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stringlengths 9
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Setter method for config, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/radius/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot11r_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot11r_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_elements__qos_queue_management_profiles_queue_management_profile_red_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_elements__qos_queue_management_profiles_queue_management_profile_red_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/radius/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_dot11k_neighbors_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_dot11k_neighbors_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot1x_timers_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot1x_timers_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_rf_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_rf_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for config, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_dot11k_neighbors_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_dot11k_neighbors_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for tacacs, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/tacacs (container)
|
def _get_tacacs(self):
return self.__tacacs
|
[
"def createTACS(\n self,\n comm,\n xpts,\n conn,\n ptr,\n elems,\n bcs,\n ordering=TACS.PY_AMD_ORDER,\n mattype=TACS.PY_DIRECT_SCHUR,\n print_details=0,\n ndof=8,\n bcptr=None,\n bcvars=None,\n ):\n # Create numpy equivalents for TACS instantiation\n conn = np.array(conn, dtype=np.intc)\n ptr = np.array(ptr, dtype=np.intc)\n xpts = np.array(xpts)\n bcs = np.array(bcs, dtype=np.intc)\n if bcptr is not None and bcvars is not None:\n bcptr = np.array(bcptr, dtype=np.intc)\n bcvars = np.array(bcvars, dtype=np.intc)\n\n # Figure out lengths\n npts = len(xpts) / 3\n nelems = len(elems)\n\n # Sanity check of data we have\n if max(conn) + 1 != npts:\n raise ValueError(\"Connectivity and number of nodes are inconsistent\")\n if nelems != ptr.shape[0] - 1:\n raise ValueError(\"Number of elements and connectivity are inconsistent\")\n\n # Create TACS\n vars_per_node = ndof\n\n ## Does not work in parallel\n ## tacs = TACS.Assembler.create(comm, vars_per_node, npts, nelems)\n ## tacs.setElementConnectivity(conn, ptr)\n ## tacs.setElements(elems)\n\n ## # Set BCs\n ## if len(init_bcs) != 0:\n ## tacs.addInitBCs(init_bcs)\n\n ## # Reorder the variables using RCM\n ## tacs.computeReordering(ordering, mattype)\n\n ## # Finish the initialization\n ## tacs.initialize()\n\n ## # Get the nodes in default ordering\n ## Xpts = tacs.createNodeVec()\n ## X = Xpts.getArray()\n ## X[:] = xpts[:]\n\n ## # Set the reordered node locations into TACS\n ## tacs.reorderVec(Xpts)\n ## tacs.setNodes(Xpts)\n\n ## Works in parallel\n creator = TACS.Creator(comm, vars_per_node)\n creator.setReorderingType(ordering, mattype)\n if comm.Get_rank() == 0:\n ids = np.arange(0, nelems, dtype=np.intc)\n creator.setGlobalConnectivity(npts, ptr, conn, ids)\n creator.setNodes(xpts)\n creator.setBoundaryConditions(bcs, bcptr, bcvars)\n creator.setElements(elems)\n\n # Create TACS using the TACSCreator class\n tacs = creator.createTACS()\n\n # Get the distributed list of node numbers\n for body in self.body_list:\n body.dist_nodes = creator.getTacsNodeNums(tacs, body.nodes)\n # convert to a local ordering\n rnge = tacs.getOwnerRange()\n body.dist_nodes -= np.min(rnge[comm.Get_rank()])\n\n if comm.Get_rank() == 0 and print_details > 0:\n print(\"ordering \", ordering)\n print(\"mattype \", mattype)\n print(\"xpts \", xpts)\n print(\"conn \", conn)\n print(\"ptr \", ptr)\n print(\"elem \", elems)\n print(\"bcs \", bcs)\n\n # return the tacs instance\n return tacs",
"def get_acs_for_protein_seq(self, seq):\n md5 = seq_md5(seq)\n return [r['ac'] for r in self._fetchall(self._queries['acs_for_protein_md5'], [md5])] + ['MD5_' + md5]",
"def cluster_application_attempt_container_info(self, application_id, attempt_id, container_id):\n path = '/ws/v1/cluster/apps/{appid}/appattempts/{attemptid}/containers/{containerid}'.format(\n appid=application_id, attemptid=attempt_id, containerid=container_id)\n\n return self.request(path)",
"def test_chromosome_to_acs(test_seqrepo_access):\n resp = test_seqrepo_access.chromosome_to_acs(\"7\")\n assert resp == ([\"NC_000007.14\", \"NC_000007.13\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"X\")\n assert resp == ([\"NC_000023.11\", \"NC_000023.10\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"Y\")\n assert resp == ([\"NC_000024.10\", \"NC_000024.9\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"117\")\n assert resp == (None, \"117 is not a valid chromosome\")",
"def _set_tx_mcs(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_tx_mcs_openconfig_wifi_mac__ssids_ssid_state_counters_tx_mcs, is_container='container', yang_name=\"tx-mcs\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"tx_mcs must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_tx_mcs_openconfig_wifi_mac__ssids_ssid_state_counters_tx_mcs, is_container='container', yang_name=\"tx-mcs\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__tx_mcs = t\n if hasattr(self, '_set'):\n self._set()",
"def get_network_acls(self):\n try:\n # Connect to api endpoint for network_acls\n path = (\"/v1/network_acls?version={}&generation={}\".format(\n self.cfg[\"version\"], self.cfg[\"generation\"]))\n\n # Return data\n return qw(\"iaas\", \"GET\", path, headers())[\"data\"]\n\n except Exception as error:\n print(\"Error fetching network ACLs. {}\".format(error))\n raise",
"def get_acs():\n data = wikipedia.get_ac_list(\"Haryana\")\n def normalize_name(name):\n name = name.split(\"(\")[0].lower().strip(\". \")\n return name\n\n pc_dict = dict((normalize_name(name), pc_code) for pc_code, ac_code, name in data)\n\n renames = {\n \"ambala cantt\": \"ambala cantonment\",\n \"dadri\": \"charkhi dadri\",\n \"kalawali\": \"kalanwali\",\n \"nangal chaudhry\": \"nagai chaudhry\",\n }\n def get_pc_code(name):\n name = normalize_name(name)\n name = renames.get(name, name)\n if name not in pc_dict:\n name = find_nearest(name, pc_dict.keys())\n return pc_dict[name]\n\n ac_data = _get_ac_data()\n assert(len(pc_dict) == len(ac_data))\n for code, name in ac_data:\n pc_code = get_pc_code(name)\n ac_code_str = \"AC{0:03d}\".format(int(code))\n yield pc_code, ac_code_str, name.title().replace(\"(Sc)\", \" (SC)\").replace(\"(St)\", \" (ST)\")",
"def has_accs(self):\n return self._db_info_cache[\"sequence-accession\"]",
"def get_acls(self):\n return self.access_list_manager.get_objects()",
"def GetAttributeContainers(self, container_type):\n self._RaiseIfNotWritable()\n\n return self._store.GetAttributeContainers(container_type)",
"def tacacs_add_init_config_with_table(duthost):\n cmds = []\n cmds.append(\"config tacacs authtype pap\")\n cmds.append(\"config tacacs passkey testing123\")\n cmds.append(\"config tacacs timeout 5\")\n\n output = duthost.shell_cmds(cmds=cmds)['results']\n logger.info(output)\n for res in output:\n pytest_assert(not res['rc'],\n \"TACACS init config failed\"\n )",
"def retrieve_cluster_ca(self):\n url = f'{self.hostname}/pools/default/trustedCAs'\n return self._get(url)",
"def unserialize_acs(acs_string):\n toReturn = BpAcs()\n \n (adminrecordheader, status, ) = struct.unpack(\"!BB\", acs_string[0:2])\n acs_string = acs_string[2:]\n \n # Parse the administrative record header byte.\n if (adminrecordheader & 0xF0) != 0x40:\n # Not an aggregate custody signal.\n return None\n if (adminrecordheader & 0x0F) != 0x00:\n print \"Administrative record flags are %x, not 0x00\" % (adminrecordheader & 0x0F) \n raise TypeError\n \n # Parse the status byte\n if (status & 0x80) == 0:\n toReturn.succeeded = 0\n else:\n toReturn.succeeded = 1\n if status & 0x7F:\n toReturn.reason = status & 0x7F\n \n # Parse the fills\n lengthBlocks = []\n while acs_string != \"\":\n (offset, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n (length, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n lengthBlocks += (offset, length),\n for k in lengthBlocksToList(lengthBlocks):\n toReturn.add(k)\n return toReturn",
"def __get_acls_of_event(event, base_url, digest_login):\n\n url = '{}/admin-ng/event/{}/asset/attachment/attachments.json'.format(base_url, get_id(event))\n\n response = get_request(url, digest_login, ElementDescription.EVENT.unknown(), AssetTypeDescription.BOTH.plural(),\n AssetDescription.ACL.plural())\n\n json_content = get_json_content(response)\n\n episode_acls = [__get_asset_content(acl, digest_login, ElementDescription.EVENT.unknown(),\n AssetTypeDescription.EPISODE.singular(), AssetDescription.ACL.singular())\n for acl in json_content if \"security-policy-episode\" in acl[\"id\"]]\n series_acls = [__get_asset_content(acl, digest_login, ElementDescription.EVENT.unknown(),\n AssetTypeDescription.SERIES.singular(), AssetDescription.ACL.singular())\n for acl in json_content if \"security-policy-series\" in acl[\"id\"]]\n\n return episode_acls, series_acls",
"def GetTSAMetadata():\n airport_fname = \"apcp.xml\"\n # In future, get from the web to make sure data is fresh\n # http://www.tsa.gov/data/apcp.xml\n # checksum: http://www.tsa.gov/data/apcp.checksum.xml\n try:\n airportTree = ET.parse(airport_fname)\n except Exception, e:\n print \"Error: The TSA Airport metadata file apcp.xml could not be found in the program directory. Please upload and try again.\"\n # print \"Exception: %s\" % str(e)\n # sys.exit(1)\n quit()\n return airportTree",
"def get_ca_atom_positions(soup):\n rps = []\n for r in soup.residues():\n try:\n ca_atom = r.atom(\"CA\")\n if (r.type not in res_name_to_char\n or r.type in (\"NME\", \"ACE\")):\n raise ValueError(\"ERR: unexpected residue with CA (%s %s)\",\n (r.type, r.tag))\n rp = AtomPosition(len(rps), r.type, \"CA\", ca_atom.pos)\n rps.append(rp)\n except KeyError:\n pass\n return rps",
"def get_all_acl_names(self):\n self.navigate_to(self.CONFIGURE, self.CONFIGURE_ACCESS_CONTROLS, 3)\n\n total_acls = self._get_total_number(self.info['loc_cfg_total_acls_span'], \"Access Controls\")\n max_acls_row = int(self.info['const_cfg_max_acl_rows'])\n traverse_row = 1\n i = 0\n total_entries = []\n\n if total_acls == u'0':\n logging.info(\"There's no ACL rules in the Access Controls table\")\n return []\n\n while i < int(total_acls):\n find_acl_name = self.info['loc_cfg_acl_name_cell']\n find_acl_name = find_acl_name.replace('$_$', str(traverse_row))\n get_acl_name = self.s.get_text(find_acl_name)\n total_entries.append(get_acl_name)\n\n if traverse_row == max_acls_row:\n traverse_row = 0\n self.s.click_and_wait(self.info['loc_cfg_acl_next_image'])\n traverse_row += 1\n i += 1\n time.sleep(1)\n\n return total_entries",
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def __get_acl_of_series(series, base_url, digest_login):\n\n url = \"{}/series/{}/acl.json\".format(base_url, get_id(series))\n\n response = get_request(url, digest_login, ElementDescription.SERIES.unknown(),\n AssetTypeDescription.SERIES.singular(),\n AssetDescription.ACL.singular())\n\n json_content = get_json_content(response)\n\n series_acl = json_content[\"acl\"]\n\n return series_acl",
"def create_container_acl_cdmi(self, cdmi_acl):\n cql_string = acl_cdmi_to_cql(cdmi_acl)\n self.create_container_acl(cql_string)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for tacacs, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/tacacs (container)
|
def _set_tacacs(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_tacacs_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_tacacs, is_container='container', yang_name="tacacs", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """tacacs must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_tacacs_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_tacacs, is_container='container', yang_name="tacacs", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__tacacs = t
if hasattr(self, '_set'):
self._set()
|
[
"def createTACS(\n self,\n comm,\n xpts,\n conn,\n ptr,\n elems,\n bcs,\n ordering=TACS.PY_AMD_ORDER,\n mattype=TACS.PY_DIRECT_SCHUR,\n print_details=0,\n ndof=8,\n bcptr=None,\n bcvars=None,\n ):\n # Create numpy equivalents for TACS instantiation\n conn = np.array(conn, dtype=np.intc)\n ptr = np.array(ptr, dtype=np.intc)\n xpts = np.array(xpts)\n bcs = np.array(bcs, dtype=np.intc)\n if bcptr is not None and bcvars is not None:\n bcptr = np.array(bcptr, dtype=np.intc)\n bcvars = np.array(bcvars, dtype=np.intc)\n\n # Figure out lengths\n npts = len(xpts) / 3\n nelems = len(elems)\n\n # Sanity check of data we have\n if max(conn) + 1 != npts:\n raise ValueError(\"Connectivity and number of nodes are inconsistent\")\n if nelems != ptr.shape[0] - 1:\n raise ValueError(\"Number of elements and connectivity are inconsistent\")\n\n # Create TACS\n vars_per_node = ndof\n\n ## Does not work in parallel\n ## tacs = TACS.Assembler.create(comm, vars_per_node, npts, nelems)\n ## tacs.setElementConnectivity(conn, ptr)\n ## tacs.setElements(elems)\n\n ## # Set BCs\n ## if len(init_bcs) != 0:\n ## tacs.addInitBCs(init_bcs)\n\n ## # Reorder the variables using RCM\n ## tacs.computeReordering(ordering, mattype)\n\n ## # Finish the initialization\n ## tacs.initialize()\n\n ## # Get the nodes in default ordering\n ## Xpts = tacs.createNodeVec()\n ## X = Xpts.getArray()\n ## X[:] = xpts[:]\n\n ## # Set the reordered node locations into TACS\n ## tacs.reorderVec(Xpts)\n ## tacs.setNodes(Xpts)\n\n ## Works in parallel\n creator = TACS.Creator(comm, vars_per_node)\n creator.setReorderingType(ordering, mattype)\n if comm.Get_rank() == 0:\n ids = np.arange(0, nelems, dtype=np.intc)\n creator.setGlobalConnectivity(npts, ptr, conn, ids)\n creator.setNodes(xpts)\n creator.setBoundaryConditions(bcs, bcptr, bcvars)\n creator.setElements(elems)\n\n # Create TACS using the TACSCreator class\n tacs = creator.createTACS()\n\n # Get the distributed list of node numbers\n for body in self.body_list:\n body.dist_nodes = creator.getTacsNodeNums(tacs, body.nodes)\n # convert to a local ordering\n rnge = tacs.getOwnerRange()\n body.dist_nodes -= np.min(rnge[comm.Get_rank()])\n\n if comm.Get_rank() == 0 and print_details > 0:\n print(\"ordering \", ordering)\n print(\"mattype \", mattype)\n print(\"xpts \", xpts)\n print(\"conn \", conn)\n print(\"ptr \", ptr)\n print(\"elem \", elems)\n print(\"bcs \", bcs)\n\n # return the tacs instance\n return tacs",
"def _set_tx_mcs(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_tx_mcs_openconfig_wifi_mac__ssids_ssid_state_counters_tx_mcs, is_container='container', yang_name=\"tx-mcs\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"tx_mcs must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_tx_mcs_openconfig_wifi_mac__ssids_ssid_state_counters_tx_mcs, is_container='container', yang_name=\"tx-mcs\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__tx_mcs = t\n if hasattr(self, '_set'):\n self._set()",
"def tacacs_add_init_config_with_table(duthost):\n cmds = []\n cmds.append(\"config tacacs authtype pap\")\n cmds.append(\"config tacacs passkey testing123\")\n cmds.append(\"config tacacs timeout 5\")\n\n output = duthost.shell_cmds(cmds=cmds)['results']\n logger.info(output)\n for res in output:\n pytest_assert(not res['rc'],\n \"TACACS init config failed\"\n )",
"def test_chromosome_to_acs(test_seqrepo_access):\n resp = test_seqrepo_access.chromosome_to_acs(\"7\")\n assert resp == ([\"NC_000007.14\", \"NC_000007.13\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"X\")\n assert resp == ([\"NC_000023.11\", \"NC_000023.10\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"Y\")\n assert resp == ([\"NC_000024.10\", \"NC_000024.9\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"117\")\n assert resp == (None, \"117 is not a valid chromosome\")",
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def get_acs_for_protein_seq(self, seq):\n md5 = seq_md5(seq)\n return [r['ac'] for r in self._fetchall(self._queries['acs_for_protein_md5'], [md5])] + ['MD5_' + md5]",
"def _cdn_set_access(self, container, ttl, enabled):\r\n if ttl is None:\r\n ttl = self.default_cdn_ttl\r\n ct = self.get_container(container)\r\n mthd = \"PUT\"\r\n hdrs = {\"X-CDN-Enabled\": \"%s\" % enabled}\r\n if enabled:\r\n hdrs[\"X-TTL\"] = str(ttl)\r\n response = self.connection.cdn_request(mthd, [ct.name], hdrs=hdrs)\r\n status = response.status\r\n if not 200 <= status < 300:\r\n raise exc.CDNFailed(\"Bad response: (%s) %s\" % (status,\r\n response.reason))\r\n ct.cdn_ttl = ttl\r\n for hdr in response.getheaders():\r\n if hdr[0].lower() == \"x-cdn-uri\":\r\n ct.cdn_uri = hdr[1]\r\n break\r\n self.remove_container_from_cache(container)\r\n # Read the response to force it to close for the next request.\r\n response.read()",
"def create_container_acl_cdmi(self, cdmi_acl):\n cql_string = acl_cdmi_to_cql(cdmi_acl)\n self.create_container_acl(cql_string)",
"def setAccessControlList(acl):",
"def linear_to_aces_cc(value, **kwargs):\n\n return ACES_CC_OECF(value)",
"def sTAA(self, TAA):\n self.TAA = TAA\n self.TAAtoTM()\n #self.AngleMod()",
"def load_cluster_ca(self, node):\n url = f'{node}/node/controller/loadTrustedCAs'\n return self._post_form_encoded(url, None)",
"def get_acs():\n data = wikipedia.get_ac_list(\"Haryana\")\n def normalize_name(name):\n name = name.split(\"(\")[0].lower().strip(\". \")\n return name\n\n pc_dict = dict((normalize_name(name), pc_code) for pc_code, ac_code, name in data)\n\n renames = {\n \"ambala cantt\": \"ambala cantonment\",\n \"dadri\": \"charkhi dadri\",\n \"kalawali\": \"kalanwali\",\n \"nangal chaudhry\": \"nagai chaudhry\",\n }\n def get_pc_code(name):\n name = normalize_name(name)\n name = renames.get(name, name)\n if name not in pc_dict:\n name = find_nearest(name, pc_dict.keys())\n return pc_dict[name]\n\n ac_data = _get_ac_data()\n assert(len(pc_dict) == len(ac_data))\n for code, name in ac_data:\n pc_code = get_pc_code(name)\n ac_code_str = \"AC{0:03d}\".format(int(code))\n yield pc_code, ac_code_str, name.title().replace(\"(Sc)\", \" (SC)\").replace(\"(St)\", \" (ST)\")",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def set_legacy_abac(\n self,\n project_id,\n zone,\n cluster_id,\n enabled,\n name=None,\n retry=google.api_core.gapic_v1.method.DEFAULT,\n timeout=google.api_core.gapic_v1.method.DEFAULT,\n metadata=None,\n ):\n # Wrap the transport method to add retry and timeout logic.\n if \"set_legacy_abac\" not in self._inner_api_calls:\n self._inner_api_calls[\n \"set_legacy_abac\"\n ] = google.api_core.gapic_v1.method.wrap_method(\n self.transport.set_legacy_abac,\n default_retry=self._method_configs[\"SetLegacyAbac\"].retry,\n default_timeout=self._method_configs[\"SetLegacyAbac\"].timeout,\n client_info=self._client_info,\n )\n\n request = cluster_service_pb2.SetLegacyAbacRequest(\n project_id=project_id,\n zone=zone,\n cluster_id=cluster_id,\n enabled=enabled,\n name=name,\n )\n if metadata is None:\n metadata = []\n metadata = list(metadata)\n try:\n routing_header = [(\"name\", name)]\n except AttributeError:\n pass\n else:\n routing_metadata = google.api_core.gapic_v1.routing_header.to_grpc_metadata(\n routing_header\n )\n metadata.append(routing_metadata)\n\n return self._inner_api_calls[\"set_legacy_abac\"](\n request, retry=retry, timeout=timeout, metadata=metadata\n )",
"def unserialize_acs(acs_string):\n toReturn = BpAcs()\n \n (adminrecordheader, status, ) = struct.unpack(\"!BB\", acs_string[0:2])\n acs_string = acs_string[2:]\n \n # Parse the administrative record header byte.\n if (adminrecordheader & 0xF0) != 0x40:\n # Not an aggregate custody signal.\n return None\n if (adminrecordheader & 0x0F) != 0x00:\n print \"Administrative record flags are %x, not 0x00\" % (adminrecordheader & 0x0F) \n raise TypeError\n \n # Parse the status byte\n if (status & 0x80) == 0:\n toReturn.succeeded = 0\n else:\n toReturn.succeeded = 1\n if status & 0x7F:\n toReturn.reason = status & 0x7F\n \n # Parse the fills\n lengthBlocks = []\n while acs_string != \"\":\n (offset, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n (length, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n lengthBlocks += (offset, length),\n for k in lengthBlocksToList(lengthBlocks):\n toReturn.add(k)\n return toReturn",
"def _set_nssa(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"nssa must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__nssa = t\n if hasattr(self, '_set'):\n self._set()",
"def cluster_application_attempt_container_info(self, application_id, attempt_id, container_id):\n path = '/ws/v1/cluster/apps/{appid}/appattempts/{attemptid}/containers/{containerid}'.format(\n appid=application_id, attemptid=attempt_id, containerid=container_id)\n\n return self.request(path)",
"def ex_set_control_access(self, node, control_access):\r\n xml = ET.Element('ControlAccessParams',\r\n {'xmlns': 'http://www.vmware.com/vcloud/v1.5'})\r\n shared_to_everyone = ET.SubElement(xml, 'IsSharedToEveryone')\r\n if control_access.everyone_access_level:\r\n shared_to_everyone.text = 'true'\r\n everyone_access_level = ET.SubElement(xml, 'EveryoneAccessLevel')\r\n everyone_access_level.text = control_access.everyone_access_level\r\n else:\r\n shared_to_everyone.text = 'false'\r\n\r\n # Set subjects\r\n if control_access.subjects:\r\n access_settings_elem = ET.SubElement(xml, 'AccessSettings')\r\n for subject in control_access.subjects:\r\n setting = ET.SubElement(access_settings_elem, 'AccessSetting')\r\n if subject.id:\r\n href = subject.id\r\n else:\r\n res = self.ex_query(type=subject.type, filter='name==' +\r\n subject.name)\r\n if not res:\r\n raise LibcloudError('Specified subject \"%s %s\" not found '\r\n % (subject.type, subject.name))\r\n href = res[0]['href']\r\n ET.SubElement(setting, 'Subject', {'href': href})\r\n ET.SubElement(setting, 'AccessLevel').text = subject.access_level\r\n\r\n headers = {\r\n 'Content-Type': 'application/vnd.vmware.vcloud.controlAccess+xml'\r\n }\r\n self.connection.request(\r\n '%s/action/controlAccess' % get_url_path(node.id),\r\n data=ET.tostring(xml),\r\n headers=headers,\r\n method='POST')",
"def get_network_acls(self):\n try:\n # Connect to api endpoint for network_acls\n path = (\"/v1/network_acls?version={}&generation={}\".format(\n self.cfg[\"version\"], self.cfg[\"generation\"]))\n\n # Return data\n return qw(\"iaas\", \"GET\", path, headers())[\"data\"]\n\n except Exception as error:\n print(\"Error fetching network ACLs. {}\".format(error))\n raise"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for radius, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server/radius (container)
|
def _set_radius(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_radius_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius, is_container='container', yang_name="radius", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """radius must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_radius_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server_radius, is_container='container', yang_name="radius", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__radius = t
if hasattr(self, '_set'):
self._set()
|
[
"def setInnerRadius(self, innerRadius) -> None:\n ...",
"def setRadius(self, radius: 'float const') -> \"void\":\n return _coin.SbSphere_setRadius(self, radius)",
"def radius_at_node(self):\n try:\n return self._node_radii\n except AttributeError:\n self._node_radii = numpy.sqrt(numpy.square(self.node_x -\n self._origin_x) +\n numpy.square(self.node_y -\n self._origin_y))\n return self._node_radii",
"def getRadius(self):\n return _almathswig.Pill_getRadius(self)",
"def radius(self):\n return self.get_planet_radius(unit='Rjup')",
"def getRadius(self):\n return _almathswig.RoundedRectangle_getRadius(self)",
"def set_radius(self, radius):\n self.widget.setRadius(radius)",
"def setOuterRadius(self, outerRadius) -> None:\n ...",
"def _set_as_circle(self, radius):\n self.radius = radius\n self.perimeter = 2.0 * np.pi * self.radius\n self.thickness = 0.0\n self.width = self.perimeter / np.pi",
"def setRadius(self, r: 'float const') -> \"void\":\n return _coin.SbCylinder_setRadius(self, r)",
"def set_radius(self, radius):\n # Find original in-sphere radius, determine necessary scale factor, and scale vertices and surface distances\n radius = float(radius)\n self.hull.setInsphereRadius(radius)",
"def getRadius(self) -> \"float\":\n return _coin.SbSphere_getRadius(self)",
"def setRadius(self, r):\n if not isinstance(r, (int,float)):\n raise TypeError('Radius must be a number')\n if r <= 0:\n raise ValueError(\"The circle's radius must be positive.\")\n\n factor = float(r)/self.getRadius()\n self._transform = self._transform * _Transformation((factor,0.,0.,factor,0.,0.))\n \n self._objectChanged(True,False,False)",
"def _get_radius(self) -> \"double\" :\n return _core.Arc2D__get_radius(self)",
"def svgCircle(center, radius):\n\tsvgTag('circle cx=\"%d\" cy=\"%d\" r=\"%s\"' % (center+(radius,)) )",
"def update_radius(self, DirectoryId: str, RadiusSettings: Dict) -> Dict:\n pass",
"def setRadius(self, radiusinpixels: 'float const') -> \"void\":\n return _coin.SoRayPickAction_setRadius(self, radiusinpixels)",
"def radius(self, default=None):\n radii = []\n for cr in self.coordinate_references(todict=True).values():\n r = cr.datum.get_parameter(\"earth_radius\", None)\n if r is not None:\n r = Data.asdata(r)\n if not r.Units:\n r.override_units(\"m\", inplace=True)\n\n if r.size != 1:\n radii.append(r)\n continue\n\n got = False\n for _ in radii:\n if r == _:\n got = True\n break\n\n if not got:\n radii.append(r)\n\n if len(radii) > 1:\n raise ValueError(\n \"Multiple radii found from coordinate reference \"\n f\"constructs: {radii!r}\"\n )\n\n if not radii:\n if default is None:\n raise ValueError(\n \"No radius found from coordinate reference constructs \"\n \"and no default provided\"\n )\n\n if isinstance(default, str):\n if default != \"earth\":\n raise ValueError(\n \"The default radius must be numeric, 'earth', \"\n \"or None\"\n )\n\n return _earth_radius.copy()\n\n r = Data.asdata(default).squeeze()\n else:\n r = Data.asdata(radii[0]).squeeze()\n\n if r.size != 1:\n raise ValueError(f\"Multiple radii: {r!r}\")\n\n r.Units = Units(\"m\")\n r.dtype = float\n return r",
"def _append_radius_update_expression(self) -> None:\r\n from apysc.expression import expression_file_util\r\n from apysc.type import value_util\r\n self._initialize_radius_if_not_initialized()\r\n value_str: str = value_util.get_value_str_for_expression(\r\n value=self._radius)\r\n expression: str = (\r\n f'{self.variable_name}.radius({value_str});'\r\n )\r\n expression_file_util.append_js_expression(expression=expression)",
"def sphere_radius(self) -> float:\n return self.GetSphereRadius()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for server, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers/server (list)
|
def _set_server(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("address",yc_server_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server, yang_name="server", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='address', extensions=None), is_container='list', yang_name="server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """server must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("address",yc_server_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers_server, yang_name="server", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='address', extensions=None), is_container='list', yang_name="server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)""",
})
self.__server = t
if hasattr(self, '_set'):
self._set()
|
[
"def list_server_group_servers(self, gid, **kwargs):\n return self.__get('/v1/groups/%s/servers?%s' % (gid, urllib.urlencode(kwargs)))",
"def list_servers(self):\n endpoint = APIAC + \"/v1\"\n response = self.client.get_json(endpoint)\n response.success = response.status_code == 200\n\n return response",
"def servers(self, item):\n\n if isinstance(item, Item):\n item_id = item.id\n else:\n item_id = item\n item = self._gis.content.get(item_id)\n\n url = self._url + \"/getServers\"\n params = {\n 'f' : 'json',\n 'datastoreId' : item_id\n }\n res = self._con.post(url, params)\n if 'servers' in res:\n return res['servers']\n return res",
"def update(self):\n new_servers = []\n server_list = remote.list_servers(SERVER_URI)\n organisation_list = remote.list_organisations(ORGANISATION_URI)\n for server_data in server_list:\n server_type = server_data.pop('server_type')\n if server_type == 'institute_access':\n server = InstituteAccessServer(**server_data)\n new_servers.append(server)\n elif server_type == 'secure_internet':\n server = SecureInternetServer(**server_data)\n new_servers.append(server)\n else:\n raise ValueError(server_type, server_data)\n for organisation_data in organisation_list:\n server = OrganisationServer(**organisation_data)\n new_servers.append(server)\n # Atomic update of server map.\n # TODO keep custom other servers\n self.servers = new_servers\n self.is_loaded = True",
"def ZaServer_list(self, *args):\n\n info = None\n\n cmd = {\n \"cmd\":\"$ZaServer.list\",\n \"args\": {\n\t \"status\": args[0]\n\t }\n }\n\n info = self.makeZapyRequest(json.dumps(cmd))\n \n if args is not None:\n serverActive = False\n\n for i in range(len(info['data'])):\n\t if args[0] == info['data'][i]['hostname']:\n\t serverActive = True\n\n\t if serverActive:\n\t return info['data'][i]['serverId']\n\n return info",
"def test_list_servers_by_server_name(self):\n server_name = rand_name('test-vm-')\n resp, server = self.client.create_server(server_name, self.image_ref,\n self.flavor_ref)\n self.servers.append(server['id'])\n\n resp, body = self.client.list_servers({'name': server_name})\n self.assertEqual('200', resp['status'])\n self.assertEqual(server_name, body['servers'][0]['name'])",
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def test_list_servers(self):\n serverList = self.os.servers.list()\n found = False\n for s in serverList:\n if s.name == 'testserver':\n found = True\n assert found",
"def createEntityListFromResponse(self, response, detail=False):\r\n theList = []\r\n data = response[\"servers\"]\r\n for jsonObj in data:\r\n srv = Server(\"\")\r\n srv.initFromResultDict(jsonObj)\r\n theList.append(srv)\r\n return EntityList(theList, detail, self)",
"def _update_server_list_status(self,\n context,\n server_list,\n status):\n #TODO delete self._conductor_api which call conductor api.py.\n for server in server_list:\n self._conductor_api.init_node_update_status_by_id(context,\n server['id'],\n status)",
"def set_ntp_server(self, server, index=0):\n return None",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def list_server_groups(self):\n return self.__get('/v1/groups')",
"def set_nameservers(self, nm_list):\n\t\tself.drop_nameservers()\n\t\tfor nm in nm_list:\n\t\t\tself.add_nameserver(nm)",
"def asset_server_list(self, **kwargs):\n kwargs['_return_http_data_only'] = True\n if kwargs.get('callback'):\n return self.asset_server_list_with_http_info(**kwargs)\n else:\n (data) = self.asset_server_list_with_http_info(**kwargs)\n return data",
"def list_swarm_servers(self):\n\t\treturn self.swarm_manager.swarm_servers",
"async def _servers(self, ctx: commands.Context):\n user_settings = await self.config.user(ctx.author).all()\n if user_settings[\"supporting_in\"]:\n await ctx.send(embed=discord.Embed(\n title=\"BotAccess Servers\",\n description=f\"{humanize_list([f'`{gu.name}` (`{g}`)' if (gu := self.bot.get_guild(g)) else f'`{g}`' for g in user_settings['servers']])}\",\n color=await ctx.embed_color()\n ))\n await ctx.send_help()\n else:\n return await ctx.send(await self.config.not_supporting() or NOT_SUPPORTING)",
"def _get_servers(self, srv_prefix):\n servers = []\n if not self.ad['domainname']:\n return servers\n\n if self.ad['site'] and self.ad['site'] != 'Default-First-Site-Name':\n if 'msdcs' in srv_prefix.value:\n parts = srv_prefix.value.split('.')\n srv = '.'.join([parts[0], parts[1]])\n msdcs = '.'.join([parts[2], parts[3]])\n host = f\"{srv}.{self.ad['site']}._sites.{msdcs}.{self.ad['domainname']}\"\n else:\n host = f\"{srv_prefix.value}{self.ad['site']}._sites.{self.ad['domainname']}\"\n else:\n host = f\"{srv_prefix.value}{self.ad['domainname']}\"\n\n servers = self._get_SRV_records(host, self.ad['dns_timeout'])\n\n if not servers and self.ad['site']:\n host = f\"{srv_prefix.value}{self.ad['domainname']}\"\n servers = self._get_SRV_records(host, self.ad['dns_timeout'])\n\n return servers",
"def _get_server_name_list(self, opts):\n server_list = []\n for key in opts.keys():\n if key.startswith(\"{}:\".format(PACKAGE_NAME)):\n server_list.append(key)\n return server_list"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for config, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_classifiers_classifier_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_classifiers_classifier_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def setstate(self, state):\n if state not in VALID_STATES:\n states = ', '.join(VALID_STATES)\n raise ValueError(\"Wrong state, allowed states {}\".format(states))\n if state in ('enable', 'disable'):\n cmd = \"{} server {}/{}\".format(state, self.backendname, self.name)\n else:\n cmd = \"set server {}/{} state {}\".format(\n self.backendname, self.name, state\n )\n\n results = cmd_across_all_procs(self._server_per_proc, 'command', cmd)\n\n return check_command(results)",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_capabilities_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_capabilities_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for servers, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group/servers (container)
|
def _set_servers(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_servers_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers, is_container='container', yang_name="servers", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """servers must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_servers_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group_servers, is_container='container', yang_name="servers", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__servers = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def servers(self, item):\n\n if isinstance(item, Item):\n item_id = item.id\n else:\n item_id = item\n item = self._gis.content.get(item_id)\n\n url = self._url + \"/getServers\"\n params = {\n 'f' : 'json',\n 'datastoreId' : item_id\n }\n res = self._con.post(url, params)\n if 'servers' in res:\n return res['servers']\n return res",
"def list_server_group_servers(self, gid, **kwargs):\n return self.__get('/v1/groups/%s/servers?%s' % (gid, urllib.urlencode(kwargs)))",
"def set_nameservers(self, nm_list):\n\t\tself.drop_nameservers()\n\t\tfor nm in nm_list:\n\t\t\tself.add_nameserver(nm)",
"def update(self):\n new_servers = []\n server_list = remote.list_servers(SERVER_URI)\n organisation_list = remote.list_organisations(ORGANISATION_URI)\n for server_data in server_list:\n server_type = server_data.pop('server_type')\n if server_type == 'institute_access':\n server = InstituteAccessServer(**server_data)\n new_servers.append(server)\n elif server_type == 'secure_internet':\n server = SecureInternetServer(**server_data)\n new_servers.append(server)\n else:\n raise ValueError(server_type, server_data)\n for organisation_data in organisation_list:\n server = OrganisationServer(**organisation_data)\n new_servers.append(server)\n # Atomic update of server map.\n # TODO keep custom other servers\n self.servers = new_servers\n self.is_loaded = True",
"def set_api_servers(self, context, request):\n if request.method == 'POST':\n api_servers = json.loads(request.body)['api_servers']\n logging.info(\"Updating API Servers.\")\n self.reconnect(api_servers)\n return Response()\n elif request.method == 'GET':\n return Response(body=json.dumps({ \"api_servers\" : self.zk_servers }))\n else:\n return Response(status=403)",
"async def _servers_remove(self, ctx: commands.Context, *servers: int):\n main_servers = await self.config.main_servers()\n allowed = await self.config.allowed()\n async with self.config.user(ctx.author).all() as user_settings:\n if user_settings[\"supporting_in\"]:\n for server in servers:\n if server in user_settings[\"servers\"]:\n if guild := self.bot.get_guild(server):\n if guild.id not in allowed and str(guild.id) not in main_servers.keys():\n await guild.leave()\n user_settings[\"servers\"].remove(server)\n else:\n await ctx.send(f\"`{server}` was not in your BotAccess servers!\")\n return await ctx.tick()\n else:\n return await ctx.send(await self.config.not_supporting() or NOT_SUPPORTING)",
"def add_servers(self, context, body=None):\n def _update_ssh_key():\n server_list = db.init_node_get_all(context)\n for ser in server_list:\n if ser['status'] == 'Active' or ser['status'] == 'available':\n self._agent_rpcapi.update_ssh_keys(context, ser['host'])\n\n server_list = body['servers']\n for ser in server_list:\n ser_ref = db.init_node_get(context, int(ser['id']))\n ser['host'] = ser_ref['host']\n ser['cluster_id'] = self._agent_rpcapi.cluster_id(context,\n ser['host'])\n # It need to change the role defined in\n # server.manifest\n if ser['is_monitor'] == False:\n if ser['is_storage'] == True and ser_ref['status'] == 'available':\n values = {'type': 'storage'}\n db.init_node_update(context, ser_ref['id'], values)\n if ser['is_monitor'] == True:\n if ser_ref['type'].find('monitor') != -1 and ser_ref['status'] == 'Active':\n ser['is_monitor'] = False\n if ser['is_storage'] == False and ser_ref['status'] == 'available':\n values = {'type': 'monitor'}\n db.init_node_update(context, ser_ref['id'], values)\n elif ser['is_storage'] == True and ser_ref['status'] == 'available':\n values = {'type': 'storage,monitor'}\n db.init_node_update(context, ser_ref['id'], values)\n\n\n self._update_server_list_status(context, server_list, 'update ssh key')\n _update_ssh_key()\n self._update_server_list_status(context, server_list, 'add monitor')\n self.add_monitor(context, server_list)\n\n # Begin to add osds.\n LOG.info(\"start to add storage\")\n self.add_osd(context, server_list)\n\n #self._judge_drive_ext_threshold(context)\n return True",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def test_get_servers(self):\n pass",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"async def _servers_add(self, ctx: commands.Context, *servers: int):\n async with self.config.user(ctx.author).all() as user_settings:\n if user_settings[\"supporting_in\"]:\n if user_settings[\"end_timestamp\"]:\n return await ctx.send(\"You are no longer a supporter, and cannot add more BotAccess servers.\")\n limit = await self.config.limit()\n if len(user_settings[\"servers\"]) + len(servers) > limit:\n return await ctx.send(f\"You are limited to {limit} BotAccess servers, and already have {len(user_settings['servers'])} servers!\")\n for server in servers:\n if server not in user_settings[\"servers\"]:\n user_settings[\"servers\"].append(server)\n return await ctx.tick()\n else:\n return await ctx.send(await self.config.not_supporting() or NOT_SUPPORTING)",
"def set_server_access(self, server_name, username,\n password=None, root=None):\n server = self.servers.get(server_name)\n if not server:\n server = Server()\n server.name = server_name\n self.servers[server_name] = server\n access = self.servers[server_name].access\n access.name = server_name\n access.username = username\n access.password = password\n access.root = root",
"def nis_servers(self):\n return self._nis_servers",
"def list_servers(self):\n endpoint = APIAC + \"/v1\"\n response = self.client.get_json(endpoint)\n response.success = response.status_code == 200\n\n return response",
"def set_server_roles(ssh_client, roles):\n yaml = get_vmdb_yaml_config(ssh_client)\n yaml['server']['role'] = ','.join(roles)\n set_vmdb_yaml_config(ssh_client, yaml)",
"def dns_servers(self) -> pulumi.Input[Sequence[pulumi.Input[str]]]:\n return pulumi.get(self, \"dns_servers\")",
"async def _servers(self, ctx: commands.Context):\n user_settings = await self.config.user(ctx.author).all()\n if user_settings[\"supporting_in\"]:\n await ctx.send(embed=discord.Embed(\n title=\"BotAccess Servers\",\n description=f\"{humanize_list([f'`{gu.name}` (`{g}`)' if (gu := self.bot.get_guild(g)) else f'`{g}`' for g in user_settings['servers']])}\",\n color=await ctx.embed_color()\n ))\n await ctx.send_help()\n else:\n return await ctx.send(await self.config.not_supporting() or NOT_SUPPORTING)",
"def auth_servers(self, **kwargs):\n\n return self.api_request(self._get_method_fullname(\"auth_servers\"), kwargs)",
"def __init__(self, name=\"\", server=None):\r\n super(SharedIpGroup, self).__init__(name)\r\n\r\n self._servers = server\r\n self._manager = None"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for server_group, mapped from YANG variable /access_points/access_point/system/aaa/server_groups/server_group (list)
|
def _set_server_group(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("name",yc_server_group_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group, yang_name="server-group", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="server-group", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """server_group must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("name",yc_server_group_openconfig_access_points__access_points_access_point_system_aaa_server_groups_server_group, yang_name="server-group", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name="server-group", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)""",
})
self.__server_group = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def update_server_group(self, gid, **kwargs):\n body = {\"group\": {}}\n for k, v in kwargs.items():\n body['group'][k] = v\n\n return self.__post('/v1/groups/%s' % gid, body)",
"def list_server_groups(self):\n return self.__get('/v1/groups')",
"def list_server_group_servers(self, gid, **kwargs):\n return self.__get('/v1/groups/%s/servers?%s' % (gid, urllib.urlencode(kwargs)))",
