0);\n var end = new vscode.Position(doc.lineCount,99999); // Must be a way to remove this magic number\n var newText=text;\n\n //Exit if no active editor\n if(!activeEditor)\n return;\n \n //Add line breaks to each message in the document.\n Object.entries(schema).forEach(([key]) => {\n var re = new RegExp(key,'gm'); \n if(String(key) == 'MSH') //If key is MSH we do not line break as it should be at the top\n return; \n \n newText=newText.replace(re,'\\n'+String(key)); \n });\n\n //Remove duplicate line breaks\n newText = newText.replace(/(\\r\\n|\\n|\\r){2}/gm,'');\n\n //Add line breaks between messages\n newText = newText.replace(/MSH/gm,'\\n\\nMSH');\n \n //Replace current document text with reformatted text\n activeEditor.edit(editHelper => {\n console.log('Editing Document');\n editHelper.replace(new vscode.Range(start,end),newText);\n });\n \n console.log('Done cleaning document');\n\n}", "function array_diff(a, b) {\r\n let finalArr = a.filter(function(a) {\r\n return !b.includes(a)});\r\n return finalArr;\r\n }", "function diff(a, b) {\n return [...new Set(a.filter(i => !new Set(b).has(i)))];\n}", "function arrayRemove(arr1, arr2) {\n return arr1.filter(ele1 => {\n return ele1 != arr2.filter(ele2 => {\n return ele2 == ele1;\n });\n });\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function diffArray (arr1, arr2) {\n var newArr = []\n .concat(\n arr1.filter(\n el1 => arr2.every(\n el2 => el2 !== el1))) // if ANY element of arr2 is equal to el1, el1 doesn't pass the filter.\n .concat(\n arr2.filter(\n el2 => arr1.every(\n el1 => el1 !== el2))); // if ANY element of arr1 is equal to el2, el2 doesn't pass the filter.\n console.log(newArr);\n\n return newArr;\n // Same, same; but different.\n}", "function get_dangling_refs_in_collection(source_collection, reference_specs) {\n var dangling_refs = [];\n\n var docs = collection_dictionary[source_collection].find({}).fetch();\n for (var i=0; i < docs.length; i++) {\n var error_message = \"\";\n var doc = docs[i];\n for (var ref=0; ref < reference_specs.length; ref++) {\n var field_name = reference_specs[ref][0];\n var target_collection_name = reference_specs[ref][1];\n error_message += not_in_collection(doc,field_name, target_collection_name);\n }\n if (error_message != \"\") {\n dangling_refs.push({\"collection_name\": source_collection, \"doc\": doc, \"error_message\":error_message});\n }\n }\n return dangling_refs;\n}", "static actualize() {\n for (let i = 0; i < refs.length ; ++i) {\n const ref = refs[i];\n if (ref.isOutdated()) {\n ref.remove();\n refs.splice(i--, 1);\n }\n }\n }", "function patchSchema(data) {\n data.properties.upload_type.enum = data.properties.upload_type.type.enum;\n data.properties.upload_type.type = \"string\";\n data.properties.publication_type.enum =\n data.properties.publication_type.type.enum;\n data.properties.publication_type.type = \"string\";\n data.properties.image_type.enum = data.properties.image_type.type.enum;\n data.properties.image_type.type = \"string\";\n return data;\n}", "function diffFacts(a,b,category){var diff;// look for changes and removals\nfor(var aKey in a){if(aKey===STYLE_KEY||aKey===EVENT_KEY||aKey===ATTR_KEY||aKey===ATTR_NS_KEY){var subDiff=diffFacts(a[aKey],b[aKey]||{},aKey);if(subDiff){diff=diff||{};diff[aKey]=subDiff;}continue;}// remove if not in the new facts\nif(!(aKey in b)){diff=diff||{};diff[aKey]=typeof category==='undefined'?typeof a[aKey]==='string'?'':null:category===STYLE_KEY?'':category===EVENT_KEY||category===ATTR_KEY?undefined:{namespace:a[aKey].namespace,value:undefined};continue;}var aValue=a[aKey];var bValue=b[aKey];// reference equal, so don't worry about it\nif(aValue===bValue&&aKey!=='value'||category===EVENT_KEY&&equalEvents(aValue,bValue)){continue;}diff=diff||{};diff[aKey]=bValue;}// add new stuff\nfor(var bKey in b){if(!(bKey in a)){diff=diff||{};diff[bKey]=b[bKey];}}return diff;}", "function diffArray(arr1, arr2) {\n \n let newArr = [];\n\n newArr = arr1.filter(x => ! new Set(arr2).has(x));\n\n const additional = arr2.filter(x => ! new Set(arr1).has(x));\n \n // combine these items\n newArr.push(...additional);\n \n return newArr;\n \n}", "function arrayDiff(a, b) {\n let result = []\n\n result = a.filter(ele => !b.includes(ele)) \n \n\n return result\n}", "compactEntitySchema(schema, entity, transformedSchemas) {\n const reqEntity = transformedSchemas[entity['entityName']];\n reqEntity.entityName = entity['entityName'];\n reqEntity.name = entity['name'];\n reqEntity.columns = [];\n entity.columns.forEach(col => {\n let defaultValue = col.columnValue ? col.columnValue.defaultValue : '';\n const type = col.sqlType;\n if (type === 'number' && !col.primaryKey) {\n defaultValue = _.isEmpty(defaultValue) ? null : _.parseInt(defaultValue);\n }\n else if (type === 'boolean') {\n defaultValue = _.isEmpty(defaultValue) ? null : (defaultValue === 'true' ? 1 : 0);\n }\n else {\n defaultValue = _.isEmpty(defaultValue) ? null : defaultValue;\n }\n reqEntity.columns.push({\n name: col['name'],\n fieldName: col['fieldName'],\n generatorType: col['generatorType'],\n sqlType: col['sqlType'],\n primaryKey: col['primaryKey'],\n defaultValue: defaultValue\n });\n });\n _.forEach(entity.relations, r => {\n let targetEntitySchema, targetEntity, col, sourceColumn, mapping;\n if (r.cardinality === 'ManyToOne' || r.cardinality === 'OneToOne') {\n targetEntity = _.find(schema.tables, t => t.name === r.targetTable);\n mapping = r.mappings[0];\n if (targetEntity) {\n targetEntity = targetEntity.entityName;\n sourceColumn = mapping.sourceColumn;\n col = reqEntity.columns.find(column => column.name === sourceColumn);\n targetEntitySchema = schema.tables.find(table => table.name === r.targetTable);\n const foreignRelation = {\n sourceFieldName: r.fieldName,\n targetEntity: targetEntity,\n targetTable: r.targetTable,\n targetColumn: mapping.targetColumn,\n targetPath: '',\n dataMapper: [],\n targetFieldName: targetEntitySchema.columns.find(column => column.name === mapping.targetColumn).fieldName\n };\n foreignRelation.targetPath = foreignRelation.sourceFieldName + '.' + foreignRelation.targetFieldName;\n foreignRelation.dataMapper = _.chain(targetEntitySchema.columns)\n .keyBy(childCol => foreignRelation.sourceFieldName + '.' + childCol.fieldName)\n .mapValues(childCol => new ColumnInfo(childCol.name, childCol.fieldName)).value();\n col.foreignRelations = col.foreignRelations || [];\n col.foreignRelations.push(foreignRelation);\n }\n }\n });\n return reqEntity;\n }", "fixOptionalChoiceNot(jsonSchema, node) {\n const originalOneOf = new JsonSchemaFile();\n originalOneOf.oneOf = jsonSchema.oneOf.slice(0);\n jsonSchema.anyOf.push(originalOneOf);\n const theOptionalPart = new JsonSchemaFile();\n jsonSchema.oneOf.forEach(function(option, index, array) {\n const notSchema = new JsonSchemaFile();\n notSchema.not = option;\n theOptionalPart.allOf.push(notSchema);\n });\n jsonSchema.anyOf.push(theOptionalPart);\n jsonSchema.oneOf = [];\n }", "removeNonPersistableRecordsToCreate(changes) {\n let recordsToCreate = changes.added || [],\n r,\n i; // We remove from the array we iterate thus we iterate from end to start\n\n for (i = recordsToCreate.length - 1; i >= 0; --i) {\n r = recordsToCreate[i];\n\n if (!r.isPersistable) {\n recordsToCreate.splice(recordsToCreate.indexOf(r), 1);\n }\n } // Prevent empty create request\n\n if (recordsToCreate.length === 0) {\n changes.added.length = 0;\n }\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function patch(old, diff) {\n var out = [];\n var i = 0;\n while (i < diff.length) {\n if (diff[i]) {\n // matching\n Array.prototype.push.apply(\n out,\n old.slice(out.length, out.length + diff[i])\n );\n }\n i++;\n if (i < diff.length && diff[i]) {\n // mismatching\n Array.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n i += diff[i];\n }\n i++;\n }\n return out;\n}", "getFields() {\n this.schema = this.props.collection._c2._simpleSchema._schema; // Using the provided Collection object, get the simpleSchema object\n\n if(this.props.useFields) // If we're selecting which fields to use\n {\n Object.keys(this.schema).filter((fieldName) => { // Filter (ie remove) this field from the schema by returning boolean\n if(this.props.useFields.indexOf(fieldName) === -1) // If this fieldName does not exist in the useFields array\n {\n delete this.schema[fieldName]; // We remove it from the forum schema\n }\n });\n }\n }", "removeNonPersistableRecordsToCreate(changes) {\n let recordsToCreate = changes.added || [],\n r,\n i;\n\n // We remove from the array we iterate thus we iterate from end to start\n for (i = recordsToCreate.length - 1; i >= 0; --i) {\n r = recordsToCreate[i];\n if (!r.isPersistable) {\n recordsToCreate.splice(recordsToCreate.indexOf(r), 1);\n }\n }\n\n // Prevent empty create request\n if (recordsToCreate.length === 0) {\n changes.added.length = 0;\n }\n }", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "fix(key, parent, schema) {\n if (schema.hidden) {\n return;\n }\n // Fixes for each type/condition, can be added below.\n const value = parent[key];\n // Recursive calls\n if (schema.type === 'object') {\n if (!schema.properties) {\n throw new Error(`\"${key}\"'s schema has \"type\": \"object\" but doesn't specify \"properties\"`);\n }\n else if (!(value instanceof Object)) {\n throw new Error(`\"${key}\" in ${JSON.stringify(value, null, 2)} is specified as \"object\" by schema but it is not an object in json`);\n }\n // Looping over record to filter out fields that are not in schema.\n Object.keys(value).forEach(prop => {\n if (!schema.properties[prop]) {\n // we don't like fields without schema!\n this.deleteField(value, prop);\n }\n else {\n this.fix(prop, value, schema.properties[prop]);\n }\n });\n }\n else if (schema.type === 'array') {\n if (!schema.items) {\n throw new Error(`\"${key}\"'s schema has \"type\": \"array\" but doesn't specify \"items\"`);\n }\n else if (!Array.isArray(value)) {\n throw new Error(`\"${key}\" in ${JSON.stringify(value, null, 2)} is specified as \"array\" by schema but it is not an array in json`);\n }\n value.forEach((element, index) => {\n this.fix(index, value, schema.items);\n });\n }\n }", "static difference(a, b) {\n const differenceSet = new XSet(a);\n for (const bValue of b) {\n if (a.has(bValue)) {\n differenceSet.delete(bValue);\n }\n }\n return differenceSet;\n }", "function diffArray(arr1, arr2) {\n var newArr = [];\n // Same, same; but different.\n let symmetricDiff = arr1\n .filter(x => !arr2.includes(x))\n .concat(arr2.filter(x => !arr1.includes(x)));\n return symmetricDiff;\n}", "function diff(oldText, newText) {\n const oldLen = oldText.length;\n const newLen = newText.length;\n const searchLen = Math.min(oldLen, newLen);\n let prefixSize = 0;\n for (prefixSize = 0; prefixSize < searchLen; prefixSize++) {\n if (oldText[prefixSize] !== newText[prefixSize]) {\n break;\n }\n }\n let suffixSize = 0;\n for (suffixSize = 0; suffixSize < searchLen - prefixSize; suffixSize++) {\n if (oldText[oldLen - suffixSize - 1] !== newText[newLen - suffixSize - 1]) {\n break;\n }\n }\n const matchedSize = prefixSize + suffixSize;\n const events = [];\n if (matchedSize < oldLen) {\n events.push({\n length: oldLen - matchedSize,\n position: oldLen - suffixSize,\n type: 'erase'\n });\n }\n if (matchedSize < newLen) {\n const insertedText = newText.slice(prefixSize, prefixSize + newLen - matchedSize);\n events.push({\n position: prefixSize,\n text: Punycode.ucs2.encode(insertedText),\n type: 'insert'\n });\n }\n return events;\n}", "static remove(tokens, toremove ){\n for( var i=tokens.length-1; i>=0; i-- ) if( toremove.indexOf(tokens[i].type) >= 0 ) tokens.remove(i)\n return tokens\n }" ]
[ "0.8176876", "0.814868", "0.7263231", "0.7255352", "0.72205025", "0.72205025", "0.7170979", "0.70155483", "0.70155483", "0.697916", "0.69538426", "0.69538426", "0.6949668", "0.6916142", "0.6904582", "0.67299575", "0.67047393", "0.67047393", "0.67047393", "0.66956633", "0.66956633", "0.66956633", "0.66956633", "0.6673966", "0.6610048", "0.6536963", "0.6414831", "0.6414831", "0.6377831", "0.6377831", "0.6270765", "0.61733824", "0.61626494", "0.61626494", "0.6110247", "0.59000766", "0.55137503", "0.54414624", "0.534446", "0.53280103", "0.5285483", "0.52198493", "0.5134727", "0.50816697", "0.49163076", "0.49040884", "0.48834267", "0.48760945", "0.48633268", "0.48402885", "0.4807587", "0.47911572", "0.47645867", "0.47449178", "0.4729509", "0.47243255", "0.47238296", "0.47088602", "0.47049007", "0.4695711", "0.46916634", "0.46704566", "0.46679083", "0.46574318", "0.4637183", "0.46252093", "0.46198905", "0.4619204", "0.4589259", "0.45756143", "0.45727214", "0.45701277", "0.4567655", "0.45666736", "0.45624447", "0.45476738", "0.45476738", "0.45436978", "0.45415178", "0.45347446", "0.45249322", "0.45192227", "0.45127487", "0.4509974", "0.4496684", "0.44960126", "0.4489616", "0.4487778", "0.4487778", "0.44664183", "0.44597533", "0.44588372", "0.44540644", "0.44540644", "0.44520035", "0.44505018", "0.44493768", "0.44484276", "0.4444113" ]
0.82110786
1
Given two schemas, returns an Array containing descriptions of any breaking changes in the newSchema related to changing the type of a type.