"def server_role_groups(self) -> Optional[Sequence['outputs.ServerRoleGroupResponse']]:\n return pulumi.get(self, \"server_role_groups\")",
"def build_groups_list(server_id, system_os):\n server = CLIENT.server(str(server_id))\n server_groups = [system_os]\n if server.groups:\n for group in server.groups:\n server_groups.append(group.name)\n return server_groups",
"def update_server_security_groups(server_id, new_security_group_ids):\n return IMPL.update_server_security_groups(server_id, new_security_group_ids)",
"def _set_port_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGListType(\"name\",port_group.port_group, yang_name=\"port-group\", rest_name=\"port-group\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Configure a port-group', u'callpoint': u'port-group-config', u'sort-priority': u'31'}}), is_container='list', yang_name=\"port-group\", rest_name=\"port-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Configure a port-group', u'callpoint': u'port-group-config', u'sort-priority': u'31'}}, namespace='urn:brocade.com:mgmt:brocade-hardware', defining_module='brocade-hardware', yang_type='list', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"port_group must be of a type compatible with list\"\"\",\n 'defined-type': \"list\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGListType(\"name\",port_group.port_group, yang_name=\"port-group\", rest_name=\"port-group\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Configure a port-group', u'callpoint': u'port-group-config', u'sort-priority': u'31'}}), is_container='list', yang_name=\"port-group\", rest_name=\"port-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Configure a port-group', u'callpoint': u'port-group-config', u'sort-priority': u'31'}}, namespace='urn:brocade.com:mgmt:brocade-hardware', defining_module='brocade-hardware', yang_type='list', is_config=True)\"\"\",\n })\n\n self.__port_group = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_destination_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGListType(\"group_id\",yc_destination_group_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group, yang_name=\"destination-group\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='group-id', extensions=None), is_container='list', yang_name=\"destination-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='list', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"destination_group must be of a type compatible with list\"\"\",\n 'defined-type': \"list\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGListType(\"group_id\",yc_destination_group_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group, yang_name=\"destination-group\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='group-id', extensions=None), is_container='list', yang_name=\"destination-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='list', is_config=True)\"\"\",\n })\n\n self.__destination_group = t\n if hasattr(self, '_set'):\n self._set()",
"def get_server_groups_in_use():\n\n server_groups_in_use = []\n try:\n cloud_model = read_cp_internal_json('CloudModel.yaml')\n if cloud_model:\n hosts = cloud_model['internal']['servers']\n deployed_names = get_deployed_hostnames()\n if hosts and deployed_names:\n cleaned_group_names = []\n # find the server groups names that are used by deployed\n # servers and remove the duplicates\n for host in hosts:\n if host.get('ardana_ansible_host') in deployed_names:\n cleaned_group_names = \\\n list(set(host['server-group-list'] +\n cleaned_group_names))\n # get details for the server groups\n server_groups_model = cloud_model['internal']['server-groups']\n for server_group_name in cleaned_group_names:\n if server_group_name in server_groups_model:\n server_groups_in_use.append({\n 'name':\n server_groups_model[server_group_name]['name'],\n 'server-groups':\n server_groups_model[server_group_name].\\\n get('server-groups'),\n 'networks':\n server_groups_model[server_group_name].\\\n get('networks')\n })\n\n return jsonify(server_groups_in_use)\n except Exception as e:\n LOG.exception(\"Failed to get server groups in use\")\n LOG.exception(e)\n abort(500, \"Failed to get server groups in use\")",
"def add_server(self, server):\n assert(isinstance(server, MySQLServer))\n assert(server.group_id == None)\n server.group_id = self.__group_id",
"def create_server_group(self, name, tag, **kwargs):\n body = {\"group\": {}}\n body['group']['name'] = name\n body['group']['tag'] = tag\n for k, v in kwargs.items():\n body['group'][k] = v\n\n return self.__post('/v1/groups', body)",
"def groups(self, group=None):\n if group is None:\n path = \"api/groups/\"\n return list(map(Group.from_dict, self._get(path)))\n else:\n path = \"api/groups/{0}\".format(group)\n return Group.from_dict(self._get(path))",
"def server_group_name(self) -> pulumi.Input[str]:\n return pulumi.get(self, \"server_group_name\")",
"def set_path_group_list(self, path_group_list):\n self.path_group_list = path_group_list",
"def server_group_name(self) -> pulumi.Output[str]:\n return pulumi.get(self, \"server_group_name\")",
"def set_group(group,path):\n path = Location(path)\n if not path.is_remote:\n # Set the group for local files\n gid = bcftbx_utils.get_gid_from_group(group)\n if gid is None:\n raise Exception(\"Failed to get gid for group '%s'\" % group)\n for f in bcftbx_utils.walk(path.path,include_dirs=True):\n logger.debug(\"Updating group for %s\" % f)\n os.lchown(f,-1,gid)\n else:\n try:\n # Set group for remote files\n chmod_cmd = applications.general.ssh_command(\n path.user,\n path.server,\n ('chgrp','-R',group,path.path))\n print \"Running %s\" % chmod_cmd\n chmod_cmd.run_subprocess()\n except Exception as ex:\n raise Exception(\n \"Exception changing group to '%s' on remote \"\n \"destination %s: %s\" %\n (group,path,ex))",
"def _set_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=int, restriction_dict={'range': ['0..255']}, int_size=8), is_leaf=True, yang_name=\"group\", rest_name=\"group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:brocade.com:mgmt:brocade-mc-hms-operational', defining_module='brocade-mc-hms-operational', yang_type='uint8', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"group must be of a type compatible with uint8\"\"\",\n 'defined-type': \"uint8\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=int, restriction_dict={'range': ['0..255']}, int_size=8), is_leaf=True, yang_name=\"group\", rest_name=\"group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:brocade.com:mgmt:brocade-mc-hms-operational', defining_module='brocade-mc-hms-operational', yang_type='uint8', is_config=False)\"\"\",\n })\n\n self.__group = t\n if hasattr(self, '_set'):\n self._set()",
"def source_server_group(self) -> str:\n return pulumi.get(self, \"source_server_group\")"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for authentication, mapped from YANG variable /access_points/access_point/system/aaa/authentication (container)
|
def _set_authentication(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_authentication_openconfig_access_points__access_points_access_point_system_aaa_authentication, is_container='container', yang_name="authentication", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """authentication must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_authentication_openconfig_access_points__access_points_access_point_system_aaa_authentication, is_container='container', yang_name="authentication", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__authentication = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_authentication(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=authentication.authentication, is_container='container', presence=False, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Authentication of OSPF messages', u'cli-incomplete-no': None, u'cli-incomplete-command': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"authentication must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=authentication.authentication, is_container='container', presence=False, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Authentication of OSPF messages', u'cli-incomplete-no': None, u'cli-incomplete-command': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__authentication = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_authentication(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGBool, is_leaf=True, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Enable dot1x on a port'}}, namespace='urn:brocade.com:mgmt:brocade-dot1x', defining_module='brocade-dot1x', yang_type='empty', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"authentication must be of a type compatible with empty\"\"\",\n 'defined-type': \"empty\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGBool, is_leaf=True, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-full-command': None, u'info': u'Enable dot1x on a port'}}, namespace='urn:brocade.com:mgmt:brocade-dot1x', defining_module='brocade-dot1x', yang_type='empty', is_config=True)\"\"\",\n })\n\n self.__authentication = t\n if hasattr(self, '_set'):\n self._set()",
"def setAuthentication(self,auth):\r\n self._auth=auth",
"def authentication(self) -> Optional[pulumi.Input['SecurityScanConfigAuthenticationArgs']]:\n return pulumi.get(self, \"authentication\")",
"def authenticate(username, password, service=\"login\"):\n\n pam_api = pam.pam()\n return pam_api.authenticate(username, password, service)",
"def auth_password(self, packet):\r\n password = common.getNS(packet[1:])[0]\r\n c = credentials.UsernamePassword(self.user, password)\r\n c.transport = self.transport\r\n return self.portal.login(c, None, IConchUser).addErrback(\r\n self._ebPassword)",
"def authenticate(self, mechanism, authobject):\n mech = mechanism.upper()\n # XXX: shouldn't this code be removed, not commented out?\n #cap = 'AUTH=%s' % mech\n #if not cap in self.capabilities: # Let the server decide!\n # raise self.error(\"Server doesn't allow %s authentication.\" % mech)\n self.literal = _Authenticator(authobject).process\n typ, dat = self._simple_command('AUTHENTICATE', mech)\n if typ != 'OK':\n raise self.error(dat[-1].decode('utf-8', 'replace'))\n self.state = 'AUTH'\n return typ, dat",
"def authenticate(\n aroio_name: str,\n aroio_password: str,\n username: str,\n password: str) -> bool:\n if username != aroio_name:\n return False\n if not Authentication.verify_password(plain=password,hashed=aroio_password):\n return False\n return True",
"def authenticate(self, password):\n if super(FelicaLiteS, self).authenticate(password):\n # At this point we have achieved internal authentication,\n # i.e we know that the tag has the same card key as in\n # password. We now reset the authentication status and do\n # external authentication to assure the tag that we have\n # the right card key.\n self._authenticated = False\n self.read_from_ndef_service = self.read_without_mac\n self.write_to_ndef_service = self.write_without_mac\n\n # To authenticate to the tag we write a 01h into the\n # ext_auth byte of the state block (block 0x92). The other\n # bytes of the state block can be all set to zero.\n self.write_with_mac(\"\\x01\" + 15*\"\\0\", 0x92)\n \n # Now read the state block and check the value of the\n # ext_auth to see if we are authenticated. If it's 01h\n # then we are, otherwise not.\n if self.read_with_mac(0x92)[0] == 0x01:\n log.debug(\"mutual authentication completed\")\n self._authenticated = True\n self.read_from_ndef_service = self.read_with_mac\n self.write_to_ndef_service = self.write_with_mac\n else:\n log.debug(\"mutual authentication failed\")\n\n return self._authenticated",
"def authenticate(login, password):\n from anima import defaults\n\n if not defaults.enable_ldap_authentication:\n # No LDAP authentication\n # try authenticating with stalker\n success = stalker_authenticate(login, password)\n else:\n # defaults.enable_ldap_authentication is True\n # so always authenticate with LDAP\n success = ldap_authenticate(login, password)\n\n # if success:\n # # update Stalker with the given information\n # # by either creating a new user or updating the user password\n # pass\n\n if success:\n # create the local session\n from stalker.models.auth import LocalSession, User\n from sqlalchemy import or_\n\n user = User.query.filter(or_(User.login == login, User.email == login)).first()\n\n session = LocalSession()\n session.store_user(user)\n session.save()\n\n # also store a AuthenticationLog in the database\n import datetime\n import pytz\n from stalker.models.auth import LOGIN, AuthenticationLog\n\n al = AuthenticationLog(\n user=user, date=datetime.datetime.now(pytz.utc), action=LOGIN\n )\n from stalker.db.session import DBSession\n\n DBSession.add(al)\n DBSession.commit()\n\n return success",
"def authenticate(self):\n start_time = time.time()\n if self._invalid_credentials:\n raise AuthenticationError(\n f\"not authenticating: password already failed for user {self.username}\"\n )\n\n # LoginAndGetSessionDetails is very slow, so only use it when necessary\n operation_name = (\n \"AuthenticateUserLogin\" if self._locations else \"LoginAndGetSessionDetails\"\n )\n response = self.request(operation_name, (\n self.username, self.password, self.API_APP_ID, self.API_APP_VERSION\n ))\n try:\n self.raise_for_resultcode(response)\n except AuthenticationError:\n self._invalid_credentials = True\n self.token = None\n raise\n\n self.token = response[\"SessionID\"]\n if not self._locations:\n self._module_flags = dict(\n x.split(\"=\") for x in response[\"ModuleFlags\"].split(\",\")\n )\n self._user = TotalConnectUser(response[\"UserInfo\"])\n self._locations_unfetched = self._make_locations(response)\n self._locations = self._locations_unfetched.copy()\n if not self._locations:\n raise TotalConnectError(\"no locations found\", response)\n LOGGER.info(f\"{self.username} authenticated: {len(self._locations)} locations\")\n self.times[\"authenticate()\"] = time.time() - start_time",
"def enable_auth(workspace):\n\n server_config_filename = \"server_config.json\"\n\n cc_package = codechecker_package()\n original_auth_cfg = os.path.join(cc_package,\n 'config',\n server_config_filename)\n\n shutil.copy(original_auth_cfg, workspace)\n\n server_cfg_file = os.path.join(workspace,\n server_config_filename)\n\n scfg_dict = load_json(server_cfg_file, {})\n scfg_dict[\"authentication\"][\"enabled\"] = True\n scfg_dict[\"authentication\"][\"method_dictionary\"][\"enabled\"] = True\n scfg_dict[\"authentication\"][\"method_dictionary\"][\"auths\"] = \\\n [\"cc:test\", \"john:doe\", \"admin:admin123\", \"colon:my:password\",\n \"admin_group_user:admin123\", \"regex_admin:blah\",\n \"permission_view_user:pvu\"]\n scfg_dict[\"authentication\"][\"method_dictionary\"][\"groups\"] = \\\n {\"admin_group_user\": [\"admin_GROUP\"]}\n scfg_dict[\"authentication\"][\"regex_groups\"][\"enabled\"] = True\n\n with open(server_cfg_file, 'w',\n encoding=\"utf-8\", errors=\"ignore\") as scfg:\n json.dump(scfg_dict, scfg, indent=2, sort_keys=True)\n\n # Create a root user.\n root_file = os.path.join(workspace, 'root.user')\n with open(root_file, 'w',\n encoding='utf-8', errors='ignore') as rootf:\n rootf.write(f\"root:{sha256(b'root:root').hexdigest()}\")\n os.chmod(root_file, stat.S_IRUSR | stat.S_IWUSR)",
"def authenticate(self):\n return None",
"def authenticate(self, username, password, service='login', encoding='utf-8', resetcreds=True):\n\n @conv_func\n def my_conv(n_messages, messages, p_response, app_data):\n \"\"\"Simple conversation function that responds to any\n prompt where the echo is off with the supplied password\"\"\"\n # Create an array of n_messages response objects\n addr = calloc(n_messages, sizeof(PamResponse))\n response = cast(addr, POINTER(PamResponse))\n p_response[0] = response\n for i in range(n_messages):\n if messages[i].contents.msg_style == PAM_PROMPT_ECHO_OFF:\n dst = calloc(len(password) + 1, sizeof(c_char))\n memmove(dst, cpassword, len(password))\n response[i].resp = dst\n response[i].resp_retcode = 0\n return 0\n\n # python3 ctypes prefers bytes\n if sys.version_info >= (3,):\n if isinstance(username, str): username = username.encode(encoding)\n if isinstance(password, str): password = password.encode(encoding)\n if isinstance(service, str): service = service.encode(encoding)\n else:\n if isinstance(username, unicode):\n username = username.encode(encoding)\n if isinstance(password, unicode):\n password = password.encode(encoding)\n if isinstance(service, unicode):\n service = service.encode(encoding)\n\n if b'\\x00' in username or b'\\x00' in password or b'\\x00' in service:\n self.code = 4 # PAM_SYSTEM_ERR in Linux-PAM\n self.reason = 'strings may not contain NUL'\n return False\n\n # do this up front so we can safely throw an exception if there's\n # anything wrong with it\n cpassword = c_char_p(password)\n\n handle = PamHandle()\n conv = PamConv(my_conv, 0)\n retval = pam_start(service, username, byref(conv), byref(handle))\n\n if retval != 0:\n # This is not an authentication error, something has gone wrong starting up PAM\n self.code = retval\n self.reason = \"pam_start() failed\"\n return False\n\n retval = pam_authenticate(handle, 0)\n auth_success = retval == 0\n\n if auth_success and resetcreds:\n retval = pam_setcred(handle, PAM_REINITIALIZE_CRED);\n\n # store information to inform the caller why we failed\n self.code = retval\n self.reason = pam_strerror(handle, retval)\n if sys.version_info >= (3,):\n self.reason = self.reason.decode(encoding)\n\n pam_end(handle, retval)\n\n return auth_success",
"def authenticate(self, username=None, password=None, api_key=None,\n tenant_id=None, connect=False):\n try:\n super(RaxIdentity, self).authenticate(username=username,\n password=password, api_key=api_key, tenant_id=tenant_id)\n except exc.AuthenticationFailed:\n self._creds_style = \"password\"\n super(RaxIdentity, self).authenticate(username=username,\n password=password, api_key=api_key, tenant_id=tenant_id)",
"def setAuthenticationMap(self, *args):\r\n return _osgDB.Registry_setAuthenticationMap(self, *args)",
"def _authenticate(self, password):\n auth_pkt = RconPacket(self.pkt_id.next(), SERVERDATA_AUTH, password)\n self._send_pkt(auth_pkt)\n # The server will respond with a SERVERDATA_RESPONSE_VALUE followed by\n # a SERVERDATA_AUTH_RESPONSE\n self.read_response(auth_pkt)\n auth_resp = self.read_response()\n if auth_resp.pkt_type != SERVERDATA_AUTH_RESPONSE:\n raise RconError('Received invalid auth response packet')\n if auth_resp.pkt_id == -1:\n raise RconAuthError('Bad password')",
"def authenticateWebAppUser(self, username, password):\n data = self._sql.execute_proc_return_cursor(\n 'ag_authenticate_user', [username, password])\n row = data.fetchone()\n col_names = self._get_col_names_from_cursor(data)\n data.close()\n if row:\n results = dict(zip(col_names, row))\n\n if not bcrypt.verify(password, results['kit_password']):\n return False\n\n results['ag_login_id'] = str(results['ag_login_id'])\n\n return results\n else:\n return False",
"def authenticate(self, identity):\n # check_password returns None if user was not found...\n return self.htfile.check_password(identity.login, identity.key) is True",
"def set_authenticating(self, protocol, server, port, objname=None):\n self._store_authentication_bool(protocol, server, port, objname, True)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for authorization, mapped from YANG variable /access_points/access_point/system/aaa/authorization (container)
|
def _get_authorization(self):
return self.__authorization
|
[
"def _authorization(self, args: parser_extensions.Namespace):\n kwargs = {\n 'adminUsers': self._cluster_users(args),\n }\n if flags.IsSet(kwargs):\n return messages.Authorization(**kwargs)\n return None",
"def authorization_id(self): # noqa: E501\n return self._authorization_id",
"def authorization_param(self, lti_user):\n return self.dump(lti_user)[\"authorization\"]",
"def authorization_config(self) -> Optional['outputs.DataSourceHttpConfigAuthorizationConfig']:\n return pulumi.get(self, \"authorization_config\")",
"def authorization_environment(self):\n return self._authorization_environment",
"def get_authorization_admin_session(self):\n return # osid.authorization.AuthorizationAdminSession",
"def get(self, acl):\n return self._instance._client.acls.get(self._instance.name, acl)",
"def getacl(self, mailbox):\n typ, dat = self._simple_command('GETACL', mailbox)\n return self._untagged_response(typ, dat, 'ACL')",
"def _get_acls(self, datapath):\n auth_acl = datapath.acls.get(self._auth_acl_name)\n noauth_acl = datapath.acls.get(self._noauth_acl_name)\n return (auth_acl, noauth_acl)",
"def get_container_policy(self, user, account, container):\n return {}",
"def get_organization_acl(self, organization_id: str):\n response = self.synapse.restGET(f\"/schema/organization/{organization_id}/acl\")\n return response",
"def advapi32_GetAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceIndex\", \"pAce\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def get_authorization_session(self):\n return # osid.authorization.AuthorizationSession",
"def get_collection_access_level_user(\n self, username, collection_name, databasename=\"_system\"\n ):\n request = Request(\n method=\"get\",\n endpoint=\"/user/{}/database/{}/collection/{}\".format(\n username, databasename, collection_name\n ),\n )\n\n def response_handler(resp):\n if not resp.is_success:\n raise CollectionAccessLevel(resp, request)\n else:\n return resp.body[\"result\"]\n\n return self._execute(request, response_handler, custom_prefix=\"/_api\")",
"def get_collection_access_level_user(self, username, collection_name, databasename='_system'):\n request = Request(\n method='get',\n endpoint='/user/{}/database/{}/collection/{}'.format(username,\n databasename,\n collection_name),\n )\n\n def response_handler(resp):\n if not resp.is_success:\n raise CollectionAccessLevel(resp, request)\n else:\n return resp.body['result']\n \n return self._execute(request, response_handler)",
"def get_acls(self):\n return self.access_list_manager.get_objects()",
"def acl(self):\n # type: () -> list[AclEntry]\n return self._acl",
"def get_authorization_vault_session(self):\n return # osid.authorization.AuthorizationVaultSession",
"def get_authorization_lookup_session(self):\n return # osid.authorization.AuthorizationLookupSession",
"def get_authorised_equipment(account, sorted=True):\n\n if not account or not account.is_approved:\n return None\n\n # Get a list of all ACLs for this user\n acls = get_acls_for_email(account.email)\n\n if not acls:\n return None\n\n output = []\n\n for acl in acls:\n if acl.isAuthorised():\n output.append( get_equipment(acl.equipment) )\n\n if sorted:\n return sort_equipment(output)\n else:\n return output"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for authorization, mapped from YANG variable /access_points/access_point/system/aaa/authorization (container)
|
def _set_authorization(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_authorization_openconfig_access_points__access_points_access_point_system_aaa_authorization, is_container='container', yang_name="authorization", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """authorization must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_authorization_openconfig_access_points__access_points_access_point_system_aaa_authorization, is_container='container', yang_name="authorization", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__authorization = t
if hasattr(self, '_set'):
self._set()
|
[
"def _authorization(self, args: parser_extensions.Namespace):\n kwargs = {\n 'adminUsers': self._cluster_users(args),\n }\n if flags.IsSet(kwargs):\n return messages.Authorization(**kwargs)\n return None",
"def authorization_environment(self, authorization_environment):\n\n self._authorization_environment = authorization_environment",
"def authorization_param(self, lti_user):\n return self.dump(lti_user)[\"authorization\"]",
"def authorization_id(self): # noqa: E501\n return self._authorization_id",
"def authorization_amount(self, authorization_amount):\n\n self._authorization_amount = authorization_amount",
"def card_authorization_amount(self, card_authorization_amount):\n\n self._card_authorization_amount = card_authorization_amount",
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def set_collection_access_level_user(\n self, username, collection_name, databasename=\"_system\", grant=\"ro\"\n ):\n request = Request(\n method=\"put\",\n endpoint=\"/user/{}/database/{}/collection/{}\".format(\n username, databasename, collection_name\n ),\n data={\"grant\": grant},\n )\n\n def response_handler(resp):\n if not resp.is_success:\n raise SetCollectionAccessLevel(resp, request)\n else:\n return resp.body\n\n return self._execute(request, response_handler, custom_prefix=\"/_api\")",
"def card_authorization_dts(self, card_authorization_dts):\n\n self._card_authorization_dts = card_authorization_dts",
"def _set_authentication(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=authentication.authentication, is_container='container', presence=False, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Authentication of OSPF messages', u'cli-incomplete-no': None, u'cli-incomplete-command': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"authentication must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=authentication.authentication, is_container='container', presence=False, yang_name=\"authentication\", rest_name=\"authentication\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Authentication of OSPF messages', u'cli-incomplete-no': None, u'cli-incomplete-command': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__authentication = t\n if hasattr(self, '_set'):\n self._set()",
"def set_collection_access_level_user(self, username, collection_name, databasename='_system',\n grant='ro'):\n request = Request(\n method='put',\n endpoint='/user/{}/database/{}/collection/{}'.format(username,\n databasename,\n collection_name),\n data={\n \"grant\": grant\n }\n )\n\n def response_handler(resp):\n if not resp.is_success:\n raise SetCollectionAccessLevel(resp, request)\n else:\n return resp.body\n \n return self._execute(request, response_handler)",
"def authorization_id(self, authorization_id): # noqa: E501\n self._authorization_id = authorization_id",
"def advapi32_AddAuditAccessObjectAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"AccessMask\", \"ObjectTypeGuid\", \"InheritedObjectTypeGuid\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def authorization_config(self) -> Optional['outputs.DataSourceHttpConfigAuthorizationConfig']:\n return pulumi.get(self, \"authorization_config\")",
"def advapi32_SetAclInformation(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"pAclInformation\", \"nAclInformationLength\", \"dwAclInformationClass\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def authorised_indicator(self, authorised_indicator):\n\n self._authorised_indicator = authorised_indicator",
"def setAccessControlList(acl):",
"def _enforce_authorization(self, **kwargs):\n # Get the env\n env_dict = kwargs.get('env')\n\n # Although it may already be set in the env, just override in case it was only set via command line or config\n # Convert to string since execve() (called by Popen in base classes) wants string values.\n env_dict['EG_IMPERSONATION_ENABLED'] = str(self.kernel_manager.impersonation_enabled)\n\n # Ensure KERNEL_USERNAME is set\n kernel_username = KernelSessionManager.get_kernel_username(**kwargs)\n\n # Now perform authorization checks\n if kernel_username in self.unauthorized_users:\n self._raise_authorization_error(kernel_username, \"not authorized\")\n\n # If authorized users are non-empty, ensure user is in that set.\n if self.authorized_users.__len__() > 0:\n if kernel_username not in self.authorized_users:\n self._raise_authorization_error(kernel_username, \"not in the set of users authorized\")",
"def setUserIsAuthorised(self, account, email, reason=None):\n EquipmentACLInfo.setAuthorised(account, self, email, reason)\n self._updateCalendarPermissions(account)",
"def advapi32_AddAuditAccessAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"dwAccessMask\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for accounting, mapped from YANG variable /access_points/access_point/system/aaa/accounting (container)
|
def _get_accounting(self):
return self.__accounting
|
[
"def accounting_retrieve(self, token, container_id):\n path = \"/accounting\"\n job_info = self._get_job_info()\n token_file = self._get_token_file(job_info[\"home\"],\n job_info['job_id'])\n token = token_parse(token, token_file)\n parameters = {\"token\": token, \"container_id\": container_id}\n results = self.control.execute_get(path=path, parameters=parameters)\n return results",
"def get_isolated_margin_account(client, asset: str):\n c = client.get_isolated_margin_account()\n return list(filter(lambda x: x[\"baseAsset\"][\"asset\"] == asset, c[\"assets\"]))[0]",
"def test_expenses_categories_accounting_get(self):\n pass",
"def get_account_assets():\n query = iroha.query('GetAccountAssets', account_id='userone@domain')\n IrohaCrypto.sign_query(query, admin_private_key)\n\n response = net.send_query(query)\n data = response.account_assets_response.account_assets\n for asset in data:\n print('Asset id = {}, balance = {}'.format(\n asset.asset_id, asset.balance))",
"def get_container_policy(self, user, account, container):\n return {}",
"def get_by_comment(self, comm):\n if len(self.account) == 0:\n return Accounter()\n return Accounter(self.account[self.account.comment == comm])",
"def cluster_application_attempt_container_info(self, application_id, attempt_id, container_id):\n path = '/ws/v1/cluster/apps/{appid}/appattempts/{attemptid}/containers/{containerid}'.format(\n appid=application_id, attemptid=attempt_id, containerid=container_id)\n\n return self.request(path)",
"def list_account_details(self, resp):\n data = resp['data']\n base_currency_adjustment = BaseCurrencyAdjustment()\n base_currency_adjustment.set_adjustment_date(data['adjustment_date'])\n base_currency_adjustment.set_adjustment_date_formatted(data[\\\n 'adjustment_date_formatted'])\n base_currency_adjustment.set_exchange_rate(data['exchange_rate'])\n base_currency_adjustment.set_exchange_rate_formatted(data[\\\n 'exchange_rate_formatted'])\n base_currency_adjustment.set_currency_id(data['currency_id'])\n for value in data['accounts']:\n accounts = Account()\n accounts.set_account_id(value['account_id'])\n accounts.set_account_name(value['account_name'])\n accounts.set_gl_specific_type(value['gl_specific_type'])\n accounts.set_fcy_balance(value['fcy_balance'])\n accounts.set_fcy_balance_formatted(value['fcy_balance_formatted'])\n accounts.set_bcy_balance(value['bcy_balance'])\n accounts.set_bcy_balance_formatted(value['bcy_balance_formatted'])\n accounts.set_adjusted_balance(value['adjusted_balance'])\n accounts.set_adjusted_balance_formatted(value[\\\n 'adjusted_balance_formatted'])\n accounts.set_gain_or_loss(value['gain_or_loss'])\n accounts.set_gain_or_loss_formatted(value['gain_or_loss_formatted'])\n base_currency_adjustment.set_accounts(accounts)\n base_currency_adjustment.set_notes(data['notes'])\n base_currency_adjustment.set_currency_code(data['currency_code'])\n return base_currency_adjustment",
"def direct_get_container_policy_index(container_ring, account_name,\n container_name):\n def _eat_client_exception(*args):\n try:\n return direct_head_container(*args, headers={\n USE_REPLICATION_NETWORK_HEADER: 'true'})\n except ClientException as err:\n if err.http_status == 404:\n return err.http_headers\n except (Timeout, socket.error):\n pass\n\n pile = GreenPile()\n part, nodes = container_ring.get_nodes(account_name, container_name)\n for node in nodes:\n pile.spawn(_eat_client_exception, node, part, account_name,\n container_name)\n\n headers = [x for x in pile if x is not None]\n if len(headers) < majority_size(len(nodes)):\n return\n return best_policy_index(headers)",
"def group_by_date(self):\n if len(self.account) == 0:\n return Accounter()\n return Accounter(self.account.groupby('date').sum())",
"def get_income(self):\n if len(self.account) == 0:\n return Accounter()\n return Accounter(self.account[self.account.value > 0])",
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def display_account_info(self):\n self.log.info(__name__ + \": \" + 'capital_used=' + str(self.context.portfolio.capital_used))\n self.log.info('cash=' + str(self.context.portfolio.cash))\n self.log.info('pnl=' + str(self.context.portfolio.pnl))\n self.log.info('portfolio_value=' + str(self.context.portfolio.portfolio_value))\n self.log.info('positions_value=' + str(self.context.portfolio.positions_value))\n self.log.info('returns=' + str(self.context.portfolio.returns))\n self.log.info('starting_cash=' + str(self.context.portfolio.starting_cash))\n self.log.info('start_date=' + str(self.context.portfolio.start_date))\n \n self.log.info('POSITIONS:')\n for ct in self.context.portfolio.positions:\n self.log.info(ct.symbol+ct.currency+ct.secType + ': ' + \n str(self.context.portfolio.positions[ct]))\n self.log.info('OPEN ORDERS:')\n for ct in self.context.portfolio.openOrderBook:\n self.log.info(str(ct) + ': ' + \n self.context.portfolio.openOrderBook[ct].contract.symbol + '.' + \n self.context.portfolio.openOrderBook[ct].contract.currency + '.' + \n self.context.portfolio.openOrderBook[ct].contract.secType + \n str(self.context.portfolio.openOrderBook[ct].amount) + \n self.context.portfolio.openOrderBook[ct].status)",
"def accrued(self):\n\n # Only debt accrues interest.\n if self.security.security_type == SECURITY_TYPE_CONVERTIBLE:\n\n # Calculate the interest and add to the principal.\n if self.converted_date:\n converted_date = self.converted_date\n else:\n converted_date = datetime.date.today()\n # Convertible debt interest is nearly always simple interest.\n interest = self.principal * self.security.interest_rate * (\n (converted_date - self.date).days)/365\n return round(self.principal + interest, 2)\n\n else:\n return None",
"def get_account_assets(name):\n accid = name+'@'+'patient'\n query = iroha.query('GetAccountAssets', account_id=accid)\n IrohaCrypto.sign_query(query, ADMIN_PRIVATE_KEY)\n\n response = net.send_query(query)\n data = response.account_assets_response.account_assets\n res = []\n for asset in data:\n res.append(asset)\n return res",
"def get_asset_balance(self):\n return self.client.get_asset_balance(asset)",
"def get_account(self, name, create=False, incrcount=True):\r\n accounts = self.accounts\r\n try:\r\n acc = accounts[name]\r\n except KeyError:\r\n if not create:\r\n raise\r\n acc = accounts[name] = Account(name, self.acc_ordering())\r\n if name:\r\n # Set and make sure the parent exists.\r\n parent_name = Account.sep.join(name.split(Account.sep)[:-1])\r\n acc.parent = self.get_account(parent_name, create)\r\n children = acc.parent.children\r\n if acc not in children:\r\n children.append(acc)\r\n if incrcount:\r\n acc.usedcount += 1\r\n return acc",
"def get_base_currency_adjustment(self, resp):\n data = resp['data']\n base_currency_adjustment = BaseCurrencyAdjustment()\n base_currency_adjustment.set_base_currency_adjustment_id(data[\\\n 'base_currency_adjustment_id']) \n base_currency_adjustment.set_currency_id(data['currency_id'])\n base_currency_adjustment.set_currency_code(data['currency_code'])\n base_currency_adjustment.set_adjustment_date(data['adjustment_date'])\n base_currency_adjustment.set_exchange_rate(data['exchange_rate'])\n base_currency_adjustment.set_notes(data['notes'])\n for value in data['accounts']:\n account = Account()\n account.set_account_id(value['account_id'])\n account.set_account_name(value['account_name'])\n account.set_bcy_balance(value['bcy_balance'])\n account.set_fcy_balance(value['fcy_balance'])\n account.set_adjusted_balance(value['adjusted_balance'])\n account.set_gain_or_loss(value['gain_or_loss'])\n account.set_gl_specific_type(value['gl_specific_type'])\n base_currency_adjustment.set_accounts(account)\n return base_currency_adjustment",
"def process(\n self,\n accounting: 'AccountingPot',\n events_iterator: Iterator['AccountingEventMixin'],\n ) -> int:",
"def advapi32_GetAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceIndex\", \"pAce\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for accounting, mapped from YANG variable /access_points/access_point/system/aaa/accounting (container)
|
def _set_accounting(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_accounting_openconfig_access_points__access_points_access_point_system_aaa_accounting, is_container='container', yang_name="accounting", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """accounting must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_accounting_openconfig_access_points__access_points_access_point_system_aaa_accounting, is_container='container', yang_name="accounting", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__accounting = t
if hasattr(self, '_set'):
self._set()
|
[
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def setContainer(self, container: 'ScXMLObject') -> \"void\":\n return _coin.ScXMLDataObj_setContainer(self, container)",
"def accounting_method(self, accounting_method):\n allowed_values = [\"accrual\", \"cash\"] # noqa: E501\n if (self._configuration.client_side_validation and\n accounting_method not in allowed_values):\n raise ValueError(\n \"Invalid value for `accounting_method` ({0}), must be one of {1}\" # noqa: E501\n .format(accounting_method, allowed_values)\n )\n\n self._accounting_method = accounting_method",
"def setCash(self, amt):\n self.cash = amt",
"def updateAccountValue(self, key, value, currency, accountName):\n# if (self.TRADE_DEBUG):\n# print 'updateAccountValue',key, value, currency, accountName\n if key == 'AvailableFunds':\n self.context.portfolio.cash=float(value)\n elif key == 'UnrealizedPnL':\n self.context.portfolio.pnl=float(value)\n elif key == 'NetLiquidation':\n self.context.portfolio.portfolio_value=float(value)\n elif key == 'GrossPositionValue':\n self.context.portfolio.positions_value=float(value)\n else:\n pass",
"def test_expenses_categories_accounting_get(self):\n pass",
"def set_balance(self, zone: int, balance: int):\n raise NotImplemented()",
"def accounting_retrieve(self, token, container_id):\n path = \"/accounting\"\n job_info = self._get_job_info()\n token_file = self._get_token_file(job_info[\"home\"],\n job_info['job_id'])\n token = token_parse(token, token_file)\n parameters = {\"token\": token, \"container_id\": container_id}\n results = self.control.execute_get(path=path, parameters=parameters)\n return results",
"def setContainer(self, container: 'ScXMLElt') -> \"void\":\n return _coin.ScXMLElt_setContainer(self, container)",
"def process(\n self,\n accounting: 'AccountingPot',\n events_iterator: Iterator['AccountingEventMixin'],\n ) -> int:",
"def add_cash(self, amount, currency):\n\n if currency.upper() not in self._cash:\n self._cash[currency.upper()] = Cash(amount, currency)\n else:\n self._cash[currency.upper()].amount += amount",
"def update_entry_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET acl=acl+{}\n WHERE container=%s and name=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container, self.name,))",
"def adjust_for_ace(self):\n self.sum = 0\n for card in self.card_list:\n self.sum += card.value\n \n if self.card_list[-1].rank == \"Ace\":\n self.aces += 1\n if self.sum > 21:\n self.sum -= self.aces*10",
"def _cdn_set_access(self, container, ttl, enabled):\r\n if ttl is None:\r\n ttl = self.default_cdn_ttl\r\n ct = self.get_container(container)\r\n mthd = \"PUT\"\r\n hdrs = {\"X-CDN-Enabled\": \"%s\" % enabled}\r\n if enabled:\r\n hdrs[\"X-TTL\"] = str(ttl)\r\n response = self.connection.cdn_request(mthd, [ct.name], hdrs=hdrs)\r\n status = response.status\r\n if not 200 <= status < 300:\r\n raise exc.CDNFailed(\"Bad response: (%s) %s\" % (status,\r\n response.reason))\r\n ct.cdn_ttl = ttl\r\n for hdr in response.getheaders():\r\n if hdr[0].lower() == \"x-cdn-uri\":\r\n ct.cdn_uri = hdr[1]\r\n break\r\n self.remove_container_from_cache(container)\r\n # Read the response to force it to close for the next request.\r\n response.read()",
"def credit(self, amount):\n if self._is_asset_or_expenses:\n self.balance -= amount\n else:\n self.balance += amount",
"def balance_currency(self, balance_currency):\n\n self._balance_currency = balance_currency",
"def update_account(self, cid, balance):\n stat = sql.SQL(\"UPDATE banking SET (balance, balance_dt) = ({balance}, {dt}) WHERE client_id={cid}\").\\\n format(balance=sql.Literal(balance), \\\n dt=sql.Literal(dt.datetime.now().strftime(TIMESTAMP_FORMAT)), \\\n cid=sql.Literal(cid))\n self.cur.execute(stat)",
"def deposit(self, account, amount):\n self.accounts[account].balance += amount",
"def ingress_acl_analysis(self, ingress_acl_analysis):\n\n self._ingress_acl_analysis = ingress_acl_analysis",
"def make_container_private(self, container):\r\n return self._cdn_set_access(container, None, False)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for server_groups, mapped from YANG variable /access_points/access_point/system/aaa/server_groups (container)
|
def _set_server_groups(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_server_groups_openconfig_access_points__access_points_access_point_system_aaa_server_groups, is_container='container', yang_name="server-groups", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """server_groups must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_server_groups_openconfig_access_points__access_points_access_point_system_aaa_server_groups, is_container='container', yang_name="server-groups", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__server_groups = t
if hasattr(self, '_set'):
self._set()
|
[
"def list_server_groups(self):\n return self.__get('/v1/groups')",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_server_group(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"server_group must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=unicode, is_leaf=True, yang_name=\"server-group\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='string', is_config=False)\"\"\",\n })\n\n self.__server_group = t\n if hasattr(self, '_set'):\n self._set()",
"def build_groups_list(server_id, system_os):\n server = CLIENT.server(str(server_id))\n server_groups = [system_os]\n if server.groups:\n for group in server.groups:\n server_groups.append(group.name)\n return server_groups",
"def server_role_groups(self) -> Optional[Sequence['outputs.ServerRoleGroupResponse']]:\n return pulumi.get(self, \"server_role_groups\")",
"def get_server_groups_in_use():\n\n server_groups_in_use = []\n try:\n cloud_model = read_cp_internal_json('CloudModel.yaml')\n if cloud_model:\n hosts = cloud_model['internal']['servers']\n deployed_names = get_deployed_hostnames()\n if hosts and deployed_names:\n cleaned_group_names = []\n # find the server groups names that are used by deployed\n # servers and remove the duplicates\n for host in hosts:\n if host.get('ardana_ansible_host') in deployed_names:\n cleaned_group_names = \\\n list(set(host['server-group-list'] +\n cleaned_group_names))\n # get details for the server groups\n server_groups_model = cloud_model['internal']['server-groups']\n for server_group_name in cleaned_group_names:\n if server_group_name in server_groups_model:\n server_groups_in_use.append({\n 'name':\n server_groups_model[server_group_name]['name'],\n 'server-groups':\n server_groups_model[server_group_name].\\\n get('server-groups'),\n 'networks':\n server_groups_model[server_group_name].\\\n get('networks')\n })\n\n return jsonify(server_groups_in_use)\n except Exception as e:\n LOG.exception(\"Failed to get server groups in use\")\n LOG.exception(e)\n abort(500, \"Failed to get server groups in use\")",
"def update_server_security_groups(server_id, new_security_group_ids):\n return IMPL.update_server_security_groups(server_id, new_security_group_ids)",
"def _set_destination_groups(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_destination_groups_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups, is_container='container', yang_name=\"destination-groups\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"destination_groups must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_destination_groups_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups, is_container='container', yang_name=\"destination-groups\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__destination_groups = t\n if hasattr(self, '_set'):\n self._set()",
"def update_server_group(self, gid, **kwargs):\n body = {\"group\": {}}\n for k, v in kwargs.items():\n body['group'][k] = v\n\n return self.__post('/v1/groups/%s' % gid, body)",
"def list_server_group_servers(self, gid, **kwargs):\n return self.__get('/v1/groups/%s/servers?%s' % (gid, urllib.urlencode(kwargs)))",
"def _set_forwarding_groups(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_forwarding_groups_openconfig_qos_mem_mgmt__qos_forwarding_groups, is_container='container', yang_name=\"forwarding-groups\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"forwarding_groups must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_forwarding_groups_openconfig_qos_mem_mgmt__qos_forwarding_groups, is_container='container', yang_name=\"forwarding-groups\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__forwarding_groups = t\n if hasattr(self, '_set'):\n self._set()",
"def groups(self) -> Sequence['outputs.ManagedNetworkGroupResponse']:\n return pulumi.get(self, \"groups\")",
"def _create_groups(self, groups):\n\n acls = self.mumblectl.getACL(self.settings['mumble_server_id'], 0)\n glist = []\n for mgroup in acls[1]:\n glist.append(mgroup.name)\n\n newgroups = False\n for agroup in groups:\n if not str(agroup.name.replace(' ', '').lower()) in glist:\n group = self.mur.Group()\n group.name = str(agroup.name.replace(' ', '').lower())\n group.members = []\n group.add = []\n group.remove = []\n group.inheritable = True\n group.inherit = True\n group.inherited = False\n acls[1].append(group)\n newgroups = True \n\n if newgroups:\n self.mumblectl.setACL(self.settings['mumble_server_id'], 0, acls[0], acls[1], acls[2])\n\n return acls",
"def getManagedGroups(self,\n scheme,\n identifier,\n fetch=None):\n path = \"api/v1/person/%(scheme)s/%(identifier)s/manages-groups\"\n path_params = {\"scheme\": scheme,\n \"identifier\": identifier}\n query_params = {\"fetch\": fetch}\n form_params = {}\n result = self.conn.invoke_method(\"GET\", path, path_params,\n query_params, form_params)\n if result.error:\n raise IbisException(result.error)\n return result.groups",
"def machine_groups(self):\n ret = self._get_attr(\"machineGroups\")\n return ret",
"def add_server(self, server):\n assert(isinstance(server, MySQLServer))\n assert(server.group_id == None)\n server.group_id = self.__group_id",
"def getGroups(self):\n response = self.stub.GetGroups(show_pb2.ShowGetGroupsRequest(\n show=self.data),\n timeout=Cuebot.Timeout)\n groupSeq = response.groups\n return [opencue.wrappers.group.Group(grp) for grp in groupSeq.groups]",
"def ls_groups(self, **kwargs):\n status, data = self.run_gerrit_command('ls-groups', **kwargs)\n\n return data.split('\\n') if status == 0 else []",
"def listInstanceGroups(compute, project, zone):\n response = compute.instanceGroups().list(project=project, zone=zone).execute()\n pprint.pprint(response)\n return response",
"def list_instance_groups(self,\n *,\n start: str = None,\n limit: int = None,\n **kwargs\n ) -> DetailedResponse:\n\n headers = {}\n sdk_headers = get_sdk_headers(service_name=self.DEFAULT_SERVICE_NAME,\n service_version='V1',\n operation_id='list_instance_groups')\n headers.update(sdk_headers)\n\n params = {\n 'version': self.version,\n 'generation': self.generation,\n 'start': start,\n 'limit': limit\n }\n\n if 'headers' in kwargs:\n headers.update(kwargs.get('headers'))\n headers['Accept'] = 'application/json'\n\n url = '/instance_groups'\n request = self.prepare_request(method='GET',\n url=url,\n headers=headers,\n params=params)\n\n response = self.send(request)\n return response"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for physical, mapped from YANG variable /access_points/access_point/system/memory/state/physical (uint64)
|
def _get_physical(self):
return self.__physical
|
[
"def get_physical_position(self):\n return self._pos",
"def physical_cpu_id(self):\n return self._physical_cpu_id",
"def physical_size_mm(self) -> tuple[int, int]:\n return self._ptr.phys_width, self._ptr.phys_height",
"def get_physical_size(self):\n\n res = {}\n if 'PhysicalSizeX' in self.pixels.attrib.keys():\n res['PhysicalSizeX'] = self.pixels.attrib['PhysicalSizeX']\n if 'PhysicalSizeY' in self.pixels.attrib.keys():\n res['PhysicalSizeY'] = self.pixels.attrib['PhysicalSizeY']\n if 'PhysicalSizeZ' in self.pixels.attrib.keys():\n res['PhysicalSizeZ'] = self.pixels.attrib['PhysicalSizeZ']\n\n return res",
"def read_physical_memory(self, address, size):\n if not isinstance(address, baseinteger):\n raise TypeError(\"address can only be an instance of type baseinteger\")\n if not isinstance(size, baseinteger):\n raise TypeError(\"size can only be an instance of type baseinteger\")\n bytes_p = self._call(\"readPhysicalMemory\",\n in_p=[address, size])\n return bytes_p",
"def is_physical_device(self):\n ret = self._get_attr(\"isPhysicalDevice\")\n return ret",
"def isPhysical(self,uid):\n return( self.id2node[uid].group==\"Physical\" )",
"def windowsRamOLD(self):\n kernel32 = windll.kernel32\n #kernel32 = ctypes.windll.kernel32\n #c_ulong = ctypes.c_ulong\n class MEMORYSTATUS(Structure):\n _fields_ = [\n (\"dwLength\", c_ulong),\n (\"dwMemoryLoad\", c_ulong),\n (\"dwTotalPhys\", c_ulong),\n (\"dwAvailPhys\", c_ulong),\n (\"dwTotalPageFile\", c_ulong),\n (\"dwAvailPageFile\", c_ulong),\n (\"dwTotalVirtual\", c_ulong),\n (\"dwAvailVirtual\", c_ulong)\n ]\n memoryStatus = MEMORYSTATUS()\n memoryStatus.dwLength = sizeof(MEMORYSTATUS)\n kernel32.GlobalMemoryStatus(byref(memoryStatus))\n \n return int(memoryStatus.dwTotalPhys/1024**2)",
"def get_physical_bits(self):\n return self._p2v",
"def user32_LogicalToPhysicalPoint(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"hWnd\", \"lpPoint\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def user32_PhysicalToLogicalPoint(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"hWnd\", \"lpPoint\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def addrPhysicalLogical(stas, addrPhys, checkLevel=1):\n# if checkLevel is 1:\n# addrPhys=isValidPhysicalAddress(stas, addrPhys)\n# failedIndex=np.where(stas.addrExtractLogicalFast[addrPhys]==-1)[0]\n# #Don't even bother calling decode if everyone is in\n# if len(failedIndex)>0:\n# try:\n# addrPhysicalLogicalDecode(stas, failedIndex) #Failed? decode the address\n# except AssertionError as e:\n# print('Error in addrPhysicalLogicalDecode.')\n# print('No. of addresses in the packet : {0}'.format(len(addrPhys)))\n# raise e\n#\n# NOTE: If you get a ValueError, you probably have checkLevel=0 and forgot to\n# build the hash tables using addrBuildHashTable\n fastAddr = stas.addrExtractLogicalFast[addrPhys]\n\n # Loop should run over addresses only once if all addresse are in dict.\n # Small overhead\n return fastAddr.transpose()",
"def read_memory_status(self):\n return self.host.read_memory_status(self)",
"def physical_type(self):\n from . import physical\n\n return physical.get_physical_type(self)",
"def logical_size(self):\n ret = self._get_attr(\"logicalSize\")\n return ret",
"def physical_table_map_id(self) -> str:\n return pulumi.get(self, \"physical_table_map_id\")",
"def physical_resource_id(self) -> typing.Optional[str]:\n return self._values.get('physical_resource_id')",
"def addrLogicalPhysical(stas, addrLogical, checkLevel=1):\n if checkLevel is 1:\n failedIndex = np.setdiff1d(\n addrLogical, stas.addrExtractPhysicalFast.keys())\n #Don't even bother calling decode if everyone is in\n if len(failedIndex) > 0:\n try:\n addrLogicalPhysicalDecode(\n stas, failedIndex) # Failed? decode the address\n except AssertionError as e:\n print('Error in addrLogicalPhysicalDecode.')\n print('No. of addresses in the packet : {0}'.\n format(len(addrLogical)))\n raise e\n\n # NOTE: If you get a ValueError, you probably have checkLevel=0 and forgot\n # to build the hash tables using addrBuildHashTable\n fastAddr = np.array(\n map(stas.addrExtractPhysicalFast.get, addrLogical), 'uint32')\n\n # Loop should run over addresses only once if all addresse are in dict.\n # Small overhead\n return fastAddr.transpose()",
"def read(self, offset):\n addr = self.get_address(offset)\n return self.memory[addr] if addr in self.memory else 0",
"def SoTextureUnitElement_get(state: 'SoState') -> \"int\":\n return _coin.SoTextureUnitElement_get(state)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for physical, mapped from YANG variable /access_points/access_point/system/memory/state/physical (uint64)
|
def _set_physical(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="physical", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """physical must be of a type compatible with uint64""",
'defined-type': "uint64",
'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="physical", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)""",
})
self.__physical = t
if hasattr(self, '_set'):
self._set()
|
[
"def update_position(self, physical_position):\n try:\n assert isinstance(physical_position, int)\n except AssertionError:\n raise TypeError\n self._pos = physical_position",
"def physical_cpu_id(self):\n return self._physical_cpu_id",
"def isPhysical(self,uid):\n return( self.id2node[uid].group==\"Physical\" )",
"def get_physical_position(self):\n return self._pos",
"def is_physical_device(self):\n ret = self._get_attr(\"isPhysicalDevice\")\n return ret",
"def physical_size_mm(self) -> tuple[int, int]:\n return self._ptr.phys_width, self._ptr.phys_height",
"def write_physical_memory(self, address, size, bytes_p):\n if not isinstance(address, baseinteger):\n raise TypeError(\"address can only be an instance of type baseinteger\")\n if not isinstance(size, baseinteger):\n raise TypeError(\"size can only be an instance of type baseinteger\")\n if not isinstance(bytes_p, list):\n raise TypeError(\"bytes_p can only be an instance of type list\")\n for a in bytes_p[:10]:\n if not isinstance(a, basestring):\n raise TypeError(\\\n \"array can only contain objects of type basestring\")\n self._call(\"writePhysicalMemory\",\n in_p=[address, size, bytes_p])",
"def read_physical_memory(self, address, size):\n if not isinstance(address, baseinteger):\n raise TypeError(\"address can only be an instance of type baseinteger\")\n if not isinstance(size, baseinteger):\n raise TypeError(\"size can only be an instance of type baseinteger\")\n bytes_p = self._call(\"readPhysicalMemory\",\n in_p=[address, size])\n return bytes_p",
"def get_physical_size(self):\n\n res = {}\n if 'PhysicalSizeX' in self.pixels.attrib.keys():\n res['PhysicalSizeX'] = self.pixels.attrib['PhysicalSizeX']\n if 'PhysicalSizeY' in self.pixels.attrib.keys():\n res['PhysicalSizeY'] = self.pixels.attrib['PhysicalSizeY']\n if 'PhysicalSizeZ' in self.pixels.attrib.keys():\n res['PhysicalSizeZ'] = self.pixels.attrib['PhysicalSizeZ']\n\n return res",
"def entity_physical_index(self, entity_physical_index):\n\n self._entity_physical_index = entity_physical_index",
"def modify_memory(self, virtual_quantity):\n uri = self.href + '/virtualHardwareSection/memory'\n item = self.client.get_resource(uri)\n item['{' + NSMAP['rasd'] + '}ElementName'] = \\\n '%s virtual CPU(s)' % virtual_quantity\n item['{' + NSMAP['rasd'] + '}VirtualQuantity'] = virtual_quantity\n return self.client.put_resource(uri, item, EntityType.RASD_ITEM.value)",
"def user32_LogicalToPhysicalPoint(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"hWnd\", \"lpPoint\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def windowsRamOLD(self):\n kernel32 = windll.kernel32\n #kernel32 = ctypes.windll.kernel32\n #c_ulong = ctypes.c_ulong\n class MEMORYSTATUS(Structure):\n _fields_ = [\n (\"dwLength\", c_ulong),\n (\"dwMemoryLoad\", c_ulong),\n (\"dwTotalPhys\", c_ulong),\n (\"dwAvailPhys\", c_ulong),\n (\"dwTotalPageFile\", c_ulong),\n (\"dwAvailPageFile\", c_ulong),\n (\"dwTotalVirtual\", c_ulong),\n (\"dwAvailVirtual\", c_ulong)\n ]\n memoryStatus = MEMORYSTATUS()\n memoryStatus.dwLength = sizeof(MEMORYSTATUS)\n kernel32.GlobalMemoryStatus(byref(memoryStatus))\n \n return int(memoryStatus.dwTotalPhys/1024**2)",
"def set_physical_size(self, size_x=None, size_y=None, size_z=None):\n\n if size_x:\n self.pixels.attrib['PhysicalSizeX'] = str(size_x)\n if size_y:\n self.pixels.attrib['PhysicalSizeY'] = str(size_y)\n if size_z:\n self.pixels.attrib['PhysicalSizeZ'] = str(size_z)",
"def physical_table_map_id(self) -> str:\n return pulumi.get(self, \"physical_table_map_id\")",
"def user32_PhysicalToLogicalPoint(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"hWnd\", \"lpPoint\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def logical_size(self):\n ret = self._get_attr(\"logicalSize\")\n return ret",
"def get_physical_bits(self):\n return self._p2v",
"def physical_type(self):\n from . import physical\n\n return physical.get_physical_type(self)",
"def create_admin_hardware_state(input_p=HARDWARE_FILE,\n output_p=ADMIN_STATE_HARDWARE_FILE):\n (r_success, data) = load_state(input_p)\n if r_success is False:\n return (False, 'Error in creating admin hardware state:: ' + data)\n (w_success, err_msg) = write_state(data, output_p)\n if w_success is False:\n return (False, 'Error in creating admin hardware state: ' + err_msg)\n return (True, 'Success in creating admin hardware state')"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for reserved, mapped from YANG variable /access_points/access_point/system/memory/state/reserved (uint64)
|
def _set_reserved(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="reserved", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """reserved must be of a type compatible with uint64""",
'defined-type': "uint64",
'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="reserved", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)""",
})
self.__reserved = t
if hasattr(self, '_set'):
self._set()
|
[
"def reserved(self, reserved):\n\n self._reserved = reserved",
"def total_reserved(self):\n return reduce(lambda acc, alloc: acc + alloc.total_reserved(),\n self.sub_allocations.values(),\n self.reserved)",
"def get_reserved_quantity(self):\n return sum(self._get_contained_quants().mapped(\"reserved_quantity\"))",
"def reserve_count(self):\n return self._reserve_count",
"def isReserved(self):\n return self.status == Booking.reserved()",
"def reserved_volume_bytes(self, reserved_volume_bytes):\n\n self._reserved_volume_bytes = reserved_volume_bytes",
"def add_reserve(self):\r\n self._reserves += 1",
"def Reserved(self):\n return _snap.TStrV_Reserved(self)",
"def ex_list_reserved_nodes(self):\r\n params = {'Action': 'DescribeReservedInstances'}\r\n\r\n response = self.connection.request(self.path, params=params).object\r\n\r\n return self._to_reserved_nodes(response, 'reservedInstancesSet/item')",
"def _startElem_reserveNodes(self, name, attrs):\n self._startElem(name, attrs, \"Reserved\", \"reservation_id\")",
"def reserved_range(self) -> pulumi.Output[Optional[str]]:\n return pulumi.get(self, \"reserved_range\")",
"def r_get_reserved(self, k):\r\n return util.get_reserved(\r\n dict(\r\n _obj_key=self.r_obj_key(),\r\n _flags=self.r_flags(),\r\n _alerts=self.r_alert_objects(),\r\n _project_obj=self.r_project_obj(),\r\n _switch_keys=self.r_switch_keys(),\r\n ),\r\n k\r\n )",
"def reserve(self, unit):\n raise NotImplementedError",
"def test_is_reserved(self) -> None:\n staged_card = StagedCard({\"name\": \"test\", \"isReserved\": True})\n self.assertTrue(staged_card.is_reserved)",
"def remove_reserve(self):\r\n self._reserves -= 1",
"def set_indication_memory(self, stage):\n self._memory_usage_indications[stage].append(\n dict(psutil.virtual_memory()._asdict())\n )",
"def reserve(self, unit):\n self.nextstore.reserve(unit)\n \n # Usually we log ASAP, but here we log after\n # the unit has had a chance to get an auto ID.\n if self.logflags & logflags.RESERVE:\n self.log(logflags.RESERVE.message(unit))",
"def test_parse_nodes_pbs_detect_reserved(self):\n\n\t\tnode_data = [\t\"r5i6n25\",\n\t\t\t\t\t\t\" resv = R1009849.chadmin1\",\n\t\t\t\t\t\t\" resources_available.Qlist = system,special,ampsrt,capability,premium,regular,economy,standby,small,share\",\n\t\t\t\t\t\t\"r5i6n26\",\n\t\t\t\t\t\t\" resources_available.Qlist = system,special,ampsrt,capability,premium,regular,economy,standby,small,share\"\t]\n\n\t\tnodes, rstat = driver.parse_nodes_pbs(\"regular\", node_data)\n\n\t\tself.assertEqual(rstat, [True, False])",
"def test_parse_nodes_lsf_detect_reserved(self):\n\n\t\tnode_data = [\t\"ys0407-ib ok - 32 0 0 0 0 0\",\n\t\t\t\t\t\t\"ys2667-ib ok - 32 16 0 0 0 16\"\t]\n\n\t\tnodes, rstat = driver.parse_nodes_lsf(node_data, self.resv_data)\n\n\t\tself.assertEqual(rstat, [True, False])",
"def CanReserve(self):\n return self._self_state.num_reserved_cards < self._game_rules.max_reserved_cards"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/memory/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_memory_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_memory_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for index, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/index (union)
|
def _set_index(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=[RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'ALL': {}},),RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32),], is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='union', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """index must be of a type compatible with union""",
'defined-type': "openconfig-access-points:union",
'generated-type': """YANGDynClass(base=[RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'ALL': {}},),RestrictedClassType(base_type=long, restriction_dict={'range': ['0..4294967295']}, int_size=32),], is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='union', is_config=False)""",
})
self.__index = t
if hasattr(self, '_set'):
self._set()
|
[
"def index(self, state):\n return self.basis.index(state)",
"def index(self, state):\n try:\n idx = self.basis_lut[tuple(state)]\n return idx\n except:\n return -1",
"def state2idx(self, state: list) -> int:\n idx = 0\n N = 1\n for i in range(self.num_cofactor):\n idx += state[i] * N\n N *= (self.siteCapacity[i] + 1)\n \n return idx",
"def vertexIndex(*args, **kwargs):\n \n pass",
"def __getitem__(self, index): \n assert index<self.count, '%s io max!' % self.count\n return self.states[index]",
"def state_to_index(self, state):\n return self.inv_lookup_table.get(state)",
"def get_state_index(self, stateaction_index):\n return self.get_index_component(stateaction_index, self.state_space)",
"def stateindex(self, PS):\n try:\n return self.indexdict[PS][0]\n except:\n return None",
"def getColorIndex(arg1: 'SoState', num: 'int') -> \"int32_t\":\n return _coin.SoLazyElement_getColorIndex(arg1, num)",
"def getIndex(self, index: 'int const') -> \"int\":\n return _coin.SoPath_getIndex(self, index)",
"def index_of(self, name):\n\n info = self.info_of(name)\n return info[self.INDEX]",
"def uvIndices(*args, **kwargs):\n \n pass",
"def index_states(self, state, section, index=None):\r\n div_back, div_front = self._division_states(state, section)\r\n if (index is None):\r\n return div_front\r\n assert index < div_back - div_front, \"Error, index out of range\"\r\n if (index < 0):\r\n index = div_back - div_front + index\r\n return div_front + index",
"def flagIndex(*args, **kwargs):\n \n pass",
"def state_to_index(self, states):\n states = np.atleast_2d(states)\n self._check_dimensions(states)\n states = np.clip(states, self.limits[:, 0], self.limits[:, 1])\n states = (states - self.offset) * (1. / self.unit_maxes)\n ijk_index = np.rint(states).astype(np.int32)\n return np.ravel_multi_index(ijk_index.T, self.num_points)",
"def SoLazyElement_getColorIndex(arg2: 'SoState', num: 'int') -> \"int32_t\":\n return _coin.SoLazyElement_getColorIndex(arg2, num)",
"def get(index: 'int const', state: 'SoState') -> \"int32_t\":\n return _coin.SoInt32Element_get(index, state)",
"def getUVIndex(*args, **kwargs):\n \n pass",
"def index_to_state(self, n):\n return self.lookup_table[n]",
"def _set_index(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"index must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__index = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for total, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/total (container)
|
def _set_total(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_total_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_total, is_container='container', yang_name="total", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """total must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_total_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_total, is_container='container', yang_name="total", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__total = t
if hasattr(self, '_set'):
self._set()
|
[
"def cpu_total_load(self):\r\n if self._data is not None:\r\n return self._data[\"cpu_load\"]",
"def getCPUStats(self, total, flags=0):\n ret = libvirtmod.virDomainGetCPUStats(self._o, total, flags)\n if ret is None: raise libvirtError ('virDomainGetCPUStats() failed', dom=self)\n return ret",
"def total_node_count(self, total_node_count):\n\n self._total_node_count = total_node_count",
"def update_total(self, total: int) -> None:\n with self.lock:\n if self._total == 0 and total != 0:\n self.start_time = time.time()\n self._total = total\n if self.total_callback is not None:\n self.total_callback(self._total)",
"def total(self):\n return self.sum.value",
"def total_processing(self, total_processing):\n\n self._total_processing = total_processing",
"def _get_container_cpu_usage(self, container_data: List[Dict[str, Any]]) -> int:\n max_container_cpu: int = 0\n for c in container_data:\n if 'cpu' in c:\n max_container_cpu += cast(int, c['cpu'])\n return max_container_cpu",
"def CpuUsageTimer(self):\n (new_used, new_total) = self._ParseProcStat()\n total = new_total - self.cpu_total\n used = new_used - self.cpu_used\n if total == 0:\n self.cpu_usage = 0.0\n else:\n self.cpu_usage = (used / total) * 100.0\n self.cpu_total = new_total\n self.cpu_used = new_used",
"def _get_cpuunits_usage(self):\n try:\n out, err = utils.execute('sudo', 'vzcpucheck', '-v')\n if err:\n LOG.error(err)\n\n for line in out.splitlines():\n line = line.split()\n if len(line) > 0:\n if line[0] == 'Current':\n LOG.debug('Current usage of host: %s' % (line[3],))\n self.utility['TOTAL'] = int(line[3])\n elif line[0].isdigit():\n LOG.debug('Usage for CTID %s: %s' % (line[0], line[1]))\n self.utility['CTIDS'][line[0]] = line[1]\n\n except ProcessExecutionError as err:\n LOG.error(err)\n raise exception.Error('Problem getting cpuunits for host')\n\n return True",
"def total_node_count(self):\n return self._total_node_count",
"def total_used_space(self, total_used_space):\n\n self._total_used_space = total_used_space",
"def Total(n):\n return Static(workload.Total(n))",
"def total_cpus():\n return mp.cpu_count()",
"def total_pages(self, total_pages):\n if total_pages is None:\n raise ValueError(\"Invalid value for `total_pages`, must not be `None`\")\n self._total_pages = total_pages",
"def total(self) -> int:\n return self.total_hits",
"def get_vcpu_total():\n LOG.debug(_('Getting cpu count'))\n # On certain platforms, this will raise a NotImplementedError.\n try:\n cpu_count = multiprocessing.cpu_count()\n LOG.debug(_('Got cpu count: %s') % cpu_count)\n return cpu_count\n\n except NotImplementedError:\n LOG.warn(_(\"Cannot get the number of cpu, because this \"\n \"function is not implemented for this platform. \"\n \"This error can be safely ignored for now.\"))\n return 0",
"def total(self):\n total = 0.0 \n for vinylid in self.cart:\n total += self.get_price(vinylid) \n return total",
"def set_total_credits_used(self, total_credits_used):\n self.total_credits_used = total_credits_used",
"def test_get_total_allocatable_mem_cpu(self, setup_params):\n node_api_obj = setup_params[\"node_api_obj\"]\n total_allocatable_memory, total_allocatable_cpu = node_api_obj.get_total_allocatable_mem_cpu()\n if not total_allocatable_memory:\n assert False, \"Failed to get total allocatable memory from cluster\"\n assert isinstance(total_allocatable_memory, int)\n if not total_allocatable_cpu:\n assert False, \"Failed to get total allocatable cpu from cluster\"\n assert isinstance(total_allocatable_cpu, int)",
"def total_requests(self, total_requests):\n if self.local_vars_configuration.client_side_validation and total_requests is None: # noqa: E501\n raise ValueError(\"Invalid value for `total_requests`, must not be `None`\") # noqa: E501\n\n self._total_requests = total_requests"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for user, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/user (container)
|
def _set_user(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_user_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_user, is_container='container', yang_name="user", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """user must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_user_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_user, is_container='container', yang_name="user", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__user = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_user(self, user):\n self.user = user",
"def snmp_user(self, snmp_user):\n\n self._snmp_user = snmp_user",
"def cluster_user(self, cluster_user):\n\n self._cluster_user = cluster_user",
"def set_user(self, user: str = 'sdss', password: str = None) -> None:\n\n default_user = self._custom_config.get('default_username', None)\n default_pass = self._custom_config.get('default_userpass', None)\n user = default_user or user\n password = default_pass or password\n log.debug(f'Setting user {user}. '\n '{\"No password specified.\" if not password else \"Password specified.\"}')\n self.user = User(user)\n if not self.user.validated and user and password:\n self.user.validate_user(password)\n\n if not self.user.validated:\n raise BrainError(f'Could not validate default user {user}!')\n else:\n log.debug(f'Validated user {user}')\n\n if not self.user.validated:\n log.warning(f'User {user} is not validated. Check your netrc credentials '\n 'or validate your user with config.set_user(username, password)')",
"def user_id(self, user_id: ConfigNodePropertyString):\n\n self._user_id = user_id",
"def esp_user(self, esp_user):\n\n self._esp_user = esp_user",
"def current_user(self, user):\n self._current_user = user",
"def set_user_name(self, user_name): \n self.user_name = user_name",
"def set_auth_user(self, user):\n patcher = mock.patch('sndlatr.auth.get_current_user')\n self.get_user_mock = patcher.start()\n self.get_user_mock.return_value = user\n self.addCleanup(patcher.stop)",
"def name_user(self, user, name):\r\n\t\tuser.name = name\r\n\t\tself.usernames[name] = user",
"def update_user(self, user):\n return self.make_request(\"/users/{0}\".format(user['userName']), user, 'PUT')",
"def running_user(self, running_user):\n\n self._running_user = running_user",
"def modify_user(self, pycl_object=None, name=None, data=None,\n metadata=None, json_string=None):\n return self.user_manager.modify_object(\n pycl_object=pycl_object, name=name, data=data,\n metadata=metadata, json_string=json_string)",
"def cell_user_info(self, cell_user_info):\n\n self._cell_user_info = cell_user_info",
"def user_json(user):\n return {\n 'name': user.username,\n 'id': user.pk,\n 'on_clock': MissionClockEvent.user_on_clock(user),\n 'on_timeout': MissionClockEvent.user_on_timeout(user),\n 'in_air': TakeoffOrLandingEvent.user_in_air(user),\n 'active': UasTelemetry.user_active(user),\n }",
"def add(cls, user):\n cls.users[user['id']] = CachedUser(user)",
"def edit_user(self, user: User, attribute: dict[str, Any]) -> None:\n\t\tpass",
"def _get_cpu_util_user(self):\n return self.__cpu_util_user",
"def set_user_id(self,user_id):\n self.user_id = user_id",
"def user_lookup(self, user_lookup):\n\n self._user_lookup = user_lookup"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for kernel, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/kernel (container)
|
def _set_kernel(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_kernel_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_kernel, is_container='container', yang_name="kernel", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """kernel must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_kernel_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_kernel, is_container='container', yang_name="kernel", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__kernel = t
if hasattr(self, '_set'):
self._set()
|
[
"def updatekernel(self,kernel):\n self.GPkernel = kernel",
"def build_kernel(self):\n ...",
"def device_kernel(self, width, height, kernel_code=None):\n if kernel_code is None: # use default\n self.kernel_code = \"\"\"\n // add code here\n \"\"\"\n else:\n assert isinstance(kernel_code, str)\n self.kernel_code = kernel_code\n\n # get kernel_code\n # compile code\n template_code = self.kernel_code % {\n 'WIDTH': width,\n 'HEIGHT': height\n }\n #print(self.kernel_code)\n self.module = SourceModule(template_code)\n return self.module.get_function(\"sobel_edges\")",
"def get_kernel(self):\n return self.kernel",
"def definekernel():\n time_list, volt_list=importandseparate(10)\n time_sec=makenparray(time_list)\n volt_mV=makenparray(volt_list)\n volt_mV=removeDCoffset(volt_mV)\n kernel, kernel_size=createkernel(time_sec,volt_mV)\n return kernel, kernel_size",
"def _move_kernel_to_cpu(k):\n if hasattr(k, '_asdict'):\n return k._replace(\n **dict([(k, v) if isinstance(v, tuple) else\n (k, device_get(v)) for k, v in k._asdict().items()]))\n elif isinstance(k, np.ndarray):\n return device_get(k)\n else:\n raise TypeError(\n 'Expected kernel to be either a namedtuple or a `np.ndarray`, got %s.'\n % type(k)\n )",
"def _apply_kernel(self, nodes):\r\n out = dict()\r\n \r\n if self.is_multi_gpu:\r\n with tf.device('/cpu:0'): \r\n _ = self._kernel(self._fetch_image_nodes(nodes, 1), name='kernel') \r\n \r\n outs_cat = DefaultDict(list)\r\n outs_sum = DefaultDict(list) \r\n for i in range(self.p.nb_gpus): \r\n with tf.device('/gpu:%d'%i): \r\n inputs = self._fetch_image_nodes(nodes, i+1)\r\n outs_cat_now, outs_sum_now, outs_update = self._kernel(inputs, reuse=True, name='kernel')\r\n self._apply_kernel_callback(outs_cat_now, outs_sum_now, outs_update, 'gpu', i, reuse=True)\r\n outs_cat.append(outs_cat_now)\r\n outs_sum.append(outs_sum_now) \r\n if outs_update is not None: \r\n out.update(outs_update)\r\n else: \r\n outs_cat, outs_sum, outs_update = self._kernel(inputs, name='kernel')\r\n if outs_update is not None: \r\n out.update(outs_update)\r\n out.update(self._merge(outs_cat, outs_sum))\r\n return out",
"def _set_cpu(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"cpu must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__cpu = t\n if hasattr(self, '_set'):\n self._set()",
"def kernels(self) -> Sequence['outputs.ContainerImageResponse']:\n return pulumi.get(self, \"kernels\")",
"def set_kernel(self):\n self.train_error_kernel = GPy.kern.RBF(input_dim=\n len(self.candidates[0]),\n variance=self.kernel_var,\n lengthscale=1.0,\n ARD=True)\n\n self.test_error_kernel = GPy.kern.RBF(input_dim=\n len(self.candidates[0]),\n variance=self.kernel_var,\n lengthscale=1.0,\n ARD=True)\n\n self.exec_time_kernel = GPy.kern.RBF(input_dim=len(self.candidates[0]),\n variance=self.kernel_var,\n lengthscale=1.0,\n ARD=True)",
"def kernel(self):\n return self.measure.kernels[self]",
"def use_kernel(agent, id, d_in, d_out, set_size, input_shape=None, d_in2=None):\n log(\"get_kernel\", id, d_in, d_out, set_size)\n log(\"agent code spec\", agent.code_spec)\n name = make_uuid([id, \"kernel\"])\n n_layers = agent.pull_numbers(f\"{name}-n_layers\", MIN_LAYERS, MAX_LAYERS)\n model_type = agent.pull_choices(f\"{name}-model_type\", MODEL_OPTIONS)\n if set_size is None:\n set_size = agent.pull_choices(f\"{name}-set_size\", SET_OPTIONS)\n atom1 = K.Input((d_in, ))\n if set_size is -1:\n if input_shape is None:\n input_shape = (None, d_in)\n inputs = [K.Input(input_shape)]\n concat = inputs[0]\n elif set_size is 1:\n inputs = [atom1]\n concat = atom1\n elif set_size is 2:\n atom2 = K.Input((d_in, ))\n inputs = [atom1, atom2]\n d12 = L.Subtract()([atom1, atom2])\n concat = L.Concatenate(-1)([d12, atom1, atom2])\n elif set_size is 3:\n atom2 = K.Input((d_in, ))\n atom3 = K.Input((d_in, ))\n inputs = [atom1, atom2, atom3]\n d12 = L.Subtract()([atom1, atom2])\n d13 = L.Subtract()([atom1, atom3])\n concat = L.Concatenate(-1)([d12, d13, atom1, atom2, atom3])\n elif set_size is \"all_for_one\":\n atom1 = K.Input((d_in + 1, 1))\n inputs = [atom1]\n concat = atom1\n elif set_size is \"one_for_all\":\n code = K.Input((d_in2,))\n inputs = [atom1, code]\n concat = L.Concatenate(-1)([atom1, code])\n output = use_dense(agent, f\"{name}_0\")(concat)\n for i in range(n_layers - 1):\n output = use_dense(agent, f\"{name}_{i}\")(output)\n if \"wide\" in model_type:\n stuff_to_concat = inputs + [output]\n output = L.Concatenate(-1)(stuff_to_concat)\n output = use_dense(agent, f\"{name}_{n_layers}\", units=d_out)(output)\n name = f\"{name}_{n_layers}_{model_type}\"\n return K.Model(inputs, output, name=name)",
"def get_kernel(self, kernel_name):\n kp = self.kernel_managers.get(kernel_name)\n if not kp:\n kp = kernel_factory(kernel_name)\n initialize_kernel(kernel_name, kp)\n self.kernel_managers[kernel_name] = kp\n return kp",
"def _get_kernel_line(self):\n return ['-kernel',\n self.kernel_dir + '/' + self.kernel_image_name,\n '-append',\n ('init=' +\n self._get_full_path(self.kernel_init_params['init']) +\n ' console=tty0' +\n ' console=' + self.kernel_init_params['console'] +\n ' uts=' + self.vm_name +\n ' root=/dev/root' +\n self._get_root_flags() +\n ' ' + self.kernel_init_params['mode'] +\n ' rootfstype=' + self.kernel_init_params['rootfstype'] +\n ' ' + self._get_init_script_args())]",
"def set_kernels_array_and_get_oldest_kernel(self):\n \n linuxFlavor = self.host.cat_etc_issue()\n #Initialize kernels and oldest kernel from Array\n if linuxFlavor == \"redhat6\":\n kernels = rh6kernels\n oldestKernelFromArr = kernels[0]\n # convert into rigth format and store in the same variable\n oldestKernelFromArr = self.host.getKernelNoRpm(oldestKernelFromArr)\n elif linuxFlavor == \"redhat5\":\n kernels = rh5kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = self.host.getKernelNo86(oldestKernelFromArr)\n elif linuxFlavor == \"sles11sp1\":\n kernels = sles11sp1Kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = get_sles_kernel_from_rpm(oldestKernelFromArr)\n elif linuxFlavor == \"sles11sp2\":\n kernels = sles11sp2Kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = get_sles_kernel_from_rpm(oldestKernelFromArr)\n elif linuxFlavor == \"sles11\":\n kernels = sles11Kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = get_sles_kernel_from_rpm(oldestKernelFromArr)\n elif linuxFlavor == \"sles10sp4\":\n kernels = sles10sp4Kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = get_sles_kernel_from_rpm(oldestKernelFromArr)\n elif linuxFlavor == \"sles10sp3\":\n kernels = sles10sp3Kernels\n oldestKernelFromArr = kernels[0]\n oldestKernelFromArr = get_sles_kernel_from_rpm(oldestKernelFromArr)\n else:\n print \"ERR: Unsupported linux flavr '%s',please use it for RH5/RH6/sles only\"%linuxFlavor\n sys.exit(1)\n \n\tself.setArray = 1\n self.kernelsArray = kernels \n return oldestKernelFromArr",
"def generate_kernel(kernel, precisions, stockham_aot):\n\n args = [stockham_aot]\n # 2D single kernels always specify threads per transform\n if isinstance(kernel.length, list):\n args.append(','.join([str(f) for f in kernel.factors[0]]))\n args.append(','.join([str(f) for f in kernel.factors[1]]))\n args.append(','.join([str(f) for f in kernel.threads_per_transform]))\n else:\n args.append(','.join([str(f) for f in kernel.factors]))\n # 1D kernels might not, and need to default to 'uwide'\n threads_per_transform = getattr(kernel,'threads_per_transform', {\n 'uwide': kernel.length // min(kernel.factors),\n 'wide': kernel.length // max(kernel.factors),\n 'tall': 0,\n 'consolidated': 0\n }[getattr(kernel,'flavour', 'uwide')])\n args.append(str(threads_per_transform))\n\n # default half_lds to True only for CS_KERNEL_STOCKHAM\n half_lds = getattr(kernel, 'half_lds', kernel.scheme == 'CS_KERNEL_STOCKHAM')\n\n filename = kernel_file_name(kernel)\n\n args.append(str(kernel.threads_per_block))\n args.append(str(getattr(kernel, 'block_width', 0)))\n args.append('1' if half_lds else '0')\n args.append(kernel.scheme)\n args.append(filename)\n\n proc = subprocess.run(args=args, stdout=subprocess.PIPE, check=True)\n clang_format_file(filename)\n\n import json\n launchers = json.loads(proc.stdout.decode('ascii'))\n\n cpu_functions = []\n data = Variable('data_p', 'const void *')\n back = Variable('back_p', 'void *')\n for launcher_dict in launchers:\n launcher = NS(**launcher_dict)\n\n factors = launcher.factors\n length = launcher.lengths[0] if len(launcher.lengths) == 1 else (launcher.lengths[0], launcher.lengths[1])\n transforms_per_block = launcher.transforms_per_block\n threads_per_block = launcher.threads_per_block\n threads_per_transform = threads_per_block // transforms_per_block\n half_lds = launcher.half_lds\n scheme = launcher.scheme\n sbrc_type = launcher.sbrc_type\n sbrc_transpose_type = launcher.sbrc_transpose_type\n precision = 'dp' if launcher.double_precision else 'sp'\n runtime_compile = kernel.runtime_compile\n use_3steps_large_twd = getattr(kernel, '3steps', None)\n block_width = getattr(kernel, 'block_width', 0)\n\n params = LaunchParams(transforms_per_block, threads_per_block, threads_per_transform, half_lds)\n\n # make 2D list of threads_per_transform to populate FFTKernel\n tpt_list = kernel.threads_per_transform if scheme == 'CS_KERNEL_2D_SINGLE' else [threads_per_transform, 0]\n\n f = Function(name=launcher.name,\n arguments=ArgumentList(data, back),\n meta=NS(\n factors=factors,\n length=length,\n params=params,\n precision=precision,\n runtime_compile=runtime_compile,\n scheme=scheme,\n threads_per_block=threads_per_block,\n transforms_per_block=transforms_per_block,\n threads_per_transform=tpt_list,\n transpose=sbrc_transpose_type,\n use_3steps_large_twd=use_3steps_large_twd,\n block_width=block_width,\n ))\n\n cpu_functions.append(f)\n\n return cpu_functions",
"async def inner(kernel_name=NATIVE_KERNEL_NAME, **kwargs):\n km, kc = await start_new_async_kernel(kernel_name=kernel_name, **kwargs)\n kms.append(km)\n kcs.append(kc)\n return km, kc",
"def m_interrupt_kernel(self):\n self.log.info(\"Interrupt kernel in DS Kernel Launcher Daemon\")\n if self.kernel is not None:\n if sys.platform == \"win32\":\n self.log.debug(\"Interrupt kernel on Windows\")\n from vscode_datascience_helpers.win_interrupt import send_interrupt\n\n send_interrupt(self.kernel.win32_interrupt_event)\n else:\n self.log.debug(\"Interrupt kernel with SIGINT\")\n self.signal_kernel(signal.SIGINT)",
"def kernel(self) -> lp.LoopKernel:\n if isinstance(self._program, lp.LoopKernel):\n return self._program\n else:\n return self._program[\"_pt_kernel\"]",
"def _request_kernel_info(self):\n self.log.debug(\"requesting kernel info\")\n self.session.send(self.kernel_info_channel, \"kernel_info_request\")"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for nice, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/nice (container)
|
def _get_nice(self):
return self.__nice
|
[
"def _get_cpu_util_iowait(self):\n return self.__cpu_util_iowait",