function findTypesThatChangedKind(oldSchema, newSchema) { var oldTypeMap = oldSchema.getTypeMap(); var newTypeMap = newSchema.getTypeMap(); var breakingChanges = []; Object.keys(oldTypeMap).forEach(function (typeName) { if (!newTypeMap[typeName]) { return; } var oldType = oldTypeMap[typeName]; var newType = newTypeMap[typeName]; if (!(oldType instanceof newType.constructor)) { breakingChanges.push({ type: BreakingChangeType.TYPE_CHANGED_KIND, description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.') }); } }); return breakingChanges; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr2 = Object.keys(oldTypeMap);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var typeName = _arr2[_i2];\n\n if (!newTypeMap[typeName]) {\n continue;\n }\n\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (oldType.constructor !== newType.constructor) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: \"\".concat(typeName, \" changed from \") + \"\".concat(typeKindName(oldType), \" to \").concat(typeKindName(newType), \".\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t return;\n\t }\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof newType.constructor)) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_CHANGED_KIND,\n\t description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findBreakingChanges(oldSchema, newSchema) {\n\t return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema));\n\t}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_REMOVED,\n\t description: typeName + ' was removed.'\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr = Object.keys(oldTypeMap);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var typeName = _arr[_i];\n\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: \"\".concat(typeName, \" was removed.\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).breakingChanges, findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema), findRemovedDirectives(oldSchema, newSchema), findRemovedDirectiveArgs(oldSchema, newSchema), findAddedNonNullDirectiveArgs(oldSchema, newSchema), findRemovedDirectiveLocations(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingFieldChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType || oldType instanceof _definition.GraphQLInputObjectType) || !(newType instanceof oldType.constructor)) {\n\t return;\n\t }\n\n\t var oldTypeFieldsDef = oldType.getFields();\n\t var newTypeFieldsDef = newType.getFields();\n\t Object.keys(oldTypeFieldsDef).forEach(function (fieldName) {\n\t // Check if the field is missing on the type in the new schema.\n\t if (!(fieldName in newTypeFieldsDef)) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_REMOVED,\n\t description: typeName + '.' + fieldName + ' was removed.'\n\t });\n\t } else {\n\t // Check if the field's type has changed in the new schema.\n\t var oldFieldType = (0, _definition.getNamedType)(oldTypeFieldsDef[fieldName].type);\n\t var newFieldType = (0, _definition.getNamedType)(newTypeFieldsDef[fieldName].type);\n\t if (oldFieldType && newFieldType && oldFieldType.name !== newFieldType.name) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_CHANGED_KIND,\n\t description: typeName + '.' + fieldName + ' changed type from ' + (oldFieldType.name + ' to ' + newFieldType.name + '.')\n\t });\n\t }\n\t }\n\t });\n\t });\n\t return breakingFieldChanges;\n\t}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n var dangerousChanges = [];\n\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) {\n return;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n Object.keys(oldTypeFields).forEach(function (fieldName) {\n if (!newTypeFields[fieldName]) {\n return;\n }\n\n oldTypeFields[fieldName].args.forEach(function (oldArgDef) {\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = newArgs.find(function (arg) {\n return arg.name === oldArgDef.name;\n });\n\n // Arg not present\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed')\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue')\n });\n }\n }\n });\n // Check if a non-null arg was added to the field\n newTypeFields[fieldName].args.forEach(function (newArgDef) {\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = oldArgs.find(function (arg) {\n return arg.name === newArgDef.name;\n });\n if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) {\n breakingChanges.push({\n type: BreakingChangeType.NON_NULL_ARG_ADDED,\n description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added')\n });\n }\n });\n });\n });\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n var dangerousChanges = [];\n\n var _arr3 = Object.keys(oldTypeMap);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var typeName = _arr3[_i3];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(oldType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(oldType)) || !(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(newType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(newType)) || newType.constructor !== oldType.constructor) {\n continue;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n var _arr4 = Object.keys(oldTypeFields);\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var fieldName = _arr4[_i4];\n\n if (!newTypeFields[fieldName]) {\n continue;\n }\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n var _loop = function _loop() {\n var oldArgDef = _step.value;\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(newArgs, function (arg) {\n return arg.name === oldArgDef.name;\n }); // Arg not present\n\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" was removed\")\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed type from \") + \"\".concat(oldArgDef.type.toString(), \" to \").concat(newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed defaultValue\")\n });\n }\n }\n };\n\n for (var _iterator = oldTypeFields[fieldName].args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n _loop();\n } // Check if arg was added to the field\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop2 = function _loop2() {\n var newArgDef = _step2.value;\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(oldArgs, function (arg) {\n return arg.name === newArgDef.name;\n });\n\n if (!oldArgDef) {\n var argName = newArgDef.name;\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isRequiredArgument\"])(newArgDef)) {\n breakingChanges.push({\n type: BreakingChangeType.REQUIRED_ARG_ADDED,\n description: \"A required arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n } else {\n dangerousChanges.push({\n type: DangerousChangeType.OPTIONAL_ARG_ADDED,\n description: \"An optional arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n }\n }\n };\n\n for (var _iterator2 = newTypeFields[fieldName].args[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop2();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n }\n }\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema));\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findInterfacesAddedToObjectTypes(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).dangerousChanges);\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges);\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesAddedToEnums = [];\n\n var _arr13 = Object.keys(oldTypeMap);\n\n for (var _i13 = 0; _i13 < _arr13.length; _i13++) {\n var typeName = _arr13[_i13];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInOldEnum = Object.create(null);\n var _iteratorNormalCompletion9 = true;\n var _didIteratorError9 = false;\n var _iteratorError9 = undefined;\n\n try {\n for (var _iterator9 = oldType.getValues()[Symbol.iterator](), _step9; !(_iteratorNormalCompletion9 = (_step9 = _iterator9.next()).done); _iteratorNormalCompletion9 = true) {\n var value = _step9.value;\n valuesInOldEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError9 = true;\n _iteratorError9 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion9 && _iterator9.return != null) {\n _iterator9.return();\n }\n } finally {\n if (_didIteratorError9) {\n throw _iteratorError9;\n }\n }\n }\n\n var _iteratorNormalCompletion10 = true;\n var _didIteratorError10 = false;\n var _iteratorError10 = undefined;\n\n try {\n for (var _iterator10 = newType.getValues()[Symbol.iterator](), _step10; !(_iteratorNormalCompletion10 = (_step10 = _iterator10.next()).done); _iteratorNormalCompletion10 = true) {\n var _value2 = _step10.value;\n\n if (!valuesInOldEnum[_value2.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: \"\".concat(_value2.name, \" was added to enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError10 = true;\n _iteratorError10 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion10 && _iterator10.return != null) {\n _iterator10.return();\n }\n } finally {\n if (_didIteratorError10) {\n throw _iteratorError10;\n }\n }\n }\n }\n\n return valuesAddedToEnums;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesAddedToUnion = [];\n Object.keys(newTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInOldUnion = Object.create(null);\n oldType.getTypes().forEach(function (type) {\n typeNamesInOldUnion[type.name] = true;\n });\n newType.getTypes().forEach(function (type) {\n if (!typeNamesInOldUnion[type.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: type.name + ' was added to union type ' + typeName + '.'\n });\n }\n });\n });\n return typesAddedToUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var typesRemovedFromUnion = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n\t return;\n\t }\n\t var typeNamesInNewUnion = Object.create(null);\n\t newType.getTypes().forEach(function (type) {\n\t typeNamesInNewUnion[type.name] = true;\n\t });\n\t oldType.getTypes().forEach(function (type) {\n\t if (!typeNamesInNewUnion[type.name]) {\n\t typesRemovedFromUnion.push({\n\t type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n\t description: type.name + ' was removed from union type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return typesRemovedFromUnion;\n\t}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesRemovedFromEnums = [];\n\n var _arr12 = Object.keys(oldTypeMap);\n\n for (var _i12 = 0; _i12 < _arr12.length; _i12++) {\n var typeName = _arr12[_i12];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInNewEnum = Object.create(null);\n var _iteratorNormalCompletion7 = true;\n var _didIteratorError7 = false;\n var _iteratorError7 = undefined;\n\n try {\n for (var _iterator7 = newType.getValues()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {\n var value = _step7.value;\n valuesInNewEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError7 = true;\n _iteratorError7 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion7 && _iterator7.return != null) {\n _iterator7.return();\n }\n } finally {\n if (_didIteratorError7) {\n throw _iteratorError7;\n }\n }\n }\n\n var _iteratorNormalCompletion8 = true;\n var _didIteratorError8 = false;\n var _iteratorError8 = undefined;\n\n try {\n for (var _iterator8 = oldType.getValues()[Symbol.iterator](), _step8; !(_iteratorNormalCompletion8 = (_step8 = _iterator8.next()).done); _iteratorNormalCompletion8 = true) {\n var _value = _step8.value;\n\n if (!valuesInNewEnum[_value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: \"\".concat(_value.name, \" was removed from enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError8 = true;\n _iteratorError8 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion8 && _iterator8.return != null) {\n _iterator8.return();\n }\n } finally {\n if (_didIteratorError8) {\n throw _iteratorError8;\n }\n }\n }\n }\n\n return valuesRemovedFromEnums;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesAddedToEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n\n var valuesInOldEnum = Object.create(null);\n oldType.getValues().forEach(function (value) {\n valuesInOldEnum[value.name] = true;\n });\n newType.getValues().forEach(function (value) {\n if (!valuesInOldEnum[value.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: value.name + ' was added to enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesAddedToEnums;\n}", "function getDiffs(oldDoc, newDoc) {\n const changes = new Array();\n const flatOld = flattenObject(oldDoc);\n const flatNew = flattenObject(newDoc);\n // find deleted nodes\n Object.keys(flatOld).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatNew, key)) {\n changes.push({\n action: 'DELETED',\n keyName: key,\n });\n }\n });\n // find added nodes\n Object.keys(flatNew).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatOld, key)) {\n changes.push({\n action: 'ADDED',\n keyName: key,\n });\n }\n });\n // find updated nodes\n Object.keys(flatOld).forEach(key => {\n let oldValue = flatOld[key];\n if (Array.isArray(oldValue)) {\n oldValue = oldValue.join(', ');\n }\n let newValue = flatNew[key];\n if (newValue) {\n if (Array.isArray(newValue)) {\n newValue = newValue.join(', ');\n }\n if (newValue !== oldValue && key !== 'revision' && key !== 'etag') {\n changes.push({\n action: 'CHANGED',\n keyName: key,\n });\n }\n }\n });\n return changes;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function schemaDiff(comparison) {\n\t// TODO\n\t// TODO\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var valuesRemovedFromEnums = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n\t return;\n\t }\n\t var valuesInNewEnum = Object.create(null);\n\t newType.getValues().forEach(function (value) {\n\t valuesInNewEnum[value.name] = true;\n\t });\n\t oldType.getValues().forEach(function (value) {\n\t if (!valuesInNewEnum[value.name]) {\n\t valuesRemovedFromEnums.push({\n\t type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n\t description: value.name + ' was removed from enum type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return valuesRemovedFromEnums;\n\t}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function getNewTypes(oldTypes, newTypes) {\n\t\t\tvar tempTypes = [];\n\t\t\tfor( var i = 0; i < newTypes.length; i++) {\n\t\t\t\tif(oldTypes.indexOf(newTypes[i]) == -1) {\n\t\t\t\t\ttempTypes.push(newTypes[i]);\n\t\t\t\t}\n\t\t\t}\n\t\t\treturn tempTypes;\n\t\t}", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "function findExtendingTypes(schema, definitions) {\n \tif (!schema.$ref) {\n \t\treturn;\n \t}\n \tvar refToMatch = schema.$ref;\n \tvar matchingDefinitions = {};\n \tif (definitions.definitions) {\n \t\tfindExtendingTypesHelper(refToMatch, definitions.definitions, matchingDefinitions, null);\n \t}\n \tif (definitions['x-ibm-configuration'] && definitions['x-ibm-configuration'].targets) {\n \t\tObject.keys(definitions['x-ibm-configuration'].targets).forEach(function(targetName) {\n \t\t\tvar target = definitions['x-ibm-configuration'].targets[targetName];\n \t\t\tif (target.definitions) {\n \t\t\t\tfindExtendingTypesHelper(refToMatch, target.definitions, matchingDefinitions, null);\n \t\t\t}\n \t\t});\n \t}\n \treturn matchingDefinitions;\n }", "getAdditionalSchemas() {\n const additionalSchemas = this.schemas.join('\\n');\n return additionalSchemas;\n }", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}", "function patchSchema(data) {\n data.properties.upload_type.enum = data.properties.upload_type.type.enum;\n data.properties.upload_type.type = \"string\";\n data.properties.publication_type.enum =\n data.properties.publication_type.type.enum;\n data.properties.publication_type.type = \"string\";\n data.properties.image_type.enum = data.properties.image_type.type.enum;\n data.properties.image_type.type = \"string\";\n return data;\n}", "function graphqlSchemaVersion (newSchema, oldSchema = null, oldVersion = DEFAULT_VERSION) {\n if (!oldSchema) { return oldVersion }\n\n const increment = diffSchema(new Pair(newSchema, oldSchema)\n .map(normalizeSchema)\n .map(buildClientSchema))\n if (increment === INCREMENT_NONE) { return oldVersion }\n if (increment < INCREMENT_MINOR) { return semver.inc(oldVersion, 'patch') }\n if (increment < INCREMENT_MAJOR) { return semver.inc(oldVersion, 'minor') }\n if (increment === INCREMENT_MAJOR) { return semver.inc(oldVersion, 'major') }\n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function extendSchema(schema, documentAST) {\n !(schema instanceof _schema.GraphQLSchema) ? (0, _invariant2.default)(0, 'Must provide valid GraphQLSchema') : void 0;\n\n !(documentAST && documentAST.kind === Kind.DOCUMENT) ? (0, _invariant2.default)(0, 'Must provide valid Document AST') : void 0;\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = Object.create(null);\n var typeExtensionsMap = Object.create(null);\n\n // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n var directiveDefinitions = [];\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n case Kind.INTERFACE_TYPE_DEFINITION:\n case Kind.ENUM_TYPE_DEFINITION:\n case Kind.UNION_TYPE_DEFINITION:\n case Kind.SCALAR_TYPE_DEFINITION:\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case Kind.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n case Kind.DIRECTIVE_DEFINITION:\n var directiveName = def.name.value;\n var existingDirective = schema.getDirective(directiveName);\n if (existingDirective) {\n throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n }\n directiveDefinitions.push(def);\n break;\n }\n }\n\n // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n directives: getMergedDirectives(),\n astNode: schema.astNode\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives();\n !existingDirectives ? (0, _invariant2.default)(0, 'schema must have default directives') : void 0;\n\n var newDirectives = directiveDefinitions.map(function (directiveNode) {\n return getDirective(directiveNode);\n });\n return existingDirectives.concat(newDirectives);\n }\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n !type ? (0, _invariant2.default)(0, 'Missing type from schema') : void 0;\n return type;\n }\n\n function getTypeFromAST(node) {\n var type = _getNamedType(node.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + node.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [node]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLObjectType) ? (0, _invariant2.default)(0, 'Must be Object type.') : void 0;\n return type;\n }\n\n function getInterfaceTypeFromAST(node) {\n var type = getTypeFromAST(node);\n !(type instanceof _definition.GraphQLInterfaceType) ? (0, _invariant2.default)(0, 'Must be Interface type.') : void 0;\n return type;\n }\n\n function getInputTypeFromAST(node) {\n return (0, _definition.assertInputType)(getTypeFromAST(node));\n }\n\n function getOutputTypeFromAST(node) {\n return (0, _definition.assertOutputType)(getTypeFromAST(node));\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeNode = typeDefinitionMap[typeName];\n if (typeNode) {\n var _typeDef = buildType(typeNode);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n var name = type.name;\n var extensionASTNodes = type.extensionASTNodes;\n if (typeExtensionsMap[name]) {\n extensionASTNodes = extensionASTNodes.concat(typeExtensionsMap[name]);\n }\n\n return new _definition.GraphQLObjectType({\n name: name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n extensionASTNodes: extensionASTNodes,\n isTypeOf: type.isTypeOf\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n astNode: type.astNode,\n resolveType: type.resolveType\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = Object.create(null);\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n astNode: field.astNode,\n resolve: field.resolve\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n description: (0, _buildASTSchema.getDescription)(field),\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeNode) {\n switch (typeNode.kind) {\n case Kind.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeNode);\n case Kind.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeNode);\n case Kind.UNION_TYPE_DEFINITION:\n return buildUnionType(typeNode);\n case Kind.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeNode);\n case Kind.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeNode);\n case Kind.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeNode);\n }\n throw new TypeError('Unknown type kind ' + typeNode.kind);\n }\n\n function buildObjectType(typeNode) {\n return new _definition.GraphQLObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeNode);\n },\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode\n });\n }\n\n function buildInterfaceType(typeNode) {\n return new _definition.GraphQLInterfaceType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildFieldMap(typeNode);\n },\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildUnionType(typeNode) {\n return new _definition.GraphQLUnionType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n types: typeNode.types.map(getObjectTypeFromAST),\n astNode: typeNode,\n resolveType: cannotExecuteExtendedSchema\n });\n }\n\n function buildScalarType(typeNode) {\n return new _definition.GraphQLScalarType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n astNode: typeNode,\n serialize: function serialize(id) {\n return id;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeNode) {\n return new _definition.GraphQLEnumType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n values: (0, _keyValMap2.default)(typeNode.values, function (enumValue) {\n return enumValue.name.value;\n }, function (enumValue) {\n return {\n description: (0, _buildASTSchema.getDescription)(enumValue),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(enumValue),\n astNode: enumValue\n };\n }),\n astNode: typeNode\n });\n }\n\n function buildInputObjectType(typeNode) {\n return new _definition.GraphQLInputObjectType({\n name: typeNode.name.value,\n description: (0, _buildASTSchema.getDescription)(typeNode),\n fields: function fields() {\n return buildInputValues(typeNode.fields);\n },\n astNode: typeNode\n });\n }\n\n function getDirective(directiveNode) {\n return new _directives.GraphQLDirective({\n name: directiveNode.name.value,\n description: (0, _buildASTSchema.getDescription)(directiveNode),\n locations: directiveNode.locations.map(function (node) {\n return node.value;\n }),\n args: directiveNode.arguments && buildInputValues(directiveNode.arguments),\n astNode: directiveNode\n });\n }\n\n function buildImplementedInterfaces(typeNode) {\n return typeNode.interfaces && typeNode.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeNode) {\n return (0, _keyValMap2.default)(typeNode.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n description: (0, _buildASTSchema.getDescription)(field),\n args: buildInputValues(field.arguments),\n deprecationReason: (0, _buildASTSchema.getDeprecationReason)(field),\n astNode: field\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n description: (0, _buildASTSchema.getDescription)(value),\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type),\n astNode: value\n };\n });\n }\n\n function buildInputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeNode);\n }\n\n function buildOutputFieldType(typeNode) {\n if (typeNode.kind === Kind.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeNode.type));\n }\n if (typeNode.kind === Kind.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeNode.type);\n !!(nullableType instanceof _definition.GraphQLNonNull) ? (0, _invariant2.default)(0, 'Must be nullable') : void 0;\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeNode);\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "function healSchema(schema) {\n heal(schema);\n return schema;\n function heal(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n var originalTypeMap_1 = type.getTypeMap();\n var actualNamedTypeMap_1 = Object.create(null);\n // If any of the .name properties of the GraphQLNamedType objects in\n // schema.getTypeMap() have changed, the keys of the type map need to\n // be updated accordingly.\n each(originalTypeMap_1, function (namedType, typeName) {\n if (typeName.startsWith('__')) {\n return;\n }\n var actualName = namedType.name;\n if (actualName.startsWith('__')) {\n return;\n }\n if (hasOwn.call(actualNamedTypeMap_1, actualName)) {\n throw new Error(\"Duplicate schema type name \" + actualName);\n }\n actualNamedTypeMap_1[actualName] = namedType;\n // Note: we are deliberately leaving namedType in the schema by its\n // original name (which might be different from actualName), so that\n // references by that name can be healed.\n });\n // Now add back every named type by its actual name.\n each(actualNamedTypeMap_1, function (namedType, typeName) {\n originalTypeMap_1[typeName] = namedType;\n });\n // Directive declaration argument types can refer to named types.