"def _inspect_cpu(self, insp, inst, instance_cache, metric_cache, dims_customer, dims_operations):\n\n inst_name = inst.name()\n sample_time = float(\"{:9f}\".format(time.time()))\n if 'cpu.time' in metric_cache[inst_name]:\n # I have a prior value, so calculate the rate & push the metric\n cpu_diff = insp.inspect_cpus(inst).time - metric_cache[inst_name]['cpu.time']['value']\n time_diff = sample_time - float(metric_cache[inst_name]['cpu.time']['timestamp'])\n # Convert time_diff to nanoseconds, and calculate percentage\n rate = (cpu_diff / (time_diff * 1000000000)) * 100\n if rate < 0:\n # Bad value, save current reading and skip\n self.log.warn(\"Ignoring negative CPU sample for: \"\n \"{0} new cpu time: {1} old cpu time: {2}\"\n .format(inst_name, insp.inspect_cpus(inst).time,\n metric_cache[inst_name]['cpu.time']['value']))\n metric_cache[inst_name]['cpu.time'] = {'timestamp': sample_time,\n 'value': insp.inspect_cpus(inst).time}\n return\n\n self.gauge('cpu.utilization_perc', int(round(rate, 0)),\n dimensions=dims_customer,\n delegated_tenant=instance_cache.get(inst_name)['tenant_id'],\n hostname=instance_cache.get(inst_name)['hostname'])\n self.gauge('vm.cpu.utilization_perc', int(round(rate, 0)),\n dimensions=dims_operations)\n\n metric_cache[inst_name]['cpu.time'] = {'timestamp': sample_time,\n 'value': insp.inspect_cpus(inst).time}",
"def get_network_counters(args={}):\n res = {}\n\n if args.get('net_io_counters', False):\n res['net_io_counters'] = to_dict(psutil.net_io_counters(pernic=pernic))\n\n return res",
"def _get_container_cpu_usage(self, container_data: List[Dict[str, Any]]) -> int:\n max_container_cpu: int = 0\n for c in container_data:\n if 'cpu' in c:\n max_container_cpu += cast(int, c['cpu'])\n return max_container_cpu",
"def get_cpu_status(self, cpu):\n if not isinstance(cpu, baseinteger):\n raise TypeError(\"cpu can only be an instance of type baseinteger\")\n attached = self._call(\"getCPUStatus\",\n in_p=[cpu])\n return attached",
"def get_cpu_counters(args={}):\n res = {}\n\n interval = args.get('cpu_interval', CPU_INTERVAL_S)\n percpu = args.get('percpu', False)\n \n res['cpu_percent'] = psutil.cpu_percent(interval=interval, percpu=percpu)\n\n # Convert Unix style CPU utilization to task manager style\n if percpu is False:\n num_cpus = psutil.cpu_count(logical=False)\n res['cpu_percent'] /= num_cpus\n\n if args.get('cpu_times', False):\n res['cpu_times'] = to_dict(psutil.cpu_times(percpu=percpu))\n\n if args.get('cpu_stats', False):\n res['cpu_stats'] = to_dict(psutil.cpu_stats())\n \n return res",
"def _set_cpu(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"cpu must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__cpu = t\n if hasattr(self, '_set'):\n self._set()",
"def get_cpu_usage():\n return psutil.cpu_percent()",
"def _get_online_cpus():\n def parse_int_list(list_string):\n \"\"\"Returns an int list from a string of comma separated integers and\n integer ranges.\"\"\"\n integers = []\n members = list_string.split(',')\n\n for member in members:\n if '-' not in member:\n integers.append(int(member))\n else:\n int_range = member.split('-')\n integers.extend(range(int(int_range[0]),\n int(int_range[1]) + 1))\n\n return integers\n\n with open('/sys/devices/system/cpu/online') as cpu_list:\n cpu_string = cpu_list.readline()\n return parse_int_list(cpu_string)",
"def test_get_cpu_state(self):\n self.client.get_cpu_state()",
"def GetCpuState(self):\n stats = {}\n for cpu in self._cpus:\n cpu_idle_path = os.path.join(CPU_PATH, cpu, 'cpuidle')\n if not self._platform.PathExists(cpu_idle_path):\n logging.warning(\n 'Cannot read cpu c-state residency times for %s due to %s not exist'\n % (cpu, cpu_idle_path))\n continue\n cpu_state_path = os.path.join(cpu_idle_path, 'state*')\n output = self._platform.RunCommand(\n 'cat %s %s %s; date +%%s' % (\n os.path.join(cpu_state_path, 'name'),\n os.path.join(cpu_state_path, 'time'),\n os.path.join(cpu_state_path, 'latency')))\n stats[cpu] = re.sub('\\n\\n+', '\\n', output)\n return stats",
"def get_cpu_cooler(cpu_cooler_id):\n cpu_cooler_query = cpu_cooler.get_cpu_cooler(cpu_cooler_id)\n if not cpu_cooler_query:\n return custom_response({'error': 'cpu_cooler not found'}, 404)\n \n data = cpu_cooler_schema.dump(cpu_cooler_query)\n return custom_response(data, 200)",
"def fetch_cpu_vals(self):\n\t\treturn psutil.cpu_percent(interval=0.075, percpu=True)",
"def check_cpu(snmp, model, args):\n\n cpu_usage = get_snmp_value(snmp, CPU_OIDS[model])\n\n if model == 'powerconnect':\n # SNMP returns such ugly string\n # 5 Secs ( 18.74%) 60 Secs ( 17.84%) 300 Secs ( 18.12%)\n m = re.search('60 Secs \\( *([0-9]+)[0-9\\.]*%\\)', cpu_usage)\n cpu_usage = int(m.group(1))\n if model == 'edgeswitch':\n # SNMP returns such ugly string\n # 5 Sec ( 0.00%) 60 Sec ( 0.12%) 300 Sec ( 0.13%)\n m = re.search('60 Sec \\( *([0-9]+)\\.[0-9]+%\\)', cpu_usage)\n cpu_usage = int(m.group(1))\n elif model == 'cumulus':\n # The value is percent idle\n cpu_usage = 100 - cpu_usage\n else:\n cpu_usage = int(cpu_usage)\n\n outmsg = 'CPU usage is {}%'.format(cpu_usage)\n\n if cpu_usage > args.critical:\n return 2, outmsg\n\n if cpu_usage > args.warning:\n return 1, outmsg\n\n return 0, outmsg",
"def top_nodes():\n\n node_lines = \"\"\n while node_lines == \"\":\n try:\n node_lines = subprocess.check_output(\n [\"kubectl\", \"top\", \"nodes\", \"--no-headers\"]\n ).split()\n except subprocess.CalledProcessError as e:\n print(e.output)\n print(\"Reattempting retrieving node cpu and memory\")\n\n messages = prometheus_query(\"avg(rate(bps_messages_total[1m]))\")\n length = len(node_lines)\n\n cpu = memory = 0\n for index in range(0, length, 5):\n cpu += float(node_lines[index + 2][:-1])\n memory += float(node_lines[index + 4][:-1])\n\n length /= 5\n return (cpu / length, memory / length, messages)",
"def _collect_container(self, container):\n mystats = self.threads[container.short_id]\n c = self.containers[container.short_id]\n while True:\n if container.short_id not in self.threads:\n break\n try:\n first_run = True\n generator = container.stats(decode=True, stream=True)\n for stats in generator:\n if container.short_id not in self.threads:\n break\n if first_run:\n first_run = False\n continue\n\n cpu_percent = None\n cpu_stats = stats['cpu_stats']\n precpu_stats = stats['precpu_stats']\n if 'system_cpu_usage' in cpu_stats and 'system_cpu_usage' in precpu_stats:\n cpu_usage = cpu_stats['cpu_usage']\n precpu_usage = precpu_stats['cpu_usage']\n system_delta = float(cpu_stats['system_cpu_usage']) - float(precpu_stats['system_cpu_usage'])\n cpu_delta = float(cpu_usage['total_usage']) - float(precpu_usage['total_usage'])\n if system_delta > 0.0 and cpu_delta > 0.0:\n cpu_percent = round((cpu_delta / system_delta) * float(len(cpu_usage['percpu_usage'])), 2)\n\n if cpu_percent:\n c['cores'] = cpu_percent\n mystats['cores'] = cpu_percent\n\n memory = stats['memory_stats'].get('usage', None)\n if memory:\n memory = int(memory)\n c['memory'] = memory\n mystats['memory'] = memory\n except docker.errors.NotFound:\n self.logger.debug(\"Container %s is gone?\" % container.short_id)\n except docker.errors.APIError as e:\n self.logger.debug(\"Docker exception %s : %s\" % (container.short_id, e.explanation))\n except requests.exceptions.ReadTimeout:\n self.logger.debug(\"Timeout getting stats for %s\" % container.short_id)\n except requests.exceptions.ConnectionError:\n self.logger.debug(\"Connection error getting stats for %s\" % container.short_id)\n except requests.packages.urllib3.exceptions.ReadTimeoutError:\n self.logger.debug(\"Connection error getting stats for %s\" % container.short_id)\n except: # pylint: disable=broad-except\n self.logger.exception(\"Error collecting stats for %s\" % container.short_id)\n\n time.sleep(self.timeouts['stats'])",
"def _get_cpuunits_usage(self):\n try:\n out, err = utils.execute('sudo', 'vzcpucheck', '-v')\n if err:\n LOG.error(err)\n\n for line in out.splitlines():\n line = line.split()\n if len(line) > 0:\n if line[0] == 'Current':\n LOG.debug('Current usage of host: %s' % (line[3],))\n self.utility['TOTAL'] = int(line[3])\n elif line[0].isdigit():\n LOG.debug('Usage for CTID %s: %s' % (line[0], line[1]))\n self.utility['CTIDS'][line[0]] = line[1]\n\n except ProcessExecutionError as err:\n LOG.error(err)\n raise exception.Error('Problem getting cpuunits for host')\n\n return True",
"def node_network_profile(self) -> pulumi.Output[Optional['outputs.KubernetesClusterNodePoolNodeNetworkProfile']]:\n return pulumi.get(self, \"node_network_profile\")",
"async def get_task_cpu_profile(self, req) -> aiohttp.web.Response:\n if \"task_id\" not in req.query:\n raise ValueError(\"task_id is required\")\n if \"attempt_number\" not in req.query:\n raise ValueError(\"task's attempt number is required\")\n if \"node_id\" not in req.query:\n raise ValueError(\"node_id is required\")\n\n task_id = req.query.get(\"task_id\")\n attempt_number = req.query.get(\"attempt_number\")\n node_id = req.query.get(\"node_id\")\n\n ip = DataSource.node_id_to_ip[node_id]\n\n duration = int(req.query.get(\"duration\", 5))\n if duration > 60:\n raise ValueError(f\"The max duration allowed is 60: {duration}.\")\n format = req.query.get(\"format\", \"flamegraph\")\n\n # Default not using `--native` for profiling\n native = req.query.get(\"native\", False) == \"1\"\n reporter_stub = self._stubs[ip]\n\n try:\n (pid, _) = await self.get_worker_details_for_running_task(\n task_id, attempt_number\n )\n except ValueError as e:\n raise aiohttp.web.HTTPInternalServerError(text=str(e))\n\n logger.info(\n \"Sending CPU profiling request to {}:{} for {} with native={}\".format(\n ip, pid, task_id, native\n )\n )\n\n reply = await reporter_stub.CpuProfiling(\n reporter_pb2.CpuProfilingRequest(\n pid=pid, duration=duration, format=format, native=native\n )\n )\n\n \"\"\"\n In order to truly confirm whether there are any other tasks\n running during the profiling, we need to retrieve all tasks\n that are currently running or have finished, and then parse\n the task events (i.e., their start and finish times) to check\n for any potential overlap. However, this process can be quite\n extensive, so here we will make our best efforts to check\n for any overlapping tasks. Therefore, we will check if\n the task is still running\n \"\"\"\n try:\n (_, worker_id) = await self.get_worker_details_for_running_task(\n task_id, attempt_number\n )\n except ValueError as e:\n raise aiohttp.web.HTTPInternalServerError(text=str(e))\n\n if not reply.success:\n return aiohttp.web.HTTPInternalServerError(text=reply.output)\n logger.info(\"Returning profiling response, size {}\".format(len(reply.output)))\n\n task_ids_in_a_worker = await self.get_task_ids_running_in_a_worker(worker_id)\n return aiohttp.web.Response(\n body='<p style=\"color: #E37400;\">{} {} </br> </p> </br>'.format(\n EMOJI_WARNING,\n WARNING_FOR_MULTI_TASK_IN_A_WORKER + str(task_ids_in_a_worker),\n )\n + SVG_STYLE\n + (reply.output)\n if len(task_ids_in_a_worker) > 1\n else SVG_STYLE + reply.output,\n headers={\"Content-Type\": \"text/html\"},\n )",
"def get_cpu_reservation(self, session, vmname):\n command = f'cat vmfs/volumes/{vmUtil.get_datastore(session, vmname)}/{vmname}/{vmname}.vmx | grep sched.cpu.min -i'\n stdin, stdout, stderr = session.exec_command(command)\n r = stdout.read().decode()\n mod = {}\n if r:\n mod['command'] = command\n mod['out'] = r\n else:\n mod['command'] = command\n mod['out'] = ''\n return mod"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for nice, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/nice (container)
|
def _set_nice(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_nice_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_nice, is_container='container', yang_name="nice", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """nice must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_nice_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_nice, is_container='container', yang_name="nice", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__nice = t
if hasattr(self, '_set'):
self._set()
|
[
"def _get_cpu_util_iowait(self):\n return self.__cpu_util_iowait",
"def _set_cpu(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"cpu must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__cpu = t\n if hasattr(self, '_set'):\n self._set()",
"def _inspect_cpu(self, insp, inst, instance_cache, metric_cache, dims_customer, dims_operations):\n\n inst_name = inst.name()\n sample_time = float(\"{:9f}\".format(time.time()))\n if 'cpu.time' in metric_cache[inst_name]:\n # I have a prior value, so calculate the rate & push the metric\n cpu_diff = insp.inspect_cpus(inst).time - metric_cache[inst_name]['cpu.time']['value']\n time_diff = sample_time - float(metric_cache[inst_name]['cpu.time']['timestamp'])\n # Convert time_diff to nanoseconds, and calculate percentage\n rate = (cpu_diff / (time_diff * 1000000000)) * 100\n if rate < 0:\n # Bad value, save current reading and skip\n self.log.warn(\"Ignoring negative CPU sample for: \"\n \"{0} new cpu time: {1} old cpu time: {2}\"\n .format(inst_name, insp.inspect_cpus(inst).time,\n metric_cache[inst_name]['cpu.time']['value']))\n metric_cache[inst_name]['cpu.time'] = {'timestamp': sample_time,\n 'value': insp.inspect_cpus(inst).time}\n return\n\n self.gauge('cpu.utilization_perc', int(round(rate, 0)),\n dimensions=dims_customer,\n delegated_tenant=instance_cache.get(inst_name)['tenant_id'],\n hostname=instance_cache.get(inst_name)['hostname'])\n self.gauge('vm.cpu.utilization_perc', int(round(rate, 0)),\n dimensions=dims_operations)\n\n metric_cache[inst_name]['cpu.time'] = {'timestamp': sample_time,\n 'value': insp.inspect_cpus(inst).time}",
"def CpuUsageTimer(self):\n (new_used, new_total) = self._ParseProcStat()\n total = new_total - self.cpu_total\n used = new_used - self.cpu_used\n if total == 0:\n self.cpu_usage = 0.0\n else:\n self.cpu_usage = (used / total) * 100.0\n self.cpu_total = new_total\n self.cpu_used = new_used",
"def _set_nssa(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"nssa must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__nssa = t\n if hasattr(self, '_set'):\n self._set()",
"def get_network_counters(args={}):\n res = {}\n\n if args.get('net_io_counters', False):\n res['net_io_counters'] = to_dict(psutil.net_io_counters(pernic=pernic))\n\n return res",
"def _set_counters(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_counters_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state_counters, is_container='container', yang_name=\"counters\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"counters must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_counters_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state_counters, is_container='container', yang_name=\"counters\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__counters = t\n if hasattr(self, '_set'):\n self._set()",
"def check_cpu(snmp, model, args):\n\n cpu_usage = get_snmp_value(snmp, CPU_OIDS[model])\n\n if model == 'powerconnect':\n # SNMP returns such ugly string\n # 5 Secs ( 18.74%) 60 Secs ( 17.84%) 300 Secs ( 18.12%)\n m = re.search('60 Secs \\( *([0-9]+)[0-9\\.]*%\\)', cpu_usage)\n cpu_usage = int(m.group(1))\n if model == 'edgeswitch':\n # SNMP returns such ugly string\n # 5 Sec ( 0.00%) 60 Sec ( 0.12%) 300 Sec ( 0.13%)\n m = re.search('60 Sec \\( *([0-9]+)\\.[0-9]+%\\)', cpu_usage)\n cpu_usage = int(m.group(1))\n elif model == 'cumulus':\n # The value is percent idle\n cpu_usage = 100 - cpu_usage\n else:\n cpu_usage = int(cpu_usage)\n\n outmsg = 'CPU usage is {}%'.format(cpu_usage)\n\n if cpu_usage > args.critical:\n return 2, outmsg\n\n if cpu_usage > args.warning:\n return 1, outmsg\n\n return 0, outmsg",
"def _get_online_cpus():\n def parse_int_list(list_string):\n \"\"\"Returns an int list from a string of comma separated integers and\n integer ranges.\"\"\"\n integers = []\n members = list_string.split(',')\n\n for member in members:\n if '-' not in member:\n integers.append(int(member))\n else:\n int_range = member.split('-')\n integers.extend(range(int(int_range[0]),\n int(int_range[1]) + 1))\n\n return integers\n\n with open('/sys/devices/system/cpu/online') as cpu_list:\n cpu_string = cpu_list.readline()\n return parse_int_list(cpu_string)",
"def change_pv_value(pvname, value):\n container = False\n client = docker.from_env()\n for item in client.containers.list():\n if \"_ioc_1\" in item.name:\n container = item\n break\n if not container:\n raise Exception(\"IOC Container not found\")\n exit_code, output = container.exec_run(\n \"caput {} {}\".format(pvname, value), privileged=True\n )\n assert exit_code == 0\n print(\"Updating PV value using caput: \")\n print(output.decode(\"utf-8\"), flush=True)",
"def _set_cpuunits(self, instance, units=None):\n if not units:\n LOG.debug(\"Reported cpuunits %s\" % self.utility['UNITS'])\n LOG.debug(\"Reported percent of resource: %s\" %\n self._percent_of_resource(instance))\n units = int(self.utility['UNITS'] *\n self._percent_of_resource(instance))\n # TODO(imsplitbit): This needs to be adjusted to not allow\n # subscription of more than available cpuunits. For now we\n # won't let the obvious case of a container getting more than\n # the maximum cpuunits for the host.\n if units > self.utility['UNITS']:\n units = self.utility['UNITS']\n\n try:\n _, err = utils.execute('sudo', 'vzctl', 'set', instance['id'],\n '--save', '--cpuunits', units)\n if err:\n LOG.error(err)\n except ProcessExecutionError as err:\n LOG.error(err)\n raise exception.Error('Cannot set cpuunits for %s' %\n (instance['id'],))",
"def get_cpu_counters(args={}):\n res = {}\n\n interval = args.get('cpu_interval', CPU_INTERVAL_S)\n percpu = args.get('percpu', False)\n \n res['cpu_percent'] = psutil.cpu_percent(interval=interval, percpu=percpu)\n\n # Convert Unix style CPU utilization to task manager style\n if percpu is False:\n num_cpus = psutil.cpu_count(logical=False)\n res['cpu_percent'] /= num_cpus\n\n if args.get('cpu_times', False):\n res['cpu_times'] = to_dict(psutil.cpu_times(percpu=percpu))\n\n if args.get('cpu_stats', False):\n res['cpu_stats'] = to_dict(psutil.cpu_stats())\n \n return res",
"def setCpuInfo(self, info, cacheStatus):\n requesterId = self.air.getAvatarIdFromSender()\n\n self.notify.info('client-cpu %s|%s' % (requesterId, info))\n self.air.writeServerEvent('client-cpu', requesterId, info)\n # We call this cacheStatus, but really it's the mac address or\n # other client fingerprint information, in a simple\n # obfuscating cipher. Decode it.\n key = 'outrageous'\n p = 0\n fingerprint = ''\n for ch in cacheStatus:\n ic = ord(ch) ^ ord(key[p])\n p += 1\n if p >= len(key):\n p = 0\n fingerprint += chr(ic)\n\n self.notify.info('client-fingerprint %s|%s' % (requesterId, fingerprint))\n self.air.writeServerEvent('client-fingerprint', requesterId, fingerprint)\n if hasattr(self.air, 'cpuInfoMgr'):\n self.air.cpuInfoMgr.sendCpuInfoToUd(info, fingerprint)",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_counters(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_counters_openconfig_spanning_tree__stp_rstp_interfaces_interface_state_counters, is_container='container', yang_name=\"counters\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"counters must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_counters_openconfig_spanning_tree__stp_rstp_interfaces_interface_state_counters, is_container='container', yang_name=\"counters\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__counters = t\n if hasattr(self, '_set'):\n self._set()",
"def _get_container_cpu_usage(self, container_data: List[Dict[str, Any]]) -> int:\n max_container_cpu: int = 0\n for c in container_data:\n if 'cpu' in c:\n max_container_cpu += cast(int, c['cpu'])\n return max_container_cpu",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def cpu_usage(self, cpu_usage):\n if self.local_vars_configuration.client_side_validation and cpu_usage is None: # noqa: E501\n raise ValueError(\"Invalid value for `cpu_usage`, must not be `None`\") # noqa: E501\n\n self._cpu_usage = cpu_usage",
"def add_cpu_usage(self, cpu_usage):\n self.cpu_metrics = {\"number\": cpu_usage}",
"def get_cpu_status(self, cpu):\n if not isinstance(cpu, baseinteger):\n raise TypeError(\"cpu can only be an instance of type baseinteger\")\n attached = self._call(\"getCPUStatus\",\n in_p=[cpu])\n return attached"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for idle, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/idle (container)
|
def _get_idle(self):
return self.__idle
|
[
"def idle(self):\n self._change_state(\"idle\")",
"def disable_idle_states(self):\n logger = self.logger\n logger.info('Disabling idle states for all domains')\n\n try:\n cpuidle = self.cpuidle\n except AttributeError:\n logger.warning('Could not disable idle states, cpuidle devlib module is not loaded')\n cm = nullcontext\n else:\n @destroyablecontextmanager\n def cm():\n try:\n for cpu in range(self.plat_info['cpus-count']):\n cpuidle.disable_all(cpu)\n yield\n except ContextManagerExit:\n logger.info('Re-enabling idle states for all domains')\n for cpu in range(self.plat_info['cpus-count']):\n cpuidle.enable_all(cpu)\n\n return cm()",
"def is_idle(self):\n pass",
"def idle_time(self, idle_time):\n \n self._idle_time = idle_time",
"def to_idle(self):\r\n\r\n\t\tself.__send_extended_byte_array(self.MODE_IDLE, [])",
"def get_idle_time(self) -> float:\n raise NotImplementedError()",
"def dispatch_idle(self):\n lib.wl_event_loop_dispatch_idle(self._ptr)",
"def idle_check():\n pass",
"def set_to_idle(self):\n # Create a MPI packet object\n mpi_packet = MPI()\n mpi_packet.descriptor = MPI.MPI_BASE_CMD_DESCRIPTOR\n \n # Set to idle payload\n field_len = 0x02\n field_desc = 0x02\n mpi_packet.payload = [field_len, field_desc]\n\n # Payload length \n mpi_packet.payload_len = len(mpi_packet.payload)\n \n # Build imu ping command in bytes\n command = mpi_packet.build()\n \n # Send byte packet to microstrain imu \n self.ser.write(command)\n \n # Read output from the imu adter sleeping for 2 ms\n sleep(0.002)\n reply = self.ser.read(10)\n \n if reply[7] == \"\\x00\":\n print \" IMU placed in idle mode.\"\n else:\n print \" Command unsuccessful\"\n err = '0x' + reply[7].encode('hex')\n print \" Error Code : \", err\n print \" Error Message : \", MPI.MPI_ACK_NACK_ERROR[err]\n \n return",
"def slotIdlepc(self):\n\n items = self.__topology.selectedItems()\n if len(items) != 1:\n QtGui.QMessageBox.critical(globals.GApp.mainWindow, translate(\"Scene\", \"IDLE PC\"), translate(\"Scene\", \"Please select only one router\"))\n return\n router = items[0]\n assert(isinstance(router, IOSRouter))\n\n try:\n if globals.GApp.dynagen.devices[router.hostname].idlepc != None:\n reply = QtGui.QMessageBox.question(globals.GApp.mainWindow,translate(\"Scene\", \"IDLE PC\"),\n unicode(translate(\"Scene\", \"%s already has an idlepc value applied, do you want to calculate a new one?\")) % router.hostname,\n QtGui.QMessageBox.Yes, QtGui.QMessageBox.No)\n if reply == QtGui.QMessageBox.Yes:\n # reset idlepc\n lib.send(globals.GApp.dynagen.devices[router.hostname].dynamips, 'vm set_idle_pc_online %s 0 %s' % (router.hostname, '0x0'))\n result = self.calculateIDLEPC(router)\n else:\n result = globals.GApp.dynagen.devices[router.hostname].idleprop(lib.IDLEPROPSHOW)\n else:\n result = self.calculateIDLEPC(router)\n except lib.DynamipsError, msg:\n QtGui.QMessageBox.critical(self, translate(\"Scene\", \"Dynamips error\"), unicode(msg))\n return\n\n # remove the '100-OK' line\n result.pop()\n\n idles = {}\n options = []\n i = 1\n for line in result:\n (value, count) = line.split()[1:]\n\n # Flag potentially \"best\" idlepc values (between 50 and 60)\n iCount = int(count[1:-1])\n if 50 < iCount < 60:\n flag = '*'\n else:\n flag = ' '\n\n option = \"%s %i: %s %s\" % (flag, i, value, count)\n options.append(option)\n idles[i] = value\n i += 1\n\n if len(idles) == 0:\n QtGui.QMessageBox.critical(globals.GApp.mainWindow, translate(\"Scene\", \"IDLE PC\"), translate(\"Scene\", \"No idlepc values found\"))\n return\n\n idlepcdiag = IDLEPCDialog(router, idles, options)\n idlepcdiag.show()\n idlepcdiag.exec_()",
"def kick_idle():\n #. TODO: clean reconnecnt sessions \n for player in status.PLAYERS.values():\n if player.idle() > status.IDLE_TIMEOUT:\n print('-- Kicking idle lobby client from %s' % player.addrport())\n player.send('Idle timeout, see you next time!\\n')\n SCHEDULER.add(.2, player.deactivate)",
"def check_if_idle():\n ld = sorted_ls(PICFOLDER)\n if len(ld) > 0:\n \n modtime = os.path.getctime(os.path.join(PICFOLDER, ld[-1]))\n else:\n\n modtime = os.path.getctime(PICFOLDER)\n \n\n idle_flag =time.time()-modtime > MIN_IDLE_TIME_BEFORE_UPLOAD\n \n logger.debug(\"Checking if system is idle\")\n\n take_shot_lock = lockfile.FileLock('take_shot')\n\n if idle_flag and (not take_shot_lock.is_locked()):\n\n logger.debug(\"System is idle\")\n \n return True\n\n else:\n\n logger.debug(\"System is not idle\")\n \n return False",
"def _on_idle(self, **kwargs):\n del kwargs\n self.machine.events.post(\"spinner_{}_idle\".format(self.name), hits=self.hits)\n '''event: spinner_(name)_idle\n desc: The spinner (name) is now idle\n\n This event will post whenever a spinner has not received hits and\n its idle_ms has timed out. If no idle_ms is defined, this event\n will not post.\n\n args:\n hits: The number of switch hits the spinner had while it was active\n '''\n self.hits = 0\n self._idle = True",
"def wait_for_idle(self):\n pass # do nothing by deafault\n # TODO: implement wait_for_idle for backend=\"uia\"",
"def kick_idle():\n ## Who hasn't been typing?\n for client in CLIENT_LIST:\n if client.idle() > IDLE_TIMEOUT:\n print('-- Kicking idle client from %s' % client.addrport())\n broadcast(\"^YKicked ^R%s's ^Yass out for being idle too long!\\n^d\" % client.addrport())\n client.active = False",
"def in_idle():\n ...",
"def idle_radio(idle: bool, /) -> None:\n ...",
"def on_idle(self, *args):",
"def set_idle_mode(self, mode):\r\n\r\n\t\tassert self.IDLE_NONE <= mode <= self.IDLE_MSG, \"Invalid idle mode\"\r\n\t\tself.__send_extended_byte_array(self.MODE_SET_IDLE_TYPE, [mode])",
"def object_idle_time(self, key):\n return self._execute([b'OBJECT', b'IDLETIME', key])"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for idle, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/idle (container)
|
def _set_idle(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_idle_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_idle, is_container='container', yang_name="idle", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """idle must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_idle_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_idle, is_container='container', yang_name="idle", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__idle = t
if hasattr(self, '_set'):
self._set()
|
[
"def idle(self):\n self._change_state(\"idle\")",
"def idle_time(self, idle_time):\n \n self._idle_time = idle_time",
"def to_idle(self):\r\n\r\n\t\tself.__send_extended_byte_array(self.MODE_IDLE, [])",
"def set_idle_mode(self, mode):\r\n\r\n\t\tassert self.IDLE_NONE <= mode <= self.IDLE_MSG, \"Invalid idle mode\"\r\n\t\tself.__send_extended_byte_array(self.MODE_SET_IDLE_TYPE, [mode])",
"def disable_idle_states(self):\n logger = self.logger\n logger.info('Disabling idle states for all domains')\n\n try:\n cpuidle = self.cpuidle\n except AttributeError:\n logger.warning('Could not disable idle states, cpuidle devlib module is not loaded')\n cm = nullcontext\n else:\n @destroyablecontextmanager\n def cm():\n try:\n for cpu in range(self.plat_info['cpus-count']):\n cpuidle.disable_all(cpu)\n yield\n except ContextManagerExit:\n logger.info('Re-enabling idle states for all domains')\n for cpu in range(self.plat_info['cpus-count']):\n cpuidle.enable_all(cpu)\n\n return cm()",
"def set_to_idle(self):\n # Create a MPI packet object\n mpi_packet = MPI()\n mpi_packet.descriptor = MPI.MPI_BASE_CMD_DESCRIPTOR\n \n # Set to idle payload\n field_len = 0x02\n field_desc = 0x02\n mpi_packet.payload = [field_len, field_desc]\n\n # Payload length \n mpi_packet.payload_len = len(mpi_packet.payload)\n \n # Build imu ping command in bytes\n command = mpi_packet.build()\n \n # Send byte packet to microstrain imu \n self.ser.write(command)\n \n # Read output from the imu adter sleeping for 2 ms\n sleep(0.002)\n reply = self.ser.read(10)\n \n if reply[7] == \"\\x00\":\n print \" IMU placed in idle mode.\"\n else:\n print \" Command unsuccessful\"\n err = '0x' + reply[7].encode('hex')\n print \" Error Code : \", err\n print \" Error Message : \", MPI.MPI_ACK_NACK_ERROR[err]\n \n return",
"def is_idle(self):\n pass",
"def dispatch_idle(self):\n lib.wl_event_loop_dispatch_idle(self._ptr)",
"def _on_idle(self, **kwargs):\n del kwargs\n self.machine.events.post(\"spinner_{}_idle\".format(self.name), hits=self.hits)\n '''event: spinner_(name)_idle\n desc: The spinner (name) is now idle\n\n This event will post whenever a spinner has not received hits and\n its idle_ms has timed out. If no idle_ms is defined, this event\n will not post.\n\n args:\n hits: The number of switch hits the spinner had while it was active\n '''\n self.hits = 0\n self._idle = True",
"def kick_idle():\n #. TODO: clean reconnecnt sessions \n for player in status.PLAYERS.values():\n if player.idle() > status.IDLE_TIMEOUT:\n print('-- Kicking idle lobby client from %s' % player.addrport())\n player.send('Idle timeout, see you next time!\\n')\n SCHEDULER.add(.2, player.deactivate)",
"def on_idle(self, *args):",
"def wait_for_idle(self):\n pass # do nothing by deafault\n # TODO: implement wait_for_idle for backend=\"uia\"",
"def slotIdlepc(self):\n\n items = self.__topology.selectedItems()\n if len(items) != 1:\n QtGui.QMessageBox.critical(globals.GApp.mainWindow, translate(\"Scene\", \"IDLE PC\"), translate(\"Scene\", \"Please select only one router\"))\n return\n router = items[0]\n assert(isinstance(router, IOSRouter))\n\n try:\n if globals.GApp.dynagen.devices[router.hostname].idlepc != None:\n reply = QtGui.QMessageBox.question(globals.GApp.mainWindow,translate(\"Scene\", \"IDLE PC\"),\n unicode(translate(\"Scene\", \"%s already has an idlepc value applied, do you want to calculate a new one?\")) % router.hostname,\n QtGui.QMessageBox.Yes, QtGui.QMessageBox.No)\n if reply == QtGui.QMessageBox.Yes:\n # reset idlepc\n lib.send(globals.GApp.dynagen.devices[router.hostname].dynamips, 'vm set_idle_pc_online %s 0 %s' % (router.hostname, '0x0'))\n result = self.calculateIDLEPC(router)\n else:\n result = globals.GApp.dynagen.devices[router.hostname].idleprop(lib.IDLEPROPSHOW)\n else:\n result = self.calculateIDLEPC(router)\n except lib.DynamipsError, msg:\n QtGui.QMessageBox.critical(self, translate(\"Scene\", \"Dynamips error\"), unicode(msg))\n return\n\n # remove the '100-OK' line\n result.pop()\n\n idles = {}\n options = []\n i = 1\n for line in result:\n (value, count) = line.split()[1:]\n\n # Flag potentially \"best\" idlepc values (between 50 and 60)\n iCount = int(count[1:-1])\n if 50 < iCount < 60:\n flag = '*'\n else:\n flag = ' '\n\n option = \"%s %i: %s %s\" % (flag, i, value, count)\n options.append(option)\n idles[i] = value\n i += 1\n\n if len(idles) == 0:\n QtGui.QMessageBox.critical(globals.GApp.mainWindow, translate(\"Scene\", \"IDLE PC\"), translate(\"Scene\", \"No idlepc values found\"))\n return\n\n idlepcdiag = IDLEPCDialog(router, idles, options)\n idlepcdiag.show()\n idlepcdiag.exec_()",
"def kick_idle():\n ## Who hasn't been typing?\n for client in CLIENT_LIST:\n if client.idle() > IDLE_TIMEOUT:\n print('-- Kicking idle client from %s' % client.addrport())\n broadcast(\"^YKicked ^R%s's ^Yass out for being idle too long!\\n^d\" % client.addrport())\n client.active = False",
"def idle_check():\n pass",
"def rearm_idle(self, *args):\n\n if not hasattr(self, \"idle_timer\"):\n return\n if self.idle_timer is None:\n self.dispatch(\"on_wakeup\")\n self.idle_timer = monotonic()",
"def idle_radio(idle: bool, /) -> None:\n ...",
"def in_idle():\n ...",
"def install_idle(self, timeout=60):\n\n if monotonic is None:\n Logger.exception(\n \"{}: Cannot use idle detector, monotonic is missing\".format(\n self.appname\n )\n )\n self.idle_timer = None\n self.idle_timeout = timeout\n Logger.info(\n \"{}: Install idle detector, {} seconds\".format(\n self.appname, timeout\n )\n )\n Clock.schedule_interval(self._check_idle, 1)\n self.root.bind(\n on_touch_down=self.rearm_idle, on_touch_up=self.rearm_idle\n )",
"def set_idle_message(self, msg):\r\n\r\n\t\tif len(msg) > 10:\r\n\t\t\twarnings.warn(\"Input string is truncated to 10 characters\")\r\n\t\t\toutput_buffer = msg[:10]\r\n\t\telse:\r\n\t\t\toutput_buffer = msg\r\n\r\n\t\toutput_array = self.__string_to_byte_array(output_buffer)\r\n\t\tassert len(output_array) == 10, \"Invalid message buffer size\"\r\n\t\tself.__send_extended_byte_array(self.MODE_SET_IDLE_MSG, output_array)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for wait, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/wait (container)
|
def _get_wait(self):
return self.__wait
|
[
"def on_wait(self, wait):\n # FIXME: Use 'gen_loop_times'.\n start = label(self.lineno, 'wait_%i' % wait.time)\n self.insert(\"lda %s\" % absarg(wait.time))\n self.insert(\"get d0\")\n counter = mem_counter(self.lineno)\n self.insert(\"store d0 %s\" % counter)\n self.insert(\"%s :\" % start)\n\n # Inner loop.\n inner = label(self.lineno, 'inner_wait')\n self.insert(\"lda %s\" % absarg(200))\n self.insert(\"%s :\" % inner)\n [self.insert(\"nop\") for _ in range(14)]\n self.insert(\"sub %s\" % absarg(1))\n inner_end = label(self.lineno + 2, 'inner_end')\n self.insert(\"jmpz %s\" % inner_end)\n self.insert(\"jmp %s\" % inner)\n self.insert(\"%s :\" % label(self.lineno, 'inner_end'))\n\n # Outer check.\n self.insert(\"load d0 %s\" % counter)\n self.insert(\"put d0\")\n self.insert(\"sub %s\" % absarg(1))\n self.insert(\"get d0\")\n self.insert(\"store d0 %s\" % counter)\n outer_end = label(self.lineno + 2, 'wait_end')\n self.insert(\"jmpz %s\" % outer_end)\n self.insert(\"jmp %s\" % start)\n self.insert(\"%s :\" % outer_end)",
"def get_wait_time(self):\n if(self._wait_time == None):\n self._logger.write(\"Error! wait_time contains no value\")\n elif(type(self._wait_time) != float):\n self._logger.write(\"Error! wait_time must be type float\")\n else:\n try:\n return self._wait_time\n except Exception as e:\n self._logger.write(\"Error! Could not fetch the wait_time:\\n %s\" % e)",
"def wait (self, state=const.FINAL, timeout=None, ttype=None) :\n\n # FIXME: \n # - right now, we can not put a resource in a `TaskContainer`, because\n # it is not a `Task`. We need to either reconsider the class\n # hierarchy, and then inherit a `ResourceContainer` from\n # `TaskContainer` (see job); or we implement a `ResourceContainer`\n # from scratch...\n \n return self._adaptor.wait (state, timeout, ttype=ttype)",
"def set_wait(self, wait: int) -> None:\r\n global LONG_WAIT\r\n LONG_WAIT = wait\r\n self.driver.implicitly_wait(wait)",
"def waitable(self):\n ret = self._get_attr(\"waitable\")\n return ret",
"def wait_for_container_to_finish(container):\n elapsed = 0\n while container.status != STATUS_EXITED:\n time.sleep(CONTAINER_POLL_INTERVAL)\n # Make sure we give some feedback to the user, that things are actually\n # happening in the background. Also, some CI systems detect the lack of\n # output as a build failure, which we'd like to avoid.\n elapsed += CONTAINER_POLL_INTERVAL\n if elapsed % FEEDBACK_IN_SECONDS == 0:\n LOG.warning(\"Container still running, please be patient...\")\n\n container.reload()\n\n exit_code = container.attrs['State']['ExitCode']\n return exit_code",
"def wait_for_container_status_ready(pod: Pod):\n logger.info(f\"Wait for container of the pod {pod.name} move to Running state\")\n\n def do_wait_for_container_status_ready(pod_obj: Pod, timeout=300):\n logger.info(f\"Waiting for container status ready for {timeout}s\")\n start_time = time.time()\n while (\n pod_obj.get()[\"status\"][\"containerStatuses\"][0][\"ready\"] is False\n and time.time() - start_time < timeout\n ):\n logger.info(\"Waiting for container status ready\")\n time.sleep(5)\n return pod_obj.get()[\"status\"][\"containerStatuses\"][0][\"ready\"]\n\n retry(\n CommandFailed,\n text_in_exception=\"can't read container state of busybox deployment\",\n func=do_wait_for_container_status_ready,\n )(pod)",
"def wait(self, state=None, timeout=None):\n\n if not state : states = rps.FINAL\n elif not isinstance(state, list): states = [state]\n else : states = state\n\n\n if self.state in rps.FINAL:\n # we will never see another state progression. Raise an error\n # (unless we waited for this)\n if self.state in states:\n return\n\n # FIXME: do we want a raise here, really? This introduces a race,\n # really, on application level\n # raise RuntimeError(\"can't wait on a pilot in final state\")\n return self.state\n\n start_wait = time.time()\n while self.state not in states:\n\n time.sleep(0.1)\n if timeout and (timeout <= (time.time() - start_wait)):\n break\n\n if self._pmgr._terminate.is_set():\n break\n\n return self.state",
"def waitPendingContainerActions(self):\n self.wait()",
"def wait(self, duration: float) -> List[str]:",
"def get_container_state(pod, name):\n phase = pod[\"status\"].get(\"phase\", \"Unknown\")\n if phase == \"Pending\":\n return \"waiting\"\n cs = get_container_status(pod, name)\n if cs is not None:\n return next(iter(cs[\"state\"]))\n return \"unknown\"",
"def wait_for_status(self, cluster, status='Available', failures=None,\n interval=15, wait=1500):\n failures = ['Error'] if failures is None else failures\n return resource.wait_for_status(\n self, cluster, status, failures, interval, wait, attribute=\"status\")",
"def wait():\n return waitpid(0, 0)",
"def wait():\n t = random.triangular(config.WAIT_MIN, config.WAIT_MAX)\n time.sleep(t)",
"def waitForDataCenterState(name, state=ENUMS['data_center_state_up'],\n timeout=DATA_CENTER_INIT_TIMEOUT, sleep=10):\n util.find(name)\n query = 'name=%s and status=%s' % (name, state)\n\n return util.waitForQuery(query, timeout=timeout, sleep=sleep)",
"def wait_cycles(self):\n if self.wait_time_variable is not None:\n return self.wait_time_variable + self.wait_time\n if self.wait_time >= 4:\n return self.wait_time\n return None",
"def wait_instances(self, props, wait_state=\"running\"):\n out = {}\n for prop in props:\n conn = self._get_conn(prop)\n cont_prop = conn.inspect_container(prop[\"instance\"])\n if wait_state == \"running\" and cont_prop[\"State\"][\"Running\"]:\n out[prop[\"instance\"]] = self._updated_prop(prop)\n continue\n\n time.sleep(1.0)\n\n return out",
"def wait_status(value: Union[None, bool, str]) -> str:\n if isinstance(value, str):\n return value\n if isinstance(value, bool):\n return yn(value)\n return \"\"",
"def setWaiting( self, waiting ):\r\n\tif not self.isOut():\r\n self.iswaiting = waiting\r\n\t self.increaseTime()",
"def waiting(message):\n status_set(WorkloadState.WAITING, message)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for wait, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/wait (container)
|
def _set_wait(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_wait_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_wait, is_container='container', yang_name="wait", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """wait must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_wait_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_wait, is_container='container', yang_name="wait", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__wait = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_wait(self, wait: int) -> None:\r\n global LONG_WAIT\r\n LONG_WAIT = wait\r\n self.driver.implicitly_wait(wait)",
"def on_wait(self, wait):\n # FIXME: Use 'gen_loop_times'.\n start = label(self.lineno, 'wait_%i' % wait.time)\n self.insert(\"lda %s\" % absarg(wait.time))\n self.insert(\"get d0\")\n counter = mem_counter(self.lineno)\n self.insert(\"store d0 %s\" % counter)\n self.insert(\"%s :\" % start)\n\n # Inner loop.\n inner = label(self.lineno, 'inner_wait')\n self.insert(\"lda %s\" % absarg(200))\n self.insert(\"%s :\" % inner)\n [self.insert(\"nop\") for _ in range(14)]\n self.insert(\"sub %s\" % absarg(1))\n inner_end = label(self.lineno + 2, 'inner_end')\n self.insert(\"jmpz %s\" % inner_end)\n self.insert(\"jmp %s\" % inner)\n self.insert(\"%s :\" % label(self.lineno, 'inner_end'))\n\n # Outer check.\n self.insert(\"load d0 %s\" % counter)\n self.insert(\"put d0\")\n self.insert(\"sub %s\" % absarg(1))\n self.insert(\"get d0\")\n self.insert(\"store d0 %s\" % counter)\n outer_end = label(self.lineno + 2, 'wait_end')\n self.insert(\"jmpz %s\" % outer_end)\n self.insert(\"jmp %s\" % start)\n self.insert(\"%s :\" % outer_end)",
"def setWaiting( self, waiting ):\r\n\tif not self.isOut():\r\n self.iswaiting = waiting\r\n\t self.increaseTime()",
"def wait (self, state=const.FINAL, timeout=None, ttype=None) :\n\n # FIXME: \n # - right now, we can not put a resource in a `TaskContainer`, because\n # it is not a `Task`. We need to either reconsider the class\n # hierarchy, and then inherit a `ResourceContainer` from\n # `TaskContainer` (see job); or we implement a `ResourceContainer`\n # from scratch...\n \n return self._adaptor.wait (state, timeout, ttype=ttype)",
"def set_wait_in(self, value: bool) -> None:\n if value:\n self.wait_for |= Direction.IN\n else:\n self.wait_for = (self.wait_for | Direction.IN) ^ Direction.IN",
"def waitPendingContainerActions(self):\n self.wait()",
"def get_wait_time(self):\n if(self._wait_time == None):\n self._logger.write(\"Error! wait_time contains no value\")\n elif(type(self._wait_time) != float):\n self._logger.write(\"Error! wait_time must be type float\")\n else:\n try:\n return self._wait_time\n except Exception as e:\n self._logger.write(\"Error! Could not fetch the wait_time:\\n %s\" % e)",
"def wait_reason(self, wait_reason):\n\n self._wait_reason = wait_reason",
"def wait():\n t = random.triangular(config.WAIT_MIN, config.WAIT_MAX)\n time.sleep(t)",
"def wait_for_status(self, cluster, status='Available', failures=None,\n interval=15, wait=1500):\n failures = ['Error'] if failures is None else failures\n return resource.wait_for_status(\n self, cluster, status, failures, interval, wait, attribute=\"status\")",
"def wait(self, duration: float) -> List[str]:",
"def update_waiting(self):\n value = None\n desc_value = f\"{self.scope}$\" + self.desc_value\n if desc_value in self.struct_variables:\n if self.struct_variables[desc_value][\"structure\"] == \"dict\":\n struct = self.struct_variables[desc_value]\n if self.get_value(0) is not None:\n if (self.get_value(1) is not None) or not self.inputs[1]:\n key = struct[\"key_type\"](self.get_value(0))\n if self.inputs[1]:\n value = self.get_value(1)\n value = struct[\"value_type\"](value)\n self.struct_variables[desc_value][\"values\"][key] = value\n self.set_value(struct[\"values\"][key], 0)\n if not self.inputs[1]:\n if key in struct[\"values\"]:\n self.set_value(struct[\"values\"][key], 0)\n if not self.inputs[1]:\n self.state = ACTIVE\n elif value is not None:\n self.state = ACTIVE",
"def wait(self, millis=0, nanos=0):\n pass",
"def _waittoboot(self, starttime, pause=0):\n nw = datetime.datetime.utcnow()\n # st = datetime.datetime.strptime(starttime, \"%Y-%m-%dT%H:%M:%S\")\n\n maxminsetuptime = datetime.timedelta(seconds=105 + pause)\n # maxminsetuptime is the Longest minimal time\n # before observation start to set up (This includes a dummy beam warmup)\n d = (starttime - maxminsetuptime) - nw\n timeuntilboot = d.total_seconds()\n if timeuntilboot < 0.:\n timeuntilboot = 0\n print(\"Will boot to observe state after \" + str(timeuntilboot)\n + \" seconds...\")\n time.sleep(timeuntilboot)\n # From swlevel 0 it takes about 1:30min? to reach swlevel 3\n print(\"Booting @ {}\".format(datetime.datetime.utcnow()))",
"def wait(self, state=None, timeout=None):\n\n if not state : states = rps.FINAL\n elif not isinstance(state, list): states = [state]\n else : states = state\n\n\n if self.state in rps.FINAL:\n # we will never see another state progression. Raise an error\n # (unless we waited for this)\n if self.state in states:\n return\n\n # FIXME: do we want a raise here, really? This introduces a race,\n # really, on application level\n # raise RuntimeError(\"can't wait on a pilot in final state\")\n return self.state\n\n start_wait = time.time()\n while self.state not in states:\n\n time.sleep(0.1)\n if timeout and (timeout <= (time.time() - start_wait)):\n break\n\n if self._pmgr._terminate.is_set():\n break\n\n return self.state",
"def waiting(message):\n status_set(WorkloadState.WAITING, message)",
"def wait_for_guest_state(self, execution_type=None, **kwargs):\n pass",
"def waitForDataCenterState(name, state=ENUMS['data_center_state_up'],\n timeout=DATA_CENTER_INIT_TIMEOUT, sleep=10):\n util.find(name)\n query = 'name=%s and status=%s' % (name, state)\n\n return util.waitForQuery(query, timeout=timeout, sleep=sleep)",
"def setSleepLength(self, wait):\n\n self.wait = wait - self.PERIOD",
"def waitable(self):\n ret = self._get_attr(\"waitable\")\n return ret"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for hardware_interrupt, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/hardware_interrupt (container)
|
def _get_hardware_interrupt(self):
return self.__hardware_interrupt
|
[
"def irq(self):\n ret = self._get_attr(\"IRQ\")\n return ret",
"def hardware_data(self):\n return self._hardware_data",
"def get_hardware(self):\n return self._hardware_list",
"def irq(self, handler=None, trigger=0|1, hard=False):\n ...",
"def hardwarebypass(self, element_id, tenant_id=None, api_version=\"v2.0\"):\n\n if tenant_id is None and self._parent_class.tenant_id:\n # Pull tenant_id from parent namespace cache.\n tenant_id = self._parent_class.tenant_id\n elif not tenant_id:\n # No value for tenant_id.\n raise TypeError(\"tenant_id is required but not set or cached.\")\n cur_ctlr = self._parent_class.controller\n\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/elements/{}/hardwarebypass\".format(api_version,\n tenant_id,\n element_id)\n\n api_logger.debug(\"URL = %s\", url)\n return self._parent_class.rest_call(url, \"get\")",
"def GetHardwareInfo(ctx):\n if ctx.element is None:\n ctx.logger.error(\"You must establish at least one connection and specify which you intend to use.\")\n exit()\n\n\n\n ctx.logger.info(\"\")\n try:\n GetHardwareInfoResult = ctx.element.get_hardware_info()\n except common.ApiServerError as e:\n ctx.logger.error(e.message)\n exit()\n except BaseException as e:\n ctx.logger.error(e.__str__())\n exit()\n\n cli_utils.print_result(GetHardwareInfoResult, ctx.logger, as_json=ctx.json, depth=ctx.depth, filter_tree=ctx.filter_tree)",
"def interrupt_kernel(self, kernel_id):\n with mocked_gateway:\n response = self.request('POST', '/api/kernels/' + kernel_id + '/interrupt')\n self.assertEqual(response.status_code, 204)\n self.assertEqual(response.reason, 'No Content')",
"def hardware_profile(self) -> 'outputs.HardwareProfileResponse':\n return pulumi.get(self, \"hardware_profile\")",
"def _get_interrupts(tcl_name):\n result = _InterruptMap(tcl_name)\n return result.intc_parent, result.intc_pins",
"def get_hardware_inventories(conn: dict) -> dict:\n return get(conn, PCC_HARDWARE_INVENTORY)",
"def hardware(self) -> str:\n self._logger.info(\"Retrieving device hardware version...\")\n return self._device_info().get(\"hardware\")",
"def m_interrupt_kernel(self):\n self.log.info(\"Interrupt kernel in DS Kernel Launcher Daemon\")\n if self.kernel is not None:\n if sys.platform == \"win32\":\n self.log.debug(\"Interrupt kernel on Windows\")\n from vscode_datascience_helpers.win_interrupt import send_interrupt\n\n send_interrupt(self.kernel.win32_interrupt_event)\n else:\n self.log.debug(\"Interrupt kernel with SIGINT\")\n self.signal_kernel(signal.SIGINT)",
"def _fetch_pending_interrupt(self):\n with self.interrupt_queue_mutex:\n if not self.interrupt_queue:\n return None\n\n # In disable-interrupts state we can process only non-maskable interrupts\n # (faults).\n if self.cr[self.CREG_INT_CONTROL] & 1 == 0:\n # Maskable interrupts disabled. Find a non-maskable one.\n for i, interrupt in enumerate(self.interrupt_queue):\n if interrupt not in self.MASKABLE_INTS:\n return self.interrupt_queue.pop(i)\n\n # No non-maskable interrupts found.\n return None\n\n # Return the first interrupt available.\n return self.interrupt_queue.pop()",
"def RPC__Engine__interrupt(self, uuid, cellid=None):\n self.call('interrupt', uuid, Args(cellid=cellid))",
"def getLogicalHardwareName(self) -> str:\n ...",
"def get_hardware_info_block(self):\n info = TLI_HardwareInformation()\n self.sdk.SCC_GetHardwareInfoBlock(self._serial, byref(info))\n return info",
"def enable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe) | 0x01\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe) | 0x01",
"def get_hardware_info(self):\n return self._get_hardware_info(self.sdk.SCC_GetHardwareInfo)",
"def disable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe)\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe)",
"def get_interrupts(start_time,end_time):\n attributes = {'start':start_time,'stop':end_time}\n req = requests.get(_url('/irqsummary'),params=attributes,\n headers={'content-type':'application/json','accept':'application/json'})\n #print(req.text)\n if 'irq_data' in req.json():\n irqdata = req.json()['irq_data']\n items = sorted(irqdata.items())\n print('{0:5} {1:>8} {2:>8}'.format('IRQ','CPU0','CPU1'))\n print('{0:5} {1:>8} {2:>8}'.format('-----','--------','--------'))\n for k,v in sorted(items):\n #print(k,v[0],v[1])\n print('{0:5} {1:8} {2:8}'.format(k,v[0],v[1]))\n #print(\"%s %s\" % [k,items[k]])\n if 'message' in req.json():\n print(req.json()['message'])"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for hardware_interrupt, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/hardware_interrupt (container)
|
def _set_hardware_interrupt(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_hardware_interrupt_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_hardware_interrupt, is_container='container', yang_name="hardware-interrupt", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """hardware_interrupt must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_hardware_interrupt_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_hardware_interrupt, is_container='container', yang_name="hardware-interrupt", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__hardware_interrupt = t
if hasattr(self, '_set'):
self._set()
|
[
"def enable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe) | 0x01\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe) | 0x01",
"def irq(self, handler=None, trigger=0|1, hard=False):\n ...",
"def setPTCInterruptVector(self,Database,targetDevice):\n if (targetDevice in set([\"SAMC21\",\"SAMD10\",\"SAMD11\",\"SAMD21\",\"SAMDA1\",\"SAMHA1\",\"SAML10\",\"SAML11\",\"SAML1xE\",\"PIC32CMLE00\",\"PIC32CMLS00\",\"SAML21\",\"SAML22\",\"PIC32CMJH01\",\"PIC32CMJH00\",\"PIC32CZCA80\",\"PIC32CZCA90\"])):\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_ENABLE\", True)\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_HANDLER\", \"PTC_Handler\")\n elif (targetDevice in set([\"SAMC20\",\"SAMD20\"])):\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_ENABLE\", True, 2)\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_HANDLER\", \"PTC_Handler\", 2)\n else:\n print (\"error - setPTCInterruptVector\")",
"def disable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe)\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe)",
"def RPC__Engine__interrupt(self, uuid, cellid=None):\n self.call('interrupt', uuid, Args(cellid=cellid))",
"def set_interrupt(self, interrupt_mask):\n self.ipcon.send_request(self, BrickletIO4.FUNCTION_SET_INTERRUPT, (interrupt_mask,), 'B', '')",
"def setHardwareID(self, hwid):\n self.hwid = hwid",
"def m_interrupt_kernel(self):\n self.log.info(\"Interrupt kernel in DS Kernel Launcher Daemon\")\n if self.kernel is not None:\n if sys.platform == \"win32\":\n self.log.debug(\"Interrupt kernel on Windows\")\n from vscode_datascience_helpers.win_interrupt import send_interrupt\n\n send_interrupt(self.kernel.win32_interrupt_event)\n else:\n self.log.debug(\"Interrupt kernel with SIGINT\")\n self.signal_kernel(signal.SIGINT)",
"def hardwarebypass(self, element_id, tenant_id=None, api_version=\"v2.0\"):\n\n if tenant_id is None and self._parent_class.tenant_id:\n # Pull tenant_id from parent namespace cache.\n tenant_id = self._parent_class.tenant_id\n elif not tenant_id:\n # No value for tenant_id.\n raise TypeError(\"tenant_id is required but not set or cached.\")\n cur_ctlr = self._parent_class.controller\n\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/elements/{}/hardwarebypass\".format(api_version,\n tenant_id,\n element_id)\n\n api_logger.debug(\"URL = %s\", url)\n return self._parent_class.rest_call(url, \"get\")",
"def interrupt_kernel(self, kernel_id):\n with mocked_gateway:\n response = self.request('POST', '/api/kernels/' + kernel_id + '/interrupt')\n self.assertEqual(response.status_code, 204)\n self.assertEqual(response.reason, 'No Content')",
"def irq(self):\n ret = self._get_attr(\"IRQ\")\n return ret",
"def setADCInterruptVector(self,Database,targetDevice):\n if (targetDevice in set([\"SAMD51\",\"SAME51\",\"SAME53\",\"SAME54\"])):\n Database.setSymbolValue(\"core\", \"NVIC_119_0_ENABLE\", True)\n Database.setSymbolValue(\"core\", \"NVIC_119_0_HANDLER\", \"ADC0_1_Handler\")\n else:\n print (\"error - setADCInterruptVector\")",
"def temp_disable_interrupts(self):\n self.steppermotor.disable_interrupts()\n time.sleep(self.interrupt_ignore_time)\n self.steppermotor.enable_interrupts()",
"def irq_handler():\n # open an LED session\n with LEDs() as LED:\n # specify the LED which you want to control\n led = Led.LED1\n # specify the LED status\n led_on_off = True\n # writes values 10 times which makes LED1 flash for 3 seconds\n for x in range(0, 10):\n # turn LED1 on or off\n LED.write(led, led_on_off)\n # add a short delay\n time.sleep(0.3)\n # if the LED is on, set the parameter to off\n # if the LED is off, set the parameter to on\n led_on_off = not led_on_off",
"def _set_hardware_port(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=ReferenceType(referenced_path='/oc-platform:components/oc-platform:component/oc-platform:name', caller=self._path() + ['hardware-port'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"hardware-port\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='leafref', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"hardware_port must be of a type compatible with leafref\"\"\",\n 'defined-type': \"leafref\",\n 'generated-type': \"\"\"YANGDynClass(base=ReferenceType(referenced_path='/oc-platform:components/oc-platform:component/oc-platform:name', caller=self._path() + ['hardware-port'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"hardware-port\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='leafref', is_config=False)\"\"\",\n })\n\n self.__hardware_port = t\n if hasattr(self, '_set'):\n self._set()",
"def hardware_data(self):\n return self._hardware_data",
"def issue_frucontrol_diagnostic_interrupt(self, fruid=0):\n fruid = int(fruid)\n self._ipmi.fru_control_diagnostic_interrupt(fruid)",
"def NVIC_ClearPendingIRQ(IRQn):\n\treturn robocaller(\"NVIC_ClearPendingIRQ\", \"void\", IRQn)",
"def refreshHardware(self):\n # Get the buffer length needed...\n # 调用两次的原因是,第一次是获取硬件句柄,所需缓冲区的大小availableHWs,\n # 可用的硬件数目,这个值会写入lwCount\n lwCount = c_ushort(0)\n availableHWs = (PLinApi.HLINHW * 0)()\n linResult = self.m_objPLinApi.GetAvailableHardware(availableHWs, 0, lwCount)\n\n # Get all available LIN hardware.\n if (lwCount == 0):\n # use default value if either no hw is connected or an unexpected error occured\n lwCount = c_ushort(16);\n availableHWs = (PLinApi.HLINHW * lwCount.value)()\n lwBuffSize = c_ushort(lwCount.value * 2)\n linResult = self.m_objPLinApi.GetAvailableHardware(\n availableHWs, lwBuffSize, lwCount)\n\n\n #函数调用成功!=有可用的硬件\n if (linResult == PLinApi.TLIN_ERROR_OK):\n\n # Get information for each LIN hardware found\n lnHwType = c_int(0)\n lnDevNo = c_int(0)\n lnChannel = c_int(0)\n\n\n #如果没发现可用的硬件连接\n if (lwCount.value == 0):\n pass\n else:\n #发现可用硬件先清除默认的字典元素\n self.m_dataHws.clear()\n\n for i in range(lwCount.value):\n\n lwHw = availableHWs[i]\n\n # Read the type of the hardware with the handle lwHw.\n self.m_objPLinApi.GetHardwareParam(\n lwHw, PLinApi.TLIN_HARDWAREPARAM_TYPE, lnHwType, 0)\n\n # Read the device number of the hardware with the handle\n # lwHw.\n self.m_objPLinApi.GetHardwareParam(\n lwHw, PLinApi.TLIN_HARDWAREPARAM_DEVICE_NUMBER, lnDevNo, 0)\n\n # Read the channel number of the hardware with the handle\n # lwHw.\n self.m_objPLinApi.GetHardwareParam(\n lwHw, PLinApi.TLIN_HARDWAREPARAM_CHANNEL_NUMBER, lnChannel, 0)\n\n # translate type value to string\n if (lnHwType.value == PLinApi.LIN_HW_TYPE_USB_PRO.value):\n strName = \"PCAN-USB Pro\"\n elif (lnHwType.value == PLinApi.LIN_HW_TYPE_USB_PRO_FD.value):\n strName = \"PCAN-USB Pro FD\"\n elif (lnHwType.value == PLinApi.LIN_HW_TYPE_PLIN_USB.value):\n strName = \"PLIN-USB\"\n else:\n strName = \"Unknown\"\n\n str12 = str.format(\n '{0} - dev. {1}, chan. {2}', strName, lnDevNo.value, lnChannel.value)\n #把发现的硬件新加入字典元素\n self.m_dataHws[str12] = PLinApi.HLINHW(lwHw)\n else:\n print('调用PlinApi函数失败!')",
"def INT(self, address):\n interruptNum = self.reg[address]\n self.pc = interruptNum - 2 # cause operands\n\n #self.reg[self.IS] = \"\"\n #pass"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for software_interrupt, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/software_interrupt (container)
|
def _get_software_interrupt(self):
return self.__software_interrupt
|
[
"def software_type(self):\n return self._software_type",
"def irq(self):\n ret = self._get_attr(\"IRQ\")\n return ret",
"def _fetch_pending_interrupt(self):\n with self.interrupt_queue_mutex:\n if not self.interrupt_queue:\n return None\n\n # In disable-interrupts state we can process only non-maskable interrupts\n # (faults).\n if self.cr[self.CREG_INT_CONTROL] & 1 == 0:\n # Maskable interrupts disabled. Find a non-maskable one.\n for i, interrupt in enumerate(self.interrupt_queue):\n if interrupt not in self.MASKABLE_INTS:\n return self.interrupt_queue.pop(i)\n\n # No non-maskable interrupts found.\n return None\n\n # Return the first interrupt available.\n return self.interrupt_queue.pop()",
"def m_interrupt_kernel(self):\n self.log.info(\"Interrupt kernel in DS Kernel Launcher Daemon\")\n if self.kernel is not None:\n if sys.platform == \"win32\":\n self.log.debug(\"Interrupt kernel on Windows\")\n from vscode_datascience_helpers.win_interrupt import send_interrupt\n\n send_interrupt(self.kernel.win32_interrupt_event)\n else:\n self.log.debug(\"Interrupt kernel with SIGINT\")\n self.signal_kernel(signal.SIGINT)",
"def get_software_edition(self):\n\n return self.get_attribute_values(CPEComponent.ATT_SW_EDITION)",
"def softwareEnvModifier(self):\n return self.__softwareEnvModifier",
"def software_deployments_details(self,deployment_id):\n \n path='/software_deployments/%s' %deployment_id\n res = self.client.call(path, 'GET', data='', token=self.manager.identity.token)\n self.logger.debug('Get heat show deployment details: %s' %res[0])\n return res[0]['software_deployment']",
"def RPC__Engine__interrupt(self, uuid, cellid=None):\n self.call('interrupt', uuid, Args(cellid=cellid))",
"def _get_interrupts(tcl_name):\n result = _InterruptMap(tcl_name)\n return result.intc_parent, result.intc_pins",
"def get_installed_software(self, resource_id):\n installed_software = []\n results = self.query(SoftwareSQL, resource_id, resource_id)\n\n for software in results:\n try:\n software_name = software.get('name')\n if software_name in [None, \"\"]:\n continue\n installed_software.append({\n \"name\": software_name,\n \"version\": software.get(\"version\"),\n \"publisher\": software.get(\"publisher\"),\n \"path\": None\n })\n except:\n self.logger.exception(\"Exception in get_installed_software\")\n\n return installed_software",
"def _get_software_selectable(self):\n return self.__software_selectable",
"def software_type(self, software_type):\n self._software_type = software_type",
"def irq(self, handler=None, trigger=0|1, hard=False):\n ...",
"def software_error_count(self):\n return self._software_error_count",
"def disable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe)\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe)",
"def interrupt_kernel(self, kernel_id):\n with mocked_gateway:\n response = self.request('POST', '/api/kernels/' + kernel_id + '/interrupt')\n self.assertEqual(response.status_code, 204)\n self.assertEqual(response.reason, 'No Content')",
"def __setSoftware(self, software):\n assert isinstance(software, uver.Versioned.Software), \\\n \"Invalid software type!\"\n\n self.__software = software",
"async def disable_component(fd, register_number):\n indicator, = await write_read_i2c_with_integrity(fd, [CAPABILITIES_REG_NUM, 0x06, register_number], 1)\n if indicator == 0: indicator = \"already disabled\"\n elif indicator == 1: indicator = \"now disabled\"\n elif indicator == 0xFF: raise Exception(\"invalid register address!\")\n else: raise Exception(\"unknown return value: {}\".format(indicator))\n log.info('Disabled component register number {}; status is: {}'.format(register_number, indicator))\n return indicator",
"def LOSS_INT_SEL(self):\n return self.chip[\"HLMIX\"+self.channel+\"_INT_SEL\"][\"HLMIX\"+self.channel+\"_LOSS_INT_SEL<1:0>\"]",
"def swinstall_stack(self):\n return self._swinstall_stack"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for software_interrupt, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state/software_interrupt (container)
|
def _set_software_interrupt(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_software_interrupt_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_software_interrupt, is_container='container', yang_name="software-interrupt", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """software_interrupt must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_software_interrupt_openconfig_access_points__access_points_access_point_system_cpus_cpu_state_software_interrupt, is_container='container', yang_name="software-interrupt", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__software_interrupt = t
if hasattr(self, '_set'):
self._set()
|
[
"def __setSoftware(self, software):\n assert isinstance(software, uver.Versioned.Software), \\\n \"Invalid software type!\"\n\n self.__software = software",
"def set_software(self, software):\n self.directives.append(\"-l software={}\".format(software))",
"def software_type(self, software_type):\n self._software_type = software_type",
"def m_interrupt_kernel(self):\n self.log.info(\"Interrupt kernel in DS Kernel Launcher Daemon\")\n if self.kernel is not None:\n if sys.platform == \"win32\":\n self.log.debug(\"Interrupt kernel on Windows\")\n from vscode_datascience_helpers.win_interrupt import send_interrupt\n\n send_interrupt(self.kernel.win32_interrupt_event)\n else:\n self.log.debug(\"Interrupt kernel with SIGINT\")\n self.signal_kernel(signal.SIGINT)",
"def software_type(self):\n return self._software_type",
"def disable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe)\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe)",
"def set_interrupt(self, interrupt_mask):\n self.ipcon.send_request(self, BrickletIO4.FUNCTION_SET_INTERRUPT, (interrupt_mask,), 'B', '')",
"def RPC__Engine__interrupt(self, uuid, cellid=None):\n self.call('interrupt', uuid, Args(cellid=cellid))",
"def softwareEnvModifier(self):\n return self.__softwareEnvModifier",
"def setPTCInterruptVector(self,Database,targetDevice):\n if (targetDevice in set([\"SAMC21\",\"SAMD10\",\"SAMD11\",\"SAMD21\",\"SAMDA1\",\"SAMHA1\",\"SAML10\",\"SAML11\",\"SAML1xE\",\"PIC32CMLE00\",\"PIC32CMLS00\",\"SAML21\",\"SAML22\",\"PIC32CMJH01\",\"PIC32CMJH00\",\"PIC32CZCA80\",\"PIC32CZCA90\"])):\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_ENABLE\", True)\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_HANDLER\", \"PTC_Handler\")\n elif (targetDevice in set([\"SAMC20\",\"SAMD20\"])):\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_ENABLE\", True, 2)\n Database.setSymbolValue(\"core\", \"PTC_INTERRUPT_HANDLER\", \"PTC_Handler\", 2)\n else:\n print (\"error - setPTCInterruptVector\")",
"def irq(self, handler=None, trigger=0|1, hard=False):\n ...",
"def instrument_software_version(self, instrument_software_version):\n if self.local_vars_configuration.client_side_validation and instrument_software_version is None: # noqa: E501\n raise ValueError(\"Invalid value for `instrument_software_version`, must not be `None`\") # noqa: E501\n if (self.local_vars_configuration.client_side_validation and\n instrument_software_version is not None and len(instrument_software_version) > 20):\n raise ValueError(\"Invalid value for `instrument_software_version`, length must be less than or equal to `20`\") # noqa: E501\n if (self.local_vars_configuration.client_side_validation and\n instrument_software_version is not None and len(instrument_software_version) < 0):\n raise ValueError(\"Invalid value for `instrument_software_version`, length must be greater than or equal to `0`\") # noqa: E501\n\n self._instrument_software_version = instrument_software_version",
"def get_software_edition(self):\n\n return self.get_attribute_values(CPEComponent.ATT_SW_EDITION)",
"def interrupt_kernel(self, kernel_id):\n with mocked_gateway:\n response = self.request('POST', '/api/kernels/' + kernel_id + '/interrupt')\n self.assertEqual(response.status_code, 204)\n self.assertEqual(response.reason, 'No Content')",
"def irq(self):\n ret = self._get_attr(\"IRQ\")\n return ret",
"def temp_disable_interrupts(self):\n self.steppermotor.disable_interrupts()\n time.sleep(self.interrupt_ignore_time)\n self.steppermotor.enable_interrupts()",
"def LOSS_INT_SEL(self, value):\n self.chip[\"HLMIX\"+self.channel+\"_INT_SEL\"][\"HLMIX\"+self.channel+\"_LOSS_INT_SEL<1:0>\"] = value",
"def enable_interrupts(self):\n\t\tself.header[0x1b] = (self.header[0x1b] & 0xfe) | 0x01\n\t\tself.header[0x1c] = (self.header[0x1b] & 0xfe) | 0x01",
"def get_installed_software(self, resource_id):\n installed_software = []\n results = self.query(SoftwareSQL, resource_id, resource_id)\n\n for software in results:\n try:\n software_name = software.get('name')\n if software_name in [None, \"\"]:\n continue\n installed_software.append({\n \"name\": software_name,\n \"version\": software.get(\"version\"),\n \"publisher\": software.get(\"publisher\"),\n \"path\": None\n })\n except:\n self.logger.exception(\"Exception in get_installed_software\")\n\n return installed_software",
"def setADCInterruptVector(self,Database,targetDevice):\n if (targetDevice in set([\"SAMD51\",\"SAME51\",\"SAME53\",\"SAME54\"])):\n Database.setSymbolValue(\"core\", \"NVIC_119_0_ENABLE\", True)\n Database.setSymbolValue(\"core\", \"NVIC_119_0_HANDLER\", \"ADC0_1_Handler\")\n else:\n print (\"error - setADCInterruptVector\")"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for index, mapped from YANG variable /access_points/access_point/system/cpus/cpu/index (leafref)
|
def _set_index(self, v, load=False):
parent = getattr(self, "_parent", None)
if parent is not None and load is False:
raise AttributeError("Cannot set keys directly when" +
" within an instantiated list")
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='leafref', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """index must be of a type compatible with leafref""",
'defined-type': "leafref",
'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="index", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='leafref', is_config=False)""",
})
self.__index = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_index(self, v, load=False):\n parent = getattr(self, \"_parent\", None)\n if parent is not None and load is False:\n raise AttributeError(\"Cannot set keys directly when\" +\n \" within an instantiated list\")\n\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='leafref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"index must be of a type compatible with leafref\"\"\",\n 'defined-type': \"leafref\",\n 'generated-type': \"\"\"YANGDynClass(base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='leafref', is_config=True)\"\"\",\n })\n\n self.__index = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_index(self, v, load=False):\n parent = getattr(self, \"_parent\", None)\n if parent is not None and load is False:\n raise AttributeError(\"Cannot set keys directly when\" +\n \" within an instantiated list\")\n\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=ReferenceType(referenced_path='../config/index', caller=self._path() + ['index'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/interfaces', defining_module='openconfig-interfaces', yang_type='leafref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"index must be of a type compatible with leafref\"\"\",\n 'defined-type': \"leafref\",\n 'generated-type': \"\"\"YANGDynClass(base=ReferenceType(referenced_path='../config/index', caller=self._path() + ['index'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/interfaces', defining_module='openconfig-interfaces', yang_type='leafref', is_config=True)\"\"\",\n })\n\n self.__index = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_index(self, v, load=False):\n parent = getattr(self, \"_parent\", None)\n if parent is not None and load is False:\n raise AttributeError(\"Cannot set keys directly when\" +\n \" within an instantiated list\")\n\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=ReferenceType(referenced_path='../config/index', caller=self._path() + ['index'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/platform/transceiver', defining_module='openconfig-platform-transceiver', yang_type='leafref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"index must be of a type compatible with leafref\"\"\",\n 'defined-type': \"leafref\",\n 'generated-type': \"\"\"YANGDynClass(base=ReferenceType(referenced_path='../config/index', caller=self._path() + ['index'], path_helper=self._path_helper, require_instance=True), is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/platform/transceiver', defining_module='openconfig-platform-transceiver', yang_type='leafref', is_config=True)\"\"\",\n })\n\n self.__index = t\n if hasattr(self, '_set'):\n self._set()",
"def vertexIndex(*args, **kwargs):\n \n pass",
"def set_reference_index(self, value): # pragma: no cover\n pass",
"def getIndex(self, index: 'int const') -> \"int\":\n return _coin.SoPath_getIndex(self, index)",
"def SetIncrementIndex(self, _arg: 'unsigned long long const') -> \"void\":\n return _ITKIOImageBaseBasePython.itkNumericSeriesFileNames_SetIncrementIndex(self, _arg)",
"def request_bow_index(self):\n self.sdk.SCC_RequestBowIndex(self._serial)",
"def index_of(self, name):\n\n info = self.info_of(name)\n return info[self.INDEX]",
"def ComputeIndex(self, offset: 'long long') -> \"itkIndex4\":\n return _itkImagePython.itkImageBase4_ComputeIndex(self, offset)",
"def ComputeIndex(self, offset: 'long long') -> \"itkIndex2\":\n return _itkImagePython.itkImageBase2_ComputeIndex(self, offset)",
"def _set_index(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='string', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"index must be of a type compatible with string\"\"\",\n 'defined-type': \"string\",\n 'generated-type': \"\"\"YANGDynClass(base=six.text_type, is_leaf=True, yang_name=\"index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='string', is_config=True)\"\"\",\n })\n\n self.__index = t\n if hasattr(self, '_set'):\n self._set()",
"def getIndex(self, index: 'int const') -> \"int\":\n return _coin.SoLightPath_getIndex(self, index)",
"def create_sparse_index(self):\n # used when writing memtable to disk\n pass",
"def get_index(self, name, verbose=False):\n\n try:\n idx = self.name.index(name)\n except ValueError:\n if verbose == True:\n print('Cluster \\'{}\\' not found in list'.format(name))\n idx = -1\n \n return idx",
"def _file_indexer(cat_list, file_list):\n\n # Determine the number of elements per category\n num_files = len(file_list)\n num_cat = len(cat_list)\n\n stim_per_cat = int(num_files / num_cat)\n\n # Create the index\n file_index = {key: file_list[key] for cat in range(num_cat)\n for key in range(cat * stim_per_cat, (cat + 1) * stim_per_cat)}\n\n return file_index",
"def _set_local_index(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(\n v,\n base=RestrictedClassType(\n base_type=long,\n restriction_dict={\"range\": [\"0..18446744073709551615\"]},\n int_size=64,\n ),\n is_leaf=True,\n yang_name=\"local-index\",\n parent=self,\n path_helper=self._path_helper,\n extmethods=self._extmethods,\n register_paths=True,\n namespace=\"http://openconfig.net/yang/network-instance\",\n defining_module=\"openconfig-network-instance\",\n yang_type=\"uint64\",\n is_config=False,\n )\n except (TypeError, ValueError):\n raise ValueError(\n {\n \"error-string\": \"\"\"local_index must be of a type compatible with uint64\"\"\",\n \"defined-type\": \"uint64\",\n \"generated-type\": \"\"\"YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name=\"local-index\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/network-instance', defining_module='openconfig-network-instance', yang_type='uint64', is_config=False)\"\"\",\n }\n )\n\n self.__local_index = t\n if hasattr(self, \"_set\"):\n self._set()",
"def __bwaIndex(self, out): \n self.__CallCommand('mkdir', ['mkdir', '-p', out])\n self.__CallCommand('cp', ['cp', self.reference, out + \"/ref.fa\"])\n self.reference = out + \"/ref.fa\"\n self.__CallCommand('bwa index', [self.__bwa, 'index', self.reference])\n self.__CallCommand('CreateSequenceDictionary', ['java', '-jar', self.__picard, \n 'CreateSequenceDictionary', 'R='+self.reference,'O='+ out + \"/ref.dict\"])\n self.__CallCommand('samtools faidx', [self.__samtools, 'faidx', self.reference ])",
"def _set_num_cpu(self, name, vcpus, brand):\n zone = self._get_zone_by_name(name)\n if zone is None:\n raise exception.InstanceNotFound(instance_id=name)\n\n # The Solaris Zone brand type is used to specify the type of\n # 'cpu' resource set in the Solaris Zone configuration.\n if brand == ZONE_BRAND_SOLARIS:\n vcpu_resource = 'capped-cpu'\n else:\n vcpu_resource = 'virtual-cpu'\n\n # TODO(dcomay): Until 17881862 is resolved, this should be turned into\n # an appropriate 'rctl' resource for the 'capped-cpu' case.\n with ZoneConfig(zone) as zc:\n zc.setprop(vcpu_resource, 'ncpus', str(vcpus))",
"def set_index_color(nodes, index):\n\n nodes = python.force_list(nodes)\n for node in nodes:\n if python.is_string(index):\n index = maya_color.convert_maya_color_string_to_index(index)\n if index is not None:\n if maya.cmds.objExists('{}.overrideRGBColors'.format(node)):\n maya.cmds.setAttr('{}.overrideRGBColors'.format(node), False)\n maya.cmds.setAttr('{}.overrideEnabled'.format(node), True)\n maya.cmds.setAttr('{}.overrideColor'.format(node), index)\n\n return index"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/cpus/cpu/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_cpus_cpu_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_cpus_cpu_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def cpu_state(self):\r\n\t\tif self.init_state is not None:\r\n\t\t\tself.init_state = tuple([x.cpu() for x in self.init_state])",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_classifiers_classifier_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_classifiers_classifier_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_classifiers_classifier_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_classifiers_classifier_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11v_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11v_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_wred_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_clients_client_client_connection_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for cpu, mapped from YANG variable /access_points/access_point/system/cpus/cpu (list)
|
def _set_cpu(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("index",yc_cpu_openconfig_access_points__access_points_access_point_system_cpus_cpu, yang_name="cpu", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='index', extensions=None), is_container='list', yang_name="cpu", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """cpu must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("index",yc_cpu_openconfig_access_points__access_points_access_point_system_cpus_cpu, yang_name="cpu", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='index', extensions=None), is_container='list', yang_name="cpu", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=False)""",
})
self.__cpu = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_cpu(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"cpu must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__cpu = t\n if hasattr(self, '_set'):\n self._set()",
"def cpu(self, cpu):\n if cpu is None:\n raise ValueError(\"Invalid value for `cpu`, must not be `None`\") # noqa: E501\n\n self._cpu = cpu",
"def set_cpu_request(self, cpu_request):\n self.cpu_request = cpu_request",
"def on_cpu_change(self, cpu, add):\n if not isinstance(cpu, baseinteger):\n raise TypeError(\"cpu can only be an instance of type baseinteger\")\n if not isinstance(add, bool):\n raise TypeError(\"add can only be an instance of type bool\")\n self._call(\"onCPUChange\",\n in_p=[cpu, add])",
"def _get_online_cpus():\n def parse_int_list(list_string):\n \"\"\"Returns an int list from a string of comma separated integers and\n integer ranges.\"\"\"\n integers = []\n members = list_string.split(',')\n\n for member in members:\n if '-' not in member:\n integers.append(int(member))\n else:\n int_range = member.split('-')\n integers.extend(range(int(int_range[0]),\n int(int_range[1]) + 1))\n\n return integers\n\n with open('/sys/devices/system/cpu/online') as cpu_list:\n cpu_string = cpu_list.readline()\n return parse_int_list(cpu_string)",
"def cpu_usage(self, cpu_usage):\n if self.local_vars_configuration.client_side_validation and cpu_usage is None: # noqa: E501\n raise ValueError(\"Invalid value for `cpu_usage`, must not be `None`\") # noqa: E501\n\n self._cpu_usage = cpu_usage",
"def hot_plug_cpu(self, cpu):\n if not isinstance(cpu, baseinteger):\n raise TypeError(\"cpu can only be an instance of type baseinteger\")\n self._call(\"hotPlugCPU\",\n in_p=[cpu])",
"def ex_set_vm_cpu(self, vapp_or_vm_id, vm_cpu):\r\n self._validate_vm_cpu(vm_cpu)\r\n self._change_vm_cpu(vapp_or_vm_id, vm_cpu)",
"def get_cpu(self):\n pass",
"def set_task_cpu(\n self,\n data: Dict[str, Any],\n container_data: List[Dict[str, Any]],\n source: Dict[str, Any] = None\n ) -> None:\n if not source:\n source = self.data\n cpu_required = self._get_container_cpu_usage(container_data)\n if self.is_fargate():\n cpu = self._set_fargate_task_cpu(cpu_required, source=source)\n else:\n cpu = self._set_ec2_task_cpu(source=source)\n if cpu is not None:\n if cpu_required > cpu:\n raise SchemaException(\n f'You set task cpu to {cpu} but your container cpu sums to {cpu_required}.'\n 'Task cpu must be greater than the sum of container cpu.'\n )\n # we calculate cpu as an int, but register_task_definition wants a str\n data['cpu'] = str(cpu)",
"def AddCpuFlag(parser, managed_only=False):\n help_msg = (\n 'Set a CPU limit in Kubernetes cpu units.\\n\\n'\n 'Cloud Run (fully managed) supports values 1, 2 and 4.'\n ' For Cloud Run (fully managed), 4 cpus also requires a minimum '\n '2Gi `--memory` value. Examples 2, 2.0, 2000m'\n )\n if not managed_only:\n help_msg += (\n '\\n\\nCloud Run for Anthos and Knative-compatible Kubernetes '\n 'clusters support fractional values. Examples .5, 500m, 2'\n )\n parser.add_argument('--cpu', help=help_msg)",
"def train_cpu_quota(self, value):\n if value != None:\n if not isinstance(value, str):\n raise ValueError(\"train_cpu_quota must be a string!\")\n if not value.replace(\".\", \"\", 1).isdigit():\n raise ValueError(\"train_cpu_quota must be a number!\")\n self._train_cpu_quota = value",
"def cpu(self):\n ret = self._get_attr(\"CPU\")\n return ret",
"def _set_num_cpu(self, name, vcpus, brand):\n zone = self._get_zone_by_name(name)\n if zone is None:\n raise exception.InstanceNotFound(instance_id=name)\n\n # The Solaris Zone brand type is used to specify the type of\n # 'cpu' resource set in the Solaris Zone configuration.\n if brand == ZONE_BRAND_SOLARIS:\n vcpu_resource = 'capped-cpu'\n else:\n vcpu_resource = 'virtual-cpu'\n\n # TODO(dcomay): Until 17881862 is resolved, this should be turned into\n # an appropriate 'rctl' resource for the 'capped-cpu' case.\n with ZoneConfig(zone) as zc:\n zc.setprop(vcpu_resource, 'ncpus', str(vcpus))",
"def get_cpu_process(ip, snmp_config_data):\n # Call bulk get snmp data of cpu processor\n snmp_iter = get_bulk_snmp(processor_load_oid, ip, snmp_config_data)\n\n list_cpu_process = []\n for errorIndication, errorStatus, errorIndex, varBinds in snmp_iter:\n # Check for errors and print out results\n if errorIndication: # SNMP engine errors\n raise Exception(errorIndication)\n elif errorStatus: # SNMP agent errors\n raise Exception(\n '%s at %s' % (errorStatus.prettyPrint(), varBinds[int(errorIndex) - 1] if errorIndex else '?'))\n for varBind in varBinds:\n logger.debug(\"{}-varBind-{}\".format(ip, varBind))\n list_cpu_process.append(int(varBind[1]))\n\n if len(list_cpu_process) > 0:\n cpu_process = sum(list_cpu_process) / len(list_cpu_process)\n else:\n cpu_process = 0\n return cpu_process",
"def add_cpu_usage(self, cpu_usage):\n self.cpu_metrics = {\"number\": cpu_usage}",
"def set_affine_cpu(self, cpu_dev):\n if self.affine_cpu != cpu_dev:\n assert self.affine_cpu is None, \"set_affine_cpu() called twice with different devices\"\n assert cpu_dev.type == CS_DEVTYPE_CORE\n self.affine_cpu = cpu_dev\n cpu_dev.affine_devices.append(self)\n if self.cpu_number is None:\n self.cpu_number = cpu_dev.cpu_number",
"def get_cpu_status(self, cpu):\n if not isinstance(cpu, baseinteger):\n raise TypeError(\"cpu can only be an instance of type baseinteger\")\n attached = self._call(\"getCPUStatus\",\n in_p=[cpu])\n return attached",
"def setVcpus(self, nvcpus):\n ret = libvirtmod.virDomainSetVcpus(self._o, nvcpus)\n if ret == -1: raise libvirtError ('virDomainSetVcpus() failed', dom=self)\n return ret",
"def dev_cpu_quota(self, value):\n if value != None:\n if not isinstance(value, str):\n raise ValueError(\"dev_cpu_quota must be a string!\")\n if not value.replace(\".\", \"\", 1).isdigit():\n raise ValueError(\"dev_cpu_quota must be a number!\")\n self._dev_cpu_quota = value"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for pid, mapped from YANG variable /access_points/access_point/system/processes/process/state/pid (uint64)
|
def _set_pid(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="pid", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """pid must be of a type compatible with uint64""",
'defined-type': "uint64",
'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="pid", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)""",
})
self.__pid = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_pid(self, temp):\n if self.use_pid_bin:\n pid_bin = self._get_pid_bin(temp)\n self.debug(\"pid bin for {}. {}\".format(temp, pid_bin))\n if pid_bin:\n # clear I buffer\n # self.I = 0\n\n self.trait_set(Ph=pid_bin[0], I=pid_bin[2], D=pid_bin[3])\n\n self.report_pid()\n\n if len(pid_bin) == 5:\n self.max_output = pid_bin[4]\n else:\n self.max_output = 100",
"def write_pid(self, pid: int | None = None):\n pid = os.getpid() if pid is None else pid\n self.write_metadata_by_name(self.PID_KEY, str(pid))",
"def updatePid(self, pid):\n try:\n file = open(self.pidLocation(), 'w')\n file.write(pid)\n finally:\n file.close",
"def pid(self):\n ret = self._get_attr(\"PID\")\n return ret",
"def change_process_uid(uid: int):\n try:\n os.setuid(uid)\n except OSError as ex:\n raise DaemonError(\n 'Unable to change the owning UID to {!r}'.format(uid)) from ex",
"def get_pid(self):\n pidfile_fh = file(self.pidfile, \"r\")\n pid = int(pidfile_fh.read().strip())\n pidfile_fh.close()\n return pid",