\n each(type.getDirectives(), function (decl) {\n if (decl.args) {\n each(decl.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n each(originalTypeMap_1, function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n heal(namedType);\n }\n });\n updateEachKey(originalTypeMap_1, function (namedType, typeName) {\n // Dangling references to renamed types should remain in the schema\n // during healing, but must be removed now, so that the following\n // invariant holds for all names: schema.getType(name).name === name\n if (!typeName.startsWith('__') &&\n !hasOwn.call(actualNamedTypeMap_1, typeName)) {\n return null;\n }\n });\n }\n else if (type instanceof graphql_1.GraphQLObjectType) {\n healFields(type);\n each(type.getInterfaces(), function (iface) { return heal(iface); });\n }\n else if (type instanceof graphql_1.GraphQLInterfaceType) {\n healFields(type);\n }\n else if (type instanceof graphql_1.GraphQLInputObjectType) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n });\n }\n else if (type instanceof graphql_1.GraphQLScalarType) {\n // Nothing to do.\n }\n else if (type instanceof graphql_1.GraphQLUnionType) {\n updateEachKey(type.getTypes(), function (t) { return healType(t); });\n }\n else if (type instanceof graphql_1.GraphQLEnumType) {\n // Nothing to do.\n }\n else {\n throw new Error(\"Unexpected schema type: \" + type);\n }\n }\n function healFields(type) {\n each(type.getFields(), function (field) {\n field.type = healType(field.type);\n if (field.args) {\n each(field.args, function (arg) {\n arg.type = healType(arg.type);\n });\n }\n });\n }\n function healType(type) {\n // Unwrap the two known wrapper types\n if (type instanceof graphql_1.GraphQLList) {\n type = new graphql_1.GraphQLList(healType(type.ofType));\n }\n else if (type instanceof graphql_1.GraphQLNonNull) {\n type = new graphql_1.GraphQLNonNull(healType(type.ofType));\n }\n else if (graphql_1.isNamedType(type)) {\n // If a type annotation on a field or an argument or a union member is\n // any `GraphQLNamedType` with a `name`, then it must end up identical\n // to `schema.getType(name)`, since `schema.getTypeMap()` is the source\n // of truth for all named schema types.\n var namedType = type;\n var officialType = schema.getType(namedType.name);\n if (officialType && namedType !== officialType) {\n return officialType;\n }\n }\n return type;\n }\n}", "getSchemas() {\n return {\n indices: this.getIndices(),\n mappings: this.getMappings()\n };\n }", "fixSchema(originalSchema, config) {\n let schema = cloneDeep(originalSchema);\n if (config) {\n schema = this.enrichSchemaWithConfig(schema, config);\n }\n schema = this.fixRecursively(schema);\n return schema;\n }", "updateSchema(schema) {\n // to avoid cyclic reference error, use flatted string.\n const schemaFlatted = (0, _flatted.stringify)(schema);\n this.run((0, _http.POST)(this.ws_url + '/schema/', schemaFlatted, 'text/plain')).then(data => {\n console.log(\"collab server's schema updated\"); // [FS] IRAD-1040 2020-09-08\n\n this.schema = schema;\n this.start();\n }, err => {\n this.report.failure('error');\n });\n }", "function convertTypeReference(propData, sourceSchemas) {\n function convertReferences(type, propData) {\n if (type === 'array' && _.has(propData, 'items')) {\n if (_.has(propData.items, '$ref')) {\n propData.items.$ref = schemaKeyToTypeName(propData.items.$ref, sourceSchemas);\n } else if (_.has(propData.items, 'referenceTo')) {\n propData.items.referenceTo = schemaKeyToTypeName(propData.items.referenceTo, sourceSchemas);\n }\n }\n\n if (type === 'string' && propData.format === 'objectReference' && propData.referenceTo) {\n propData.referenceTo = schemaKeyToTypeName(propData.referenceTo, sourceSchemas);\n }\n\n if (type === 'object' && propData.$ref) {\n propData.$ref = schemaKeyToTypeName(propData.$ref, sourceSchemas);\n }\n }\n\n if (_.isArray(propData.type)) {\n _.each(propData.type, function(typeItem) {\n convertReferences(typeItem, propData);\n });\n } else {\n convertReferences(propData.type, propData);\n }\n}", "getPossibleTypes() {\n const seenTypes = new Set;\n function process(obj) {\n seenTypes.add(obj);\n for (const child of obj.getChildSchemas()) {\n if (seenTypes.has(child)) continue;\n // we know Base.key is SchemaRef\n process(child);\n }\n }\n process(this);\n return Array.from(seenTypes);\n }", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function visitSchema(schema, \n// To accommodate as many different visitor patterns as possible, the\n// visitSchema function does not simply accept a single instance of the\n// SchemaVisitor class, but instead accepts a function that takes the\n// current VisitableSchemaType object and the name of a visitor method and\n// returns an array of SchemaVisitor instances that implement the visitor\n// method and have an interest in handling the given VisitableSchemaType\n// object. In the simplest case, this function can always return an array\n// containing a single visitor object, without even looking at the type or\n// methodName parameters. In other cases, this function might sometimes\n// return an empty array to indicate there are no visitors that should be\n// applied to the given VisitableSchemaType object. For an example of a\n// visitor pattern that benefits from this abstraction, see the\n// SchemaDirectiveVisitor class below.\nvisitorSelector) {\n // Helper function that calls visitorSelector and applies the resulting\n // visitors to the given type, with arguments [type, ...args].\n function callMethod(methodName, type) {\n var args = [];\n for (var _i = 2; _i < arguments.length; _i++) {\n args[_i - 2] = arguments[_i];\n }\n visitorSelector(type, methodName).every(function (visitor) {\n var newType = visitor[methodName].apply(visitor, __spreadArrays([type], args));\n if (typeof newType === 'undefined') {\n // Keep going without modifying type.\n return true;\n }\n if (methodName === 'visitSchema' ||\n type instanceof graphql_1.GraphQLSchema) {\n throw new Error(\"Method \" + methodName + \" cannot replace schema with \" + newType);\n }\n if (newType === null) {\n // Stop the loop and return null form callMethod, which will cause\n // the type to be removed from the schema.\n type = null;\n return false;\n }\n // Update type to the new type returned by the visitor method, so that\n // later directives will see the new type, and callMethod will return\n // the final type.\n type = newType;\n return true;\n });\n // If there were no directives for this type object, or if all visitor\n // methods returned nothing, type will be returned unmodified.\n return type;\n }\n // Recursive helper function that calls any appropriate visitor methods for\n // each object in the schema, then traverses the object's children (if any).\n function visit(type) {\n if (type instanceof graphql_1.GraphQLSchema) {\n // Unlike the other types, the root GraphQLSchema object cannot be\n // replaced by visitor methods, because that would make life very hard\n // for SchemaVisitor subclasses that rely on the original schema object.\n callMethod('visitSchema', type);\n updateEachKey(type.getTypeMap(), function (namedType, typeName) {\n if (!typeName.startsWith('__')) {\n // Call visit recursively to let it determine which concrete\n // subclass of GraphQLNamedType we found in the type map. Because\n // we're using updateEachKey, the result of visit(namedType) may\n // cause the type to be removed or replaced.\n return visit(namedType);\n }\n });\n return type;\n }\n if (type instanceof graphql_1.GraphQLObjectType) {\n // Note that callMethod('visitObject', type) may not actually call any\n // methods, if there are no @directive annotations associated with this\n // type, or if this SchemaDirectiveVisitor subclass does not override\n // the visitObject method.\n var newObject = callMethod('visitObject', type);\n if (newObject) {\n visitFields(newObject);\n }\n return newObject;\n }\n if (type instanceof graphql_1.GraphQLInterfaceType) {\n var newInterface = callMethod('visitInterface', type);\n if (newInterface) {\n visitFields(newInterface);\n }\n return newInterface;\n }\n if (type instanceof graphql_1.GraphQLInputObjectType) {\n var newInputObject_1 = callMethod('visitInputObject', type);\n if (newInputObject_1) {\n updateEachKey(newInputObject_1.getFields(), function (field) {\n // Since we call a different method for input object fields, we\n // can't reuse the visitFields function here.\n return callMethod('visitInputFieldDefinition', field, {\n objectType: newInputObject_1,\n });\n });\n }\n return newInputObject_1;\n }\n if (type instanceof graphql_1.GraphQLScalarType) {\n return callMethod('visitScalar', type);\n }\n if (type instanceof graphql_1.GraphQLUnionType) {\n return callMethod('visitUnion', type);\n }\n if (type instanceof graphql_1.GraphQLEnumType) {\n var newEnum_1 = callMethod('visitEnum', type);\n if (newEnum_1) {\n updateEachKey(newEnum_1.getValues(), function (value) {\n return callMethod('visitEnumValue', value, {\n enumType: newEnum_1,\n });\n });\n }\n return newEnum_1;\n }\n throw new Error(\"Unexpected schema type: \" + type);\n }\n function visitFields(type) {\n updateEachKey(type.getFields(), function (field) {\n // It would be nice if we could call visit(field) recursively here, but\n // GraphQLField is merely a type, not a value that can be detected using\n // an instanceof check, so we have to visit the fields in this lexical\n // context, so that TypeScript can validate the call to\n // visitFieldDefinition.\n var newField = callMethod('visitFieldDefinition', field, {\n // While any field visitor needs a reference to the field object, some\n // field visitors may also need to know the enclosing (parent) type,\n // perhaps to determine if the parent is a GraphQLObjectType or a\n // GraphQLInterfaceType. To obtain a reference to the parent, a\n // visitor method can have a second parameter, which will be an object\n // with an .objectType property referring to the parent.\n objectType: type,\n });\n if (newField && newField.args) {\n updateEachKey(newField.args, function (arg) {\n return callMethod('visitArgumentDefinition', arg, {\n // Like visitFieldDefinition, visitArgumentDefinition takes a\n // second parameter that provides additional context, namely the\n // parent .field and grandparent .objectType. Remember that the\n // current GraphQLSchema is always available via this.schema.\n field: newField,\n objectType: type,\n });\n });\n }\n return newField;\n });\n }\n visit(schema);\n // Return the original schema for convenience, even though it cannot have\n // been replaced or removed by the code above.\n return schema;\n}", "function generateSchemaDocs(mongoose) {\n\n nestedSchemas = [];\n\n // Transform models object to an array\n var schemas = _.pairs(mongoose.modelSchemas);\n\n // Map each schema to a readable format\n schemas = _.map(schemas, function (schema) {\n var info = getSchemaInfo(schema);\n return info;\n });\n\n // Add nested schemas\n schemas = schemas.concat(nestedSchemas);\n return schemas;\n}", "convertSchemaToAjvFormat (schema) {\n if (schema === null) return\n\n if (schema.type === 'string') {\n schema.fjs_type = 'string'\n schema.type = ['string', 'object']\n } else if (\n Array.isArray(schema.type) &&\n schema.type.includes('string') &&\n !schema.type.includes('object')\n ) {\n schema.fjs_type = 'string'\n schema.type.push('object')\n }\n for (const property in schema) {\n if (typeof schema[property] === 'object') {\n this.convertSchemaToAjvFormat(schema[property])\n }\n }\n }", "schemaVersion() {\r\n if (this.getType().indexOf(\":\") == -1)\r\n return 1;\r\n return 2;\r\n }", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isAbstractType\"])(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return Object(_polyfills_arrayFrom_mjs__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if (Object(_type_definition_mjs__WEBPACK_IMPORTED_MODULE_4__[\"isInterfaceType\"])(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return typeA.name.localeCompare(typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "getCollectionsSchemas() {\n const collectionsSchemas = this.collections.map(collection => {\n return this.generateSchema(collection);\n }).join('\\n');\n return collectionsSchemas;\n }", "getChildSchemas() {\n return self.gs\n .graphs.get(this.data.graphId)\n .selectAllWithType('RecordSchema')\n .filter(x => x.Base.SchemaRef == this.data.objectId);\n }", "function mergeTypeDefs (typeDefs) {\n const documents = typeDefs.map((document) => {\n if (typeof document === 'string') {\n return parse(document)\n }\n return document\n })\n const definitions = []\n\n documents.forEach((document) => {\n document.definitions.forEach(definition => {\n switch (definition.kind) {\n case 'ObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'ObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.interfaces = mergeInterfaces(existingDefinition.interfaces, definition.interfaces)\n return\n }\n break\n }\n case 'InterfaceTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InterfaceTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeFields(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n case 'UnionTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'UnionTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.types = mergeUnionTypes(existingDefinition.types, definition.types)\n return\n }\n break\n }\n case 'EnumTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'EnumTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n existingDefinition.values = mergeEnumValues(existingDefinition.values, definition.values)\n return\n }\n break\n }\n case 'InputObjectTypeDefinition': {\n const existingDefinition = definitions.find((def) => {\n return def.kind === 'InputObjectTypeDefinition' && def.name.value === definition.name.value\n })\n if (existingDefinition) {\n existingDefinition.description = definition.description || existingDefinition.description\n existingDefinition.fields = mergeInputValues(existingDefinition.fields, definition.fields)\n existingDefinition.directives = mergeDirectives(existingDefinition.directives, definition.directives)\n return\n }\n break\n }\n }\n definitions.push(definition)\n })\n })\n\n return {\n kind: 'Document',\n definitions,\n }\n}", "function changes2shorthand (changes) {\n return '{' + changes.reduce(function (s,c) { for(let i=0; i< c.count; i++) s += c.type; return s }, '') + '}'\n}", "function patch(old, diff) {\n var out = [];\n var i = 0;\n while (i < diff.length) {\n if (diff[i]) {\n // matching\n Array.prototype.push.apply(\n out,\n old.slice(out.length, out.length + diff[i])\n );\n }\n i++;\n if (i < diff.length && diff[i]) {\n // mismatching\n Array.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n i += diff[i];\n }\n i++;\n }\n return out;\n}", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "schemafy(keys, schema) {\n return keys\n .concat(schema.required || [])\n .filter(key => this.isNotHidden(key, schema) || this.appGlobalsService.adminMode)\n .concat(schema.alwaysShow || [])\n .sort((a, b) => this.compareKeysBySchemaService.compare(a, b, schema))\n .toOrderedSet();\n }", "function extendSchema(schema, documentAST) {\n (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n // Collect the type definitions and extensions found in the document.\n var typeDefinitionMap = {};\n var typeExtensionsMap = {};\n\n for (var i = 0; i < documentAST.definitions.length; i++) {\n var def = documentAST.definitions[i];\n switch (def.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n case _kinds.INTERFACE_TYPE_DEFINITION:\n case _kinds.ENUM_TYPE_DEFINITION:\n case _kinds.UNION_TYPE_DEFINITION:\n case _kinds.SCALAR_TYPE_DEFINITION:\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n // Sanity check that none of the defined types conflict with the\n // schema's existing types.\n var typeName = def.name.value;\n if (schema.getType(typeName)) {\n throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n }\n typeDefinitionMap[typeName] = def;\n break;\n case _kinds.TYPE_EXTENSION_DEFINITION:\n // Sanity check that this type extension exists within the\n // schema's existing types.\n var extendedTypeName = def.definition.name.value;\n var existingType = schema.getType(extendedTypeName);\n if (!existingType) {\n throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n }\n if (!(existingType instanceof _definition.GraphQLObjectType)) {\n throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n }\n var extensions = typeExtensionsMap[extendedTypeName];\n if (extensions) {\n extensions.push(def);\n } else {\n extensions = [def];\n }\n typeExtensionsMap[extendedTypeName] = extensions;\n break;\n }\n }\n\n // If this document contains no new types, then return the same unmodified\n // GraphQLSchema instance.\n if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0) {\n return schema;\n }\n\n // A cache to use to store the actual GraphQLType definition objects by name.\n // Initialize to the GraphQL built in scalars and introspection types. All\n // functions below are inline so that this type def cache is within the scope\n // of the closure.\n var typeDefCache = {\n String: _scalars.GraphQLString,\n Int: _scalars.GraphQLInt,\n Float: _scalars.GraphQLFloat,\n Boolean: _scalars.GraphQLBoolean,\n ID: _scalars.GraphQLID,\n __Schema: _introspection.__Schema,\n __Directive: _introspection.__Directive,\n __DirectiveLocation: _introspection.__DirectiveLocation,\n __Type: _introspection.__Type,\n __Field: _introspection.__Field,\n __InputValue: _introspection.__InputValue,\n __EnumValue: _introspection.__EnumValue,\n __TypeKind: _introspection.__TypeKind\n };\n\n // Get the root Query, Mutation, and Subscription object types.\n var queryType = getTypeFromDef(schema.getQueryType());\n\n var existingMutationType = schema.getMutationType();\n var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n var existingSubscriptionType = schema.getSubscriptionType();\n var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n // Iterate through all types, getting the type definition for each, ensuring\n // that any type not directly referenced by a field will get created.\n var typeMap = schema.getTypeMap();\n var types = Object.keys(typeMap).map(function (typeName) {\n return getTypeFromDef(typeMap[typeName]);\n });\n\n // Do the same with new types, appending to the list of defined types.\n Object.keys(typeDefinitionMap).forEach(function (typeName) {\n types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n });\n\n // Then produce and return a Schema with these types.\n return new _schema.GraphQLSchema({\n query: queryType,\n mutation: mutationType,\n subscription: subscriptionType,\n types: types,\n // Copy directives.\n directives: schema.getDirectives()\n });\n\n // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function getTypeFromDef(typeDef) {\n var type = _getNamedType(typeDef.name);\n (0, _invariant2.default)(type, 'Missing type from schema');\n return type;\n }\n\n function getTypeFromAST(astNode) {\n var type = _getNamedType(astNode.name.value);\n if (!type) {\n throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n }\n return type;\n }\n\n function getObjectTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n return type;\n }\n\n function getInterfaceTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n return type;\n }\n\n function getInputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n return type;\n }\n\n function getOutputTypeFromAST(astNode) {\n var type = getTypeFromAST(astNode);\n (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n return type;\n }\n\n // Given a name, returns a type from either the existing schema or an\n // added type.\n function _getNamedType(typeName) {\n var cachedTypeDef = typeDefCache[typeName];\n if (cachedTypeDef) {\n return cachedTypeDef;\n }\n\n var existingType = schema.getType(typeName);\n if (existingType) {\n var typeDef = extendType(existingType);\n typeDefCache[typeName] = typeDef;\n return typeDef;\n }\n\n var typeAST = typeDefinitionMap[typeName];\n if (typeAST) {\n var _typeDef = buildType(typeAST);\n typeDefCache[typeName] = _typeDef;\n return _typeDef;\n }\n }\n\n // Given a type's introspection result, construct the correct\n // GraphQLType instance.\n function extendType(type) {\n if (type instanceof _definition.GraphQLObjectType) {\n return extendObjectType(type);\n }\n if (type instanceof _definition.GraphQLInterfaceType) {\n return extendInterfaceType(type);\n }\n if (type instanceof _definition.GraphQLUnionType) {\n return extendUnionType(type);\n }\n return type;\n }\n\n function extendObjectType(type) {\n return new _definition.GraphQLObjectType({\n name: type.name,\n description: type.description,\n interfaces: function interfaces() {\n return extendImplementedInterfaces(type);\n },\n fields: function fields() {\n return extendFieldMap(type);\n }\n });\n }\n\n function extendInterfaceType(type) {\n return new _definition.GraphQLInterfaceType({\n name: type.name,\n description: type.description,\n fields: function fields() {\n return extendFieldMap(type);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendUnionType(type) {\n return new _definition.GraphQLUnionType({\n name: type.name,\n description: type.description,\n types: type.getTypes().map(getTypeFromDef),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function extendImplementedInterfaces(type) {\n var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n // If there are any extensions to the interfaces, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.interfaces.forEach(function (namedType) {\n var interfaceName = namedType.name.value;\n if (interfaces.some(function (def) {\n return def.name === interfaceName;\n })) {\n throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n }\n interfaces.push(getInterfaceTypeFromAST(namedType));\n });\n });\n }\n\n return interfaces;\n }\n\n function extendFieldMap(type) {\n var newFieldMap = {};\n var oldFieldMap = type.getFields();\n Object.keys(oldFieldMap).forEach(function (fieldName) {\n var field = oldFieldMap[fieldName];\n newFieldMap[fieldName] = {\n description: field.description,\n deprecationReason: field.deprecationReason,\n type: extendFieldType(field.type),\n args: (0, _keyMap2.default)(field.args, function (arg) {\n return arg.name;\n }),\n resolve: cannotExecuteClientSchema\n };\n });\n\n // If there are any extensions to the fields, apply those here.\n var extensions = typeExtensionsMap[type.name];\n if (extensions) {\n extensions.forEach(function (extension) {\n extension.definition.fields.forEach(function (field) {\n var fieldName = field.name.value;\n if (oldFieldMap[fieldName]) {\n throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n }\n newFieldMap[fieldName] = {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n });\n }\n\n return newFieldMap;\n }\n\n function extendFieldType(typeDef) {\n if (typeDef instanceof _definition.GraphQLList) {\n return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n }\n if (typeDef instanceof _definition.GraphQLNonNull) {\n return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n }\n return getTypeFromDef(typeDef);\n }\n\n function buildType(typeAST) {\n switch (typeAST.kind) {\n case _kinds.OBJECT_TYPE_DEFINITION:\n return buildObjectType(typeAST);\n case _kinds.INTERFACE_TYPE_DEFINITION:\n return buildInterfaceType(typeAST);\n case _kinds.UNION_TYPE_DEFINITION:\n return buildUnionType(typeAST);\n case _kinds.SCALAR_TYPE_DEFINITION:\n return buildScalarType(typeAST);\n case _kinds.ENUM_TYPE_DEFINITION:\n return buildEnumType(typeAST);\n case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n return buildInputObjectType(typeAST);\n }\n throw new TypeError('Unknown type kind ' + typeAST.kind);\n }\n\n function buildObjectType(typeAST) {\n return new _definition.GraphQLObjectType({\n name: typeAST.name.value,\n interfaces: function interfaces() {\n return buildImplementedInterfaces(typeAST);\n },\n fields: function fields() {\n return buildFieldMap(typeAST);\n }\n });\n }\n\n function buildInterfaceType(typeAST) {\n return new _definition.GraphQLInterfaceType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildFieldMap(typeAST);\n },\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildUnionType(typeAST) {\n return new _definition.GraphQLUnionType({\n name: typeAST.name.value,\n types: typeAST.types.map(getObjectTypeFromAST),\n resolveType: cannotExecuteClientSchema\n });\n }\n\n function buildScalarType(typeAST) {\n return new _definition.GraphQLScalarType({\n name: typeAST.name.value,\n serialize: function serialize() {\n return null;\n },\n // Note: validation calls the parse functions to determine if a\n // literal value is correct. Returning null would cause use of custom\n // scalars to always fail validation. Returning false causes them to\n // always pass validation.