"def pid(self):\n return PersistentIdentifier.get(\n pid_type=self._pid_type,\n pid_value=self[self.pid_field],\n )",
"def _update_pid(self, pid):\n self.screen.addstr(4, 1, 'Updating pid filter...')\n self.screen.refresh()\n self.stats.pid_filter = pid",
"def write(self, pid=None):\n if not pid:\n pid = os.getpid()\n pidfile_fh = file(self.pidfile, \"w\")\n pidfile_fh.write(\"%d\\n\" % pid)\n pidfile_fh.close()",
"def get_process_pid(process_name):\n\tfor proc in psutil.process_iter():\n\t\tif proc.name() == process_name:\n\t\t\treturn proc.pid",
"def enablePID(self):\n self.enable_pid = True",
"def get_pid(self):\n pid = self._call(\"getPID\")\n return pid",
"def kill_process(pid):\n sh.sudo.kill(pid)",
"def pid(self):\n\n # The documentation for the MainPID systemd property has been\n # elusive. Experimentation shows that a value of 0 (zero)\n # indicates that the service is *not* running.\n\n pid_val = self._status.main_pid\n pid = int(pid_val.strip())\n if pid > 0:\n return pid\n else:\n raise OSError('{} is not running'.format(self._status.id))",
"def get_pid_by_file(self):\n\n try:\n with open(self.pid_file, 'r') as pid_file:\n pid = int(pid_file.read().strip())\n return pid\n except IOError:\n return",
"def process_id(self, process_id):\n if self.local_vars_configuration.client_side_validation and process_id is None: # noqa: E501\n raise ValueError(\"Invalid value for `process_id`, must not be `None`\") # noqa: E501\n\n self._process_id = process_id",
"def pidLocation(self):\n return self.profilePath + '/' + self.PROCESS_FILE_NAME",
"def _job_pid(name):\n pidfile = _pid_file(name)\n if not os.path.exists(pidfile):\n return\n\n with open(pidfile, 'r') as fp:\n pid = int(fp.read())\n\n if _process_exists(pid):\n return pid\n\n os.unlink(pidfile)",
"def delete_pid(self):\n\t\ttry:\n\t\t\t_os.remove(self.pid_file)\n\t\texcept Exception:\n\t\t\tpass",
"def pid(self):\n process_id = None\n output = Shell.ps('-ax')\n for line in output.split(\"\\n\"):\n\n if 'mongod' in line and \"--port\" in line:\n process_id = line.split(\" \")[0]\n return process_id\n\n return process_id"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for args, mapped from YANG variable /access_points/access_point/system/processes/process/state/args (string)
|
def _set_args(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,unique=True, base=TypedListType(allowed_type=six.text_type), is_leaf=False, yang_name="args", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='string', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """args must be of a type compatible with string""",
'defined-type': "string",
'generated-type': """YANGDynClass(unique=True, base=TypedListType(allowed_type=six.text_type), is_leaf=False, yang_name="args", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='string', is_config=False)""",
})
self.__args = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_script_args(self, args):\n global _env_args_str\n argstr = pickle.dumps(args)\n os.environ[_env_args_str] = argstr",
"def setintargs(self, *args):\n self.intargs = makeargs(args, sort=True)",
"def pass_args(input_args):\n\n global args\n args = input_args",
"def convert_args(self):\n for elem in self.xml_tree_root.findall(\"arg\"):\n launch_action = self.convert_arg_elem(elem)\n self.launch_actions.append(launch_action)",
"def _handle_args(self, *args):\n pass",
"def parse_args(self, args=None, namespace=None):\n args_list = sys.argv\n if len(sys.argv) == 2 and \"--\" not in sys.argv[1] and \".pkl\" in sys.argv[1]:\n run_config_file = sys.argv[1]\n run_config = pickle.load(open(run_config_file, 'rb'))\n if not isinstance(run_config, list):\n if int(os.environ.get('RANK', 0)) == 0:\n print(f\"Found single argument config file: {run_config_file}. Overriding defaults\")\n if not isinstance(run_config, dict):\n run_config = vars(run_config)\n self.set_defaults(**run_config)\n parsed_args = super().parse_args([])\n else:\n parsed_args, _ = super().parse_known_args(args=args, namespace=namespace)\n\n if parsed_args.override_with_runinfo_args is not None:\n run_config = pickle.load(open(parsed_args.override_with_runinfo_args, 'rb'))\n run_config_args = vars(run_config['args'])\n\n # We need to override the defaults twice so that the user defined arguments\n # always have the highest priority, followed by the runinfo args and then the defaults.\n self.set_defaults(**run_config_args)\n self.set_defaults(**self.overrides)\n parsed_args, _ = super().parse_known_args(args=args, namespace=namespace)\n\n return parsed_args",
"def change_command_line_arguments(self, accession, params):\n self.invoke('changeCommandLineArguments', accession, params if isinstance(params, list) else [params])",
"def _parse_args(self):\n self._verify(self.args + list(self.kwargs))\n\n self.name = self.args[0]\n self.nodes = self.args[1:1+self.num_nodes]\n self.value = self._parse_values(self.args[1+self.num_nodes:])\n self.kwargs = self._parse_pairs(self.kwargs)\n # for key, value in self.kwargs.items():\n # setattr(self, key, value)",
"def argsfunc(*args):",
"def pack_args(self, args):\n\n return nest.pack_sequence_as(self._args, args)",
"def Args(pyparseSymbol):\n\treturn pyparseSymbol.setResultsName(\"args\", listAllMatches=True)",
"def cmd_task_update_state(self, args):\n task_id = args[0]\n state = args[1]\n data = {'state': state}\n self._update_obj(task_id, 'task', data)",
"def fill_from_commandline(self, cmdline_args):\n self.runvalues[\"inputfile\"] = cmdline_args[\"inputfile\"]\n if cmdline_args[\"nodes\"]:\n self.runvalues[\"nodes\"] = cmdline_args[\"nodes\"]\n if cmdline_args[\"cores\"]:\n self.runvalues[\"cores\"] = cmdline_args[\"cores\"]\n if cmdline_args[\"walltime\"]:\n self.runvalues[\"walltime\"] = cmdline_args[\"walltime\"]\n if cmdline_args[\"memory\"]:\n self.runvalues[\"memory\"] = cmdline_args[\"memory\"]",
"def readCommandLine(self, *args):\r\n return _osgDB.Registry_readCommandLine(self, *args)",
"def args():\n return []",
"def AdjustStartupFlags(self, args):\n return args",
"def addArgs(self, args):\r\n self.args.extend(args)",
"def read_arguments(self, args, name):\n ba = CliBoundArguments(self, args, name)\n ba.process_arguments()\n return ba",
"def call_state(self, addr: Address, args=[]) -> ESILState:\n\n if type(addr) == str:\n addr = self.r2api.get_address(addr)\n\n # seek to function and init vm\n self.r2api.seek(addr)\n self.init_vm()\n state = self.init_state()\n self.set_args(state, addr, args)\n # state.registers[\"PC\"] = addr \n\n return state"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for start_time, mapped from YANG variable /access_points/access_point/system/processes/process/state/start_time (uint64)
|
def _set_start_time(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="start-time", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """start_time must be of a type compatible with uint64""",
'defined-type': "uint64",
'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="start-time", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)""",
})
self.__start_time = t
if hasattr(self, '_set'):
self._set()
|
[
"def start_time(self, start_time):\n self.__start = start_time",
"def start_time(self, start_time: str):\n\n self._start_time = start_time",
"def node_start_time(self, node_start_time):\n\n self._node_start_time = node_start_time",
"def start_timestamp(self, start_timestamp):\n if self.local_vars_configuration.client_side_validation and start_timestamp is None: # noqa: E501\n raise ValueError(\"Invalid value for `start_timestamp`, must not be `None`\") # noqa: E501\n\n self._start_timestamp = start_timestamp",
"def time_window_start(self, time_window_start):\n\n self._time_window_start = time_window_start",
"def get_start_time(self):\n with open(self.fp_file, 'r') as f:\n lines = f.readlines()\n starttime = 999999999999\n for x in lines:\n if 'TRACK_TIME' in x:\n ttemp = float(x[11:])\n starttime = min(starttime, ttemp)\n\n self.starttime = starttime\n\n return",
"def get_start_time(self):\n\n return self.time_vector[0]",
"def min_start_time(self, min_start_time):\n if min_start_time is not None and len(min_start_time) > 5:\n raise ValueError(\"Invalid value for `min_start_time`, length must be less than or equal to `5`\") # noqa: E501\n\n self._min_start_time = min_start_time",
"def setStartTime(self, startTime):\n self.startTime = startTime",
"def sim_set_start_time(self, time):\n if len(self._registered_callbacks) > 0:\n raise RuntimeError(\"You can not set start time while callbacks are scheduled\")\n\n if type(time) == datetime.time:\n time = datetime.datetime.combine(self._now.date(), time)\n self._start_time = self._now = time",
"def start_datetime(self, start_datetime: datetime):\n\n self._start_datetime = start_datetime",
"def utc_start_time(self):\n return self.label['START_TIME']",
"def get_start_time(self, fmt='ptime'):\n return self._format_time(self.start_time, fmt)",
"def set_start( self, value ):\n\t\tend = self.get_end( )\n\t\tself.set_time( value )\n\t\tself.set_end( end )",
"def start_datetime(self, start_datetime):\n if self.local_vars_configuration.client_side_validation and start_datetime is None: # noqa: E501\n raise ValueError(\"Invalid value for `start_datetime`, must not be `None`\") # noqa: E501\n\n self._start_datetime = start_datetime",
"def start_timer(self):\n\t\tself.start_time = time.clock()",
"def start_performance_timer(self):\n BuiltIn().set_test_variable(\"${__start_time}\", datetime.now())",
"def set_start_time(self):\n self.solve_start = time.time()",
"def local_start_time(self, local_start_time):\n\n self._local_start_time = local_start_time"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for memory_usage, mapped from YANG variable /access_points/access_point/system/processes/process/state/memory_usage (uint64)
|
def _set_memory_usage(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="memory-usage", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """memory_usage must be of a type compatible with uint64""",
'defined-type': "uint64",
'generated-type': """YANGDynClass(base=RestrictedClassType(base_type=long, restriction_dict={'range': ['0..18446744073709551615']}, int_size=64), is_leaf=True, yang_name="memory-usage", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='uint64', is_config=False)""",
})
self.__memory_usage = t
if hasattr(self, '_set'):
self._set()
|
[
"def get_memory_usage(self):\n\n cmd = \"egrep \\'MemTotal\\' /proc/meminfo | sed \\'s/[^0-9]*//g\\'\"\n stdout, stderr, rc = _exec_command(cmd)\n if rc !=0 or stderr !='':\n raise AssertionError('*ERROR* cmd=%s, rc=%s, %s %s' %(cmd,rc,stdout,stderr)) \n total = float(stdout)\n\n cmd = \"egrep \\'MemFree\\' /proc/meminfo | sed \\'s/[^0-9]*//g\\'\"\n stdout, stderr, rc = _exec_command(cmd)\n if rc !=0 or stderr !='':\n raise AssertionError('*ERROR* cmd=%s, rc=%s, %s %s' %(cmd,rc,stdout,stderr))\n free = float(stdout)\n\n usage = math.ceil(((total - free)/total)*100)\n\n return usage",
"def memory_usage_bytes(self) -> int:\n deep = self.memory_usage == \"deep\"\n return self.data.memory_usage(index=True, deep=deep)",
"def MemoryUsage(self):\r\n\t\tmeminfo = self.MemoryInfo()\r\n\t\treturn (meminfo[\"MemTotal\"] - meminfo[\"MemFree\"] - meminfo[\"Cached\"]) / float(meminfo[\"MemTotal\"])",
"def current_memory_usage(self):\n self.assert_running()\n return self._as_process().memory_info()[0]",
"def memory_size(self):\n ret = self._get_attr(\"memorySize\")\n return ret",
"def mem(self):\n mem_data = self.__ssh_command(\"egrep 'Mem|Cache|Swap' /proc/meminfo\")\n self.record['memory'] = mem_data",
"def memory_usage(df):\n return(round(df.memory_usage(deep=True).sum() / 1024 ** 2, 2))",
"def get_virtual_memory_usage(stats):\n if stats == 'percentage':\n return psutil.virtual_memory()[2]\n elif stats == 'available':\n return psutil.virtual_memory()[1]\n elif stats == 'used':\n return psutil.virtual_memory()[3]",
"def get_memory():\n with open('/proc/meminfo') as f:\n return sum(map(lambda x: int(x.split()[1]),\n filter(re_mem.match, f.readlines())))",
"def read_mem(self, _):\n mem_stats = psutil.virtual_memory()\n mem_load = 100 * (mem_stats.total -\n mem_stats.available)/mem_stats.total\n rospy.logdebug('mem percent used: %5.2f%%', mem_load)\n msg = MEMutil()\n msg.percent_used = mem_load\n self.mem_stats_pub.publish(msg)",
"def memory_gb(self, memory_gb):\n\n self._memory_gb = memory_gb",
"def max_memory_usage():\n return resource.getrusage(resource.RUSAGE_SELF).ru_maxrss",
"def total_memory_quota(self, value):\n if value != None:\n if not isinstance(value, str):\n raise ValueError(\"total_memory_quota must be a string\")\n unit = value[-1:]\n float_value = value[:-1]\n if unit not in constant.CLOUDML_MEMORY_UNITS:\n raise ValueError(\"total_memory_quota unit must be one of %s!\" %\n constant.CLOUDML_MEMORY_UNITS)\n if not float_value.replace(\".\", \"\", 1).isdigit():\n raise ValueError(\"total_memory_quota must be a number!\")\n self._total_memory_quota = value",
"def memory():\n\n mem_info = {}\n memory_stat = psutil.virtual_memory()\n mem_info['total'] = int(memory_stat.total / 1024)\n mem_info['free'] = int(memory_stat.available / 1024)\n\n return mem_info",
"def _GetWin32MemorySample(process_handle):\n pmi = win32process.GetProcessMemoryInfo(process_handle)\n return pmi[\"PagefileUsage\"] // 1024",
"def _set_memory(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_memory_vnf_bd__scenario_nodes_resources_memory, is_container='container', yang_name=\"memory\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"memory must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_memory_vnf_bd__scenario_nodes_resources_memory, is_container='container', yang_name=\"memory\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__memory = t\n if hasattr(self, '_set'):\n self._set()",
"def get_swap_memory_usage(stats):\n if stats == 'percentage':\n return psutil.swap_memory()[3]\n elif stats == 'free':\n return psutil.swap_memory()[2]\n elif stats == 'used':\n return psutil.swap_memory()[1]",
"def mem_percent(self):\n m = self.process.memory_percent()\n for p in self.process.children(recursive=True):\n try:\n m += p.memory_percent()\n except psutil.NoSuchProcess:\n pass\n return m",
"def get_memory_mb_total():\n\n if sys.platform.upper() not in ['LINUX2', 'LINUX3']:\n return 1\n\n meminfo = open('/proc/meminfo').read().split()\n idx = meminfo.index(u'MemTotal:')\n # transforming kb to mb.\n return int(meminfo[idx + 1]) / 1024",
"def memoryStats(self):\n ret = libvirtmod.virDomainMemoryStats(self._o)\n if ret is None: raise libvirtError ('virDomainMemoryStats() failed', dom=self)\n return ret"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for pid, mapped from YANG variable /access_points/access_point/system/processes/process/pid (leafref)
|
def _set_pid(self, v, load=False):
parent = getattr(self, "_parent", None)
if parent is not None and load is False:
raise AttributeError("Cannot set keys directly when" +
" within an instantiated list")
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="pid", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='leafref', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """pid must be of a type compatible with leafref""",
'defined-type': "leafref",
'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="pid", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, is_keyval=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='leafref', is_config=False)""",
})
self.__pid = t
if hasattr(self, '_set'):
self._set()
|
[
"def write_pid(self, pid: int | None = None):\n pid = os.getpid() if pid is None else pid\n self.write_metadata_by_name(self.PID_KEY, str(pid))",
"def set_pid(self, temp):\n if self.use_pid_bin:\n pid_bin = self._get_pid_bin(temp)\n self.debug(\"pid bin for {}. {}\".format(temp, pid_bin))\n if pid_bin:\n # clear I buffer\n # self.I = 0\n\n self.trait_set(Ph=pid_bin[0], I=pid_bin[2], D=pid_bin[3])\n\n self.report_pid()\n\n if len(pid_bin) == 5:\n self.max_output = pid_bin[4]\n else:\n self.max_output = 100",
"def pid(self):\n ret = self._get_attr(\"PID\")\n return ret",
"def updatePid(self, pid):\n try:\n file = open(self.pidLocation(), 'w')\n file.write(pid)\n finally:\n file.close",
"def change_process_uid(uid: int):\n try:\n os.setuid(uid)\n except OSError as ex:\n raise DaemonError(\n 'Unable to change the owning UID to {!r}'.format(uid)) from ex",
"def enablePID(self):\n self.enable_pid = True",
"def pid(self):\n return PersistentIdentifier.get(\n pid_type=self._pid_type,\n pid_value=self[self.pid_field],\n )",
"def write(self, pid=None):\n if not pid:\n pid = os.getpid()\n pidfile_fh = file(self.pidfile, \"w\")\n pidfile_fh.write(\"%d\\n\" % pid)\n pidfile_fh.close()",
"def get_pid(self):\n pidfile_fh = file(self.pidfile, \"r\")\n pid = int(pidfile_fh.read().strip())\n pidfile_fh.close()\n return pid",
"def get_pid(self):\n pid = self._call(\"getPID\")\n return pid",
"def _job_pid(name):\n pidfile = _pid_file(name)\n if not os.path.exists(pidfile):\n return\n\n with open(pidfile, 'r') as fp:\n pid = int(fp.read())\n\n if _process_exists(pid):\n return pid\n\n os.unlink(pidfile)",
"def get_process_pid(process_name):\n\tfor proc in psutil.process_iter():\n\t\tif proc.name() == process_name:\n\t\t\treturn proc.pid",
"def get_pid_by_file(self):\n\n try:\n with open(self.pid_file, 'r') as pid_file:\n pid = int(pid_file.read().strip())\n return pid\n except IOError:\n return",
"def delete_pid(self):\n\t\ttry:\n\t\t\t_os.remove(self.pid_file)\n\t\texcept Exception:\n\t\t\tpass",
"def process_id(self):\n return self.element_info.process_id",
"def change_process_gid(gid: int):\n try:\n os.setgid(gid)\n except OSError as ex:\n raise DaemonError(\n 'Unable to change the owning GID to {!r}'.format(gid)) from ex",
"def process_id(self, process_id):\n if self.local_vars_configuration.client_side_validation and process_id is None: # noqa: E501\n raise ValueError(\"Invalid value for `process_id`, must not be `None`\") # noqa: E501\n\n self._process_id = process_id",
"def set_participant_id(self, pid):\n self.participant_id = pid",
"def kill_process(self, process_name=None, process_id=None):\n raise NotImplementedError('Method Not Implemented by the Child Class')",
"def set_pidfile(name):\n global _pidfile\n _pidfile = make_pidfile_name(name)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/processes/process/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_processes_process_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_processes_process_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_probes__probes_probe_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/probes', defining_module='openconfig-probes', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_probes__probes_probe_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/probes', defining_module='openconfig-probes', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for process, mapped from YANG variable /access_points/access_point/system/processes/process (list)
|
def _set_process(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("pid",yc_process_openconfig_access_points__access_points_access_point_system_processes_process, yang_name="process", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='pid', extensions=None), is_container='list', yang_name="process", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """process must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("pid",yc_process_openconfig_access_points__access_points_access_point_system_processes_process, yang_name="process", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='pid', extensions=None), is_container='list', yang_name="process", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)""",
})
self.__process = t
if hasattr(self, '_set'):
self._set()
|
[
"def processes(self, processes: List[int]):\n\n self._processes = processes",
"def setProcess(self,process):\n\t\tstatus=0\n\t\tsys.stderr.write(\"\\nSTART: setProcess()\\n\")\n\t\ttry:\n\t\n\t\t\tmyprocess = pickle.loads(open(\"process/%s/%s\" %(self.userid,process)).read())\n\t\t\tself.recipe.attachProcess( myprocess )\n\t\t\tstatus=1\n\t\texcept ImportError: \n\t\t\ttraceback.print_exc()\n\t\tsys.stderr.write(\"END: setProcess()\\n\")\n\t\treturn {'operation' :'setProcess','status':status}",
"def update_processes(self):\n self.processes = self.get_processes()",
"def list_user_defined_processes(self) -> List[dict]:\n data = self.get(\"/process_graphs\").json()[\"processes\"]\n return VisualList(\"processes\", data=data)",
"def processes(self):\n ret = self._get_attr(\"processes\")\n return [IGuestProcess(a) for a in ret]",
"def get_process_list(process):\n\n input_names, process_list = analyse_process_graph(process)\n output_names = []\n\n # First analyse the data entrie\n if \"data_id\" not in process:\n raise Exception(\"Process %s requires parameter <data_id>\" % PROCESS_NAME)\n\n output_names.append(process[\"data_id\"])\n\n pc = create_process_chain_entry(input_name=process[\"data_id\"])\n process_list.append(pc)\n\n # Then add the input to the output\n for input_name in input_names:\n # Create the output name based on the input name and method\n output_name = input_name\n output_names.append(output_name)\n\n return output_names, process_list",
"def check_processes(self, *process):\n return _check_process(list(process))",
"def get_process_list(config):\n # get list of processes\n process_list = getlist(config.getstr('config', 'PROCESS_LIST'))\n\n out_process_list = []\n # for each item remove dashes, underscores, and cast to lower-case\n for process in process_list:\n # if instance is specified, extract the text inside parenthesis\n match = re.match(r'(.*)\\((.*)\\)', process)\n if match:\n instance = match.group(2)\n process_name = match.group(1)\n else:\n instance = None\n process_name = process\n\n wrapper_name = get_wrapper_name(process_name)\n if wrapper_name is None:\n config.logger.warning(f\"PROCESS_LIST item {process_name} \"\n \"may be invalid.\")\n wrapper_name = process_name\n\n out_process_list.append((wrapper_name, instance))\n\n return out_process_list",
"def process(self, process):\n from gemd.entity.object.process_spec import ProcessSpec\n from gemd.entity.link_by_uid import LinkByUID\n if self.process is not None and isinstance(self.process, ProcessSpec):\n self.process._output_material = None\n if process is None:\n self._process = None\n elif isinstance(process, LinkByUID):\n self._process = process\n elif isinstance(process, ProcessSpec):\n process._output_material = self\n self._process = process\n else:\n raise TypeError(\"process must be an instance of ProcessSpec or LinkByUID; \"\n \"instead received type {}: {}\".format(type(process), process))",
"def set_processes(self,\n process_list,\n allow_nonzero_column_sums=False,\n reset_events=True,\n ignore_rate_position_checks=False):\n\n quadratic_events, linear_events = processes_to_events(process_list,\n self.compartments,\n ignore_rate_position_checks)\n self.set_linear_events(linear_events,\n allow_nonzero_column_sums=allow_nonzero_column_sums,\n reset_events=reset_events,\n )\n self.set_quadratic_events(quadratic_events,\n allow_nonzero_column_sums=allow_nonzero_column_sums,\n reset_events=reset_events,\n )\n\n return self",
"def get_processes(process_id=None):\n return get_response(api_.describe_processes(request, process_id))",
"def parse_list_attribute_string(process_string):\n if process_string.strip() == '( )':\n return []\n process_string = process_string.replace(\"( \", \"\")\n process_string = process_string.replace(\" )\", \"\")\n processes = process_string.split(' ')\n if not processes[0]:\n return []\n return processes",
"def update (self):\n pids = [int(pid) for pid in os.listdir(PROC_DIR) if pid.isdigit()]\n for pid in pids:\n if pid in self.process_dict: # it already exists\n self.process_dict[pid].update()\n else:\n p = Process(pid, self.item_focus, self.item_remove, self.w)\n self.process_dict[pid] = p\n self.append(p)\n self.sort(key = lambda x: getattr(x, self.sort_var), reverse=self.asc)\n if self.at_top:\n self.set_focus(0)",
"def _get_process_info(self):\n process_infos = []\n if CONF.process_info.proc_detail:\n logger.debug('More information about the collection process.')\n processss = psutil.process_iter(attrs=['name', 'exe', 'pid',\n 'username', 'cmdline',\n 'memory_percent', 'status',\n 'create_time',\n 'cpu_percent', 'cpu_num'])\n else:\n processss = psutil.process_iter(attrs=[\n 'name', 'exe', 'pid', 'status'])\n for process in processss:\n p_info = process.info\n if p_info.get('create_time', None):\n p_info['create_time'] = utils.str_time(p_info['create_time'])\n else:\n pass\n process_infos.append(p_info)\n logger.info('Collect all process information.')\n return process_infos",
"def add_fission_processes(self,process_list):\n linear_events = fission_processes_to_events(process_list)\n\n return self.set_linear_events(linear_events,\n reset_events=False,\n allow_nonzero_column_sums=True)",
"def lista_procesos(self):\n for item in process_iter():\n try:\n data = item.as_dict(attrs=['pid', 'name', 'connections'])\n self.proclist.append(Proceso(pid=data['pid'],\n nombre=data['name'], imagen=item.exe(),\n conexiones=data['connections']))\n\n except AccessDenied:\n print('[!] Problema de acceso!! Ejecuta ese programa como root/Adminsitrador')\n sys.exit(-1)\n except PermissionError:\n print('[!] Problema de acceso!! Ejecuta ese programa como root/Adminsitrador')\n sys.exit(-1)\n return self.proclist",
"def deleteProcess(self, process=None, pid=None):\n if not process:\n try:\n process = self.dict[pid]\n except KeyError:\n return\n try:\n del self.dict[process.pid]\n except KeyError:\n pass\n try:\n self.list.remove(process)\n except ValueError:\n pass",
"def get_own_pid_of_process(process):\n processlist = []\n line_index = 0\n real_index = 0\n pid_flag = 0\n grep_string = \"grep \"\n\n command = \"ps -ef | grep '\" + process +\"'\"\n out = connections.execute_mml(command)\n\n lines = out.splitlines()\n #find the PID whinch contain process and is not the grep pid\n for line_index in range(0, len(lines)):\n if lines[line_index].find(process) > 0 and lines[line_index].find(grep_string + process) == -1:\n real_index = line_index\n pid_flag = 1\n break\n\n if 0 == pid_flag:\n return None\n processlist = lines[real_index].split()\n return processlist[1].strip()",
"def assign_to_machine(self,\n process,\n *,\n node_pool_name,\n process_group=None,\n process_per_machine=1):\n node_pool_di = self.get_node_pool(node_pool_name)\n if process_group is None:\n process_group = process\n\n np_labels = node_pool_di[\"node_config\"][\"labels\"]\n cpu = np_labels[\"cpu\"]\n memory_m = np_labels[\"memory_m\"]\n\n memory_share = memory_m / (process_per_machine + 1)\n cpu_share = (cpu - 0.6) / process_per_machine\n cpu_share = float(int(cpu_share * 1000)) / 1000\n\n if 'gpu_count' in np_labels:\n num_gpus = np_labels['gpu_count']\n gpu_share = max(int(num_gpus / process_per_machine), 1)\n else:\n gpu_share = None\n\n self.assign_to_node_pool(process,\n node_pool_name=node_pool_name,\n process_group=process_group,\n memory_m=memory_share,\n cpu=cpu_share,\n gpu_count=gpu_share)",
"def kill_processes(self, *Proc):\n stdout = _return_pslist()\n pat=re.compile(r'\\w+')\n psDict = {}\n PIDlist = []\n not_found_list = []\n # build mapping of process name to the list of associated process ids.\n # the pslist process name is currently limited to display first 15 chars, so we will compare only 15 chars\n for ps in stdout.splitlines():\n psInfo = ps.split()\n if len(psInfo) < 2:\n continue\n # get just the process name, remove everything after first non-alphanumeric\n psProcessName = re.match(pat,psInfo[1]).group()\n if psProcessName != None:\n psCompareProcessName = psProcessName.lower()[:15]\n if psCompareProcessName in psDict:\n psDict[psCompareProcessName].append(psInfo[0])\n else:\n psDict[psCompareProcessName] = [psInfo[0]]\n for process in list(Proc):\n compareProcessName = process.lower()[:15]\n if compareProcessName in psDict:\n PIDlist.extend(psDict[compareProcessName])\n else:\n not_found_list.append(process)\n if len(PIDlist):\n _kill_process(PIDlist)\n if len(not_found_list):\n return [12,not_found_list]\n else:\n return [0, []]"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for resource, mapped from YANG variable /access_points/access_point/system/alarms/alarm/state/resource (string)
|
def _set_resource(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=six.text_type, is_leaf=True, yang_name="resource", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='string', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """resource must be of a type compatible with string""",
'defined-type': "string",
'generated-type': """YANGDynClass(base=six.text_type, is_leaf=True, yang_name="resource", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='string', is_config=False)""",
})
self.__resource = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_alarm_state(self, req):\r\n self._enforce(req, 'SetAlarmState')\r\n\r\n # Map from AWS state names to those used in the engine\r\n state_map = {'OK': engine_api.WATCH_STATE_OK,\r\n 'ALARM': engine_api.WATCH_STATE_ALARM,\r\n 'INSUFFICIENT_DATA': engine_api.WATCH_STATE_NODATA}\r\n\r\n con = req.context\r\n parms = dict(req.params)\r\n\r\n # Get mandatory parameters\r\n name = api_utils.get_param_value(parms, 'AlarmName')\r\n state = api_utils.get_param_value(parms, 'StateValue')\r\n\r\n if state not in state_map:\r\n msg = _('Invalid state %(state)s, '\r\n 'expecting one of %(expect)s') % {\r\n 'state': state,\r\n 'expect': state_map.keys()}\r\n LOG.error(msg)\r\n return exception.HeatInvalidParameterValueError(msg)\r\n\r\n LOG.debug(\"setting %(name)s to %(state)s\" % {\r\n 'name': name, 'state': state_map[state]})\r\n try:\r\n self.rpc_client.set_watch_state(con, watch_name=name,\r\n state=state_map[state])\r\n except rpc_common.RemoteError as ex:\r\n return exception.map_remote_error(ex)\r\n\r\n return api_utils.format_response(\"SetAlarmState\", \"\")",
"def load_resource_file_state(\r\n self, resource: GenomicResource,\r\n filename: str) -> Optional[ResourceFileState]:",
"def save_resource_file_state(\r\n self, resource: GenomicResource, state: ResourceFileState) -> None:",
"def _restore_resource(self, state, prev_state):\n log.warn(\"%r: PlatformAgent._restore_resource not implemented yet\" % self._platform_id)",
"def update_resource(self, resource):\n raise NotImplementedError(\"update_resource is not implemented\")",
"def update_resource_file(\r\n self, remote_resource: GenomicResource,\r\n dest_resource: GenomicResource,\r\n filename: str) -> Optional[ResourceFileState]:",
"def update_resource_availability(self, state: State, action: SchedulingAction):\n if action.time_progress:\n next_state: State = state # .copy()\n # update the resource used / resource availability function on the possible new availability\n # and consumption of ongoing task -> quite boring to code and debug probably\n for res in self.get_resource_units_names():\n next_state.resource_availability[res] = self.sample_quantity_resource(resource=res, time=next_state.t)\n for res in self.get_resource_types_names():\n next_state.resource_availability[res] = self.sample_quantity_resource(resource=res, time=next_state.t)\n # TODO :\n # Here, if the resource_used[res] is > resource_availability[res] we should be forced to pause some task??\n # If yes which one ? all ? and we let the algorithm resume the one of its choice in the next time step ?\n return next_state\n return state",
"def _restore_resource(self, state, prev_state):\n log.debug(\"starting agent restore process, State: %s, Prev State: %s\", state, prev_state)\n\n # Get state to restore. If the last state was lost connection,\n # use the prior connected state.\n if not state:\n log.debug(\"State not defined, not restoring\")\n return\n\n if state == ResourceAgentState.LOST_CONNECTION:\n state = prev_state\n\n try:\n cur_state = self._fsm.get_current_state()\n\n # If unitialized, confirm and do nothing.\n if state == ResourceAgentState.UNINITIALIZED:\n if cur_state != state:\n raise Exception()\n\n # If inactive, initialize and confirm.\n elif state == ResourceAgentState.INACTIVE:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n cur_state = self._fsm.get_current_state()\n if cur_state != state:\n raise Exception()\n\n # If idle, initialize, activate and confirm.\n elif state == ResourceAgentState.IDLE:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n cur_state = self._fsm.get_current_state()\n if cur_state != state:\n raise Exception()\n\n # If streaming, initialize, activate and confirm.\n # Driver discover should put us in streaming mode.\n elif state == ResourceAgentState.STREAMING:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n self._fsm.on_event(ResourceAgentEvent.RUN)\n self._fsm.on_event(ResourceAgentEvent.EXECUTE_RESOURCE, DriverEvent.START_AUTOSAMPLE)\n cur_state = self._fsm.get_current_state()\n if cur_state != state:\n raise Exception()\n\n # If command, initialize, activate, confirm idle,\n # run and confirm command.\n elif state == ResourceAgentState.COMMAND:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.IDLE:\n raise Exception()\n self._fsm.on_event(ResourceAgentEvent.RUN)\n cur_state = self._fsm.get_current_state()\n if cur_state != state:\n raise Exception()\n\n # If paused, initialize, activate, confirm idle,\n # run, confirm command, pause and confirm stopped.\n elif state == ResourceAgentState.STOPPED:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.IDLE:\n raise Exception()\n self._fsm.on_event(ResourceAgentEvent.RUN)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.COMMAND:\n raise Exception()\n self._fsm.on_event(ResourceAgentEvent.PAUSE)\n cur_state = self._fsm.get_current_state()\n if cur_state != state:\n raise Exception()\n\n # If in a command reachable substate, attempt to return to command.\n # Initialize, activate, confirm idle, run confirm command.\n elif state in [ResourceAgentState.TEST,\n ResourceAgentState.CALIBRATE,\n ResourceAgentState.DIRECT_ACCESS,\n ResourceAgentState.BUSY]:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.IDLE:\n raise Exception()\n self._fsm.on_event(ResourceAgentEvent.RUN)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.COMMAND:\n raise Exception()\n\n # If active unknown, return to active unknown or command if\n # possible. Initialize, activate, confirm active unknown, else\n # confirm idle, run, confirm command.\n elif state == ResourceAgentState.ACTIVE_UNKNOWN:\n self._fsm.on_event(ResourceAgentEvent.INITIALIZE)\n self._fsm.on_event(ResourceAgentEvent.GO_ACTIVE)\n cur_state = self._fsm.get_current_state()\n if cur_state == ResourceAgentState.ACTIVE_UNKNOWN:\n return\n elif cur_state != ResourceAgentState.IDLE:\n raise Exception()\n self._fsm.on_event(ResourceAgentEvent.RUN)\n cur_state = self._fsm.get_current_state()\n if cur_state != ResourceAgentState.COMMAND:\n raise Exception()\n\n else:\n log.error('Instrument agent %s error restoring unhandled state %s, current state %s.',\n self.id, state, cur_state)\n\n except Exception as ex:\n log.error('Instrument agent %s error restoring state %s, current state %s, exception %s.',\n self.id, state, cur_state, str(ex))\n log.exception('###### Agent restore stack trace:')\n\n else:\n log.debug('Instrument agent %s restored state %s = %s.',\n self.id, state, cur_state)",
"def format_stack_resource(r):\r\n keymap = {\r\n engine_api.RES_DESCRIPTION: 'Description',\r\n engine_api.RES_NAME: 'LogicalResourceId',\r\n engine_api.RES_PHYSICAL_ID: 'PhysicalResourceId',\r\n engine_api.RES_STATUS_DATA: 'ResourceStatusReason',\r\n engine_api.RES_TYPE: 'ResourceType',\r\n engine_api.RES_STACK_ID: 'StackId',\r\n engine_api.RES_STACK_NAME: 'StackName',\r\n engine_api.RES_UPDATED_TIME: 'Timestamp',\r\n }\r\n\r\n result = api_utils.reformat_dict_keys(keymap, r)\r\n\r\n result['ResourceStatus'] = self._resource_status(r)\r\n\r\n return self._id_format(result)",
"def build_resource_file_state(\r\n self, resource: GenomicResource,\r\n filename: str,\r\n **kwargs: Union[str, float, int, None]) -> ResourceFileState:\r\n if not self.file_exists(resource, filename):\r\n raise ValueError(\r\n f\"can't build resource state for not existing resource file \"\r\n f\"{resource.resource_id} > {filename}\")\r\n\r\n md5 = kwargs.get(\"md5\")\r\n timestamp = kwargs.get(\"timestamp\")\r\n size = kwargs.get(\"size\")\r\n\r\n if md5 is None:\r\n md5 = self.compute_md5_sum(resource, filename)\r\n\r\n if timestamp is None:\r\n timestamp = self.get_resource_file_timestamp(resource, filename)\r\n\r\n if size is None:\r\n size = self.get_resource_file_size(resource, filename)\r\n\r\n return ResourceFileState(\r\n filename,\r\n cast(int, size),\r\n cast(float, timestamp),\r\n cast(str, md5))",
"def _update_resource(context, resource):\n resource['last_modified'] = datetime.now().isoformat()\n try:\n logic.get_action('resource_update')(context, resource)\n except Exception as e:\n log.exception(e)\n raise CkanError('ckan failed to update resource')",
"def resource_id(self, resource_id):\n if resource_id is None:\n raise ValueError(\n \"Invalid value for `resource_id`, must not be `None`\"\n ) # noqa: E501\n\n self._resource_id = resource_id",
"def RestoredResource(resource, kind=None, async=False, details=None,\n failed=None):\n _PrintResourceChange('restore', resource, kind, async, details, failed)",
"def resource_value(self,resource,key):\n return self.dict[resources_key][resource][key]",
"def __init__(__self__, *,\n kind: pulumi.Input[str],\n name: pulumi.Input[Union[str, 'AutoScalingResourceMetricName']]):\n pulumi.set(__self__, \"kind\", 'Resource')\n pulumi.set(__self__, \"name\", name)",
"def resource_version(self, resource_version):\n\n self._resource_version = resource_version",
"def update_resource_availability_simulation(self, state: State, action: SchedulingAction):\n return self.update_resource_availability(state, action)",
"def set_alarm(self, message):\n alarm_string = message\n self._alarm_state = True\n self._alarm_trace.append(alarm_string)\n logging.info(alarm_string)",
"def _read_alarm_state(self):\n from satel_integra.satel_integra import AlarmState\n\n # Default - disarmed:\n hass_alarm_status = STATE_ALARM_DISARMED\n\n satel_controller = self.hass.data[DATA_SATEL]\n if not satel_controller.connected:\n return None\n\n state_map = OrderedDict([\n (AlarmState.TRIGGERED, STATE_ALARM_TRIGGERED),\n (AlarmState.TRIGGERED_FIRE, STATE_ALARM_TRIGGERED),\n (AlarmState.ARMED_MODE3, STATE_ALARM_ARMED_HOME),\n (AlarmState.ARMED_MODE2, STATE_ALARM_ARMED_HOME),\n (AlarmState.ARMED_MODE1, STATE_ALARM_ARMED_HOME),\n (AlarmState.ARMED_MODE0, STATE_ALARM_ARMED_AWAY),\n (AlarmState.EXIT_COUNTDOWN_OVER_10, STATE_ALARM_PENDING),\n (AlarmState.EXIT_COUNTDOWN_UNDER_10, STATE_ALARM_PENDING)\n ])\n _LOGGER.debug(\"State map of Satel: %s\",\n satel_controller.partition_states)\n\n for satel_state, ha_state in state_map.items():\n if satel_state in satel_controller.partition_states and\\\n self._partition_id in\\\n satel_controller.partition_states[satel_state]:\n hass_alarm_status = ha_state\n break\n\n return hass_alarm_status",
"def set_alarm_state(server_address, server_port, new_alarm_state):\n # Connect to server\n connection = server_connection(server_address, server_port)\n\n # Request changing alarm state\n command = \"set_alarm_state \" + str(new_alarm_state)\n connection.send(bytes(command, \"utf-8\"))\n\n # Close connection\n connection.close()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for type_id, mapped from YANG variable /access_points/access_point/system/alarms/alarm/state/type_id (union)
|
def _set_type_id(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=[six.text_type,RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'AIS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:AIS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'EQPT': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:EQPT': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'LOS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:LOS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'OTS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:OTS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}},),], is_leaf=True, yang_name="type-id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='union', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """type_id must be of a type compatible with union""",
'defined-type': "openconfig-access-points:union",
'generated-type': """YANGDynClass(base=[six.text_type,RestrictedClassType(base_type=six.text_type, restriction_type="dict_key", restriction_arg={'AIS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:AIS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'EQPT': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:EQPT': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'LOS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:LOS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'OTS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}, 'oc-alarm-types:OTS': {'@module': 'openconfig-alarm-types', '@namespace': 'http://openconfig.net/yang/alarms/types'}},),], is_leaf=True, yang_name="type-id", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='union', is_config=False)""",
})
self.__type_id = t
if hasattr(self, '_set'):
self._set()
|
[
"def applicant_id_type(self, applicant_id_type):\n self._applicant_id_type = applicant_id_type",
"def set_type(self, ttype):\n self.type = ttype\n self.token.type = ttype",
"def _set_type(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='identityref', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"type must be of a type compatible with identityref\"\"\",\n 'defined-type': \"openconfig-qos:identityref\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='identityref', is_config=False)\"\"\",\n })\n\n self.__type = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_type(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='identityref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"type must be of a type compatible with identityref\"\"\",\n 'defined-type': \"openconfig-qos:identityref\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:ONE_RATE_TWO_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}, 'oc-qos-types:TWO_RATE_THREE_COLOR': {'@module': 'openconfig-qos-types', '@namespace': 'http://openconfig.net/yang/qos-types'}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='identityref', is_config=True)\"\"\",\n })\n\n self.__type = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_type(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'IPV4': {}, 'IPV6': {}, 'MPLS': {}, 'ETHERNET': {}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='enumeration', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"type must be of a type compatible with enumeration\"\"\",\n 'defined-type': \"openconfig-qos:enumeration\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'IPV4': {}, 'IPV6': {}, 'MPLS': {}, 'ETHERNET': {}},), is_leaf=True, yang_name=\"type\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='enumeration', is_config=True)\"\"\",\n })\n\n self.__type = t\n if hasattr(self, '_set'):\n self._set()",
"def set_type(self, type):\n return _raw_util.raw_message_set_type(self, type)",
"def addType(self, id, lex, type):\r\n\r\n return self.tables[id].setType(lex, type)",
"def getTypeId(self) -> \"SoType\":\n return _coin.ScXMLAbstractStateElt_getTypeId(self)",
"def getTypeId(self) -> \"SoType\":\n return _coin.ScXMLStateElt_getTypeId(self)",
"def type(self, type):\n allowed_values = [\"simple\", \"complex\", \"collection\"]\n if type not in allowed_values:\n raise ValueError(\n \"Invalid value for `type` ({0}), must be one of {1}\"\n .format(type, allowed_values)\n )\n\n self._type = type",
"def set_data_type(self, a_data_type):\n self.parameters[\"type\"] = str(a_data_type)\n return self",
"def set_type(self, entry_type):\n if entry_type not in self._types:\n raise PgHbaException(\"type '%s' unsupported, supported types are: %s\" %\n (entry_type, ', '.join([\"'%s'\" % sup_type for sup_type in self._types])))\n self._fields['type'] = entry_type",
"def getTypeId(self) -> \"SoType\":\n return _coin.ScXMLEvaluator_getTypeId(self)",
"def build_type_id(self, build_type_id):\n\n self._build_type_id = build_type_id",
"def setFieldType(self, type: 'int') -> \"void\":\n return _coin.SoField_setFieldType(self, type)",
"def getTypeId(self) -> \"SoType\":\n return _coin.ScXMLStateMachine_getTypeId(self)",
"def transfrom_id_type(id_type: string) -> string:\n if id_type == 'GroupId':\n return 'group'\n if id_type == 'StudentId':\n return 'student'\n raise ValueError('Unknown type')",
"def getTypeId(self) -> \"SoType\":\n return _coin.SoMFEnum_getTypeId(self)",
"def FLISetFrameType(self, handle, frame_type):\n frame_type = self._check_valid(frame_type, 'frame type')\n self._call_function('setting frame type', self._CDLL.FLISetFrameType,\n handle, ctypes.c_long(frame_type))",
"def federal_tax_id_type(self, federal_tax_id_type):\n\n self._federal_tax_id_type = federal_tax_id_type"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/alarms/alarm/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_alarms_alarm_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_alarms_alarm_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=False)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_alarm_state(self, req):\r\n self._enforce(req, 'SetAlarmState')\r\n\r\n # Map from AWS state names to those used in the engine\r\n state_map = {'OK': engine_api.WATCH_STATE_OK,\r\n 'ALARM': engine_api.WATCH_STATE_ALARM,\r\n 'INSUFFICIENT_DATA': engine_api.WATCH_STATE_NODATA}\r\n\r\n con = req.context\r\n parms = dict(req.params)\r\n\r\n # Get mandatory parameters\r\n name = api_utils.get_param_value(parms, 'AlarmName')\r\n state = api_utils.get_param_value(parms, 'StateValue')\r\n\r\n if state not in state_map:\r\n msg = _('Invalid state %(state)s, '\r\n 'expecting one of %(expect)s') % {\r\n 'state': state,\r\n 'expect': state_map.keys()}\r\n LOG.error(msg)\r\n return exception.HeatInvalidParameterValueError(msg)\r\n\r\n LOG.debug(\"setting %(name)s to %(state)s\" % {\r\n 'name': name, 'state': state_map[state]})\r\n try:\r\n self.rpc_client.set_watch_state(con, watch_name=name,\r\n state=state_map[state])\r\n except rpc_common.RemoteError as ex:\r\n return exception.map_remote_error(ex)\r\n\r\n return api_utils.format_response(\"SetAlarmState\", \"\")",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot1x_timers_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot1x_timers_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11r_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_band_steering_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_band_steering_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11v_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_dot11v_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_interfaces__interfaces_interface_subinterfaces_subinterface_ipv6_addresses_address_vrrp_vrrp_group_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/interfaces/ip', defining_module='openconfig-if-ip', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_queue_management_profiles_queue_management_profile_red_uniform_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for alarm, mapped from YANG variable /access_points/access_point/system/alarms/alarm (list)
|
def _set_alarm(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("id",yc_alarm_openconfig_access_points__access_points_access_point_system_alarms_alarm, yang_name="alarm", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="alarm", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """alarm must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("id",yc_alarm_openconfig_access_points__access_points_access_point_system_alarms_alarm, yang_name="alarm", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="alarm", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=False)""",
})
self.__alarm = t
if hasattr(self, '_set'):
self._set()
|
[
"def list_alarms(self, entity):\r\n uri = \"/%s/%s/alarms\" % (self.uri_base, utils.get_id(entity))\r\n resp, resp_body = self.api.method_get(uri)\r\n return [CloudMonitorAlarm(self, dct, entity)\r\n for dct in resp_body[\"values\"]]",
"def _list_alarms(self, alarm_id=None):\n if alarm_id:\n return self.clients(\"ceilometer\").alarms.get(alarm_id)\n else:\n return self.clients(\"ceilometer\").alarms.list()",
"def list_alarms(self, list_alarm_input):\n mon_plugin = MonPlugin()\n triggered_alarms = mon_plugin.get_triggered_alarms_list(list_alarm_input)\n return triggered_alarms",
"def list_alarms(self, endpoint, auth_token, list_details):\n url = \"{}/v2/alarms/\".format(endpoint)\n a_list, name_list, sev_list, res_list = [], [], [], []\n\n # TODO(mcgoughh): for now resource_id is a mandatory field\n # Check for a reqource is\n try:\n resource = list_details['resource_uuid']\n except KeyError as exc:\n log.warn(\"Resource id not specified for list request: %s\", exc)\n return None\n\n # Checking what fields are specified for a list request\n try:\n name = list_details['alarm_name'].lower()\n if name not in ALARM_NAMES.keys():\n log.warn(\"This alarm is not supported, won't be used!\")\n name = None\n except KeyError as exc:\n log.info(\"Alarm name isn't specified.\")\n name = None\n\n try:\n severity = list_details['severity'].lower()\n sev = SEVERITIES[severity]\n except KeyError as exc:\n log.info(\"Severity is unspecified/incorrectly configured\")\n sev = None\n\n # Perform the request to get the desired list\n try:\n result = self.common._perform_request(\n url, auth_token, req_type=\"get\")\n\n if result is not None:\n # Get list based on resource id\n for alarm in json.loads(result.text):\n rule = alarm['gnocchi_resources_threshold_rule']\n if resource == rule['resource_id']:\n res_list.append(str(alarm))\n if not res_list:\n log.info(\"No alarms for this resource\")\n return a_list\n\n # Generate specified listed if requested\n if name is not None and sev is not None:\n log.info(\"Return a list of %s alarms with %s severity.\",\n name, sev)\n for alarm in json.loads(result.text):\n if name == alarm['name']:\n name_list.append(str(alarm))\n for alarm in json.loads(result.text):\n if sev == alarm['severity']:\n sev_list.append(str(alarm))\n name_sev_list = list(set(name_list).intersection(sev_list))\n a_list = list(set(name_sev_list).intersection(res_list))\n elif name is not None:\n log.info(\"Returning a %s list of alarms.\", name)\n for alarm in json.loads(result.text):\n if name == alarm['name']:\n name_list.append(str(alarm))\n a_list = list(set(name_list).intersection(res_list))\n elif sev is not None:\n log.info(\"Returning %s severity alarm list.\", sev)\n for alarm in json.loads(result.text):\n if sev == alarm['severity']:\n sev_list.append(str(alarm))\n a_list = list(set(sev_list).intersection(res_list))\n else:\n log.info(\"Returning an entire list of alarms.\")\n a_list = res_list\n else:\n log.info(\"There are no alarms!\")\n\n except Exception as exc:\n log.info(\"Failed to generate required list: %s\", exc)\n return None\n\n return a_list",
"def instance_clear_alarm(alarm_list):\n for alarm_data in alarm_list:\n alarm.alarm_clear(alarm_data.alarm_uuid)",
"def _updateAlarm(self) -> None:\r\n pass",
"def describe_alarms_for_metric(self, req):\r\n self._enforce(req, 'DescribeAlarmsForMetric')\r\n return exception.HeatAPINotImplementedError()",
"def set_alarm_time(times):\n alarm_time.append(times)",
"def list_alarms(self, entity):\r\n return self._entity_manager.list_alarms(entity)",
"def get_device_alarms(self) -> Dict[str, Any]:\n\n logger.debug(\"Requesting device alarms\")\n\n alarms = []\n devices = self.get_devices()\n for device in devices:\n device_settings = self.get_device_settings(device[\"deviceId\"])\n alarms += device_settings[\"alarms\"]\n return alarms",
"def list_alarms(self):\r\n return self.manager.list_alarms(self)",
"def alarms(self):\n sources = copy.deepcopy(self.sources)\n alarms = []\n idx = 0\n for src in sources:\n if src.device.alarm:\n alarms.append(\"s_\"+str(idx).zfill(2)) #the s_ prefix is generated in pxp.py\n idx+=1\n return alarms",
"def DescribeBasicAlarmList(self, request):\n try:\n params = request._serialize()\n headers = request.headers\n body = self.call(\"DescribeBasicAlarmList\", params, headers=headers)\n response = json.loads(body)\n model = models.DescribeBasicAlarmListResponse()\n model._deserialize(response[\"Response\"])\n return model\n except Exception as e:\n if isinstance(e, TencentCloudSDKException):\n raise\n else:\n raise TencentCloudSDKException(type(e).__name__, str(e))",
"def clear_all_alarms(self):\n self.navigate_to(self.MONITOR, self.MONITOR_ALL_ALARMS)\n\n #JLIN@20081112 add delay time for ZD implement alarms clear\n self.s.click_and_wait(self.info['loc_mon_alarms_clearall_button'], 5)",
"def disable_alarm_actions(self, req):\r\n self._enforce(req, 'DisableAlarmActions')\r\n return exception.HeatAPINotImplementedError()",
"def onAlarm(self):",
"def get_alarms(zone=None):\n alarms = Alarms()\n alarms.update(zone)\n return set(alarms.alarms.values())",
"def get_alarm(self, entity, alarm):\r\n uri = \"/%s/%s/alarms/%s\" % (self.uri_base, utils.get_id(entity),\r\n utils.get_id(alarm))\r\n resp, resp_body = self.api.method_get(uri)\r\n return CloudMonitorAlarm(self, resp_body, entity)",
"def __getitem__(self, alarm_id):\n return self.alarms[alarm_id]",
"def advapi32_PrivilegedServiceAuditAlarm(jitter, get_str, set_str):\n ret_ad, args = jitter.func_args_stdcall([\"SubsystemName\", \"ServiceName\", \"ClientToken\", \"Privileges\", \"AccessGranted\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for config, mapped from YANG variable /access_points/access_point/system/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_band_steering_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/system/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_dynamic_subscriptions_dynamic_subscription_sensor_paths_sensor_path_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_global_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rapid_pvst_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_input_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_rstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_classifiers_classifier_terms_term_actions_remark_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_band_steering_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_band_steering_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_interfaces_interface_output_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for clock, mapped from YANG variable /access_points/access_point/system/clock (container)
|
def _set_clock(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_clock_openconfig_access_points__access_points_access_point_system_clock, is_container='container', yang_name="clock", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """clock must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_clock_openconfig_access_points__access_points_access_point_system_clock, is_container='container', yang_name="clock", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__clock = t
if hasattr(self, '_set'):
self._set()
|
[
"async def set_device_clock(call: ServiceCall) -> None:\n gw_dev = hass.data[DATA_OPENTHERM_GW][DATA_GATEWAYS][call.data[ATTR_GW_ID]]\n attr_date = call.data[ATTR_DATE]\n attr_time = call.data[ATTR_TIME]\n await gw_dev.gateway.set_clock(datetime.combine(attr_date, attr_time))",
"def update_clock(self, _):\n self.clock = utils.get_time_human_readable()",
"def create_clock(self, name):\n return self._add_port(ClusterClockPort(self, name))",
"def setSystemTime(self, t):\r\n print(t)\r\n\r\n # Convert to full datetime\r\n now = dt.datetime.now()\r\n d = dt.datetime.combine(dt.date(now.year, now.month, now.day), t)\r\n # Convert to seconds \r\n seconds = (d-dt.datetime(1970,1,1)).total_seconds()\r\n # set clock\r\n time.clock_settime(time.CLOCK_REALTIME, seconds)\r\n print('Clock set')",
"def set_clock(self, delta: timedelta) -> None:\n try:\n self.last_time_delta = delta\n time_delta_str = str(delta)\n hours, minutes, seconds = time_delta_str.split(':')\n if '.' in seconds:\n seconds, mseconds = seconds.split('.')\n mseconds = mseconds[:GlobalConfig.clock_ms_digits]\n else:\n mseconds = '0'\n self.last_time_update = TimeUpdate(hours, minutes, seconds, mseconds)\n self.update_clock()\n except Exception:\n print(delta)",
"def build_clock():\n return html.Div([\n daq.LEDDisplay(id='clock', value='00:00:00',\n size=24, color='#333333')\n ], className='navbar-2')",
"def draw_clock(self):\n\n now = self.current_time()\n hour = now.hour\n minute = now.minute\n second = now.second\n\n x0 = 32*3+19\n y0 = 12\n\n self.graphics.DrawCircle(self.canvas, x0, y0, 12, self.time_color)\n self.graphics.DrawCircle(self.canvas, x0, y0+1, 12, self.time_color)\n\n hour_angle = (hour+minute/60)*2.0*pi/12.0 - 0.5*pi\n minute_angle = minute*2.0*pi/60.0 - 0.5*pi\n second_angle = second*2.0*pi/60.0 - 0.5*pi\n\n self.draw_line_angular(x0, y0, 10, second_angle, self.second_color)\n self.draw_line_angular(x0, y0, 10, minute_angle, self.minute_color)\n self.draw_line_angular(x0, y0+1, 10, minute_angle, self.minute_color)\n self.draw_line_angular(x0+1, y0, 10, minute_angle, self.minute_color)\n self.draw_line_angular(x0, y0, 8, hour_angle, self.hour_color)\n self.draw_line_angular(x0, y0+1, 8, hour_angle, self.hour_color)\n self.draw_line_angular(x0+1, y0, 8, hour_angle, self.hour_color)",
"def get_clock(self) -> Clock:\n try:\n return self.api.get_clock()\n except BrokerException as err:\n print('[!] Unable to get the clock.')\n raise err",
"def clock(self) -> Callable[[], Time]:\n return lambda: self._manager.time",
"def set_hwclock(clock):\n if salt.utils.path.which(\"timedatectl\"):\n cmd = [\n \"timedatectl\",\n \"set-local-rtc\",\n \"true\" if clock == \"localtime\" else \"false\",\n ]\n return __salt__[\"cmd.retcode\"](cmd, python_shell=False) == 0\n else:\n os_family = __grains__[\"os_family\"]\n if os_family in (\"AIX\", \"NILinuxRT\"):\n if clock.lower() != \"utc\":\n raise SaltInvocationError(\"UTC is the only permitted value\")\n return True\n\n timezone = get_zone()\n\n if \"Solaris\" in __grains__[\"os_family\"]:\n if clock.lower() not in (\"localtime\", \"utc\"):\n raise SaltInvocationError(\n \"localtime and UTC are the only permitted values\"\n )\n if \"sparc\" in __grains__[\"cpuarch\"]:\n raise SaltInvocationError(\n \"UTC is the only choice for SPARC architecture\"\n )\n cmd = [\"rtc\", \"-z\", \"GMT\" if clock.lower() == \"utc\" else timezone]\n return __salt__[\"cmd.retcode\"](cmd, python_shell=False) == 0\n\n zonepath = \"/usr/share/zoneinfo/{}\".format(timezone)\n\n if not os.path.exists(zonepath):\n raise CommandExecutionError(\"Zone '{}' does not exist\".format(zonepath))\n\n os.unlink(\"/etc/localtime\")\n os.symlink(zonepath, \"/etc/localtime\")\n\n if \"Arch\" in __grains__[\"os_family\"]:\n cmd = [\n \"timezonectl\",\n \"set-local-rtc\",\n \"true\" if clock == \"localtime\" else \"false\",\n ]\n return __salt__[\"cmd.retcode\"](cmd, python_shell=False) == 0\n elif \"RedHat\" in __grains__[\"os_family\"]:\n __salt__[\"file.sed\"](\n \"/etc/sysconfig/clock\", \"^ZONE=.*\", 'ZONE=\"{}\"'.format(timezone)\n )\n elif \"Suse\" in __grains__[\"os_family\"]:\n __salt__[\"file.sed\"](\n \"/etc/sysconfig/clock\",\n \"^TIMEZONE=.*\",\n 'TIMEZONE=\"{}\"'.format(timezone),\n )\n elif \"Debian\" in __grains__[\"os_family\"]:\n if clock == \"UTC\":\n __salt__[\"file.sed\"](\"/etc/default/rcS\", \"^UTC=.*\", \"UTC=yes\")\n elif clock == \"localtime\":\n __salt__[\"file.sed\"](\"/etc/default/rcS\", \"^UTC=.*\", \"UTC=no\")\n elif \"Gentoo\" in __grains__[\"os_family\"]:\n if clock not in (\"UTC\", \"localtime\"):\n raise SaltInvocationError(\"Only 'UTC' and 'localtime' are allowed\")\n if clock == \"localtime\":\n clock = \"local\"\n __salt__[\"file.sed\"](\n \"/etc/conf.d/hwclock\", \"^clock=.*\", 'clock=\"{}\"'.format(clock)\n )\n elif \"Slackware\" in os_family:\n if clock not in (\"UTC\", \"localtime\"):\n raise SaltInvocationError(\"Only 'UTC' and 'localtime' are allowed\")\n __salt__[\"file.sed\"](\n \"/etc/hardwareclock\", \"^(UTC|localtime)\", \"{}\".format(clock)\n )\n\n return True",
"def update_clock_synchronization_config(self, context, host):\n return self.call(context,\n self.make_msg('update_clock_synchronization_config',\n host=host))",
"def testClockInSameTime(self):\r\n self.login_user(self.user)\r\n entry1_data = {\r\n 'user': self.user,\r\n 'start_time': self.now,\r\n 'project': self.project,\r\n 'activity': self.devl_activity,\r\n }\r\n entry1 = factories.Entry(**entry1_data)\r\n entry1_data.update({\r\n 'st_str': self.now.strftime('%H:%M:%S')\r\n })\r\n data = self.clock_in_form\r\n data.update({\r\n 'start_time_0': entry1.start_time.strftime('%m/%d/%Y'),\r\n 'start_time_1': entry1.start_time.strftime('%H:%M:%S'),\r\n })\r\n #This clock in attempt should be blocked by entry1 (same start time)\r\n response = self.client.post(self.url, data)\r\n self.assertFormError(response, 'form', None, \\\r\n 'Please enter a valid start time')\r\n self.assertFormError(response, 'form', 'start_time', \\\r\n 'The start time is on or before the current entry: ' + \\\r\n '%(project)s - %(activity)s starting at %(st_str)s' % entry1_data)",
"def setClockXML(self,qtouchComponent,touchMenu,targetDevice):\n clockXml = qtouchComponent.createStringSymbol(\"CLOCK_XML\", touchMenu)\n clockXml.setVisible(True)\n if (targetDevice in set([\"SAMC21\",\"SAMC20\",\"PIC32CMJH01\",\"PIC32CMJH00\"])):\n clockXml.setDefaultValue(\"c21_clock_config\")\n elif (targetDevice in set([\"SAMD10\", \"SAMD11\"])):\n clockXml.setDefaultValue(\"d1x_clock_config\")\n elif (targetDevice in set([\"SAMD20\",\"SAMD21\",\"SAMDA1\"])):\n clockXml.setDefaultValue(\"d21_clock_config\")\n elif(targetDevice in set([\"SAMD51\",\"SAME51\",\"SAME53\",\"SAME54\"])):\n clockXml.setDefaultValue(\"e5x_clock_config\")\n elif(targetDevice == \"SAMHA1\"):\n clockXml.setDefaultValue(\"ha1_clock_config\")\n elif(targetDevice in set([\"SAML10\",\"SAML11\",\"SAML1xE\"]) ):\n clockXml.setDefaultValue(\"l1x_clock_config\")\n elif(targetDevice == \"PIC32MZDA\"):\n clockXml.setDefaultValue(\"pic32mzda_clock_config\")\n elif(targetDevice == \"PIC32MZW\"):\n clockXml.setDefaultValue(\"pic32mzw_clock_config\")\n elif(targetDevice in [\"PIC32CXBZ31\", \"WBZ35\"]):\n clockXml.setDefaultValue(\"pic32cx_clock_config\")\n elif(targetDevice in [\"PIC32CMLE00\",\"PIC32CMLS00\"]):\n clockXml.setDefaultValue(\"pic32cm_clock_config\")\n elif(targetDevice == \"SAML22\"):\n clockXml.setDefaultValue(\"l22_clock_config\")\n elif(targetDevice == \"SAML21\"):\n clockXml.setDefaultValue(\"l21_clock_config\")\n elif(targetDevice in [\"PIC32CZCA80\",\"PIC32CZCA90\"]):\n clockXml.setDefaultValue(\"pic32cz_clock_config\")\n else:\n if targetDevice not in self.picDevices:\n print (\"error - setClockXML\")",
"def clock_pin(self):\n return None",
"def _build_set_real_time_clock_command(self, cmd, str_time, **kwargs):\n return cmd + str_time",
"def test_execute_clock_sync(self):\n self.assert_enter_command_mode()\n\n self.assert_resource_command_and_resource_state(ProtocolEvent.CLOCK_SYNC, ProtocolState.COMMAND)\n # clocl should now be synced\n\n # Now verify that at least the date matches\n params = [Parameter.TIME]\n check_new_params = self.instrument_agent_client.get_resource(params)\n lt = time.strftime(\"%d %b %Y %H:%M:%S\", time.gmtime(time.mktime(time.localtime())))",
"def timeClockStatus(self, clock):\n\n\t\tclockHex = hex(clock)[2:]\n\t\tresp = StatusResponse(self.port.command(\"802 \" + clockHex))\n\n\t\tschedule = string.atoi(resp.results[1], 16)\n\t\tnextType = resp.results[2]\n\n\t\tminsSinceMidnight = string.atoi(resp.results[3], 16)\n\t\tnextTime = datetime.time(minsSinceMidnight/60, minsSinceMidnight%60)\n\n\t\tnextScript = string.atoi(resp.results[4], 16)\n\n\t\treturn (schedule, nextType, nextTime, nextScript)",
"def fix_ntp_clock(self):\n self.log.info('fixing appliance clock')\n client = self.ssh_client()\n try:\n ntp_server = random.choice(conf.cfme_data['clock_servers'])\n except IndexError:\n raise Exception('No clock servers configured in cfme_data.yaml')\n\n status, out = client.run_command(\"ntpdate {}\".format(ntp_server))\n if status != 0:\n self.log.error('ntpdate failed:')\n self.log.error(out)\n raise Exception('Setting the time failed on appliance')",
"def _turn_clock(self, piece_color, clock=1):\n if clock:\n self.halfmoveclock += 1\n else:\n self.halfmoveclock = 0\n if self[piece_color].color == 'c':\n self.fullmove += 1\n return",
"def _draw_digital_clock(self):\n self._draw_time_scale()\n self._draw_time()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for dns, mapped from YANG variable /access_points/access_point/system/dns (container)
|
def _set_dns(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_dns_openconfig_access_points__access_points_access_point_system_dns, is_container='container', yang_name="dns", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """dns must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_dns_openconfig_access_points__access_points_access_point_system_dns, is_container='container', yang_name="dns", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__dns = t
if hasattr(self, '_set'):
self._set()
|
[
"def dns(ip_addr: str = \"\"):\n return _run_speedify_cmd([\"dns\", ip_addr])",
"def update_dns(domain_service, args):\n\n try:\n dns_entries = domain_service.get_info(args.domain_name).dnsEntries\n except WebFault as err:\n print(err)\n sys.exit(1)\n\n number_of_entries = len(dns_entries)\n for entry in dns_entries:\n if args.add_dns_entry and entry.name == args.entry_name and entry.type == args.entry_type and \\\n entry.content == args.entry_content:\n print('The DNS entry already exists.')\n sys.exit(1)\n\n elif args.update_dns_entry and entry.name == args.entry_name and entry.type == args.entry_type:\n dns_entries.remove(entry)\n\n elif args.delete_dns_entry and entry.name == args.entry_name and entry.type == args.entry_type and \\\n entry.expire == args.entry_expire and entry.content == args.entry_content:\n dns_entries.remove(entry)\n\n if args.update_dns_entry or args.delete_dns_entry:\n if number_of_entries == len(dns_entries):\n print('The DNS entry was not found.')\n sys.exit(1)\n\n if args.add_dns_entry or args.update_dns_entry:\n dns_entries.append(DnsEntry(args.entry_name, args.entry_expire, args.entry_type, args.entry_content))\n\n try:\n result = domain_service.set_dns_entries(args.domain_name, dns_entries)\n except WebFault as err:\n print(err)\n sys.exit(1)\n if result is None:\n print('Request finished successfully.')\n else:\n print(result)",
"def update_dns_config(self, context):\n personalities = [constants.CONTROLLER]\n config_uuid = self._config_update_hosts(context, personalities)\n config_dict = {\n \"personalities\": personalities,\n \"classes\": ['platform::dns::resolv::runtime'],\n }\n self._config_apply_runtime_manifest(context, config_uuid, config_dict)",
"def cloud_dns(self):\r\n return self._get_client(\"dns\")",
"def update_dns_config(self, context):\n return self.call(context, self.make_msg('update_dns_config'))",
"def dns(self) -> list[str]:\n return [f\"{self.hostname}.{DNS_SUFFIX}\"]",
"def modify_hichina_domain_dns(\n self,\n request: alidns_20150109_models.ModifyHichinaDomainDNSRequest,\n ) -> alidns_20150109_models.ModifyHichinaDomainDNSResponse:\n runtime = util_models.RuntimeOptions()\n return self.modify_hichina_domain_dnswith_options(request, runtime)",
"def dns_reverse_lookup(ip_address, dns_table):\n try:\n reversed_dns = socket.gethostbyaddr(ip_address)\n except socket.herror:\n # No DNS record, don't store in dictionary\n pass\n else:\n dns_table[ip_address] = reversed_dns[0]",
"def dns_failure(self, dns_failure):\n\n self._dns_failure = dns_failure",
"def dns(json_domain):\n conn = sqlite3.connect('psn.db')\n c = conn.cursor()\n\n c.execute('''CREATE TABLE IF NOT EXISTS dns\n (TIMESTAMP DATETIME PRIMARY KEY NOT NULL,\n CDN TEXT NOT NULL,\n IP TEXT NOT NULL\n )''')\n\n timestamp = time.time()\n timestamp = datetime.datetime.fromtimestamp(timestamp).strftime('%Y-%m-%d %H:%M:%S')\n\n psn_domain = json_domain\n dig_cmd = 'dig +short %s' % psn_domain\n\n with open(\"stdout_dig.log\", 'w') as stdout_file:\n proc = subprocess.Popen(dig_cmd, shell=True, stdout=stdout_file)\n proc.communicate()\n\n with open(\"stdout_dig.log\", 'r') as stdout_file:\n for i, line in enumerate(stdout_file):\n # find the CDN in the DNS response\n if i == 2:\n cdn = line.rstrip('\\n')\n if \"edgesuite.net\" in cdn:\n cdn = 'Akamai'\n elif \"l02.cdn\" in cdn:\n cdn = 'Limelight'\n elif \"footprint.net\" in cdn:\n cdn = 'Level3'\n elif \"cloudfront.net\" in cdn:\n cdn = 'CloudFront'\n # find the first IP address returned in the DNS response then exit loop\n ip_matches = re.findall(r\"\\b(?:[0-9]{1,3}\\.){3}[0-9]{1,3}\\b\", line)\n if ip_matches:\n ip = ip_matches[0]\n break\n\n c.execute(\"INSERT INTO dns (TIMESTAMP,CDN,IP) \\\n VALUES (?, ?, ?)\", (timestamp, cdn, ip))\n conn.commit()\n conn.close()\n return()",
"def setDNS(prim, sec):\n logging.debugv(\"functions/linux.py->setDNS(prim, sec)\", [prim, sec])\n logging.info(\"Setting DNS to %s and %s\" % (prim, sec) )\n resolv = open('/etc/resolv.conf', 'w')\n if prim != \"\":\n resolv.write(\"nameserver %s\\n\" % (prim))\n logging.debug(\"Writing primary server %s\" % str(prim))\n if sec != \"\":\n resolv.write(\"nameserver %s\\n\" % (sec))\n logging.debug(\"Writing secondary server % s\" % str(sec))\n resolv.close()",
"def dnsquery( fqdn ):\n\n # Set name of logger with calling details\n ls = \"%s by %s\" % ( __name__ , '__dnsquery__' )\n logger = logging.getLogger( ls )\n\n # DNS retrieve we'll be ensure with dig.\n cmd_to_query = \"/usr/bin/dig +short\"\n\n # Determine wheter or not we belong to caisse-epargne.\n if ( re.search( \"caisse-epargne.fr\", fqdn ) ):\n \n ans_host = fqdn \n\n elif ( re.search( \"dom103\" , fqdn ) ):\n \n # Take care of bunker also...\n ans_host1 = re.sub( \"dom103\", \"dom101\", fqdn )\n ans_host = \"a-%s\" % ( ans_host1 )\n\n else:\n\n ans_host = \"a-%s\" % ( fqdn )\n\n # Query and read output !\n string = \"%s %s\" % ( cmd_to_query, ans_host )\n dnsquery = os.popen ( string ).read()\n\n # If query result is void, set ansible_host to none.\n # And log it as an issue...\n if ( dnsquery == \"\" ):\n\n string = \"Empty DNS reply for %s\" % ( ans_host )\n logger.warning( string )\n ans_host = None\n\n return ans_host",
"def SetGlobalDNS(self, dns1=None, dns2=None, dns3=None,\n dns_dom =None, search_dom=None):\n print \"setting global dns\"\n self.config.set(\"Settings\", \"global_dns_1\", misc.noneToString(dns1))\n self.dns1 = dns1\n self.wifi.global_dns_1 = dns1\n self.wired.global_dns_1 = dns1\n self.config.set(\"Settings\", \"global_dns_2\", misc.noneToString(dns2))\n self.dns2 = dns2\n self.wifi.global_dns_2 = dns2\n self.wired.global_dns_2 = dns2\n self.config.set(\"Settings\", \"global_dns_3\", misc.noneToString(dns3))\n self.dns3 = dns3\n self.wifi.global_dns_3 = dns3\n self.wired.global_dns_3 = dns3\n self.config.set(\"Settings\", \"global_dns_dom\",\n misc.noneToString(dns_dom))\n self.dns_dom = dns_dom\n self.wifi.dns_dom = dns_dom\n self.wired.dns_dom = dns_dom\n self.config.set(\"Settings\", \"global_search_dom\",\n misc.noneToString(search_dom))\n self.search_dom = search_dom\n self.wifi.global_search_dom = search_dom\n self.wired.global_search_dom = search_dom\n print 'global dns servers are', dns1, dns2, dns3\n print 'domain is %s' % dns_dom\n print 'search domain is %s' % search_dom\n self.config.write()",
"def dnslink(self) -> Optional[pulumi.Input[str]]:\n return pulumi.get(self, \"dnslink\")",
"def delete_dns_record(self, domain_name, domain_dns_value):\n raise NotImplementedError(\"delete_dns_record method must be implemented.\")",
"def import_network_dns(self):\n # Loop through all DNS request connections\n for conn in self.results.get('network', dict()).get('dns', dict()):\n\n # Record the DNS request\n try:\n self.upload_indicator(conn.get('request'))\n except (CuckooReportError, RuntimeError):\n pass\n\n # Record all the answers\n for answer in conn.get('answers', list()):\n try:\n self.upload_indicator(answer)\n except (CuckooReportError, RuntimeError):\n pass",
"def dns_settings(self) -> Optional['outputs.VirtualMachineScaleSetNetworkConfigurationDnsSettingsResponse']:\n return pulumi.get(self, \"dns_settings\")",
"def _setDNSCache():\n def _getaddrinfo(*args, **kwargs):\n global _dnscache\n if args in _dnscache:\n #print str(args)+\" in cache\"\n return _dnscache[args]\n else:\n #print str(args)+\" not in cache\"\n _dnscache[args] = socket._getaddrinfo(*args, **kwargs)\n return _dnscache[args]\n\n if not hasattr(socket, '_getaddrinfo'):\n socket._getaddrinfo = socket.getaddrinfo\n socket.getaddrinfo = _getaddrinfo",
"def dns_proxy(self):\n ret = self._get_attr(\"DNSProxy\")\n return ret",
"def create_dns_a_record(dns_name, ip_addresses, zone_name):\n rr_set = get_a_record(dns_name, zone_name)\n body = {}\n # Record present and is wrong.\n if rr_set and ip_addresses != rr_set.get('rrdatas', []):\n body['deletions'] = [rr_set]\n if not rr_set or ('deletions' in body):\n body['additions'] = [{\n 'name': dns_name,\n 'type': 'A',\n 'ttl': 300,\n 'rrdatas': ip_addresses\n }]\n # Is there any work to do? body is empty if the record already exists.\n if body:\n change_dns_record(body, zone_name)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for ntp, mapped from YANG variable /access_points/access_point/system/ntp (container)
|
def _get_ntp(self):
return self.__ntp
|
[
"def get_ntp_cfg(self):\n self.navigate_to(self.CONFIGURE, self.CONFIGURE_SYSTEM)\n\n if not self.s.is_element_present(self.info['loc_cfg_system_time_ntp_textbox']):\n raise Exception(\"Element %s not found\" % self.info['loc_cfg_system_time_ntp_textbox'])\n time.sleep(2)\n ntp_conf = self.s.get_value(self.info['loc_cfg_system_time_ntp_textbox'])\n\n return ntp_conf",
"def ntp_2_ion_ts(ntp_time):\n\n # convert to system time:\n sys_time = ntplib.ntp_to_system_time(ntp_time)\n\n # convert to milliseconds rounding to the nearest integer:\n sys_time = int(round(sys_time * 1000))\n\n # return as str\n return str(sys_time)",
"def _system_to_ntp_time(timestamp):\n return timestamp + _NTPBasePacket._NTP_DELTA",
"def templates_ntp(self, ntp_id=None, tenant_id=None, api_version=\"v2.0\"):\n\n if tenant_id is None and self._parent_class.tenant_id:\n # Pull tenant_id from parent namespace cache.\n tenant_id = self._parent_class.tenant_id\n elif not tenant_id:\n # No value for tenant_id.\n raise TypeError(\"tenant_id is required but not set or cached.\")\n cur_ctlr = self._parent_class.controller\n\n if not ntp_id:\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/templates/ntp\".format(api_version,\n tenant_id)\n else:\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/templates/ntp/{}\".format(api_version,\n tenant_id,\n ntp_id)\n\n api_logger.debug(\"URL = %s\", url)\n return self._parent_class.rest_call(url, \"get\")",
"def ion_ts_2_ntp(ion_ts):\n\n # convert to seconds:\n sys_time = float(ion_ts) / 1000\n\n # convert to NTP\n ntp_time = ntplib.system_to_ntp_time(sys_time)\n\n return ntp_time",
"def get_ntp_enabled(self):\n return None",
"def ntp_host_name(self):\n return self.data.get(\"ntp_host_name\")",
"def ntp_to_system_time(date):\n return date - _NTP_DELTA",
"def get_ntp_stats(self):\n # NTP Peers does not have XML RPC defined\n # thus we need to retrieve raw text and parse...\n # :(\n\n ntp_stats = []\n\n REGEX = (\n r\"^\\s?(\\+|\\*|x|-)?([a-zA-Z0-9\\.+-:]+)\"\n r\"\\s+([a-zA-Z0-9\\.]+)\\s+([0-9]{1,2})\"\n r\"\\s+(-|u)\\s+([0-9h-]+)\\s+([0-9]+)\"\n r\"\\s+([0-9]+)\\s+([0-9\\.]+)\\s+([0-9\\.-]+)\"\n r\"\\s+([0-9\\.]+)\\s?$\"\n )\n\n ntp_assoc_output = self.device.cli(\"show ntp associations no-resolve\")\n ntp_assoc_output_lines = ntp_assoc_output.splitlines()\n\n for ntp_assoc_output_line in ntp_assoc_output_lines[3:]: # except last line\n line_search = re.search(REGEX, ntp_assoc_output_line, re.I)\n if not line_search:\n continue # pattern not found\n line_groups = line_search.groups()\n try:\n ntp_stats.append(\n {\n \"remote\": napalm.base.helpers.ip(line_groups[1]),\n \"synchronized\": (line_groups[0] == \"*\"),\n \"referenceid\": str(line_groups[2]),\n \"stratum\": int(line_groups[3]),\n \"type\": str(line_groups[4]),\n \"when\": str(line_groups[5]),\n \"hostpoll\": int(line_groups[6]),\n \"reachability\": int(line_groups[7]),\n \"delay\": float(line_groups[8]),\n \"offset\": float(line_groups[9]),\n \"jitter\": float(line_groups[10]),\n }\n )\n except Exception:\n continue # jump to next line\n\n return ntp_stats",
"def update_ntp_config(self, context):\n return self.call(context, self.make_msg('update_ntp_config'))",
"def get_ntp_servers(self):\n return ()",
"def ntp_auth_key(self):\n return self.data.get(\"ntp_auth_key\")",
"def get_ntp_servers(self):\n ntp_table = junos_views.junos_ntp_servers_config_table(self.device)\n ntp_table.get(options=self.junos_config_options)\n\n ntp_servers = ntp_table.items()\n\n if not ntp_servers:\n return {}\n\n return {napalm.base.helpers.ip(server[0]): {} for server in ntp_servers}",
"def get_ntp_stats(self):\n\n raw_show_sntp_stats = self._send_command(\"show sntp server\")\n\n show_sntp_stats = textfsm_extractor(\n self, \"show_sntp_server\", raw_show_sntp_stats\n )\n\n ntp_stats = []\n for server in show_sntp_stats:\n if server[\"status\"] == \"Success\":\n synchronized = True\n else:\n synchronized = False\n ntp_stats.append(\n {\n \"remote\": server[\"server_ip\"],\n # Not supported\n \"referenceid\": \"\",\n \"synchronized\": synchronized,\n # Not supported\n \"stratum\": -1,\n # We only support parsing unicast servers right now\n \"type\": \"u\",\n # We don't support parsing this right now\n \"when\": \"\",\n # Not supported\n \"hostpoll\": -1,\n # Not supported\n \"reachability\": -1,\n # Not supported\n \"delay\": -0.0,\n # Not supported\n \"offset\": -0.0,\n # Not supported\n \"jitter\": -0.0,\n }\n )\n\n return ntp_stats",
"def getNTPSetup(self):\n return NTPSetup(self.__screen)",
"def address(self):\n return self.data.get(\"ntp_host_name\")",
"def get_tpu(tpu_name: str, project: str, zone: str) -> Mapping[str, Any]:\n tpu_node_url = os.path.join(\n _TPU_BASE_URL, \"projects\", project, \"locations\", zone, \"nodes\", tpu_name\n )\n resp = requests.get(tpu_node_url, headers=get_headers())\n return resp.json()",
"def get_ntp_peers(self):\n ntp_table = junos_views.junos_ntp_peers_config_table(self.device)\n ntp_table.get(options=self.junos_config_options)\n\n ntp_peers = ntp_table.items()\n\n if not ntp_peers:\n return {}\n\n return {napalm.base.helpers.ip(peer[0]): {} for peer in ntp_peers}",
"def nat_instance(template):\n return template.resources[\"NAT\"]",
"def ntp_auth_key_type(self):\n return self.data.get(\"ntp_auth_key_type\")"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for ntp, mapped from YANG variable /access_points/access_point/system/ntp (container)
|
def _set_ntp(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_ntp_openconfig_access_points__access_points_access_point_system_ntp, is_container='container', yang_name="ntp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """ntp must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_ntp_openconfig_access_points__access_points_access_point_system_ntp, is_container='container', yang_name="ntp", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__ntp = t
if hasattr(self, '_set'):
self._set()
|
[
"def update_ntp_config(self, context):\n return self.call(context, self.make_msg('update_ntp_config'))",
"def set_ntp_server(self, server, index=0):\n return None",
"def get_ntp_cfg(self):\n self.navigate_to(self.CONFIGURE, self.CONFIGURE_SYSTEM)\n\n if not self.s.is_element_present(self.info['loc_cfg_system_time_ntp_textbox']):\n raise Exception(\"Element %s not found\" % self.info['loc_cfg_system_time_ntp_textbox'])\n time.sleep(2)\n ntp_conf = self.s.get_value(self.info['loc_cfg_system_time_ntp_textbox'])\n\n return ntp_conf",
"def ntp_2_ion_ts(ntp_time):\n\n # convert to system time:\n sys_time = ntplib.ntp_to_system_time(ntp_time)\n\n # convert to milliseconds rounding to the nearest integer:\n sys_time = int(round(sys_time * 1000))\n\n # return as str\n return str(sys_time)",
"def set_ntp_enabled(self, enabled):\n return None",
"def set_ntp_servers(self):\n ntp_servers = self.middleware.call_sync('system.ntpserver.query')\n default_ntp_servers = list(filter(lambda x: 'freebsd.pool.ntp.org' in x['address'], ntp_servers))\n if len(ntp_servers) != 3 or len(default_ntp_servers) != 3:\n return\n\n ad = self.middleware.call_sync('activedirectory.config')\n pdc = ActiveDirectory_Conn(conf=ad, logger=self.logger).get_pdc()\n if not pdc:\n self.logger.warning(\"Unable to detect PDC emulator for domain. \"\n \"Failed to automatically set time source.\")\n return\n\n self.middleware.call_sync('system.ntpserver.create', {'address': pdc, 'prefer': True})",
"def templates_ntp(self, ntp_id=None, tenant_id=None, api_version=\"v2.0\"):\n\n if tenant_id is None and self._parent_class.tenant_id:\n # Pull tenant_id from parent namespace cache.\n tenant_id = self._parent_class.tenant_id\n elif not tenant_id:\n # No value for tenant_id.\n raise TypeError(\"tenant_id is required but not set or cached.\")\n cur_ctlr = self._parent_class.controller\n\n if not ntp_id:\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/templates/ntp\".format(api_version,\n tenant_id)\n else:\n url = str(cur_ctlr) + \"/{}/api/tenants/{}/templates/ntp/{}\".format(api_version,\n tenant_id,\n ntp_id)\n\n api_logger.debug(\"URL = %s\", url)\n return self._parent_class.rest_call(url, \"get\")",
"def sync_time(self):\n os.system('sudo /usr/sbin/ntpd {}'.format(self.ntp_server))",
"def _system_to_ntp_time(timestamp):\n return timestamp + _NTPBasePacket._NTP_DELTA",
"def ntpdate():\n file_write('/etc/cron.daily/ntpdate', 'ntpdate ntp.ubuntu.com', '755')\n run('ntpdate ntp.ubuntu.com')",
"def get_ntp_enabled(self):\n return None",
"def fix_ntp_clock(self):\n self.log.info('fixing appliance clock')\n client = self.ssh_client()\n try:\n ntp_server = random.choice(conf.cfme_data['clock_servers'])\n except IndexError:\n raise Exception('No clock servers configured in cfme_data.yaml')\n\n status, out = client.run_command(\"ntpdate {}\".format(ntp_server))\n if status != 0:\n self.log.error('ntpdate failed:')\n self.log.error(out)\n raise Exception('Setting the time failed on appliance')",
"def ntp_to_system_time(date):\n return date - _NTP_DELTA",
"def ion_ts_2_ntp(ion_ts):\n\n # convert to seconds:\n sys_time = float(ion_ts) / 1000\n\n # convert to NTP\n ntp_time = ntplib.system_to_ntp_time(sys_time)\n\n return ntp_time",
"def ntp_host_name(self):\n return self.data.get(\"ntp_host_name\")",
"def _add_time_variable(root, time, **kwds):\n units = kwds.get(\"units\", \"days\")\n reference = kwds.get(\"reference\", \"00:00:00 UTC\")\n\n netcdf_vars = root.variables\n\n try:\n time_var = netcdf_vars[\"t\"]\n except KeyError:\n time_var = root.createVariable(\"t\", \"f8\", (\"nt\",))\n time_var.units = \" \".join([units, \"since\", reference])\n time_var.long_name = \"time\"\n\n try:\n n_times = len(time_var)\n except TypeError:\n n_times = len(time_var[:])\n if time is not None:\n time_var[n_times] = time\n else:\n time_var[n_times] = n_times",
"def set_TTL(self, value):\n super(SendMessageInputSet, self)._set_input('TTL', value)",
"def get_ntp_servers(self):\n return ()",
"def ntp_auth_key(self):\n return self.data.get(\"ntp_auth_key\")",