\n parseValue: function parseValue() {\n return false;\n },\n parseLiteral: function parseLiteral() {\n return false;\n }\n });\n }\n\n function buildEnumType(typeAST) {\n return new _definition.GraphQLEnumType({\n name: typeAST.name.value,\n values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n return v.name.value;\n }, function () {\n return {};\n })\n });\n }\n\n function buildInputObjectType(typeAST) {\n return new _definition.GraphQLInputObjectType({\n name: typeAST.name.value,\n fields: function fields() {\n return buildInputValues(typeAST.fields);\n }\n });\n }\n\n function buildImplementedInterfaces(typeAST) {\n return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n }\n\n function buildFieldMap(typeAST) {\n return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n return field.name.value;\n }, function (field) {\n return {\n type: buildOutputFieldType(field.type),\n args: buildInputValues(field.arguments),\n resolve: cannotExecuteClientSchema\n };\n });\n }\n\n function buildInputValues(values) {\n return (0, _keyValMap2.default)(values, function (value) {\n return value.name.value;\n }, function (value) {\n var type = buildInputFieldType(value.type);\n return {\n type: type,\n defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n };\n });\n }\n\n function buildInputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildInputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getInputTypeFromAST(typeAST);\n }\n\n function buildOutputFieldType(typeAST) {\n if (typeAST.kind === _kinds.LIST_TYPE) {\n return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n }\n if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n var nullableType = buildOutputFieldType(typeAST.type);\n (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n return new _definition.GraphQLNonNull(nullableType);\n }\n return getOutputTypeFromAST(typeAST);\n }\n}", "function newTypesComplain(req, res) {\n\n}", "compactEntitySchema(schema, entity, transformedSchemas) {\n const reqEntity = transformedSchemas[entity['entityName']];\n reqEntity.entityName = entity['entityName'];\n reqEntity.name = entity['name'];\n reqEntity.columns = [];\n entity.columns.forEach(col => {\n let defaultValue = col.columnValue ? col.columnValue.defaultValue : '';\n const type = col.sqlType;\n if (type === 'number' && !col.primaryKey) {\n defaultValue = _.isEmpty(defaultValue) ? null : _.parseInt(defaultValue);\n }\n else if (type === 'boolean') {\n defaultValue = _.isEmpty(defaultValue) ? null : (defaultValue === 'true' ? 1 : 0);\n }\n else {\n defaultValue = _.isEmpty(defaultValue) ? null : defaultValue;\n }\n reqEntity.columns.push({\n name: col['name'],\n fieldName: col['fieldName'],\n generatorType: col['generatorType'],\n sqlType: col['sqlType'],\n primaryKey: col['primaryKey'],\n defaultValue: defaultValue\n });\n });\n _.forEach(entity.relations, r => {\n let targetEntitySchema, targetEntity, col, sourceColumn, mapping;\n if (r.cardinality === 'ManyToOne' || r.cardinality === 'OneToOne') {\n targetEntity = _.find(schema.tables, t => t.name === r.targetTable);\n mapping = r.mappings[0];\n if (targetEntity) {\n targetEntity = targetEntity.entityName;\n sourceColumn = mapping.sourceColumn;\n col = reqEntity.columns.find(column => column.name === sourceColumn);\n targetEntitySchema = schema.tables.find(table => table.name === r.targetTable);\n const foreignRelation = {\n sourceFieldName: r.fieldName,\n targetEntity: targetEntity,\n targetTable: r.targetTable,\n targetColumn: mapping.targetColumn,\n targetPath: '',\n dataMapper: [],\n targetFieldName: targetEntitySchema.columns.find(column => column.name === mapping.targetColumn).fieldName\n };\n foreignRelation.targetPath = foreignRelation.sourceFieldName + '.' + foreignRelation.targetFieldName;\n foreignRelation.dataMapper = _.chain(targetEntitySchema.columns)\n .keyBy(childCol => foreignRelation.sourceFieldName + '.' + childCol.fieldName)\n .mapValues(childCol => new ColumnInfo(childCol.name, childCol.fieldName)).value();\n col.foreignRelations = col.foreignRelations || [];\n col.foreignRelations.push(foreignRelation);\n }\n }\n });\n return reqEntity;\n }", "function markListOperations(schemas) {\n _.each(schemas, function(schema) {\n if (schema.list) {\n if (_.isEmpty(schema.list.parameters)) {\n schema.list.dxFilterMode = dx.core.constants.LIST_TYPES.NONE;\n } else {\n var missingMapsTo = false;\n _.any(schema.list.parameters, function(param) {\n if (!param.mapsTo) {\n missingMapsTo = true;\n return true;\n }\n });\n schema.list.dxFilterMode = missingMapsTo ? dx.core.constants.LIST_TYPES.CUSTOM :\n dx.core.constants.LIST_TYPES.UBER;\n }\n }\n });\n}", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function doTypesConflict(type1, type2) {\n if ((0, _definition.isListType)(type1)) {\n return (0, _definition.isListType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isListType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isNonNullType)(type1)) {\n return (0, _definition.isNonNullType)(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if ((0, _definition.isNonNullType)(type2)) {\n return true;\n }\n\n if ((0, _definition.isLeafType)(type1) || (0, _definition.isLeafType)(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function modifySchemaTest2() {\n var sleep_schema_v3 = {\n className: \"Sleep\",\n fields: {\n sleep_quality : { // new field\n type: \"String\"\n },\n polyphasic : { // new field\n type: \"Boolean\"\n }\n }\n };\n XHR.PUT(SERVER_URL+'/schemas' + \"/\" + sleep_schema_v3.className, sleep_schema_v3)\n}", "function changedRecords(snapshotBefore, snapshotAfter) {\n const added = {};\n const removed = {};\n const changed = {};\n\n Object.keys(snapshotBefore).forEach(key => {\n if (key.startsWith('client:')) {\n return;\n }\n\n const record = snapshotBefore[key];\n if (record) {\n if (!snapshotAfter[key]) {\n removed[record.__id] = record.__typename;\n } else if (!deepObjectEqual(record, snapshotAfter[key])) {\n changed[record.__id] = record.__typename;\n }\n }\n });\n\n Object.keys(snapshotAfter).forEach(key => {\n if (key.startsWith('client:')) {\n return;\n }\n\n const record = snapshotAfter[key];\n if (record) {\n if (!snapshotBefore[key]) {\n added[record.__id] = record.__typename;\n }\n }\n });\n\n return {...added, ...removed, ...changed};\n}", "function convertChangesToDMP(changes) {\n var ret = [],\n change,\n operation;\n\n for (var i = 0; i < changes.length; i++) {\n change = changes[i];\n\n if (change.added) {\n operation = 1;\n } else if (change.removed) {\n operation = -1;\n } else {\n operation = 0;\n }\n\n ret.push([operation, change.value]);\n }\n\n return ret;\n}", "function findReferences(schema) {\n if (schema.$ref) {\n return [schema.$ref];\n }\n\n let references = [];\n\n if (schema.allOf) {\n references = references.concat(...schema.allOf.map(findReferences));\n }\n\n if (schema.anyOf) {\n references = references.concat(...schema.anyOf.map(findReferences));\n }\n\n if (schema.oneOf) {\n references = references.concat(...schema.oneOf.map(findReferences));\n }\n\n if (schema.not) {\n references = references.concat(...findReferences(schema.not));\n }\n\n // Array\n\n if (schema.items) {\n if (Array.isArray(schema.items)) {\n references = references.concat(...schema.items.map(findReferences));\n } else {\n references = references.concat(findReferences(schema.items));\n }\n }\n\n if (schema.additionalItems && typeof schema.additionalItems === 'object') {\n references = references.concat(findReferences(schema.additionalItems));\n }\n\n // Object\n\n if (schema.properties) {\n Object.keys(schema.properties).forEach((key) => {\n references = references.concat(findReferences(schema.properties[key]));\n });\n }\n\n if (schema.patternProperties) {\n Object.keys(schema.patternProperties).forEach((key) => {\n references = references.concat(findReferences(schema.patternProperties[key]));\n });\n }\n\n if (schema.additionalProperties && typeof schema.additionalProperties === 'object') {\n references = references.concat(findReferences(schema.additionalProperties));\n }\n\n return references;\n}", "function diffFacts(a,b,category){var diff;// look for changes and removals\nfor(var aKey in a){if(aKey===STYLE_KEY||aKey===EVENT_KEY||aKey===ATTR_KEY||aKey===ATTR_NS_KEY){var subDiff=diffFacts(a[aKey],b[aKey]||{},aKey);if(subDiff){diff=diff||{};diff[aKey]=subDiff;}continue;}// remove if not in the new facts\nif(!(aKey in b)){diff=diff||{};diff[aKey]=typeof category==='undefined'?typeof a[aKey]==='string'?'':null:category===STYLE_KEY?'':category===EVENT_KEY||category===ATTR_KEY?undefined:{namespace:a[aKey].namespace,value:undefined};continue;}var aValue=a[aKey];var bValue=b[aKey];// reference equal, so don't worry about it\nif(aValue===bValue&&aKey!=='value'||category===EVENT_KEY&&equalEvents(aValue,bValue)){continue;}diff=diff||{};diff[aKey]=bValue;}// add new stuff\nfor(var bKey in b){if(!(bKey in a)){diff=diff||{};diff[bKey]=b[bKey];}}return diff;}", "function diff(oldText, newText) {\n const oldLen = oldText.length;\n const newLen = newText.length;\n const searchLen = Math.min(oldLen, newLen);\n let prefixSize = 0;\n for (prefixSize = 0; prefixSize < searchLen; prefixSize++) {\n if (oldText[prefixSize] !== newText[prefixSize]) {\n break;\n }\n }\n let suffixSize = 0;\n for (suffixSize = 0; suffixSize < searchLen - prefixSize; suffixSize++) {\n if (oldText[oldLen - suffixSize - 1] !== newText[newLen - suffixSize - 1]) {\n break;\n }\n }\n const matchedSize = prefixSize + suffixSize;\n const events = [];\n if (matchedSize < oldLen) {\n events.push({\n length: oldLen - matchedSize,\n position: oldLen - suffixSize,\n type: 'erase'\n });\n }\n if (matchedSize < newLen) {\n const insertedText = newText.slice(prefixSize, prefixSize + newLen - matchedSize);\n events.push({\n position: prefixSize,\n text: Punycode.ucs2.encode(insertedText),\n type: 'insert'\n });\n }\n return events;\n}", "_diffTables(oTable, nTable) {\n\t\tconst oTableName = oTable.tableName;\n\t\tconst nTableName = nTable.tableName;\n\t\tconst tableNameHasChanged = oTableName !== nTableName;\n\t\tconst {\n\t\t\tcharset: nCharset,\n\t\t\tcollation: nCollation,\n\t\t\tcolumns: nColumns\n\t\t} = nTable.schema;\n\n\t\tconst {\n\t\t\tcharset: oCharset,\n\t\t\tcollation: oCollation,\n\t\t\tcolumns: oColumns\n\t\t} = oTable.schema;\n\n\t\tif ( tableNameHasChanged ) {\n\t\t\tthis._renameTable('up', oTableName, nTableName);\n\t\t\tthis._renameTable('dn', nTableName, oTableName);\n\t\t}\n\n\t\tif ( (nCharset !== oCharset) || (nCollation !== oCollation) ) {\n\t\t\tthis._changeTableCharset('up', nTableName, nCharset, nCollation, oCharset, oCollation);\n\t\t\tthis._changeTableCharset('dn', oTableName, oCharset,oCollation);\n\t\t}\n\n\t\tconst columnsDiff = deepDiff(oColumns, nColumns) || [];\n\t\tcolumnsDiff.forEach(d => {\n\t\t\tconst colName = d.path[0];\n\t\t\t// 'N' indicates a newly added property/element\n\t\t\tif (d.kind === 'N') {\n\t\t\t\tconst nCol = nColumns[colName];\n\t\t\t\tthis._addColumn('up', nTableName, colName, nCol);\n\t\t\t\tthis._dropColumn('dn', nTableName, colName);\n\t\t\t}\n\t\t\t// 'E' indicates a property/element was edited\n\t\t\t// 'A' indicates a change occurred within an array\n\t\t\telse if (d.kind === 'E' || d.kind === 'A') {\n\t\t\t\tconst nCol = nColumns[colName];\n\t\t\t\tconst oCol = oColumns[colName];\n\t\t\t\tthis._alterColumn('up', nTableName, colName, nCol);\n\t\t\t\tthis._alterColumn('dn', oTableName, colName, oCol);\n\t\t\t}\n\t\t\t// 'D' indicates a property/element was deleted\n\t\t\t// Changin `if (d.kind === 'D')` into `else`\n\t\t\t// Point? Fixing istanbul coverage report.\n\t\t\t// The `d.kind` can only be `D` anyways and relevant tests are passed!\n\t\t\telse {\n\t\t\t\tthis._dropColumn('up', nTableName, colName);\n\t\t\t\tthis._addColumn('dn', oTableName, colName, oColumns[colName]);\n\t\t\t}\n\t\t});\n\n\t\tthis._diffTableIndexes(oTable, nTable);\n\t}", "function getIssues(config/*:OpenDifferencesWindowButton*/)/*:Array*/ {\n var content/*:Content*/ = AS3.getBindable(config,\"diffManager\").getContent();\n if (!content) {\n return [];\n }\n var contentType/*:ContentType*/ = content.getType();\n if (!contentType) {\n return [];\n }\n var contentTypeName/*:String*/ = contentType.getName();\n\n var changedProperties/*:Array*/ = AS3.getBindable(config,\"diffManager\").getChangedProperties();\n var result/*:Array*/ = [];\n for (var i/*:int*/ = 0; i < changedProperties.length; i++) {\n var propertyName/*:String*/ = changedProperties[i];\n\n if (AS3.getBindable(config,\"premular\").getReadOnlyPropertyFieldRegistry().getPropertyField(\"properties.\" + propertyName, contentTypeName)) {\n result.push(new com.coremedia.ui.data.impl.IssueImpl({\n entity: content,\n property: propertyName,\n code: \"\"\n }));\n }\n }\n return result;\n }", "function tighten(schema) {\n if (!isDefined(schema.type)) {\n if (isDefined(schema.properties)) {\n schema.type = 'object';\n }\n if (isDefined(schema.pattern)) {\n schema.type = 'string';\n }\n if (isDefined(schema.minLength) || isDefined(schema.maxLength)) {\n schema.type = 'string';\n }\n if (isDefined(schema.enum)) {\n var allStrings = _(schema.enum).all(function (item) {\n return typeof item === 'string';\n });\n if (allStrings) {\n schema.type = 'string';\n }\n }\n if (isDefined(schema.items)) {\n schema.type = 'array';\n }\n } else {\n if (_.isArray(schema.type)) {\n _.each(schema.type, function (unionType) {\n tighten(unionType);\n });\n }\n }\n if (!isDefined(schema.required)) {\n schema.required = true;\n }\n if (isDefined(schema.properties)) {\n _(schema.properties).each(function (propertySchema) {\n tighten(propertySchema);\n });\n if (!isDefined(schema.additionalProperties)) {\n schema.additionalProperties = false;\n }\n }\n if (isDefined(schema.items)) {\n if (_.isArray(schema.items)) {\n _.each(schema.items, function (item) {\n tighten(item);\n });\n if (!isDefined(schema.additionalItems)) {\n schema.additionalItems = false;\n }\n } else {\n tighten(schema.items);\n }\n }\n return schema;\n}", "fixRecursively(schema) {\n if (schema.anyOf) {\n schema = this.fixAnyOf(schema);\n }\n else if (schema.allOf) {\n schema = this.fixAllOf(schema);\n }\n if (schema.order) {\n schema = this.fixOrder(schema);\n }\n if (schema.disabled) {\n schema = this.fixDisabled(schema);\n }\n if (schema.alwaysShow) {\n schema = this.fixAlwaysShow(schema);\n }\n if (schema.alwaysShowRegExp) {\n schema = this.fixAlwaysShowRegExp(schema);\n }\n // schema fixes must be done above\n // recursively call for deeper parts of schema\n if (schema.properties) {\n Object.keys(schema.properties)\n .forEach(prop => {\n schema.properties[prop] = this.fixRecursively(schema.properties[prop]);\n });\n }\n else if (schema.items) {\n schema.items = this.fixRecursively(schema.items);\n }\n // fixes that needs above fixes to be done deeply for the current schema\n schema.componentType = this.componentTypeService.getComponentType(schema);\n return schema;\n }", "function printIntrospectionSchema(schema) {\n\t return printFilteredSchema(schema, isSpecDirective, isIntrospectionType);\n\t}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_3__[\"isAbstractType\"])(type)) {\n var suggestedObjectTypes = [];\n var interfaceUsageCount = Object.create(null);\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = schema.getPossibleTypes(type)[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var possibleType = _step.value;\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedObjectTypes.push(possibleType.name);\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = possibleType.getInterfaces()[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var possibleInterface = _step2.value;\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n interfaceUsageCount[possibleInterface.name] = (interfaceUsageCount[possibleInterface.name] || 0) + 1;\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n } // Suggest interface types based on how common they are.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var suggestedInterfaceTypes = Object.keys(interfaceUsageCount).sort(function (a, b) {\n return interfaceUsageCount[b] - interfaceUsageCount[a];\n }); // Suggest both interface and object types.\n\n return suggestedInterfaceTypes.concat(suggestedObjectTypes);\n } // Otherwise, must be an Object type, which does not have possible fields.\n\n\n return [];\n}", "static filterUnexpectedData(orig, startingData, schema) {\n const data = Object.assign({}, startingData);\n Object.keys(schema.describe().children).forEach(key => {\n data[key] = orig[key];\n });\n return data;\n }", "_getTheActualUpdatedDocuments (newDocs, oldDocs, propToCheck = 'provider_name') {\n const result = {};\n\n newDocs.forEach((newDoc, index) => {\n const docId = newDoc.id;\n\n result[docId] = {};\n result[docId]['from'] = {};\n result[docId]['to'] = {};\n\n if (newDoc[propToCheck] !== oldDocs[index][propToCheck]) {\n result[docId]['from'][propToCheck] = oldDocs[index][propToCheck];\n result[docId]['to'][propToCheck] = newDoc[propToCheck];\n }\n })\n\n return result;\n }", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!(0, _definition.isAbstractType)(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return (0, _arrayFrom.default)(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if ((0, _definition.isInterfaceType)(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if ((0, _definition.isInterfaceType)(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return (0, _naturalCompare.default)(typeA.name, typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if (!(0, _definition.isAbstractType)(type)) {\n // Must be an Object type, which does not have possible fields.\n return [];\n }\n\n var suggestedTypes = new Set();\n var usageCount = Object.create(null);\n\n for (var _i2 = 0, _schema$getPossibleTy2 = schema.getPossibleTypes(type); _i2 < _schema$getPossibleTy2.length; _i2++) {\n var possibleType = _schema$getPossibleTy2[_i2];\n\n if (!possibleType.getFields()[fieldName]) {\n continue;\n } // This object type defines this field.\n\n\n suggestedTypes.add(possibleType);\n usageCount[possibleType.name] = 1;\n\n for (var _i4 = 0, _possibleType$getInte2 = possibleType.getInterfaces(); _i4 < _possibleType$getInte2.length; _i4++) {\n var _usageCount$possibleI;\n\n var possibleInterface = _possibleType$getInte2[_i4];\n\n if (!possibleInterface.getFields()[fieldName]) {\n continue;\n } // This interface type defines this field.\n\n\n suggestedTypes.add(possibleInterface);\n usageCount[possibleInterface.name] = ((_usageCount$possibleI = usageCount[possibleInterface.name]) !== null && _usageCount$possibleI !== void 0 ? _usageCount$possibleI : 0) + 1;\n }\n }\n\n return (0, _arrayFrom.default)(suggestedTypes).sort(function (typeA, typeB) {\n // Suggest both interface and object types based on how common they are.\n var usageCountDiff = usageCount[typeB.name] - usageCount[typeA.name];\n\n if (usageCountDiff !== 0) {\n return usageCountDiff;\n } // Suggest super types first followed by subtypes\n\n\n if ((0, _definition.isInterfaceType)(typeA) && schema.isSubType(typeA, typeB)) {\n return -1;\n }\n\n if ((0, _definition.isInterfaceType)(typeB) && schema.isSubType(typeB, typeA)) {\n return 1;\n }\n\n return (0, _naturalCompare.default)(typeA.name, typeB.name);\n }).map(function (x) {\n return x.name;\n });\n}", "function getSuggestedTypeNames(schema, type, fieldName) {\n if ((0, _definition.isAbstractType)(type)) {\n var suggestedObjectTypes = [];\n var interfaceUsageCount = Object.create(null);\n schema.getPossibleTypes(type).forEach(function (possibleType) {\n if (!possibleType.getFields()[fieldName]) {\n return;\n }\n // This object type defines this field.\n suggestedObjectTypes.push(possibleType.name);\n possibleType.getInterfaces().forEach(function (possibleInterface) {\n if (!possibleInterface.getFields()[fieldName]) {\n return;\n }\n // This interface type defines this field.\n interfaceUsageCount[possibleInterface.name] = (interfaceUsageCount[possibleInterface.name] || 0) + 1;\n });\n });\n\n // Suggest interface types based on how common they are.\n var suggestedInterfaceTypes = Object.keys(interfaceUsageCount).sort(function (a, b) {\n return interfaceUsageCount[b] - interfaceUsageCount[a];\n });\n\n // Suggest both interface and object types.\n return suggestedInterfaceTypes.concat(suggestedObjectTypes);\n }\n\n // Otherwise, must be an Object type, which does not have possible fields.\n return [];\n}", "function doTypesConflict(type1, type2) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isListType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type1)) {\n return Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2) ? doTypesConflict(type1.ofType, type2.ofType) : true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isNonNullType\"])(type2)) {\n return true;\n }\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type1) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_6__[\"isLeafType\"])(type2)) {\n return type1 !== type2;\n }\n\n return false;\n} // Given a selection set, return the collection of fields (a mapping of response", "function findDifferences(objectA, objectB) {\n var propertyChanges = [];\n var objectGraphPath = [\"this\"];\n (function(a, b) {\n\tif(a.constructor == Array) {\n // BIG assumptions here: That both arrays are same length, that\n // the members of those arrays are _essentially_ the same, and \n // that those array members are in the same order...\n for(var i = 0; i < a.length; i++) {\n\t\tobjectGraphPath.push(\"[\" + i.toString() + \"]\");\n\t\targuments.callee(a[i], b[i]);\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor == Object || (a.constructor != Number && \n\t\t\t\t\t a.constructor != String && a.constructor != Date && \n\t\t\t\t\t a.constructor != RegExp && a.constructor != Function &&\n\t\t\t\t\t a.constructor != Boolean)) {\n // we can safely assume that the objects have the \n // same property lists, else why compare them?\n for(var property in a) {\n\t\tobjectGraphPath.push((\".\" + property));\n\t\tif(a[property].constructor != Function) {\n\t\t arguments.callee(a[property], b[property]);\n\t\t}\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor != Function) { // filter out functions\n if(a != b) {\n\t\tpropertyChanges.push({ \"Property\": objectGraphPath.join(\"\"), \"ObjectA\": a, \"ObjectB\": b });\n }\n\t}\n })(objectA, objectB);\n return propertyChanges;\n}" ]
[ "0.8103693", "0.8060752", "0.78412163", "0.7751845", "0.7751845", "0.77466553", "0.7723766", "0.7634768", "0.7634768", "0.76183236", "0.7545555", "0.7199528", "0.7199528", "0.71913576", "0.71913576", "0.71913576", "0.7042182", "0.7042182", "0.7023725", "0.69522476", "0.6838003", "0.6731374", "0.6731374", "0.6731374", "0.6731374", "0.6688592", "0.6537136", "0.6527719", "0.6302741", "0.6244098", "0.6244098", "0.6238491", "0.6210544", "0.60561174", "0.58896655", "0.5809972", "0.56626195", "0.56626195", "0.5649021", "0.5631365", "0.55574894", "0.5338235", "0.50806165", "0.50297225", "0.50297225", "0.50285923", "0.49437597", "0.4900337", "0.48127803", "0.47860518", "0.47762206", "0.47762206", "0.47689795", "0.47689795", "0.47672358", "0.4752643", "0.4745903", "0.47399652", "0.47256038", "0.47093132", "0.47093132", "0.4648965", "0.4648886", "0.46229535", "0.4622077", "0.4622077", "0.46166557", "0.45940906", "0.45909324", "0.4585211", "0.45798537", "0.45681387", "0.45681387", "0.45552245", "0.45259646", "0.4500719", "0.44952857", "0.44830632", "0.44786692", "0.44786692", "0.44754604", "0.44693285", "0.44610804", "0.44346058", "0.44327956", "0.4432231", "0.4431665", "0.4431644", "0.44290242", "0.44164872", "0.4416399", "0.4407965", "0.44068664", "0.4395217", "0.43949488", "0.43949488", "0.43937612", "0.43708664", "0.43493387" ]
0.80712616
2
Given two schemas, returns an Array containing descriptions of any breaking or dangerous changes in the newSchema related to arguments (such as removal or change of type of an argument, or a change in an argument's default value).
function findArgChanges(oldSchema, newSchema) { var oldTypeMap = oldSchema.getTypeMap(); var newTypeMap = newSchema.getTypeMap(); var breakingChanges = []; var dangerousChanges = []; Object.keys(oldTypeMap).forEach(function (typeName) { var oldType = oldTypeMap[typeName]; var newType = newTypeMap[typeName]; if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType) || !(newType instanceof oldType.constructor)) { return; } var oldTypeFields = oldType.getFields(); var newTypeFields = newType.getFields(); Object.keys(oldTypeFields).forEach(function (fieldName) { if (!newTypeFields[fieldName]) { return; } oldTypeFields[fieldName].args.forEach(function (oldArgDef) { var newArgs = newTypeFields[fieldName].args; var newArgDef = newArgs.find(function (arg) { return arg.name === oldArgDef.name; }); // Arg not present if (!newArgDef) { breakingChanges.push({ type: BreakingChangeType.ARG_REMOVED, description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' was removed') }); } else { var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type); if (!isSafe) { breakingChanges.push({ type: BreakingChangeType.ARG_CHANGED_KIND, description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed type from ') + (oldArgDef.type.toString() + ' to ' + newArgDef.type.toString()) }); } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) { dangerousChanges.push({ type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE, description: oldType.name + '.' + fieldName + ' arg ' + (oldArgDef.name + ' has changed defaultValue') }); } } }); // Check if a non-null arg was added to the field newTypeFields[fieldName].args.forEach(function (newArgDef) { var oldArgs = oldTypeFields[fieldName].args; var oldArgDef = oldArgs.find(function (arg) { return arg.name === newArgDef.name; }); if (!oldArgDef && newArgDef.type instanceof _definition.GraphQLNonNull) { breakingChanges.push({ type: BreakingChangeType.NON_NULL_ARG_ADDED, description: 'A non-null arg ' + newArgDef.name + ' on ' + (newType.name + '.' + fieldName + ' was added') }); } }); }); }); return { breakingChanges: breakingChanges, dangerousChanges: dangerousChanges }; }
{ "objective": { "self": [], "paired": [], "triplet": [ [ "query", "document", "negatives" ] ] } }
[ "function findArgChanges(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n var dangerousChanges = [];\n\n var _arr3 = Object.keys(oldTypeMap);\n\n for (var _i3 = 0; _i3 < _arr3.length; _i3++) {\n var typeName = _arr3[_i3];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(oldType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(oldType)) || !(Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isObjectType\"])(newType) || Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isInterfaceType\"])(newType)) || newType.constructor !== oldType.constructor) {\n continue;\n }\n\n var oldTypeFields = oldType.getFields();\n var newTypeFields = newType.getFields();\n\n var _arr4 = Object.keys(oldTypeFields);\n\n for (var _i4 = 0; _i4 < _arr4.length; _i4++) {\n var fieldName = _arr4[_i4];\n\n if (!newTypeFields[fieldName]) {\n continue;\n }\n\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n var _loop = function _loop() {\n var oldArgDef = _step.value;\n var newArgs = newTypeFields[fieldName].args;\n var newArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(newArgs, function (arg) {\n return arg.name === oldArgDef.name;\n }); // Arg not present\n\n if (!newArgDef) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_REMOVED,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" was removed\")\n });\n } else {\n var isSafe = isChangeSafeForInputObjectFieldOrFieldArg(oldArgDef.type, newArgDef.type);\n\n if (!isSafe) {\n breakingChanges.push({\n type: BreakingChangeType.ARG_CHANGED_KIND,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed type from \") + \"\".concat(oldArgDef.type.toString(), \" to \").concat(newArgDef.type.toString())\n });\n } else if (oldArgDef.defaultValue !== undefined && oldArgDef.defaultValue !== newArgDef.defaultValue) {\n dangerousChanges.push({\n type: DangerousChangeType.ARG_DEFAULT_VALUE_CHANGE,\n description: \"\".concat(oldType.name, \".\").concat(fieldName, \" arg \") + \"\".concat(oldArgDef.name, \" has changed defaultValue\")\n });\n }\n }\n };\n\n for (var _iterator = oldTypeFields[fieldName].args[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n _loop();\n } // Check if arg was added to the field\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n var _loop2 = function _loop2() {\n var newArgDef = _step2.value;\n var oldArgs = oldTypeFields[fieldName].args;\n var oldArgDef = Object(_polyfills_find__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(oldArgs, function (arg) {\n return arg.name === newArgDef.name;\n });\n\n if (!oldArgDef) {\n var argName = newArgDef.name;\n\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isRequiredArgument\"])(newArgDef)) {\n breakingChanges.push({\n type: BreakingChangeType.REQUIRED_ARG_ADDED,\n description: \"A required arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n } else {\n dangerousChanges.push({\n type: DangerousChangeType.OPTIONAL_ARG_ADDED,\n description: \"An optional arg \".concat(argName, \" on \") + \"\".concat(typeName, \".\").concat(fieldName, \" was added\")\n });\n }\n }\n };\n\n for (var _iterator2 = newTypeFields[fieldName].args[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n _loop2();\n }\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n }\n }\n\n return {\n breakingChanges: breakingChanges,\n dangerousChanges: dangerousChanges\n };\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges);\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema));\n}", "function findDangerousChanges(oldSchema, newSchema) {\n return [].concat(findArgChanges(oldSchema, newSchema).dangerousChanges, findValuesAddedToEnums(oldSchema, newSchema), findInterfacesAddedToObjectTypes(oldSchema, newSchema), findTypesAddedToUnions(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).dangerousChanges);\n}", "function findBreakingChanges(oldSchema, newSchema) {\n\t return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema));\n\t}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedType(oldSchema, newSchema), findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema));\n}", "function findBreakingChanges(oldSchema, newSchema) {\n return [].concat(findRemovedTypes(oldSchema, newSchema), findTypesThatChangedKind(oldSchema, newSchema), findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema).breakingChanges, findTypesRemovedFromUnions(oldSchema, newSchema), findValuesRemovedFromEnums(oldSchema, newSchema), findArgChanges(oldSchema, newSchema).breakingChanges, findInterfacesRemovedFromObjectTypes(oldSchema, newSchema), findRemovedDirectives(oldSchema, newSchema), findRemovedDirectiveArgs(oldSchema, newSchema), findAddedNonNullDirectiveArgs(oldSchema, newSchema), findRemovedDirectiveLocations(oldSchema, newSchema));\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr2 = Object.keys(oldTypeMap);\n\n for (var _i2 = 0; _i2 < _arr2.length; _i2++) {\n var typeName = _arr2[_i2];\n\n if (!newTypeMap[typeName]) {\n continue;\n }\n\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (oldType.constructor !== newType.constructor) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: \"\".concat(typeName, \" changed from \") + \"\".concat(typeKindName(oldType), \" to \").concat(typeKindName(newType), \".\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n return;\n }\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof newType.constructor)) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_CHANGED_KIND,\n description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var breakingChanges = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: typeName + ' was removed.'\n });\n }\n });\n return breakingChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findDangerousChanges(oldSchema, newSchema) {\n var dangerousChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in DangerousChangeType;\n });\n return dangerousChanges;\n}", "function findTypesThatChangedKind(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t return;\n\t }\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof newType.constructor)) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_CHANGED_KIND,\n\t description: typeName + ' changed from ' + (typeKindName(oldType) + ' to ' + typeKindName(newType) + '.')\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findRemovedTypes(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t if (!newTypeMap[typeName]) {\n\t breakingChanges.push({\n\t type: BreakingChangeType.TYPE_REMOVED,\n\t description: typeName + ' was removed.'\n\t });\n\t }\n\t });\n\t return breakingChanges;\n\t}", "function findRemovedTypes(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var breakingChanges = [];\n\n var _arr = Object.keys(oldTypeMap);\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var typeName = _arr[_i];\n\n if (!newTypeMap[typeName]) {\n breakingChanges.push({\n type: BreakingChangeType.TYPE_REMOVED,\n description: \"\".concat(typeName, \" was removed.\")\n });\n }\n }\n\n return breakingChanges;\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var breakingFieldChanges = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLObjectType || oldType instanceof _definition.GraphQLInterfaceType || oldType instanceof _definition.GraphQLInputObjectType) || !(newType instanceof oldType.constructor)) {\n\t return;\n\t }\n\n\t var oldTypeFieldsDef = oldType.getFields();\n\t var newTypeFieldsDef = newType.getFields();\n\t Object.keys(oldTypeFieldsDef).forEach(function (fieldName) {\n\t // Check if the field is missing on the type in the new schema.\n\t if (!(fieldName in newTypeFieldsDef)) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_REMOVED,\n\t description: typeName + '.' + fieldName + ' was removed.'\n\t });\n\t } else {\n\t // Check if the field's type has changed in the new schema.\n\t var oldFieldType = (0, _definition.getNamedType)(oldTypeFieldsDef[fieldName].type);\n\t var newFieldType = (0, _definition.getNamedType)(newTypeFieldsDef[fieldName].type);\n\t if (oldFieldType && newFieldType && oldFieldType.name !== newFieldType.name) {\n\t breakingFieldChanges.push({\n\t type: BreakingChangeType.FIELD_CHANGED_KIND,\n\t description: typeName + '.' + fieldName + ' changed type from ' + (oldFieldType.name + ' to ' + newFieldType.name + '.')\n\t });\n\t }\n\t }\n\t });\n\t });\n\t return breakingFieldChanges;\n\t}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findBreakingChanges(oldSchema, newSchema) {\n var breakingChanges = findSchemaChanges(oldSchema, newSchema).filter(function (change) {\n return change.type in BreakingChangeType;\n });\n return breakingChanges;\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function findFieldsThatChangedType(oldSchema, newSchema) {\n return [].concat(findFieldsThatChangedTypeOnObjectOrInterfaceTypes(oldSchema, newSchema), findFieldsThatChangedTypeOnInputObjectTypes(oldSchema, newSchema));\n}", "function schemaDiff(comparison) {\n\t// TODO\n\t// TODO\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesAddedToUnion = [];\n\n var _arr11 = Object.keys(newTypeMap);\n\n for (var _i11 = 0; _i11 < _arr11.length; _i11++) {\n var typeName = _arr11[_i11];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInOldUnion = Object.create(null);\n var _iteratorNormalCompletion5 = true;\n var _didIteratorError5 = false;\n var _iteratorError5 = undefined;\n\n try {\n for (var _iterator5 = oldType.getTypes()[Symbol.iterator](), _step5; !(_iteratorNormalCompletion5 = (_step5 = _iterator5.next()).done); _iteratorNormalCompletion5 = true) {\n var type = _step5.value;\n typeNamesInOldUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError5 = true;\n _iteratorError5 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion5 && _iterator5.return != null) {\n _iterator5.return();\n }\n } finally {\n if (_didIteratorError5) {\n throw _iteratorError5;\n }\n }\n }\n\n var _iteratorNormalCompletion6 = true;\n var _didIteratorError6 = false;\n var _iteratorError6 = undefined;\n\n try {\n for (var _iterator6 = newType.getTypes()[Symbol.iterator](), _step6; !(_iteratorNormalCompletion6 = (_step6 = _iterator6.next()).done); _iteratorNormalCompletion6 = true) {\n var _type2 = _step6.value;\n\n if (!typeNamesInOldUnion[_type2.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: \"\".concat(_type2.name, \" was added to union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError6 = true;\n _iteratorError6 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion6 && _iterator6.return != null) {\n _iterator6.return();\n }\n } finally {\n if (_didIteratorError6) {\n throw _iteratorError6;\n }\n }\n }\n }\n\n return typesAddedToUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var typesRemovedFromUnion = [];\n\n var _arr10 = Object.keys(oldTypeMap);\n\n for (var _i10 = 0; _i10 < _arr10.length; _i10++) {\n var typeName = _arr10[_i10];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isUnionType\"])(newType)) {\n continue;\n }\n\n var typeNamesInNewUnion = Object.create(null);\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = newType.getTypes()[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var type = _step3.value;\n typeNamesInNewUnion[type.name] = true;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = oldType.getTypes()[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _type = _step4.value;\n\n if (!typeNamesInNewUnion[_type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: \"\".concat(_type.name, \" was removed from union type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n\n return typesRemovedFromUnion;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesAddedToEnums = [];\n\n var _arr13 = Object.keys(oldTypeMap);\n\n for (var _i13 = 0; _i13 < _arr13.length; _i13++) {\n var typeName = _arr13[_i13];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInOldEnum = Object.create(null);\n var _iteratorNormalCompletion9 = true;\n var _didIteratorError9 = false;\n var _iteratorError9 = undefined;\n\n try {\n for (var _iterator9 = oldType.getValues()[Symbol.iterator](), _step9; !(_iteratorNormalCompletion9 = (_step9 = _iterator9.next()).done); _iteratorNormalCompletion9 = true) {\n var value = _step9.value;\n valuesInOldEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError9 = true;\n _iteratorError9 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion9 && _iterator9.return != null) {\n _iterator9.return();\n }\n } finally {\n if (_didIteratorError9) {\n throw _iteratorError9;\n }\n }\n }\n\n var _iteratorNormalCompletion10 = true;\n var _didIteratorError10 = false;\n var _iteratorError10 = undefined;\n\n try {\n for (var _iterator10 = newType.getValues()[Symbol.iterator](), _step10; !(_iteratorNormalCompletion10 = (_step10 = _iterator10.next()).done); _iteratorNormalCompletion10 = true) {\n var _value2 = _step10.value;\n\n if (!valuesInOldEnum[_value2.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: \"\".concat(_value2.name, \" was added to enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError10 = true;\n _iteratorError10 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion10 && _iterator10.return != null) {\n _iterator10.return();\n }\n } finally {\n if (_didIteratorError10) {\n throw _iteratorError10;\n }\n }\n }\n }\n\n return valuesAddedToEnums;\n}", "function getDiffs(oldDoc, newDoc) {\n const changes = new Array();\n const flatOld = flattenObject(oldDoc);\n const flatNew = flattenObject(newDoc);\n // find deleted nodes\n Object.keys(flatOld).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatNew, key)) {\n changes.push({\n action: 'DELETED',\n keyName: key,\n });\n }\n });\n // find added nodes\n Object.keys(flatNew).forEach(key => {\n if (!Object.prototype.hasOwnProperty.call(flatOld, key)) {\n changes.push({\n action: 'ADDED',\n keyName: key,\n });\n }\n });\n // find updated nodes\n Object.keys(flatOld).forEach(key => {\n let oldValue = flatOld[key];\n if (Array.isArray(oldValue)) {\n oldValue = oldValue.join(', ');\n }\n let newValue = flatNew[key];\n if (newValue) {\n if (Array.isArray(newValue)) {\n newValue = newValue.join(', ');\n }\n if (newValue !== oldValue && key !== 'revision' && key !== 'etag') {\n changes.push({\n action: 'CHANGED',\n keyName: key,\n });\n }\n }\n });\n return changes;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesRemovedFromUnion = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInNewUnion = Object.create(null);\n newType.getTypes().forEach(function (type) {\n typeNamesInNewUnion[type.name] = true;\n });\n oldType.getTypes().forEach(function (type) {\n if (!typeNamesInNewUnion[type.name]) {\n typesRemovedFromUnion.push({\n type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n description: type.name + ' was removed from union type ' + typeName + '.'\n });\n }\n });\n });\n return typesRemovedFromUnion;\n}", "function findTypesAddedToUnions(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var typesAddedToUnion = [];\n Object.keys(newTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n return;\n }\n var typeNamesInOldUnion = Object.create(null);\n oldType.getTypes().forEach(function (type) {\n typeNamesInOldUnion[type.name] = true;\n });\n newType.getTypes().forEach(function (type) {\n if (!typeNamesInOldUnion[type.name]) {\n typesAddedToUnion.push({\n type: DangerousChangeType.TYPE_ADDED_TO_UNION,\n description: type.name + ' was added to union type ' + typeName + '.'\n });\n }\n });\n });\n return typesAddedToUnion;\n}", "function findTypesRemovedFromUnions(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var typesRemovedFromUnion = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLUnionType) || !(newType instanceof _definition.GraphQLUnionType)) {\n\t return;\n\t }\n\t var typeNamesInNewUnion = Object.create(null);\n\t newType.getTypes().forEach(function (type) {\n\t typeNamesInNewUnion[type.name] = true;\n\t });\n\t oldType.getTypes().forEach(function (type) {\n\t if (!typeNamesInNewUnion[type.name]) {\n\t typesRemovedFromUnion.push({\n\t type: BreakingChangeType.TYPE_REMOVED_FROM_UNION,\n\t description: type.name + ' was removed from union type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return typesRemovedFromUnion;\n\t}", "function processSchema(schema, schemaKey, sourceSchemas, newSchemas, preserveUnneeded) {\n /*\n * Most schemas have a name. However, not all do. We must nevertheless expose those schemas as they have root\n * operations on them. Thus, we convert the key into a form that can be used to identify them.\n */\n schema.name = schemaKeyToTypeName(schemaKey, sourceSchemas);\n\n // If this schema has already been processed (see recursive call, below), return it\n if (newSchemas[schema.name]) {\n return newSchemas[schema.name];\n }\n\n newSchemas[schema.name] = schema;\n\n if (schema.root) {\n schema.rootTypeName = schema.name;\n }\n\n // Process the parent schema, if any. This assumes all extends schemas have just a $ref property.\n var parentSchema = schema.extends;\n if (parentSchema) {\n schema.parentSchema = processSchema(sourceSchemas[parentSchema.$ref], parentSchema.$ref,\n sourceSchemas, newSchemas);\n parentSchema.$ref = schemaKeyToTypeName(parentSchema.$ref, sourceSchemas);\n parentSchema = schema.parentSchema;\n\n if (!schema.rootTypeName) {\n schema.rootTypeName = parentSchema.rootTypeName;\n }\n\n schema.root = schema.root || parentSchema.root;\n }\n\n if (!preserveUnneeded) {\n delete schema.description;\n }\n\n processProperties(schema, parentSchema, sourceSchemas, preserveUnneeded);\n processOperations(schema, parentSchema, sourceSchemas);\n\n return schema;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n var valuesRemovedFromEnums = [];\n\n var _arr12 = Object.keys(oldTypeMap);\n\n for (var _i12 = 0; _i12 < _arr12.length; _i12++) {\n var typeName = _arr12[_i12];\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n\n if (!Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(oldType) || !Object(_type_definition__WEBPACK_IMPORTED_MODULE_1__[\"isEnumType\"])(newType)) {\n continue;\n }\n\n var valuesInNewEnum = Object.create(null);\n var _iteratorNormalCompletion7 = true;\n var _didIteratorError7 = false;\n var _iteratorError7 = undefined;\n\n try {\n for (var _iterator7 = newType.getValues()[Symbol.iterator](), _step7; !(_iteratorNormalCompletion7 = (_step7 = _iterator7.next()).done); _iteratorNormalCompletion7 = true) {\n var value = _step7.value;\n valuesInNewEnum[value.name] = true;\n }\n } catch (err) {\n _didIteratorError7 = true;\n _iteratorError7 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion7 && _iterator7.return != null) {\n _iterator7.return();\n }\n } finally {\n if (_didIteratorError7) {\n throw _iteratorError7;\n }\n }\n }\n\n var _iteratorNormalCompletion8 = true;\n var _didIteratorError8 = false;\n var _iteratorError8 = undefined;\n\n try {\n for (var _iterator8 = oldType.getValues()[Symbol.iterator](), _step8; !(_iteratorNormalCompletion8 = (_step8 = _iterator8.next()).done); _iteratorNormalCompletion8 = true) {\n var _value = _step8.value;\n\n if (!valuesInNewEnum[_value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: \"\".concat(_value.name, \" was removed from enum type \").concat(typeName, \".\")\n });\n }\n }\n } catch (err) {\n _didIteratorError8 = true;\n _iteratorError8 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion8 && _iterator8.return != null) {\n _iterator8.return();\n }\n } finally {\n if (_didIteratorError8) {\n throw _iteratorError8;\n }\n }\n }\n }\n\n return valuesRemovedFromEnums;\n}", "function findValuesAddedToEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesAddedToEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n\n var valuesInOldEnum = Object.create(null);\n oldType.getValues().forEach(function (value) {\n valuesInOldEnum[value.name] = true;\n });\n newType.getValues().forEach(function (value) {\n if (!valuesInOldEnum[value.name]) {\n valuesAddedToEnums.push({\n type: DangerousChangeType.VALUE_ADDED_TO_ENUM,\n description: value.name + ' was added to enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesAddedToEnums;\n}", "getAdditionalSchemas() {\n const additionalSchemas = this.schemas.join('\\n');\n return additionalSchemas;\n }", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n var oldTypeMap = oldSchema.getTypeMap();\n var newTypeMap = newSchema.getTypeMap();\n\n var valuesRemovedFromEnums = [];\n Object.keys(oldTypeMap).forEach(function (typeName) {\n var oldType = oldTypeMap[typeName];\n var newType = newTypeMap[typeName];\n if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n return;\n }\n var valuesInNewEnum = Object.create(null);\n newType.getValues().forEach(function (value) {\n valuesInNewEnum[value.name] = true;\n });\n oldType.getValues().forEach(function (value) {\n if (!valuesInNewEnum[value.name]) {\n valuesRemovedFromEnums.push({\n type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n description: value.name + ' was removed from enum type ' + typeName + '.'\n });\n }\n });\n });\n return valuesRemovedFromEnums;\n}", "function findValuesRemovedFromEnums(oldSchema, newSchema) {\n\t var oldTypeMap = oldSchema.getTypeMap();\n\t var newTypeMap = newSchema.getTypeMap();\n\n\t var valuesRemovedFromEnums = [];\n\t Object.keys(oldTypeMap).forEach(function (typeName) {\n\t var oldType = oldTypeMap[typeName];\n\t var newType = newTypeMap[typeName];\n\t if (!(oldType instanceof _definition.GraphQLEnumType) || !(newType instanceof _definition.GraphQLEnumType)) {\n\t return;\n\t }\n\t var valuesInNewEnum = Object.create(null);\n\t newType.getValues().forEach(function (value) {\n\t valuesInNewEnum[value.name] = true;\n\t });\n\t oldType.getValues().forEach(function (value) {\n\t if (!valuesInNewEnum[value.name]) {\n\t valuesRemovedFromEnums.push({\n\t type: BreakingChangeType.VALUE_REMOVED_FROM_ENUM,\n\t description: value.name + ' was removed from enum type ' + typeName + '.'\n\t });\n\t }\n\t });\n\t });\n\t return valuesRemovedFromEnums;\n\t}", "function computeDiff(thing1, thing2) {\n if (typeof thing1 === 'object' && typeof thing2 === 'object') {\n if (Array.isArray(thing1) && Array.isArray(thing2)) {\n return arrayDiff(thing1, thing2);\n }\n return objectDiff(thing1, thing2);\n }\n if (thing1 !== thing2) {\n return [thing1, thing2];\n }\n}", "function findDifferences(objectA, objectB) {\n var propertyChanges = [];\n var objectGraphPath = [\"this\"];\n (function(a, b) {\n\tif(a.constructor == Array) {\n // BIG assumptions here: That both arrays are same length, that\n // the members of those arrays are _essentially_ the same, and \n // that those array members are in the same order...\n for(var i = 0; i < a.length; i++) {\n\t\tobjectGraphPath.push(\"[\" + i.toString() + \"]\");\n\t\targuments.callee(a[i], b[i]);\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor == Object || (a.constructor != Number && \n\t\t\t\t\t a.constructor != String && a.constructor != Date && \n\t\t\t\t\t a.constructor != RegExp && a.constructor != Function &&\n\t\t\t\t\t a.constructor != Boolean)) {\n // we can safely assume that the objects have the \n // same property lists, else why compare them?\n for(var property in a) {\n\t\tobjectGraphPath.push((\".\" + property));\n\t\tif(a[property].constructor != Function) {\n\t\t arguments.callee(a[property], b[property]);\n\t\t}\n\t\tobjectGraphPath.pop();\n }\n\t} else if(a.constructor != Function) { // filter out functions\n if(a != b) {\n\t\tpropertyChanges.push({ \"Property\": objectGraphPath.join(\"\"), \"ObjectA\": a, \"ObjectB\": b });\n }\n\t}\n })(objectA, objectB);\n return propertyChanges;\n}", "function sym(args) {\n\tvar argArr = [];\n\tfor (var i = 0; i < arguments.length; i++) {\n\t\targArr.push(arguments[i]);\n\t}\n\tvar diff = [];\n\tfor (var i = 0; i < argArr.length; i++) {\n\t\tdiff = diffTwoArr(diff, argArr[i]);\n\t}\n\t\n\tfunction diffTwoArr(arr1, arr2) {\n\t\tvar diff = [];\n\t\tif (!arr2) {\n\t\t\tarr2 = [];\n\t\t}\n\t\tarr1.forEach(function(val) {\n\t\t\tif (arr2.indexOf(val) === -1 && diff.indexOf(val) === -1) {\n\t\t\t\tdiff.push(val);\n\t\t\t}\n\t\t});\n\t\tarr2.forEach(function(val) {\n\t\t\tif (arr1.indexOf(val) === -1 && diff.indexOf(val) === -1) {\n\t\t\t\tdiff.push(val);\n\t\t\t}\n\t\t});\n\t\treturn diff;\n\t}\n\treturn diff;\n}", "function patch(old, diff) {\n var out = [];\n var i = 0;\n while (i < diff.length) {\n if (diff[i]) {\n // matching\n Array.prototype.push.apply(\n out,\n old.slice(out.length, out.length + diff[i])\n );\n }\n i++;\n if (i < diff.length && diff[i]) {\n // mismatching\n Array.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n i += diff[i];\n }\n i++;\n }\n return out;\n}", "fixSchema(originalSchema, config) {\n let schema = cloneDeep(originalSchema);\n if (config) {\n schema = this.enrichSchemaWithConfig(schema, config);\n }\n schema = this.fixRecursively(schema);\n return schema;\n }", "function graphqlSchemaVersion (newSchema, oldSchema = null, oldVersion = DEFAULT_VERSION) {\n if (!oldSchema) { return oldVersion }\n\n const increment = diffSchema(new Pair(newSchema, oldSchema)\n .map(normalizeSchema)\n .map(buildClientSchema))\n if (increment === INCREMENT_NONE) { return oldVersion }\n if (increment < INCREMENT_MINOR) { return semver.inc(oldVersion, 'patch') }\n if (increment < INCREMENT_MAJOR) { return semver.inc(oldVersion, 'minor') }\n if (increment === INCREMENT_MAJOR) { return semver.inc(oldVersion, 'major') }\n}", "function diffData(oldData, newData) {\n var diffResult = [];\n newData.diff(oldData).add(function (idx) {\n diffResult.push({\n cmd: '+',\n idx: idx\n });\n }).update(function (newIdx, oldIdx) {\n diffResult.push({\n cmd: '=',\n idx: oldIdx,\n idx1: newIdx\n });\n }).remove(function (idx) {\n diffResult.push({\n cmd: '-',\n idx: idx\n });\n }).execute();\n return diffResult;\n}", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "function patch(old, diff) {\n\tvar out = [];\n\tvar i = 0;\n\twhile (i < diff.length) {\n\t\tif (diff[i]) { // matching\n\t\t\tArray.prototype.push.apply(out, old.slice(out.length, out.length + diff[i]));\n\t\t}\n\t\ti++;\n\t\tif (i < diff.length && diff[i]) { // mismatching\n\t\t\tArray.prototype.push.apply(out, diff.slice(i + 1, i + 1 + diff[i]));\n\t\t\ti += diff[i];\n\t\t}\n\t\ti++;\n\t}\n\treturn out;\n}", "function diffArray(context, expected, actual, strict) {\n diffType(context, expected, actual);\n let sameLength = expected.length === actual.length;\n if (strict && !sameLength) {\n context.throw(`diff size , ${expected.length} ≠ ${actual.length}`);\n }\n expected.forEach(function(elem, index) {\n diff(context.enter(`[${index}]`), elem, actual[index]);\n });\n}", "schemafy(keys, schema) {\n return keys\n .concat(schema.required || [])\n .filter(key => this.isNotHidden(key, schema) || this.appGlobalsService.adminMode)\n .concat(schema.alwaysShow || [])\n .sort((a, b) => this.compareKeysBySchemaService.compare(a, b, schema))\n .toOrderedSet();\n }", "function diffFacts(a,b,category){var diff;// look for changes and removals\nfor(var aKey in a){if(aKey===STYLE_KEY||aKey===EVENT_KEY||aKey===ATTR_KEY||aKey===ATTR_NS_KEY){var subDiff=diffFacts(a[aKey],b[aKey]||{},aKey);if(subDiff){diff=diff||{};diff[aKey]=subDiff;}continue;}// remove if not in the new facts\nif(!(aKey in b)){diff=diff||{};diff[aKey]=typeof category==='undefined'?typeof a[aKey]==='string'?'':null:category===STYLE_KEY?'':category===EVENT_KEY||category===ATTR_KEY?undefined:{namespace:a[aKey].namespace,value:undefined};continue;}var aValue=a[aKey];var bValue=b[aKey];// reference equal, so don't worry about it\nif(aValue===bValue&&aKey!=='value'||category===EVENT_KEY&&equalEvents(aValue,bValue)){continue;}diff=diff||{};diff[aKey]=bValue;}// add new stuff\nfor(var bKey in b){if(!(bKey in a)){diff=diff||{};diff[bKey]=b[bKey];}}return diff;}", "function Diff() {}", "function Diff() {}", "function Diff() {}", "function Diff() {}", "function Diff() {}", "function Diff() {}", "static validate(newChangeFilePaths, changedPackages) {\n const changedSet = new Set();\n newChangeFilePaths.forEach((filePath) => {\n console.log(`Found change file: ${filePath}`);\n const changeRequest = node_core_library_1.JsonFile.load(filePath);\n if (changeRequest && changeRequest.changes) {\n changeRequest.changes.forEach(change => {\n changedSet.add(change.packageName);\n });\n }\n else {\n throw new Error(`Invalid change file: ${filePath}`);\n }\n });\n const requiredSet = new Set(changedPackages);\n changedSet.forEach((name) => {\n requiredSet.delete(name);\n });\n if (requiredSet.size > 0) {\n const missingProjects = [];\n requiredSet.forEach(name => {\n missingProjects.push(name);\n });\n throw new Error(`Change file does not contain ${missingProjects.join(',')}.`);\n }\n }", "function versionDiffers(a1, a2) {\n\t\tvar inBoth = intersection(a1, a2);\n\t\treturn _.filter(inBoth, function ina2(r1) {\n\t\t\treturn _.some(a2, function rina2(r2) {\n\t\t\t\treturn r1.id === r2.id && r1.version !== r2.version;\n\t\t\t});\n\t\t});\n\t}", "function diffStyles(before, after) {\n\treturn diffJSONStyles(toJSON(before), toJSON(after))\n}", "function diffUpdateTriggers(props, oldProps) {\n if (oldProps === null) {\n return 'oldProps is null, initial diff';\n }\n\n // If the 'all' updateTrigger fires, ignore testing others\n if ('all' in props.updateTriggers) {\n var diffReason = diffUpdateTrigger(oldProps, props, 'all');\n if (diffReason) {\n return { all: true };\n }\n }\n\n var triggerChanged = {};\n var reason = false;\n // If the 'all' updateTrigger didn't fire, need to check all others\n for (var triggerName in props.updateTriggers) {\n if (triggerName !== 'all') {\n var _diffReason = diffUpdateTrigger(oldProps, props, triggerName);\n if (_diffReason) {\n triggerChanged[triggerName] = true;\n reason = triggerChanged;\n }\n }\n }\n\n return reason;\n}", "function mergeClientSchemas(...schemas) {\n\t// Merge types\n\tconst schema = mergeSchemas({ schemas });\n\n\t// Get the directives from each schema\n\tconst schemaDirectives = map(schemas, '_directives');\n\n\t// Merge directives by name (directives are ignored by mergeSchemas())\n\t/* eslint-disable-next-line no-underscore-dangle */\n\tschema._directives = uniqBy(concat(...schemaDirectives), 'name');\n\n\treturn schema;\n}", "function getEdits(fileName, oldStr, newStr) {\n if (process.platform === 'win32') {\n oldStr = oldStr.split('\\r\\n').join('\\n');\n newStr = newStr.split('\\r\\n').join('\\n');\n }\n const unifiedDiffs = jsDiff.structuredPatch(fileName, fileName, oldStr, newStr, '', '');\n const filePatches = parseUniDiffs([unifiedDiffs]);\n return filePatches[0];\n}", "function diff(fromArr, to) {\n // take the lame way out and return a \"patch\" that literally just removes\n // everything and then adds the entire contents of the \"to\" array using a\n // single splice.\n //\n // TODO: rewrite this!\n\n var i;\n var patches = [];\n\n // remove everything in \"from\"\n for (i = fromArr.length - 1; i >= 0; --i) {\n patches.push(new ListPatches.Remove(i, fromArr[i]));\n }\n\n // add all of \"to\"\n for (i = 0; i < to.length; ++i) {\n patches.push(new ListPatches.Add(i, to[i]));\n }\n\n return new ListPatches.Sequence(patches);\n}", "_findDifferences(thisObj, originalData, newData, funcMakeKey) {\n var differences = [];\n \n \n for (var i = 0; i < originalData.length; i++) {\n var item = originalData[i];\n\n var searchResult = thisObj._findObjInList(thisObj, item, funcMakeKey(item), newData, funcMakeKey)\n if (searchResult.found) {\n if (!searchResult.exactMatch) {\n differences.push({\"key\": funcMakeKey(item), \"item\": item, \"reason\": 'changed'});\n } \n } else {\n differences.push({\"key\": funcMakeKey(item), \"item\": item, \"reason\": 'removed'});\n }\n }\n\n for (var i = 0; i < newData.length; i++) {\n var item = newData[i];\n var searchResult = thisObj._findObjInList(thisObj, item, funcMakeKey(item), originalData, funcMakeKey)\n if (!searchResult.found) {\n differences.push({\"key\": funcMakeKey(item), \"item\": item, \"reason\": 'added'});\n }\n }\n\n return differences;\n }", "function getSchemaOptions(discriminatorSchemas, componentSchemas) {\n const options = [];\n\n Object.keys(discriminatorSchemas).forEach(dsKey => {\n const discSchema = discriminatorSchemas[dsKey];\n Object.keys(componentSchemas).forEach(componentKey => {\n if (deepEquals(cleanDiscriminatorSchema(discSchema), componentSchemas[componentKey])) {\n options.push({\n label: componentKey,\n value: componentKey,\n });\n }\n });\n });\n\n return options;\n}", "static filterUnexpectedData(orig, startingData, schema) {\n const data = Object.assign({}, startingData);\n Object.keys(schema.describe().children).forEach(key => {\n data[key] = orig[key];\n });\n return data;\n }", "alter(schemaName, callable){\n const blueprint = new AlterBlueprint(schemaName);\n callable(blueprint);\n\n this.blueprints.push(blueprint);\n }", "preferAdditions(A, B) {\n const scores = compareFunctions.opsLength(A, B);\n\n const removalsA = A.patch.filter(element => element.op === 'remove');\n const removalsB = B.patch.filter(element => element.op === 'remove');\n\n const additionsA = A.patch.filter(element => element.op === 'add');\n const additionsB = B.patch.filter(element => element.op === 'add');\n\n function preferAoverB() {\n scores.A = 1;\n scores.B = 0;\n return scores;\n }\n\n function preferBoverA() {\n scores.A = 0;\n scores.B = 1;\n return scores;\n }\n\n // Condition 1 from docstring\n if (removalsA.length < removalsB.length) return preferAoverB();\n\n // Condition 2 from docstring\n if (removalsA.length > removalsB.length) return preferBoverA();\n\n // Condition 3\n if (additionsA.length > 0 && additionsB.length === 0) return preferAoverB();\n\n // Condition 4\n if (additionsB.length > 0 && additionsA.length === 0) return preferBoverA();\n\n // Condition 5\n if (additionsA.length < additionsB.length) return preferAoverB();\n\n // Condition 6\n if (additionsA.length > additionsB.length) return preferBoverA();\n\n return scores;\n }", "function getNewTypes(oldTypes, newTypes) {\n\t\t\tvar tempTypes = [];\n\t\t\tfor( var i = 0; i < newTypes.length; i++) {\n\t\t\t\tif(oldTypes.indexOf(newTypes[i]) == -1) {\n\t\t\t\t\ttempTypes.push(newTypes[i]);\n\t\t\t\t}\n\t\t\t}\n\t\t\treturn tempTypes;\n\t\t}", "function convertChangesToDMP(changes) {\n var ret = [],\n change,\n operation;\n\n for (var i = 0; i < changes.length; i++) {\n change = changes[i];\n\n if (change.added) {\n operation = 1;\n } else if (change.removed) {\n operation = -1;\n } else {\n operation = 0;\n }\n\n ret.push([operation, change.value]);\n }\n\n return ret;\n}", "function diff(left, right) {\n const result = [];\n _.each(left, (leftObject) => {\n const rightObject = _.find(right, (rightObject) => _.isEqual(rightObject[exports.options.uniqueKey], leftObject[exports.options.uniqueKey]));\n if (!rightObject) {\n return;\n }\n const ret = {\n missingKeys: { inLeftButNotRight: [], inRightButNotLeft: [] },\n differentValues: [],\n inLeftButNotRight: [],\n inRightButNotLeft: [],\n left: {},\n right: {}\n };\n const missingKeys = checkMissingKeys(leftObject, rightObject);\n if (!_.isEmpty(missingKeys.inLeftButNotRight) ||\n !_.isEmpty(missingKeys.inRightButNotLeft)) {\n ret.missingKeys = missingKeys;\n }\n const differentValues = checkDifferentValues(leftObject, rightObject);\n if (!_.isEmpty(differentValues)) {\n ret.differentValues = differentValues;\n }\n if (!_.isEmpty(ret)) {\n result.push(_.extend(ret, { left: leftObject, right: rightObject }));\n }\n });\n return result;\n}", "function markListOperations(schemas) {\n _.each(schemas, function(schema) {\n if (schema.list) {\n if (_.isEmpty(schema.list.parameters)) {\n schema.list.dxFilterMode = dx.core.constants.LIST_TYPES.NONE;\n } else {\n var missingMapsTo = false;\n _.any(schema.list.parameters, function(param) {\n if (!param.mapsTo) {\n missingMapsTo = true;\n return true;\n }\n });\n schema.list.dxFilterMode = missingMapsTo ? dx.core.constants.LIST_TYPES.CUSTOM :\n dx.core.constants.LIST_TYPES.UBER;\n }\n }\n });\n}", "_getTheActualUpdatedDocuments (newDocs, oldDocs, propToCheck = 'provider_name') {\n const result = {};\n\n newDocs.forEach((newDoc, index) => {\n const docId = newDoc.id;\n\n result[docId] = {};\n result[docId]['from'] = {};\n result[docId]['to'] = {};\n\n if (newDoc[propToCheck] !== oldDocs[index][propToCheck]) {\n result[docId]['from'][propToCheck] = oldDocs[index][propToCheck];\n result[docId]['to'][propToCheck] = newDoc[propToCheck];\n }\n })\n\n return result;\n }", "function normalizeAliases () {\n var demanded = yargs.getDemanded()\n var options = yargs.getOptions()\n \n ;(Object.keys(options.alias) || []).forEach(function (key) {\n options.alias[key].forEach(function (alias) {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (demanded[alias]) yargs.demand(key, demanded[alias].msg)\n \n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n })\n })\n }", "function difference(arr1, arr2) {\n \n \n \n}", "function extendSchema(schema, documentAST, options) {\n Object(_type_schema__WEBPACK_IMPORTED_MODULE_8__[\"assertSchema\"])(schema);\n !(documentAST && documentAST.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DOCUMENT) ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'Must provide valid Document AST') : void 0;\n\n if (!options || !(options.assumeValid || options.assumeValidSDL)) {\n Object(_validation_validate__WEBPACK_IMPORTED_MODULE_7__[\"assertValidSDLExtension\"])(documentAST, schema);\n } // Collect the type definitions and extensions found in the document.\n\n\n var typeDefs = [];\n var typeExtsMap = Object.create(null); // New directives and types are separate because a directives and types can\n // have the same name. For example, a type named \"skip\".\n\n var directiveDefs = [];\n var schemaDef; // Schema extensions are collected which may add additional operation types.\n\n var schemaExts = [];\n var _iteratorNormalCompletion = true;\n var _didIteratorError = false;\n var _iteratorError = undefined;\n\n try {\n for (var _iterator = documentAST.definitions[Symbol.iterator](), _step; !(_iteratorNormalCompletion = (_step = _iterator.next()).done); _iteratorNormalCompletion = true) {\n var def = _step.value;\n\n if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_DEFINITION) {\n schemaDef = def;\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].SCHEMA_EXTENSION) {\n schemaExts.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeDefinitionNode\"])(def)) {\n typeDefs.push(def);\n } else if (Object(_language_predicates__WEBPACK_IMPORTED_MODULE_14__[\"isTypeExtensionNode\"])(def)) {\n var extendedTypeName = def.name.value;\n var existingTypeExts = typeExtsMap[extendedTypeName];\n typeExtsMap[extendedTypeName] = existingTypeExts ? existingTypeExts.concat([def]) : [def];\n } else if (def.kind === _language_kinds__WEBPACK_IMPORTED_MODULE_13__[\"Kind\"].DIRECTIVE_DEFINITION) {\n directiveDefs.push(def);\n }\n } // If this document contains no new types, extensions, or directives then\n // return the same unmodified GraphQLSchema instance.\n\n } catch (err) {\n _didIteratorError = true;\n _iteratorError = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion && _iterator.return != null) {\n _iterator.return();\n }\n } finally {\n if (_didIteratorError) {\n throw _iteratorError;\n }\n }\n }\n\n if (Object.keys(typeExtsMap).length === 0 && typeDefs.length === 0 && directiveDefs.length === 0 && schemaExts.length === 0 && !schemaDef) {\n return schema;\n }\n\n var schemaConfig = schema.toConfig();\n var astBuilder = new _buildASTSchema__WEBPACK_IMPORTED_MODULE_6__[\"ASTDefinitionBuilder\"](options, function (typeName) {\n var type = typeMap[typeName];\n !type ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, \"Unknown type: \\\"\".concat(typeName, \"\\\".\")) : void 0;\n return type;\n });\n var typeMap = Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(typeDefs, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildType(node);\n });\n var _iteratorNormalCompletion2 = true;\n var _didIteratorError2 = false;\n var _iteratorError2 = undefined;\n\n try {\n for (var _iterator2 = schemaConfig.types[Symbol.iterator](), _step2; !(_iteratorNormalCompletion2 = (_step2 = _iterator2.next()).done); _iteratorNormalCompletion2 = true) {\n var existingType = _step2.value;\n typeMap[existingType.name] = extendNamedType(existingType);\n } // Get the extended root operation types.\n\n } catch (err) {\n _didIteratorError2 = true;\n _iteratorError2 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion2 && _iterator2.return != null) {\n _iterator2.return();\n }\n } finally {\n if (_didIteratorError2) {\n throw _iteratorError2;\n }\n }\n }\n\n var operationTypes = {\n query: schemaConfig.query && schemaConfig.query.name,\n mutation: schemaConfig.mutation && schemaConfig.mutation.name,\n subscription: schemaConfig.subscription && schemaConfig.subscription.name\n };\n\n if (schemaDef) {\n var _iteratorNormalCompletion3 = true;\n var _didIteratorError3 = false;\n var _iteratorError3 = undefined;\n\n try {\n for (var _iterator3 = schemaDef.operationTypes[Symbol.iterator](), _step3; !(_iteratorNormalCompletion3 = (_step3 = _iterator3.next()).done); _iteratorNormalCompletion3 = true) {\n var _ref2 = _step3.value;\n var operation = _ref2.operation;\n var type = _ref2.type;\n operationTypes[operation] = type.name.value;\n }\n } catch (err) {\n _didIteratorError3 = true;\n _iteratorError3 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion3 && _iterator3.return != null) {\n _iterator3.return();\n }\n } finally {\n if (_didIteratorError3) {\n throw _iteratorError3;\n }\n }\n }\n } // Then, incorporate schema definition and all schema extensions.\n\n\n var _arr = schemaExts;\n\n for (var _i = 0; _i < _arr.length; _i++) {\n var schemaExt = _arr[_i];\n\n if (schemaExt.operationTypes) {\n var _iteratorNormalCompletion4 = true;\n var _didIteratorError4 = false;\n var _iteratorError4 = undefined;\n\n try {\n for (var _iterator4 = schemaExt.operationTypes[Symbol.iterator](), _step4; !(_iteratorNormalCompletion4 = (_step4 = _iterator4.next()).done); _iteratorNormalCompletion4 = true) {\n var _ref4 = _step4.value;\n var _operation = _ref4.operation;\n var _type = _ref4.type;\n operationTypes[_operation] = _type.name.value;\n }\n } catch (err) {\n _didIteratorError4 = true;\n _iteratorError4 = err;\n } finally {\n try {\n if (!_iteratorNormalCompletion4 && _iterator4.return != null) {\n _iterator4.return();\n }\n } finally {\n if (_didIteratorError4) {\n throw _iteratorError4;\n }\n }\n }\n }\n } // Support both original legacy names and extended legacy names.\n\n\n var allowedLegacyNames = schemaConfig.allowedLegacyNames.concat(options && options.allowedLegacyNames || []); // Then produce and return a Schema with these types.\n\n return new _type_schema__WEBPACK_IMPORTED_MODULE_8__[\"GraphQLSchema\"]({\n // Note: While this could make early assertions to get the correctly\n // typed values, that would throw immediately while type system\n // validation with validateSchema() will produce more actionable results.\n query: getMaybeTypeByName(operationTypes.query),\n mutation: getMaybeTypeByName(operationTypes.mutation),\n subscription: getMaybeTypeByName(operationTypes.subscription),\n types: Object(_polyfills_objectValues__WEBPACK_IMPORTED_MODULE_1__[\"default\"])(typeMap),\n directives: getMergedDirectives(),\n astNode: schemaDef || schemaConfig.astNode,\n extensionASTNodes: schemaConfig.extensionASTNodes.concat(schemaExts),\n allowedLegacyNames: allowedLegacyNames\n }); // Below are functions used for producing this schema that have closed over\n // this scope and have access to the schema, cache, and newly defined types.\n\n function replaceType(type) {\n if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isListType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLList\"](replaceType(type.ofType));\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isNonNullType\"])(type)) {\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLNonNull\"](replaceType(type.ofType));\n }\n\n return replaceNamedType(type);\n }\n\n function replaceNamedType(type) {\n return typeMap[type.name];\n }\n\n function getMaybeTypeByName(typeName) {\n return typeName ? typeMap[typeName] : null;\n }\n\n function getMergedDirectives() {\n var existingDirectives = schema.getDirectives().map(extendDirective);\n !existingDirectives ? Object(_jsutils_invariant__WEBPACK_IMPORTED_MODULE_3__[\"default\"])(0, 'schema must have default directives') : void 0;\n return existingDirectives.concat(directiveDefs.map(function (node) {\n return astBuilder.buildDirective(node);\n }));\n }\n\n function extendNamedType(type) {\n if (Object(_type_introspection__WEBPACK_IMPORTED_MODULE_9__[\"isIntrospectionType\"])(type) || Object(_type_scalars__WEBPACK_IMPORTED_MODULE_10__[\"isSpecifiedScalarType\"])(type)) {\n // Builtin types are not extended.\n return type;\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isScalarType\"])(type)) {\n return extendScalarType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isObjectType\"])(type)) {\n return extendObjectType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInterfaceType\"])(type)) {\n return extendInterfaceType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isUnionType\"])(type)) {\n return extendUnionType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isEnumType\"])(type)) {\n return extendEnumType(type);\n } else if (Object(_type_definition__WEBPACK_IMPORTED_MODULE_11__[\"isInputObjectType\"])(type)) {\n return extendInputObjectType(type);\n } // Not reachable. All possible types have been considered.\n\n /* istanbul ignore next */\n\n\n throw new Error(\"Unexpected type: \\\"\".concat(Object(_jsutils_inspect__WEBPACK_IMPORTED_MODULE_2__[\"default\"])(type), \"\\\".\"));\n }\n\n function extendDirective(directive) {\n var config = directive.toConfig();\n return new _type_directives__WEBPACK_IMPORTED_MODULE_12__[\"GraphQLDirective\"](_objectSpread({}, config, {\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.args, extendArg)\n }));\n }\n\n function extendInputObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInputObjectType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, function (field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type)\n });\n }), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (field) {\n return field.name.value;\n }, function (field) {\n return astBuilder.buildInputField(field);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendEnumType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[type.name] || [];\n var valueNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.values || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLEnumType\"](_objectSpread({}, config, {\n values: _objectSpread({}, config.values, Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(valueNodes, function (value) {\n return value.name.value;\n }, function (value) {\n return astBuilder.buildEnumValue(value);\n })),\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendScalarType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLScalarType\"](_objectSpread({}, config, {\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendObjectType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var interfaceNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.interfaces || [];\n });\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLObjectType\"](_objectSpread({}, config, {\n interfaces: function interfaces() {\n return [].concat(type.getInterfaces().map(replaceNamedType), interfaceNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendInterfaceType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var fieldNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.fields || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLInterfaceType\"](_objectSpread({}, config, {\n fields: function fields() {\n return _objectSpread({}, Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(config.fields, extendField), Object(_jsutils_keyValMap__WEBPACK_IMPORTED_MODULE_5__[\"default\"])(fieldNodes, function (node) {\n return node.name.value;\n }, function (node) {\n return astBuilder.buildField(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendUnionType(type) {\n var config = type.toConfig();\n var extensions = typeExtsMap[config.name] || [];\n var typeNodes = Object(_polyfills_flatMap__WEBPACK_IMPORTED_MODULE_0__[\"default\"])(extensions, function (node) {\n return node.types || [];\n });\n return new _type_definition__WEBPACK_IMPORTED_MODULE_11__[\"GraphQLUnionType\"](_objectSpread({}, config, {\n types: function types() {\n return [].concat(type.getTypes().map(replaceNamedType), typeNodes.map(function (node) {\n return astBuilder.getNamedType(node);\n }));\n },\n extensionASTNodes: config.extensionASTNodes.concat(extensions)\n }));\n }\n\n function extendField(field) {\n return _objectSpread({}, field, {\n type: replaceType(field.type),\n args: Object(_jsutils_mapValue__WEBPACK_IMPORTED_MODULE_4__[\"default\"])(field.args, extendArg)\n });\n }\n\n function extendArg(arg) {\n return _objectSpread({}, arg, {\n type: replaceType(arg.type)\n });\n }\n}", "function diff(oldText, newText) {\n const oldLen = oldText.length;\n const newLen = newText.length;\n const searchLen = Math.min(oldLen, newLen);\n let prefixSize = 0;\n for (prefixSize = 0; prefixSize < searchLen; prefixSize++) {\n if (oldText[prefixSize] !== newText[prefixSize]) {\n break;\n }\n }\n let suffixSize = 0;\n for (suffixSize = 0; suffixSize < searchLen - prefixSize; suffixSize++) {\n if (oldText[oldLen - suffixSize - 1] !== newText[newLen - suffixSize - 1]) {\n break;\n }\n }\n const matchedSize = prefixSize + suffixSize;\n const events = [];\n if (matchedSize < oldLen) {\n events.push({\n length: oldLen - matchedSize,\n position: oldLen - suffixSize,\n type: 'erase'\n });\n }\n if (matchedSize < newLen) {\n const insertedText = newText.slice(prefixSize, prefixSize + newLen - matchedSize);\n events.push({\n position: prefixSize,\n text: Punycode.ucs2.encode(insertedText),\n type: 'insert'\n });\n }\n return events;\n}", "function normalizeAliases () {\n var demanded = yargs.getDemanded()\n var options = yargs.getOptions()\n\n ;(Object.keys(options.alias) || []).forEach(function (key) {\n options.alias[key].forEach(function (alias) {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (demanded[alias]) yargs.demand(key, demanded[alias].msg)\n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n })\n })\n }", "getSchemas() {\n return {\n indices: this.getIndices(),\n mappings: this.getMappings()\n };\n }", "arrayDiff(newArray, oldArray) {\n var diffArray = [], difference = [];\n for (var i = 0; i < newArray.length; i++) {\n diffArray[newArray[i]] = true;\n }\n for (var j = 0; j < oldArray.length; j++) {\n if (diffArray[oldArray[j]]) {\n delete diffArray[oldArray[j]];\n } else {\n diffArray[oldArray[j]] = true;\n }\n }\n for (var key in diffArray) {\n difference.push(key);\n }\n return difference;\n }", "function normalizeAliases () {\n // handle old demanded API\n const demandedOptions = yargs.getDemandedOptions()\n const options = yargs.getOptions()\n\n ;(Object.keys(options.alias) || []).forEach((key) => {\n options.alias[key].forEach((alias) => {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (alias in demandedOptions) yargs.demandOption(key, demandedOptions[alias])\n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n if (~options.number.indexOf(alias)) yargs.number(key)\n })\n })\n }", "function normalizeAliases () {\n // handle old demanded API\n const demandedOptions = yargs.getDemandedOptions()\n const options = yargs.getOptions()\n\n ;(Object.keys(options.alias) || []).forEach((key) => {\n options.alias[key].forEach((alias) => {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (alias in demandedOptions) yargs.demandOption(key, demandedOptions[alias])\n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n if (~options.number.indexOf(alias)) yargs.number(key)\n })\n })\n }", "function normalizeAliases () {\n // handle old demanded API\n const demandedOptions = yargs.getDemandedOptions()\n const options = yargs.getOptions()\n\n ;(Object.keys(options.alias) || []).forEach((key) => {\n options.alias[key].forEach((alias) => {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (alias in demandedOptions) yargs.demandOption(key, demandedOptions[alias])\n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n if (~options.number.indexOf(alias)) yargs.number(key)\n })\n })\n }", "function normalizeAliases () {\n // handle old demanded API\n const demandedOptions = yargs.getDemandedOptions()\n const options = yargs.getOptions()\n\n ;(Object.keys(options.alias) || []).forEach((key) => {\n options.alias[key].forEach((alias) => {\n // copy descriptions.\n if (descriptions[alias]) self.describe(key, descriptions[alias])\n // copy demanded.\n if (alias in demandedOptions) yargs.demandOption(key, demandedOptions[alias])\n // type messages.\n if (~options.boolean.indexOf(alias)) yargs.boolean(key)\n if (~options.count.indexOf(alias)) yargs.count(key)\n if (~options.string.indexOf(alias)) yargs.string(key)\n if (~options.normalize.indexOf(alias)) yargs.normalize(key)\n if (~options.array.indexOf(alias)) yargs.array(key)\n if (~options.number.indexOf(alias)) yargs.number(key)\n })\n })\n }", "updateAlterations(params, updateAlterations/* UpdateAlterations */) {\n return this.createRequest('', params, 'patch', updateAlterations);\n }", "function makePresentable(changes, a, b) {\n for (let posA = 0, i = 0; i < changes.length; i++) {\n let change = changes[i];\n let lenA = change.toA - change.fromA, lenB = change.toB - change.fromB;\n // Don't touch short insertions or deletions.\n if (lenA && lenB || lenA > 3 || lenB > 3) {\n let nextChangeA = i == changes.length - 1 ? a.length : changes[i + 1].fromA;\n let maxScanBefore = change.fromA - posA, maxScanAfter = nextChangeA - change.toA;\n let boundBefore = findWordBoundaryBefore(a, change.fromA, Math.min(maxScanBefore, 5));\n let boundAfter = findWordBoundaryAfter(a, change.toA, Math.min(maxScanAfter, 5));\n let lenBefore = change.fromA - boundBefore, lenAfter = boundAfter - change.toA;\n if (!lenA || !lenB) {\n let changeLen = Math.max(lenA, lenB);\n let [changeText, changeFrom, changeTo] = lenA ? [a, change.fromA, change.toA] : [b, change.fromB, change.toB];\n let indentBefore, indentLen;\n // An insertion or deletion that falls inside words on both\n // sides can maybe be moved to align with word boundaries.\n if (lenBefore && lenAfter) {\n if (changeLen > lenBefore &&\n a.slice(boundBefore, change.fromA) == changeText.slice(changeTo - lenBefore, changeTo)) {\n change = changes[i] = new Change(boundBefore, boundBefore + lenA, change.fromB - lenBefore, change.toB - lenBefore);\n boundBefore = change.fromA;\n boundAfter = findWordBoundaryAfter(a, change.toA, Math.min(nextChangeA - change.toA, 5));\n }\n else if (changeLen > lenAfter &&\n a.slice(change.toA, boundAfter) == changeText.slice(changeFrom, changeFrom + lenAfter)) {\n change = changes[i] = new Change(boundAfter - lenA, boundAfter, change.fromB + lenAfter, change.toB + lenAfter);\n boundAfter = change.toA;\n boundBefore = findWordBoundaryBefore(a, change.fromA, Math.min(change.fromA - posA, 5));\n }\n lenBefore = change.fromA - boundBefore;\n lenAfter = boundAfter - change.toA;\n // Indentation before the change is repeated at its end. Move it across.\n }\n else if (!lenBefore && !lenAfter &&\n (indentLen = change.fromA - (indentBefore = findIndentBefore(a, change.fromA, maxScanBefore))) &&\n a.slice(indentBefore, change.fromA) == changeText.slice(changeTo - indentLen, changeTo)) {\n change = changes[i] = new Change(indentBefore, indentBefore + lenA, change.fromB - indentLen, change.toB - indentLen);\n }\n }\n // Grow the change to the word boundaries.\n if (lenBefore || lenAfter) {\n change = changes[i] = new Change(change.fromA - lenBefore, change.toA + lenAfter, change.fromB - lenBefore, change.toB + lenAfter);\n }\n posA = change.toA;\n }\n }\n mergeAdjacent(changes, 3);\n return changes;\n}", "getCollectionsSchemas() {\n const collectionsSchemas = this.collections.map(collection => {\n return this.generateSchema(collection);\n }).join('\\n');\n return collectionsSchemas;\n }", "function bisym() {\n let arrays = Array.from(arguments);\n let union_ = union(arrays);\n let intersection_ = intersection(arrays);\n let difference_ = difference(union_, intersection_);\n\n return difference_;\n\n}", "function mergeOptions(patches, startPatch, endPatch, curPatch, paragraph_index, editStart, editEnd, fieldName) {\r\n var alternatives = new Array();\r\n\tvar dmp = new diff_match_patch();\t\r\n \r\n var prefix = getParagraph(paragraphs[paragraph_index]).substring(editStart, patches[curPatch].editStart);\r\n var postfix = getParagraph(paragraphs[paragraph_index]).substring(patches[curPatch].editEnd, editEnd);\r\n \t\r\n var fieldAlternatives = getAlternativesForFieldName(patches[curPatch], fieldName);\r\n for (var i=0; i<fieldAlternatives.length; i++) {\r\n var option = fieldAlternatives[i];\r\n var editRegion = option.editedText;\r\n \r\n var newAlternative = {\r\n text: prefix + editRegion + postfix,\r\n editedText: prefix + editRegion + postfix, // already cropped to the correct region\r\n editStart: editStart,\r\n editEnd: editEnd,\r\n numVoters: option.numVoters,\r\n votes: option.votes,\r\n\t\t\toriginalText: getParagraph(paragraphs[paragraph_index]).substring(editStart, editEnd),\r\n }\r\n\t\t\r\n\t\talternatives.push(newAlternative);\r\n }\r\n \r\n return alternatives;\r\n}", "function sym(args) {\n if (arguments.length > 0) {\n //console.log(\"args[0]: \" + arguments[0]);\n var current = arguments[0];\n for (var i = 1; i < arguments.length; ++i) {\n //console.log(\"args[\"+i+\"]: \" + arguments[i]);\n //definition of symetric difference: https://en.wikipedia.org/wiki/Symmetric_difference\n //sym diff = union minus intersection\n current = complement(union(current, arguments[i]), intersection(current, arguments[i]));\n //console.log(\"result: \" + current);\n }\n return current;\n } else { //no arguments\n return [];\n }\n}", "collectRelationUpdates(className: string, objectId: ?string, update: any) {\n var ops = [];\n var deleteMe = [];\n objectId = update.objectId || objectId;\n\n var process = (op, key) => {\n if (!op) {\n return;\n }\n if (op.__op == 'AddRelation') {\n ops.push({ key, op });\n deleteMe.push(key);\n }\n\n if (op.__op == 'RemoveRelation') {\n ops.push({ key, op });\n deleteMe.push(key);\n }\n\n if (op.__op == 'Batch') {\n for (var x of op.ops) {\n process(x, key);\n }\n }\n };\n\n for (const key in update) {\n process(update[key], key);\n }\n for (const key of deleteMe) {\n delete update[key];\n }\n return ops;\n }", "normalize(args) {\n let ret = [];\n let arg;\n let lastOpt;\n let index;\n\n for (let i = 0, len = args.length; i < len; ++i) {\n arg = args[i];\n\n if (i > 0) {\n lastOpt = this.optionFor(args[i - 1]);\n }\n\n if (arg === '--') {\n // Honor option terminator\n ret = ret.concat(args.slice(i));\n break;\n } else if (lastOpt && lastOpt.required) {\n ret.push(arg);\n } else if (arg.length > 1 && arg[0] === '-' && arg[1] !== '-') {\n arg.slice(1).split('').forEach(c => {\n ret.push(`-${c}`);\n });\n } else if (/^--/.test(arg) && ~(index = arg.indexOf('='))) {\n ret.push(arg.slice(0, index), arg.slice(index + 1));\n } else {\n ret.push(arg);\n }\n }\n\n return ret;\n }", "changedAttributes() {\n let changes = this._super();\n Object.assign(changes, {type: [undefined, this.get('type')]});\n switch (this.get('type')) {\n case 'posix':\n Object.assign(changes, {posixValue: [undefined, this.get('posixValue')]});\n break;\n case 'acl':\n Object.assign(changes, {aclValue: [undefined, this.get('aclValue')]});\n break;\n default:\n break;\n }\n return changes;\n }", "function changes2shorthand (changes) {\n return '{' + changes.reduce(function (s,c) { for(let i=0; i< c.count; i++) s += c.type; return s }, '') + '}'\n}", "function extendSchema(schema, documentAST) {\n\t (0, _invariant2.default)(schema instanceof _schema.GraphQLSchema, 'Must provide valid GraphQLSchema');\n\n\t (0, _invariant2.default)(documentAST && documentAST.kind === _kinds.DOCUMENT, 'Must provide valid Document AST');\n\n\t // Collect the type definitions and extensions found in the document.\n\t var typeDefinitionMap = {};\n\t var typeExtensionsMap = {};\n\n\t // New directives and types are separate because a directives and types can\n\t // have the same name. For example, a type named \"skip\".\n\t var directiveDefinitions = [];\n\n\t for (var i = 0; i < documentAST.definitions.length; i++) {\n\t var def = documentAST.definitions[i];\n\t switch (def.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t // Sanity check that none of the defined types conflict with the\n\t // schema's existing types.\n\t var typeName = def.name.value;\n\t if (schema.getType(typeName)) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + typeName + '\" already exists in the schema. It cannot also ' + 'be defined in this type definition.', [def]);\n\t }\n\t typeDefinitionMap[typeName] = def;\n\t break;\n\t case _kinds.TYPE_EXTENSION_DEFINITION:\n\t // Sanity check that this type extension exists within the\n\t // schema's existing types.\n\t var extendedTypeName = def.definition.name.value;\n\t var existingType = schema.getType(extendedTypeName);\n\t if (!existingType) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend type \"' + extendedTypeName + '\" because it does not ' + 'exist in the existing schema.', [def.definition]);\n\t }\n\t if (!(existingType instanceof _definition.GraphQLObjectType)) {\n\t throw new _GraphQLError.GraphQLError('Cannot extend non-object type \"' + extendedTypeName + '\".', [def.definition]);\n\t }\n\t var extensions = typeExtensionsMap[extendedTypeName];\n\t if (extensions) {\n\t extensions.push(def);\n\t } else {\n\t extensions = [def];\n\t }\n\t typeExtensionsMap[extendedTypeName] = extensions;\n\t break;\n\t case _kinds.DIRECTIVE_DEFINITION:\n\t var directiveName = def.name.value;\n\t var existingDirective = schema.getDirective(directiveName);\n\t if (existingDirective) {\n\t throw new _GraphQLError.GraphQLError('Directive \"' + directiveName + '\" already exists in the schema. It ' + 'cannot be redefined.', [def]);\n\t }\n\t directiveDefinitions.push(def);\n\t break;\n\t }\n\t }\n\n\t // If this document contains no new types, extensions, or directives then\n\t // return the same unmodified GraphQLSchema instance.\n\t if (Object.keys(typeExtensionsMap).length === 0 && Object.keys(typeDefinitionMap).length === 0 && directiveDefinitions.length === 0) {\n\t return schema;\n\t }\n\n\t // A cache to use to store the actual GraphQLType definition objects by name.\n\t // Initialize to the GraphQL built in scalars and introspection types. All\n\t // functions below are inline so that this type def cache is within the scope\n\t // of the closure.\n\t var typeDefCache = {\n\t String: _scalars.GraphQLString,\n\t Int: _scalars.GraphQLInt,\n\t Float: _scalars.GraphQLFloat,\n\t Boolean: _scalars.GraphQLBoolean,\n\t ID: _scalars.GraphQLID,\n\t __Schema: _introspection.__Schema,\n\t __Directive: _introspection.__Directive,\n\t __DirectiveLocation: _introspection.__DirectiveLocation,\n\t __Type: _introspection.__Type,\n\t __Field: _introspection.__Field,\n\t __InputValue: _introspection.__InputValue,\n\t __EnumValue: _introspection.__EnumValue,\n\t __TypeKind: _introspection.__TypeKind\n\t };\n\n\t // Get the root Query, Mutation, and Subscription object types.\n\t var queryType = getTypeFromDef(schema.getQueryType());\n\n\t var existingMutationType = schema.getMutationType();\n\t var mutationType = existingMutationType ? getTypeFromDef(existingMutationType) : null;\n\n\t var existingSubscriptionType = schema.getSubscriptionType();\n\t var subscriptionType = existingSubscriptionType ? getTypeFromDef(existingSubscriptionType) : null;\n\n\t // Iterate through all types, getting the type definition for each, ensuring\n\t // that any type not directly referenced by a field will get created.\n\t var typeMap = schema.getTypeMap();\n\t var types = Object.keys(typeMap).map(function (typeName) {\n\t return getTypeFromDef(typeMap[typeName]);\n\t });\n\n\t // Do the same with new types, appending to the list of defined types.\n\t Object.keys(typeDefinitionMap).forEach(function (typeName) {\n\t types.push(getTypeFromAST(typeDefinitionMap[typeName]));\n\t });\n\n\t // Then produce and return a Schema with these types.\n\t return new _schema.GraphQLSchema({\n\t query: queryType,\n\t mutation: mutationType,\n\t subscription: subscriptionType,\n\t types: types,\n\t directives: getMergedDirectives()\n\t });\n\n\t // Below are functions used for producing this schema that have closed over\n\t // this scope and have access to the schema, cache, and newly defined types.\n\n\t function getMergedDirectives() {\n\t var existingDirectives = schema.getDirectives();\n\t (0, _invariant2.default)(existingDirectives, 'schema must have default directives');\n\n\t var newDirectives = directiveDefinitions.map(function (directiveAST) {\n\t return getDirective(directiveAST);\n\t });\n\t return existingDirectives.concat(newDirectives);\n\t }\n\n\t function getTypeFromDef(typeDef) {\n\t var type = _getNamedType(typeDef.name);\n\t (0, _invariant2.default)(type, 'Missing type from schema');\n\t return type;\n\t }\n\n\t function getTypeFromAST(astNode) {\n\t var type = _getNamedType(astNode.name.value);\n\t if (!type) {\n\t throw new _GraphQLError.GraphQLError('Unknown type: \"' + astNode.name.value + '\". Ensure that this type exists ' + 'either in the original schema, or is added in a type definition.', [astNode]);\n\t }\n\t return type;\n\t }\n\n\t function getObjectTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLObjectType, 'Must be Object type.');\n\t return type;\n\t }\n\n\t function getInterfaceTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)(type instanceof _definition.GraphQLInterfaceType, 'Must be Interface type.');\n\t return type;\n\t }\n\n\t function getInputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isInputType)(type), 'Must be Input type.');\n\t return type;\n\t }\n\n\t function getOutputTypeFromAST(astNode) {\n\t var type = getTypeFromAST(astNode);\n\t (0, _invariant2.default)((0, _definition.isOutputType)(type), 'Must be Output type.');\n\t return type;\n\t }\n\n\t // Given a name, returns a type from either the existing schema or an\n\t // added type.\n\t function _getNamedType(typeName) {\n\t var cachedTypeDef = typeDefCache[typeName];\n\t if (cachedTypeDef) {\n\t return cachedTypeDef;\n\t }\n\n\t var existingType = schema.getType(typeName);\n\t if (existingType) {\n\t var typeDef = extendType(existingType);\n\t typeDefCache[typeName] = typeDef;\n\t return typeDef;\n\t }\n\n\t var typeAST = typeDefinitionMap[typeName];\n\t if (typeAST) {\n\t var _typeDef = buildType(typeAST);\n\t typeDefCache[typeName] = _typeDef;\n\t return _typeDef;\n\t }\n\t }\n\n\t // Given a type's introspection result, construct the correct\n\t // GraphQLType instance.\n\t function extendType(type) {\n\t if (type instanceof _definition.GraphQLObjectType) {\n\t return extendObjectType(type);\n\t }\n\t if (type instanceof _definition.GraphQLInterfaceType) {\n\t return extendInterfaceType(type);\n\t }\n\t if (type instanceof _definition.GraphQLUnionType) {\n\t return extendUnionType(type);\n\t }\n\t return type;\n\t }\n\n\t function extendObjectType(type) {\n\t return new _definition.GraphQLObjectType({\n\t name: type.name,\n\t description: type.description,\n\t interfaces: function interfaces() {\n\t return extendImplementedInterfaces(type);\n\t },\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t isTypeOf: type.isTypeOf\n\t });\n\t }\n\n\t function extendInterfaceType(type) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: type.name,\n\t description: type.description,\n\t fields: function fields() {\n\t return extendFieldMap(type);\n\t },\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendUnionType(type) {\n\t return new _definition.GraphQLUnionType({\n\t name: type.name,\n\t description: type.description,\n\t types: type.getTypes().map(getTypeFromDef),\n\t resolveType: type.resolveType\n\t });\n\t }\n\n\t function extendImplementedInterfaces(type) {\n\t var interfaces = type.getInterfaces().map(getTypeFromDef);\n\n\t // If there are any extensions to the interfaces, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.interfaces.forEach(function (namedType) {\n\t var interfaceName = namedType.name.value;\n\t if (interfaces.some(function (def) {\n\t return def.name === interfaceName;\n\t })) {\n\t throw new _GraphQLError.GraphQLError('Type \"' + type.name + '\" already implements \"' + interfaceName + '\". ' + 'It cannot also be implemented in this type extension.', [namedType]);\n\t }\n\t interfaces.push(getInterfaceTypeFromAST(namedType));\n\t });\n\t });\n\t }\n\n\t return interfaces;\n\t }\n\n\t function extendFieldMap(type) {\n\t var newFieldMap = {};\n\t var oldFieldMap = type.getFields();\n\t Object.keys(oldFieldMap).forEach(function (fieldName) {\n\t var field = oldFieldMap[fieldName];\n\t newFieldMap[fieldName] = {\n\t description: field.description,\n\t deprecationReason: field.deprecationReason,\n\t type: extendFieldType(field.type),\n\t args: (0, _keyMap2.default)(field.args, function (arg) {\n\t return arg.name;\n\t }),\n\t resolve: field.resolve\n\t };\n\t });\n\n\t // If there are any extensions to the fields, apply those here.\n\t var extensions = typeExtensionsMap[type.name];\n\t if (extensions) {\n\t extensions.forEach(function (extension) {\n\t extension.definition.fields.forEach(function (field) {\n\t var fieldName = field.name.value;\n\t if (oldFieldMap[fieldName]) {\n\t throw new _GraphQLError.GraphQLError('Field \"' + type.name + '.' + fieldName + '\" already exists in the ' + 'schema. It cannot also be defined in this type extension.', [field]);\n\t }\n\t newFieldMap[fieldName] = {\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t type: buildOutputFieldType(field.type),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t });\n\t }\n\n\t return newFieldMap;\n\t }\n\n\t function extendFieldType(typeDef) {\n\t if (typeDef instanceof _definition.GraphQLList) {\n\t return new _definition.GraphQLList(extendFieldType(typeDef.ofType));\n\t }\n\t if (typeDef instanceof _definition.GraphQLNonNull) {\n\t return new _definition.GraphQLNonNull(extendFieldType(typeDef.ofType));\n\t }\n\t return getTypeFromDef(typeDef);\n\t }\n\n\t function buildType(typeAST) {\n\t switch (typeAST.kind) {\n\t case _kinds.OBJECT_TYPE_DEFINITION:\n\t return buildObjectType(typeAST);\n\t case _kinds.INTERFACE_TYPE_DEFINITION:\n\t return buildInterfaceType(typeAST);\n\t case _kinds.UNION_TYPE_DEFINITION:\n\t return buildUnionType(typeAST);\n\t case _kinds.SCALAR_TYPE_DEFINITION:\n\t return buildScalarType(typeAST);\n\t case _kinds.ENUM_TYPE_DEFINITION:\n\t return buildEnumType(typeAST);\n\t case _kinds.INPUT_OBJECT_TYPE_DEFINITION:\n\t return buildInputObjectType(typeAST);\n\t }\n\t throw new TypeError('Unknown type kind ' + typeAST.kind);\n\t }\n\n\t function buildObjectType(typeAST) {\n\t return new _definition.GraphQLObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t interfaces: function interfaces() {\n\t return buildImplementedInterfaces(typeAST);\n\t },\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t }\n\t });\n\t }\n\n\t function buildInterfaceType(typeAST) {\n\t return new _definition.GraphQLInterfaceType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildFieldMap(typeAST);\n\t },\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildUnionType(typeAST) {\n\t return new _definition.GraphQLUnionType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t types: typeAST.types.map(getObjectTypeFromAST),\n\t resolveType: cannotExecuteExtendedSchema\n\t });\n\t }\n\n\t function buildScalarType(typeAST) {\n\t return new _definition.GraphQLScalarType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t serialize: function serialize(id) {\n\t return id;\n\t },\n\t // Note: validation calls the parse functions to determine if a\n\t // literal value is correct. Returning null would cause use of custom\n\t // scalars to always fail validation. Returning false causes them to\n\t // always pass validation.\n\t parseValue: function parseValue() {\n\t return false;\n\t },\n\t parseLiteral: function parseLiteral() {\n\t return false;\n\t }\n\t });\n\t }\n\n\t function buildEnumType(typeAST) {\n\t return new _definition.GraphQLEnumType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t values: (0, _keyValMap2.default)(typeAST.values, function (v) {\n\t return v.name.value;\n\t }, function () {\n\t return {};\n\t })\n\t });\n\t }\n\n\t function buildInputObjectType(typeAST) {\n\t return new _definition.GraphQLInputObjectType({\n\t name: typeAST.name.value,\n\t description: (0, _buildASTSchema.getDescription)(typeAST),\n\t fields: function fields() {\n\t return buildInputValues(typeAST.fields);\n\t }\n\t });\n\t }\n\n\t function getDirective(directiveAST) {\n\t return new _directives.GraphQLDirective({\n\t name: directiveAST.name.value,\n\t locations: directiveAST.locations.map(function (node) {\n\t return node.value;\n\t }),\n\t args: directiveAST.arguments && buildInputValues(directiveAST.arguments)\n\t });\n\t }\n\n\t function buildImplementedInterfaces(typeAST) {\n\t return typeAST.interfaces && typeAST.interfaces.map(getInterfaceTypeFromAST);\n\t }\n\n\t function buildFieldMap(typeAST) {\n\t return (0, _keyValMap2.default)(typeAST.fields, function (field) {\n\t return field.name.value;\n\t }, function (field) {\n\t return {\n\t type: buildOutputFieldType(field.type),\n\t description: (0, _buildASTSchema.getDescription)(field),\n\t args: buildInputValues(field.arguments)\n\t };\n\t });\n\t }\n\n\t function buildInputValues(values) {\n\t return (0, _keyValMap2.default)(values, function (value) {\n\t return value.name.value;\n\t }, function (value) {\n\t var type = buildInputFieldType(value.type);\n\t return {\n\t type: type,\n\t description: (0, _buildASTSchema.getDescription)(value),\n\t defaultValue: (0, _valueFromAST.valueFromAST)(value.defaultValue, type)\n\t };\n\t });\n\t }\n\n\t function buildInputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildInputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildInputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getInputTypeFromAST(typeAST);\n\t }\n\n\t function buildOutputFieldType(typeAST) {\n\t if (typeAST.kind === _kinds.LIST_TYPE) {\n\t return new _definition.GraphQLList(buildOutputFieldType(typeAST.type));\n\t }\n\t if (typeAST.kind === _kinds.NON_NULL_TYPE) {\n\t var nullableType = buildOutputFieldType(typeAST.type);\n\t (0, _invariant2.default)(!(nullableType instanceof _definition.GraphQLNonNull), 'Must be nullable');\n\t return new _definition.GraphQLNonNull(nullableType);\n\t }\n\t return getOutputTypeFromAST(typeAST);\n\t }\n\t}" ]
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0.7818474
1