"def _set_tpid(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'TPID_0X8100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X9100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_ANY': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X8100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X88A8': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X9200': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_ANY': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X9100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X88A8': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X9200': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}},), is_leaf=True, yang_name=\"tpid\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='identityref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"tpid must be of a type compatible with identityref\"\"\",\n 'defined-type': \"openconfig-vlan:identityref\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=six.text_type, restriction_type=\"dict_key\", restriction_arg={'TPID_0X8100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X9100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_ANY': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X8100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X88A8': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X9200': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_ANY': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'oc-vlan-types:TPID_0X9100': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X88A8': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}, 'TPID_0X9200': {'@namespace': 'http://openconfig.net/yang/vlan-types', '@module': 'openconfig-vlan-types'}},), is_leaf=True, yang_name=\"tpid\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='identityref', is_config=True)\"\"\",\n })\n\n self.__tpid = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for grpc_server, mapped from YANG variable /access_points/access_point/system/grpc_server (container)
|
def _get_grpc_server(self):
return self.__grpc_server
|
[
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def getOLAPServer(self):\n # log_func.warning(u'%s. Get OLAP server' % self.__class__.__name__)\n return self._OLAP_server",
"def server(self):\r\n if self._server is None:\r\n self._server = self.nova().servers.get(self.resource_id)\r\n return self._server",
"def vsphere_server(self) -> Optional[str]:\n return __config__.get('vsphereServer')",
"def create_server(cls, ca_cert, server_cert, server_key):\n return grpc.ssl_server_credentials(\n private_key_certificate_chain_pairs = [\n [\n cls.read_tls_file(server_key),\n cls.read_tls_file(server_cert)\n ]\n ],\n root_certificates = cls.read_tls_file(ca_cert),\n require_client_auth = True\n )",
"def create_server_context(domain, container_path, context_path=None, use_ssl=True, api_key=None):\n config = dict(\n domain=domain,\n container_path=container_path,\n context_path=context_path,\n use_ssl=use_ssl,\n api_key=api_key\n )\n\n return ServerContext(**config)",
"def server_jobspec(language, docker_image, test_duration_secs):\n container_name = dockerjob.random_name('interop_server_%s' %\n language.safename)\n cmdline = bash_login_cmdline(language.server_cmd(['--port=%s' %\n _DEFAULT_SERVER_PORT]))\n environ = language.global_env()\n docker_cmdline = docker_run_cmdline(\n cmdline,\n image=docker_image,\n cwd=language.server_cwd,\n environ=environ,\n docker_args=['-p', str(_DEFAULT_SERVER_PORT), '--name', container_name])\n\n server_job = jobset.JobSpec(cmdline=docker_cmdline,\n environ=environ,\n shortname='interop_server_%s' % language,\n timeout_seconds=test_duration_secs * 3)\n server_job.container_name = container_name\n return server_job",
"def RunServer(self, host='0.0.0.0', port=9992):\n caching = CachingServer(port + 1)\n server = SimpleXMLRPCServer((host, port), allow_none=True,\n requestHandler=ChameleonXMLRPCRequestHandler,\n logRequests=True)\n server.register_introspection_functions()\n # Setting allow_dotted_names=True allows a client to access the object\n # members of self._driver. This is useful to group methods into\n # different objects, e.g., audio, video, bluetooth hid, etc., in addition\n # to some generic methods.\n server.register_instance(self._driver, allow_dotted_names=True)\n\n signal_handler = lambda signum, frame: sys.exit(0)\n signal.signal(signal.SIGTERM, signal_handler)\n\n try:\n # Launch the caching server on the next port, serving cached files.\n logging.info('Start the caching server process.')\n caching.start()\n\n # Launch the XMLRPC server to serve Chameleond APIs.\n logging.info('Listening on %s port %d...', host, port)\n server.serve_forever()\n finally:\n logging.info('Terminate the caching server process.')\n caching.terminate()",
"def _grpc_launch_server(self) -> Optional[int]:\n\n # References for starting processes\n # - https://github.com/wandb/client/blob/archive/old-cli/wandb/__init__.py\n # - https://stackoverflow.com/questions/1196074/how-to-start-a-background-process-in-python\n\n kwargs: Dict[str, Any] = dict(close_fds=True)\n\n pid = os.getpid()\n\n with tempfile.TemporaryDirectory() as tmpdir:\n fname = os.path.join(tmpdir, f\"port-{pid}.txt\")\n\n pid_str = str(os.getpid())\n exec_cmd_list = [sys.executable, \"-m\"]\n # Add coverage collection if needed\n if os.environ.get(\"COVERAGE_RCFILE\"):\n exec_cmd_list += [\"coverage\", \"run\", \"-m\"]\n internal_proc = subprocess.Popen(\n exec_cmd_list\n + [\n \"wandb\",\n \"service\",\n \"--port-filename\",\n fname,\n \"--pid\",\n pid_str,\n \"--debug\",\n \"true\",\n ],\n env=os.environ,\n **kwargs,\n )\n port = self._grpc_wait_for_port(fname, proc=internal_proc)\n\n return port",
"def startServer(port, username):\n try:\n server = grpc.server(futures.ThreadPoolExecutor(max_workers=16))\n p2p_msg_pb2_grpc.add_PeerServicer_to_server(PeerServicer(username), server)\n server.add_insecure_port('[::]:' + port)\n server.start()\n print('Server started. Waiting for client to connect...')\n server.wait_for_termination()\n except:\n print('Server error occured.')",
"def container(self) -> Optional['outputs.InfinispanSpecServiceContainer']:\n return pulumi.get(self, \"container\")",
"def docker_container_name(self) -> str:\n return f\"{APPNAME}-{self.name}-{self.scope}-server\"",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def get_rpc_server_class():\n global RPC_CLASS\n if not RPC_CLASS:\n cp = get_configparser()\n if cp.get('DEFAULT', 'zdstack_rpc_protocol') == 'xml-rpc':\n from ZDStack.RPCServer import XMLRPCServer\n RPC_CLASS = XMLRPCServer\n elif cp.get('DEFAULT', 'zdstack_rpc_protocol') == 'json-rpc':\n from ZDStack.RPCServer import JSONRPCServer\n RPC_CLASS = JSONRPCServer\n return RPC_CLASS",
"def getServerFromCtx(self, session, ctx, commit=True):\n import discord\n # If the context exists in a private/group chat\n if ctx.message.channel.type in [discord.ChannelType.private,\n discord.ChannelType.group]:\n # Get the user, then the active server.\n # If the user doesn't exist, then there is no active server\n user = session.query(schema.User).get(int(ctx.message.author.id))\n if user is None:\n return None, False\n return user.active_server, False\n # Get the server\n return self.getServer(session, ctx.message.server.id, commit)",
"def tcp_server(self):\n return self.__tcp_server",
"def _update_container_info(self, cid, server_response):\n _log.debug('Getting container config from etcd')\n\n try:\n # Get a single endpoint ID from the container, and use this to\n # get the Endpoint.\n ep_id = self.datastore.get_endpoint_id_from_cont(hostname, cid)\n ep = self.datastore.get_endpoint(endpoint_id=ep_id)\n except KeyError:\n _log.info('No workload found for container %s, '\n 'returning request unmodified.', cid)\n return\n\n _log.debug('Pre-load body:\\n%s', server_response[\"Body\"])\n\n # Tweak the contents of the NetworkSettings dictionary in the request\n # body. We use an arbitrary IPv4 / IPv6 address from the endpoint\n # network sets to fill in the IP information since the dictionary only\n # allows a single value for each.\n body = json.loads(server_response[\"Body\"])\n net_settings = body['NetworkSettings']\n for ipv4_net in ep.ipv4_nets:\n if ipv4_net.prefixlen == 32:\n net_settings['IPAddress'] = str(ipv4_net.ip)\n break\n for ipv6_net in ep.ipv6_nets:\n if ipv6_net.prefixlen == 128:\n net_settings['GlobalIPv6Address'] = str(ipv6_net.ip)\n break\n net_settings[\"MacAddress\"] = str(ep.mac)\n server_response['Body'] = json.dumps(body, separators=(',', ':'))\n\n _log.debug('Post-load body:\\n%s', server_response[\"Body\"])",
"def get_server_type(self):\n\n return self.server_type"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for grpc_server, mapped from YANG variable /access_points/access_point/system/grpc_server (container)
|
def _set_grpc_server(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name="grpc-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """grpc_server must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name="grpc-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__grpc_server = t
if hasattr(self, '_set'):
self._set()
|
[
"def _get_grpc_server(self):\n return self.__grpc_server",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def RunServer(self, host='0.0.0.0', port=9992):\n caching = CachingServer(port + 1)\n server = SimpleXMLRPCServer((host, port), allow_none=True,\n requestHandler=ChameleonXMLRPCRequestHandler,\n logRequests=True)\n server.register_introspection_functions()\n # Setting allow_dotted_names=True allows a client to access the object\n # members of self._driver. This is useful to group methods into\n # different objects, e.g., audio, video, bluetooth hid, etc., in addition\n # to some generic methods.\n server.register_instance(self._driver, allow_dotted_names=True)\n\n signal_handler = lambda signum, frame: sys.exit(0)\n signal.signal(signal.SIGTERM, signal_handler)\n\n try:\n # Launch the caching server on the next port, serving cached files.\n logging.info('Start the caching server process.')\n caching.start()\n\n # Launch the XMLRPC server to serve Chameleond APIs.\n logging.info('Listening on %s port %d...', host, port)\n server.serve_forever()\n finally:\n logging.info('Terminate the caching server process.')\n caching.terminate()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def create_server(cls, ca_cert, server_cert, server_key):\n return grpc.ssl_server_credentials(\n private_key_certificate_chain_pairs = [\n [\n cls.read_tls_file(server_key),\n cls.read_tls_file(server_cert)\n ]\n ],\n root_certificates = cls.read_tls_file(ca_cert),\n require_client_auth = True\n )",
"def set_server(self, observatory):\n url = config.get_server_url(observatory)\n if url is not None:\n api.set_crds_server(url)\n return observatory",
"def startServer(port, username):\n try:\n server = grpc.server(futures.ThreadPoolExecutor(max_workers=16))\n p2p_msg_pb2_grpc.add_PeerServicer_to_server(PeerServicer(username), server)\n server.add_insecure_port('[::]:' + port)\n server.start()\n print('Server started. Waiting for client to connect...')\n server.wait_for_termination()\n except:\n print('Server error occured.')",
"def mock_server(self, host, port, server):\n self._mock_servers[host + \":\" + str(port)] = server",
"def set_server_option(self, option): # real signature unknown; restored from __doc__\n pass",
"def create_server_context(domain, container_path, context_path=None, use_ssl=True, api_key=None):\n config = dict(\n domain=domain,\n container_path=container_path,\n context_path=context_path,\n use_ssl=use_ssl,\n api_key=api_key\n )\n\n return ServerContext(**config)",
"def start_test_server():\n server = grpc.server(ThreadPoolExecutor(max_workers=10))\n log.info('Creating server=ThreadPoolExecutor, max_workers=10')\n\n # Add the servicer\n api_pb2_grpc.add_APITestServicer_to_server(\n APITestServicer(), server)\n log.info('Adding API servicer: {}'.format(APITestServicer))\n\n # Add a secure port\n server.add_secure_port(SRV_TARGET, gRPC_API_Credentials.create_server(\n tp['ca_cert'],\n tp['server_cert'],\n tp['server_key']\n ))\n log.info('Creating secure channel on {}'.format(SRV_TARGET))\n log.info('ca_cert: {}, owner={}, mode={}'.format(tp['ca_cert'],\n get_owner_string(tp['ca_cert']),\n get_mode_string(tp['ca_cert'])\n ))\n log.info('server_cert: {}, owner={}, mode={}'.format(tp['server_cert'],\n get_owner_string(tp['server_cert']),\n get_mode_string(tp['server_cert'])\n ))\n log.info('server_key: {}, owner={}, mode={}'.format(tp['server_key'],\n get_owner_string(tp['server_key']),\n get_mode_string(tp['server_key'])\n ))\n\n # Start the server\n server.start()\n\n # Keep serving requests\n log.info('Server now running on {}'.format(SRV_TARGET))\n while True:\n sleep(1)",
"def _configure_server(server, port, credentials):\n server.add_secure_port(f'[::]:{port}', credentials)",
"def _grpc_launch_server(self) -> Optional[int]:\n\n # References for starting processes\n # - https://github.com/wandb/client/blob/archive/old-cli/wandb/__init__.py\n # - https://stackoverflow.com/questions/1196074/how-to-start-a-background-process-in-python\n\n kwargs: Dict[str, Any] = dict(close_fds=True)\n\n pid = os.getpid()\n\n with tempfile.TemporaryDirectory() as tmpdir:\n fname = os.path.join(tmpdir, f\"port-{pid}.txt\")\n\n pid_str = str(os.getpid())\n exec_cmd_list = [sys.executable, \"-m\"]\n # Add coverage collection if needed\n if os.environ.get(\"COVERAGE_RCFILE\"):\n exec_cmd_list += [\"coverage\", \"run\", \"-m\"]\n internal_proc = subprocess.Popen(\n exec_cmd_list\n + [\n \"wandb\",\n \"service\",\n \"--port-filename\",\n fname,\n \"--pid\",\n pid_str,\n \"--debug\",\n \"true\",\n ],\n env=os.environ,\n **kwargs,\n )\n port = self._grpc_wait_for_port(fname, proc=internal_proc)\n\n return port",
"def vsphere_server(self) -> Optional[str]:\n return __config__.get('vsphereServer')",
"def server_jobspec(language, docker_image, test_duration_secs):\n container_name = dockerjob.random_name('interop_server_%s' %\n language.safename)\n cmdline = bash_login_cmdline(language.server_cmd(['--port=%s' %\n _DEFAULT_SERVER_PORT]))\n environ = language.global_env()\n docker_cmdline = docker_run_cmdline(\n cmdline,\n image=docker_image,\n cwd=language.server_cwd,\n environ=environ,\n docker_args=['-p', str(_DEFAULT_SERVER_PORT), '--name', container_name])\n\n server_job = jobset.JobSpec(cmdline=docker_cmdline,\n environ=environ,\n shortname='interop_server_%s' % language,\n timeout_seconds=test_duration_secs * 3)\n server_job.container_name = container_name\n return server_job",
"def serve(host, port, *, connection_file_path: Optional[str] = None, kill_timeout: Optional[float] = None):\n _100_MB = 100 * 1024 * 1024\n\n done_evt = threading.Event()\n server = grpc.server(\n futures.ThreadPoolExecutor(max_workers=32),\n options=[\n (\"grpc.max_send_message_length\", _100_MB),\n (\"grpc.max_receive_message_length\", _100_MB),\n (\"grpc.so_reuseport\", 0),\n ],\n )\n\n data_store = DataStore()\n\n inference_svc = InferenceServicer(TorchDevicePool(), SessionManager(), data_store)\n fligh_svc = FlightControlServicer(done_evt=done_evt, kill_timeout=kill_timeout)\n data_svc = DataStoreServicer(data_store)\n\n inference_pb2_grpc.add_InferenceServicer_to_server(inference_svc, server)\n inference_pb2_grpc.add_FlightControlServicer_to_server(fligh_svc, server)\n data_store_pb2_grpc.add_DataStoreServicer_to_server(data_svc, server)\n\n acquired_port = server.add_insecure_port(f\"{host}:{port}\")\n print(f\"Starting server on {host}:{acquired_port}\")\n if connection_file_path:\n print(f\"Writing connection data to {connection_file_path}\")\n with open(connection_file_path, \"w\") as conn_file:\n json.dump({\"addr\": host, \"port\": acquired_port}, conn_file)\n\n server.start()\n\n done_evt.wait()\n\n server.stop(0).wait()",
"def __init__(self, server, port, service_name='memcache'):\n super(MemcacheServiceStub, self).__init__(service_name)\n if not server:\n server = DEFAULT_ADDR\n if not port:\n port = DEFAULT_PORT\n\n self._cache = pylibmc.Client(['%s:%i' % (server, port)])",
"def serve(prediction_service):\n logging.info(\"Start gRPC server with PredictionService: {}\".format(vars(\n prediction_service)))\n\n # TODO: not able to use ThreadPoolExecutor\n #server = grpc.server(futures.ThreadPoolExecutor(max_workers=10))\n #inference_pb2.add_InferenceServiceService_to_server(InferenceService(), server)\n server = predict_pb2.beta_create_PredictionService_server(\n prediction_service)\n server.add_insecure_port('[::]:50051')\n server.start()\n try:\n while True:\n time.sleep(_ONE_DAY_IN_SECONDS)\n except KeyboardInterrupt:\n server.stop(0)",
"def server(self):\r\n if self._server is None:\r\n self._server = self.nova().servers.get(self.resource_id)\r\n return self._server"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for ssh_server, mapped from YANG variable /access_points/access_point/system/ssh_server (container)
|
def _get_ssh_server(self):
return self.__ssh_server
|
[
"def get_docker_server_instance(self, ssh_flag=False):\n return DockerServerInstance(instance_obj=self.aws_instance_object, ssh_flag=ssh_flag)",
"def ssh(self):\n return self._url('ssh')",
"def server_host(self):\n return self.server['host']",
"def ssh_channel(self):\n return self._sftp.get_channel()",
"def _provide_git_ssh_environment(self):\n if not is_ssh_repo_url(self.url) or self._ssh_key is None:\n return None # no ssh config\n git_ssh_identity_file = self._save_ssh_key_to_pem_file(self._ssh_key)\n return {\n \"GIT_SSH_COMMAND\": f\"ssh -o StrictHostKeyChecking=no -o IdentitiesOnly=yes -i {git_ssh_identity_file}\",\n \"GIT_TRACE\": \"1\",\n \"GIT_CURL_VERBOSE\": \"1\"\n }",
"def ssh_auth(self) -> Optional['outputs.SpringCloudCustomizedAcceleratorGitRepositorySshAuth']:\n return pulumi.get(self, \"ssh_auth\")",
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def docker_ssh_volume_name(self) -> str:\n return os.environ.get(\n 'SSH_TUNNEL_VOLUME_NAME',\n f\"{self.docker_container_name}-ssh-vol\"\n )",
"def _get_ssh_client(self, host):\n ssh = None\n\n global remote_user\n global remote_pwd\n if remote_user is None:\n remote_user = os.getenv('EG_REMOTE_USER', getpass.getuser())\n remote_pwd = os.getenv('EG_REMOTE_PWD') # this should use password-less ssh\n\n try:\n ssh = paramiko.SSHClient()\n ssh.load_system_host_keys()\n ssh.set_missing_host_key_policy(paramiko.RejectPolicy())\n host_ip = gethostbyname(host)\n if remote_pwd:\n ssh.connect(host_ip, port=ssh_port, username=remote_user, password=remote_pwd)\n else:\n ssh.connect(host_ip, port=ssh_port, username=remote_user)\n except Exception as e:\n http_status_code = 500\n current_host = gethostbyname(gethostname())\n error_message = \"Exception '{}' occurred when creating a SSHClient at {} connecting \" \\\n \"to '{}:{}' with user '{}', message='{}'.\".\\\n format(type(e).__name__, current_host, host, ssh_port, remote_user, e)\n if e is paramiko.SSHException or paramiko.AuthenticationException:\n http_status_code = 403\n error_message_prefix = \"Failed to authenticate SSHClient with password\"\n error_message = error_message_prefix + (\" provided\" if remote_pwd else \"-less SSH\")\n\n self.log_and_raise(http_status_code=http_status_code, reason=error_message)\n return ssh",
"def get_server_access(self, server_name):\n server = self.servers.get(server_name)\n ui.debug(\"access for\", server_name, \":\", server)\n if not server:\n return None\n return server.access",
"def ssh(context):\n print('Creating SSH session')\n\n # Load the SSH config\n ssh_config = aws_infrastructure.tasks.ssh.SSHConfig.load(ssh_config_path=ssh_config_path)\n\n # Launch an external SSH session,\n # which seems more appropriate than attempting via Paramiko.\n context.run(\n command=' '.join([\n 'start', # Ensures Windows launches ssh outside cmd\n # This has been only way to obtain a proper terminal\n 'ssh',\n '-l {}'.format(ssh_config.user),\n '-i {}'.format(Path(ssh_config_path.parent, ssh_config.key_file)),\n '-o StrictHostKeyChecking=no',\n '-o UserKnownHostsFile=\"{}\"'.format(Path(ssh_config_path.parent, 'known_hosts')),\n ssh_config.ip\n ]),\n disown=True\n )",
"def parseSSHConfig(self):\n\t\tsshConfigFile = open(\"/Users/abhishek/.ssh/config\", \"r\")\n\t\tsshConfig = sshConfigFile.read()\n\t\tsshConfigFile.close()\n\t\treturn map(lambda host: host.replace(\"Host \",\"\"), filter(lambda line: line.startswith(\"Host\"), sshConfig.split(\"\\n\")))",
"def tcp_server(self):\n return self.__tcp_server",
"def ssh(host, key, command):\n\tclient = paramiko.SSHClient()\n\tclient.load_system_host_keys()\n\tclient.set_missing_host_key_policy(paramiko.AutoAddPolicy())\n\tclient.connect(host, username='ubuntu', key_filename=key) #TODO:Username?\n\ti, o, e = client.exec_command(command)\n\to, e = o.read(), e.read()\n\tif e: warning(e)\n\treturn o",
"def ssh(container):\n if not container:\n container = helper.get_php_container()\n if not container:\n sys.exit(0)\n\n cli = helper.get_docker_client()\n\n if helper.docker_ping(cli):\n try:\n dockerpty.exec_command(cli, container, \"bash\")\n except docker.errors.APIError as err:\n helper.error_message(\"Docker error: {0}\".format(err))\n helper.error_message(\"Make sure you have run 'magedock start' first.\")\n else:\n helper.error_message(\"Can't ping to docker\\nMake sure you have run 'magedock start' first\")",
"def vsphere_server(self) -> Optional[str]:\n return __config__.get('vsphereServer')",
"def test_authorize_ssh_known_remotehost(self):\n pass",
"def ssh(node):\n if len(node) == 2:\n # we received env and node name\n env = node[0]\n running = helpers.check_sim_running(env)\n node = node[1]\n elif len(node) == 1:\n # assume default env\n env = 'default'\n running = helpers.check_sim_running(env)\n node = node[0]\n else:\n exit(call(['virl', 'ssh', '--help']))\n\n if running:\n sim_name = running\n server = VIRLServer()\n details = server.get_sim_roster(sim_name)\n\n # default ssh username can be overriden\n username = server.config.get('VIRL_SSH_USERNAME', 'cisco')\n\n if node:\n try:\n node_dict = get_node_from_roster(node, details)\n node_name = node_dict.get(\"NodeName\")\n ip = node_dict['managementIP']\n proxy = node_dict.get(\"managementProxy\")\n\n if 'VIRL_SSH_COMMAND' in server.config:\n cmd = server.config['VIRL_SSH_COMMAND']\n cmd = cmd.format(host=ip, username=username)\n print(\"Calling user specified command: {}\".format(cmd))\n exit(call(cmd.split()))\n\n if proxy == 'lxc':\n lxc = get_mgmt_lxc_ip(details)\n if lxc:\n click.secho(\"Attemping ssh connection\"\n \"to {} at {} via {}\".format(node_name,\n ip, lxc))\n cmd = 'ssh -o \"ProxyCommand ssh -W %h:%p {}@{}\" {}@{}'\n cmd = cmd.format(server.user, lxc, username, ip)\n\n exit(call(cmd, shell=True))\n else:\n # handle the \"flat\" networking case\n click.secho(\"Attemping ssh connection\"\n \"to {} at {}\".format(node_name,\n ip))\n\n exit(call(['ssh', '{}@{}'.format(username, ip)]))\n\n except AttributeError:\n click.secho(\"Could not find management info\"\n \" for {}:{}\".format(env, node), fg=\"red\")\n\n except KeyError:\n click.secho(\"Unknown node {}:{}\".format(env, node), fg=\"red\")\n else:\n return details.json()",
"def ssh(cmd, host, user='root', raises=True):\n keys = os.path.join(ROOTDIR, 'images/keys/unsecure_key')\n ssh = Command('ssh -o StrictHostKeyChecking=no -i {keys} {user}@{host} {cmd}'.format(**locals()))\n if ssh.returncode and raises:\n raise RuntimeError(\"Command '{}' on host {} returned an error:\\n{}\".format(cmd, host, ssh.stderr))\n return ssh.stdout",
"def ssh_known_hosts_contents(self) -> Optional[str]:\n return pulumi.get(self, \"ssh_known_hosts_contents\")"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for ssh_server, mapped from YANG variable /access_points/access_point/system/ssh_server (container)
|
def _set_ssh_server(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_ssh_server_openconfig_access_points__access_points_access_point_system_ssh_server, is_container='container', yang_name="ssh-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """ssh_server must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_ssh_server_openconfig_access_points__access_points_access_point_system_ssh_server, is_container='container', yang_name="ssh-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__ssh_server = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def get_docker_server_instance(self, ssh_flag=False):\n return DockerServerInstance(instance_obj=self.aws_instance_object, ssh_flag=ssh_flag)",
"def set_server_access(self, server_name, username,\n password=None, root=None):\n server = self.servers.get(server_name)\n if not server:\n server = Server()\n server.name = server_name\n self.servers[server_name] = server\n access = self.servers[server_name].access\n access.name = server_name\n access.username = username\n access.password = password\n access.root = root",
"def ssh_port(self, ssh_port):\n if ssh_port is not None and ssh_port > 2147483647: # noqa: E501\n raise ValueError(\"Invalid value for `ssh_port`, must be a value less than or equal to `2147483647`\") # noqa: E501\n if ssh_port is not None and ssh_port < -2147483648: # noqa: E501\n raise ValueError(\"Invalid value for `ssh_port`, must be a value greater than or equal to `-2147483648`\") # noqa: E501\n\n self._ssh_port = ssh_port",
"def set_hpn_server_swap(config, flag):\n # type: (dict, bool) -> None\n if 'ssh' not in config['pool_specification']:\n config['pool_specification']['ssh'] = {}\n config['pool_specification']['ssh']['hpn_server_swap'] = flag",
"def ssh(ctx, app_name, ssh_opts, ssh_cmd, command):\n gigalixir_app.ssh(ctx.obj['host'], app_name, ssh_opts, ssh_cmd, *command)",
"def ssh(context):\n print('Creating SSH session')\n\n # Load the SSH config\n ssh_config = aws_infrastructure.tasks.ssh.SSHConfig.load(ssh_config_path=ssh_config_path)\n\n # Launch an external SSH session,\n # which seems more appropriate than attempting via Paramiko.\n context.run(\n command=' '.join([\n 'start', # Ensures Windows launches ssh outside cmd\n # This has been only way to obtain a proper terminal\n 'ssh',\n '-l {}'.format(ssh_config.user),\n '-i {}'.format(Path(ssh_config_path.parent, ssh_config.key_file)),\n '-o StrictHostKeyChecking=no',\n '-o UserKnownHostsFile=\"{}\"'.format(Path(ssh_config_path.parent, 'known_hosts')),\n ssh_config.ip\n ]),\n disown=True\n )",
"def ssh(self):\n return self._url('ssh')",
"def set_Server(self, value):\n super(UpdateTicketInputSet, self)._set_input('Server', value)",
"def set_server_option(self, option): # real signature unknown; restored from __doc__\n pass",
"def change_remote_server(self):\n pass",
"def ssh(node):\n if len(node) == 2:\n # we received env and node name\n env = node[0]\n running = helpers.check_sim_running(env)\n node = node[1]\n elif len(node) == 1:\n # assume default env\n env = 'default'\n running = helpers.check_sim_running(env)\n node = node[0]\n else:\n exit(call(['virl', 'ssh', '--help']))\n\n if running:\n sim_name = running\n server = VIRLServer()\n details = server.get_sim_roster(sim_name)\n\n # default ssh username can be overriden\n username = server.config.get('VIRL_SSH_USERNAME', 'cisco')\n\n if node:\n try:\n node_dict = get_node_from_roster(node, details)\n node_name = node_dict.get(\"NodeName\")\n ip = node_dict['managementIP']\n proxy = node_dict.get(\"managementProxy\")\n\n if 'VIRL_SSH_COMMAND' in server.config:\n cmd = server.config['VIRL_SSH_COMMAND']\n cmd = cmd.format(host=ip, username=username)\n print(\"Calling user specified command: {}\".format(cmd))\n exit(call(cmd.split()))\n\n if proxy == 'lxc':\n lxc = get_mgmt_lxc_ip(details)\n if lxc:\n click.secho(\"Attemping ssh connection\"\n \"to {} at {} via {}\".format(node_name,\n ip, lxc))\n cmd = 'ssh -o \"ProxyCommand ssh -W %h:%p {}@{}\" {}@{}'\n cmd = cmd.format(server.user, lxc, username, ip)\n\n exit(call(cmd, shell=True))\n else:\n # handle the \"flat\" networking case\n click.secho(\"Attemping ssh connection\"\n \"to {} at {}\".format(node_name,\n ip))\n\n exit(call(['ssh', '{}@{}'.format(username, ip)]))\n\n except AttributeError:\n click.secho(\"Could not find management info\"\n \" for {}:{}\".format(env, node), fg=\"red\")\n\n except KeyError:\n click.secho(\"Unknown node {}:{}\".format(env, node), fg=\"red\")\n else:\n return details.json()",
"def do_ssh(self,args):\n parser = CommandArgumentParser(\"ssh\")\n parser.add_argument(dest='instance',help='instance index or name');\n parser.add_argument('-a','--address-number',default='0',dest='interface-number',help='instance id of the instance to ssh to');\n parser.add_argument('-ii','--ignore-host-key',dest='ignore-host-key',default=False,action='store_true',help='Ignore host key')\n parser.add_argument('-ne','--no-echo',dest='no-echo',default=False,action='store_true',help='Do not echo command')\n parser.add_argument('-L',dest='forwarding',nargs='*',help=\"port forwarding string of the form: {localport}:{host-visible-to-instance}:{remoteport} or {port}\")\n parser.add_argument('-R','--replace-key',dest='replaceKey',default=False,action='store_true',help=\"Replace the host's key. This is useful when AWS recycles an IP address you've seen before.\")\n parser.add_argument('-Y','--keyscan',dest='keyscan',default=False,action='store_true',help=\"Perform a keyscan to avoid having to say 'yes' for a new host. Implies -R.\")\n parser.add_argument('-B','--background',dest='background',default=False,action='store_true',help=\"Run in the background. (e.g., forward an ssh session and then do other stuff in aws-shell).\")\n parser.add_argument('-v',dest='verbosity',default=0,action=VAction,nargs='?',help='Verbosity. The more instances, the more verbose'); \n parser.add_argument('-m',dest='macro',default=False,action='store_true',help='{command} is a series of macros to execute, not the actual command to run on the host');\n parser.add_argument(dest='command',nargs='*',help=\"Command to run on all hosts.\") # consider adding a filter option later\n args = vars(parser.parse_args(args))\n\n interfaceNumber = int(args['interface-number'])\n forwarding = args['forwarding']\n replaceKey = args['replaceKey']\n keyscan = args['keyscan']\n background = args['background']\n verbosity = args['verbosity']\n ignoreHostKey = args['ignore-host-key']\n noEcho = args['no-echo']\n\n # Figure out the host to connect to:\n target = args['instance']\n try:\n index = int(args['instance'])\n instances = self.scalingGroupDescription['AutoScalingGroups'][0]['Instances']\n instance = instances[index]\n target = instance['InstanceId']\n except ValueError: # if args['instance'] is not an int, for example.\n pass\n \n if args['macro']:\n if len(args['command']) > 1:\n print(\"Only one macro may be specified with the -m switch.\")\n return\n else:\n macro = args['command'][0]\n print(\"Macro:{}\".format(macro))\n command = Config.config['ssh-macros'][macro]\n else:\n command = ' '.join(args['command'])\n \n ssh(target,interfaceNumber,forwarding,replaceKey,keyscan,background,verbosity,command,ignoreHostKey=ignoreHostKey,echoCommand = not noEcho)",
"def __init__(self, sshaddress, remotepython='python', \r\n identity=None, ssh_config=None):\r\n self.remoteaddress = sshaddress\r\n remotecmd = '%s -u -c \"exec input()\"' % (remotepython,)\r\n cmdline = [sshaddress, remotecmd]\r\n # XXX Unix style quoting\r\n for i in range(len(cmdline)):\r\n cmdline[i] = \"'\" + cmdline[i].replace(\"'\", \"'\\\\''\") + \"'\"\r\n cmd = 'ssh -C'\r\n if identity is not None: \r\n APIWARN(\"1.0\", \"pass in 'ssh_config' file instead of identity\")\r\n cmd += ' -i %s' % (identity,)\r\n if ssh_config is not None:\r\n cmd += ' -F %s' % (ssh_config)\r\n cmdline.insert(0, cmd) \r\n cmd = ' '.join(cmdline)\r\n super(SshGateway, self).__init__(cmd)",
"def mock_server(self, host, port, server):\n self._mock_servers[host + \":\" + str(port)] = server",
"def ssh(self, driver, conn):\n\t\ttry:\n\t\t\texisting_node = find_node(conn, self._name)\n\t\texcept Exception:\n\t\t\tprint \" Does not exist\"\n\t\t\treturn\n\t\t\n\t\tprint \"-- Launching SSH connection to node: %s (root@%s:22)\" % (self._name, existing_node.public_ips[0])\n\t\tsubprocess.call([\"ssh\", \"root@%s\" % existing_node.public_ips[0] ])\n\t\tprint \"-- SSH Connection terminated\"",
"def secure_ssh():\n # Lock down ssh to certificate authentication only.\n put_config(params['local_sshd_config'], params['remote_sshd_config'])\n print \"Access to remote host secured to only SSH key.\"",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def test_authorize_ssh_known_remotehost(self):\n pass",
"def _provide_git_ssh_environment(self):\n if not is_ssh_repo_url(self.url) or self._ssh_key is None:\n return None # no ssh config\n git_ssh_identity_file = self._save_ssh_key_to_pem_file(self._ssh_key)\n return {\n \"GIT_SSH_COMMAND\": f\"ssh -o StrictHostKeyChecking=no -o IdentitiesOnly=yes -i {git_ssh_identity_file}\",\n \"GIT_TRACE\": \"1\",\n \"GIT_CURL_VERBOSE\": \"1\"\n }"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for telnet_server, mapped from YANG variable /access_points/access_point/system/telnet_server (container)
|
def _get_telnet_server(self):
return self.__telnet_server
|
[
"def telnetserver(options):\n if options.pidfile:\n pid = os.getpid()\n # see tests/server/util.c function write_pidfile\n if os.name == \"nt\":\n pid += 65536\n with open(options.pidfile, \"w\") as f:\n f.write(str(pid))\n\n local_bind = (HOST, options.port)\n log.info(\"Listening on %s\", local_bind)\n\n # Need to set the allow_reuse on the class, not on the instance.\n socketserver.TCPServer.allow_reuse_address = True\n server = socketserver.TCPServer(local_bind, NegotiatingTelnetHandler)\n server.serve_forever()\n\n return ScriptRC.SUCCESS",
"def telnet_connect():\n conf = get_conf()\n tn = Telnet(conf['telnet_ip'], conf['telnet_port'], timeout=5)\n tn.read_until(b\"user: \", timeout=2)\n tn.write(conf['telnet_user'].encode('ascii') + b\"\\r\")\n tn.read_until(b\"password:\", timeout=2)\n tn.write(conf['telnet_pw'].encode('ascii') + b\"\\r\")\n tn.read_until(b'Telnet Server\\r\\n', timeout=20)\n\n return tn",
"def tcp_server(self):\n return self.__tcp_server",
"def get_ccnet_server_addr_port():\n return seaserv.CCNET_SERVER_ADDR, seaserv.CCNET_SERVER_PORT",
"def construct_modo_telnet_command(host, port):\n modo_command = \"telnet.listen %s true\" % port\n return modo_command",
"def getNetServer(self):\n return self.getServer(netserver.NetworkRepositoryServer)",
"def get_server_addr(self):\n raise NotImplementedError",
"def interact(self):\n t = telnetlib.Telnet()\n t.sock = self.socket\n t.interact()",
"def connect(self):\n try:\n self.tn = telnetlib.Telnet(self.DRONEIP, self.DRONEPORT)\n return self.tn\n except:\n print(\"Error While Connecting the Drone System.\")",
"def server(self):\r\n if self._server is None:\r\n self._server = self.nova().servers.get(self.resource_id)\r\n return self._server",
"def _connect_via_telnet(self, host, username, password):\n self.get_logger().debug(\"Open telnet connection to equipment.\")\n \n # Initialize telnet session\n telnet_session = telnetlib.Telnet()\n \n try:\n telnet_session.open(host)\n telnet_session.read_until(\"Username:\", 5)\n telnet_session.write(str(username) + \"\\n\")\n telnet_session.read_until(\"Password:\", 5)\n telnet_session.write(str(password) + \"\\n\")\n telnet_session.read_until(\">\", 5)\n telnet_session.write(\"enable\\n\")\n telnet_session.read_until(\"Password:\", 5)\n telnet_session.write(str(password) + \"\\n\")\n telnet_session.read_until(\"\\n#\", 5)\n except:\n msg = \"Connection via telnet failed.\"\n raise Exception(-1, msg)\n \n try:\n # get running config\n telnet_session.write(\"terminal length 0\\n\")\n telnet_session.read_until(\"\\n#\", 5)\n telnet_session.write(\"show running-config\\n\")\n config_file = telnet_session.read_until(\"\\n#\", 10)\n\n # extract SSIDs\n config_file_lines = config_file.split('\\r\\n')\n for line in config_file_lines:\n match = \"dot11 ssid \"\n if line.startswith(match):\n self._ssids.append(line[len(match):].strip())\n\n # extract wep keys\n for i in self.WIFI_RADIOS:\n found = None\n for line in config_file_lines:\n if found == None:\n match = \"interface Dot11Radio\" + str(i)\n if line.startswith(match):\n found = line\n elif line.startswith(' '):\n match = \"encryption key \"\n if line.strip().startswith(match):\n key_id = int(line.strip()[len(match):].strip().split(' ')[0])\n self._wep_keys[i][key_id-1] = True\n else:\n break\n\n # extract wep keys\n\n except:\n msg = \"Read configuration failed.\"\n raise Exception(-2, msg)\n\n # Update handle value\n self._set_handle(telnet_session)",
"def _telnet_read(self):\n return self.tn.read_until(\"\\n\", self.timeout).rstrip('\\n') # Reads reply from device, strips termination char",
"def get_server_type(self):\n\n return self.server_type",
"def telnet(*k, **kw):\n if (len(k)==3 and len(kw)==0):\n port=8999\n host=\"127.0.0.1\"\n if (not telnetOutput.has_key((port, host))):\n telnetOutput[(port, host)] = Telnet(host, port)\n _within = k[0]\n _text = k[1]\n _text = _text % _getNamespace(back=2)\n print \"sending %s \" % _text\n telnetOutput[(port, host)].write(_text)\n return\n port = kw.get(\"port\", 8999)\n host = kw.get(\"host\", \"127.0.0.1\")\n\n if (not telnetOutput.has_key((port, host))):\n telnetOutput[(port, host)] = Telnet(host, port)\n def telnettransform(within, _text, g):\n _text = _text % _getNamespace(back=2)\n print \"sending %s \" % _text\n telnetOutput[(port, host)].write(_text)\n\n return telnettransform",
"def PortRead():\r\n global gTelnetConn\r\n if gTelnetConn == None:\r\n OpenTelnet()\r\n \r\n data = gTelnetConn.read()\r\n return data;",
"def set_ntp_server(self, server, index=0):\n return None",
"def get_tilemill_server_address(self):\n return Common.prepare_config_address(self.tilemill_server_address)",
"def terminal_server_configuration(self) -> 'outputs.TerminalServerConfigurationResponse':\n return pulumi.get(self, \"terminal_server_configuration\")",
"def get_resto_service_protocol(self, server_name: str) -> str:\n return self.get_server(server_name).resto_access.protocol",
"def tftp_next_server(self):\n ret = self._get_attr(\"TFTPNextServer\")\n return ret"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for telnet_server, mapped from YANG variable /access_points/access_point/system/telnet_server (container)
|
def _set_telnet_server(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_telnet_server_openconfig_access_points__access_points_access_point_system_telnet_server, is_container='container', yang_name="telnet-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """telnet_server must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_telnet_server_openconfig_access_points__access_points_access_point_system_telnet_server, is_container='container', yang_name="telnet-server", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__telnet_server = t
if hasattr(self, '_set'):
self._set()
|
[
"def telnetserver(options):\n if options.pidfile:\n pid = os.getpid()\n # see tests/server/util.c function write_pidfile\n if os.name == \"nt\":\n pid += 65536\n with open(options.pidfile, \"w\") as f:\n f.write(str(pid))\n\n local_bind = (HOST, options.port)\n log.info(\"Listening on %s\", local_bind)\n\n # Need to set the allow_reuse on the class, not on the instance.\n socketserver.TCPServer.allow_reuse_address = True\n server = socketserver.TCPServer(local_bind, NegotiatingTelnetHandler)\n server.serve_forever()\n\n return ScriptRC.SUCCESS",
"def set_ntp_server(self, server, index=0):\n return None",
"def set_Server(self, value):\n super(UpdateTicketInputSet, self)._set_input('Server', value)",
"def construct_modo_telnet_command(host, port):\n modo_command = \"telnet.listen %s true\" % port\n return modo_command",
"def telnet_connect():\n conf = get_conf()\n tn = Telnet(conf['telnet_ip'], conf['telnet_port'], timeout=5)\n tn.read_until(b\"user: \", timeout=2)\n tn.write(conf['telnet_user'].encode('ascii') + b\"\\r\")\n tn.read_until(b\"password:\", timeout=2)\n tn.write(conf['telnet_pw'].encode('ascii') + b\"\\r\")\n tn.read_until(b'Telnet Server\\r\\n', timeout=20)\n\n return tn",
"def interact(self):\n t = telnetlib.Telnet()\n t.sock = self.socket\n t.interact()",
"def get_ccnet_server_addr_port():\n return seaserv.CCNET_SERVER_ADDR, seaserv.CCNET_SERVER_PORT",
"def start_netcat_server(self, execution_type=None, **kwargs):\n pass",
"def __sendTelnetCommand(self, command):\n #print(\"telnet\", command)\n try:\n tn = Telnet(self.ip, self.port, TIMEOUT)\n tn.write(command)\n response = tn.read_eager()\n logging.info('Sent telnet command %s, %s:%s \\\n and received response %s',\n command, self.ip, self.port, response)\n time.sleep(.3)\n tn.close()\n except Exception as e:\n logging.error('Error sending telnet command %s to %s:%i - %s',\n command, self.ip, self.port, e)",
"def telnet(*k, **kw):\n if (len(k)==3 and len(kw)==0):\n port=8999\n host=\"127.0.0.1\"\n if (not telnetOutput.has_key((port, host))):\n telnetOutput[(port, host)] = Telnet(host, port)\n _within = k[0]\n _text = k[1]\n _text = _text % _getNamespace(back=2)\n print \"sending %s \" % _text\n telnetOutput[(port, host)].write(_text)\n return\n port = kw.get(\"port\", 8999)\n host = kw.get(\"host\", \"127.0.0.1\")\n\n if (not telnetOutput.has_key((port, host))):\n telnetOutput[(port, host)] = Telnet(host, port)\n def telnettransform(within, _text, g):\n _text = _text % _getNamespace(back=2)\n print \"sending %s \" % _text\n telnetOutput[(port, host)].write(_text)\n\n return telnettransform",
"def _set_grpc_server(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"grpc_server must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_grpc_server_openconfig_access_points__access_points_access_point_system_grpc_server, is_container='container', yang_name=\"grpc-server\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__grpc_server = t\n if hasattr(self, '_set'):\n self._set()",
"def set_server(self, observatory):\n url = config.get_server_url(observatory)\n if url is not None:\n api.set_crds_server(url)\n return observatory",
"def _connect_via_telnet(self, host, username, password):\n self.get_logger().debug(\"Open telnet connection to equipment.\")\n \n # Initialize telnet session\n telnet_session = telnetlib.Telnet()\n \n try:\n telnet_session.open(host)\n telnet_session.read_until(\"Username:\", 5)\n telnet_session.write(str(username) + \"\\n\")\n telnet_session.read_until(\"Password:\", 5)\n telnet_session.write(str(password) + \"\\n\")\n telnet_session.read_until(\">\", 5)\n telnet_session.write(\"enable\\n\")\n telnet_session.read_until(\"Password:\", 5)\n telnet_session.write(str(password) + \"\\n\")\n telnet_session.read_until(\"\\n#\", 5)\n except:\n msg = \"Connection via telnet failed.\"\n raise Exception(-1, msg)\n \n try:\n # get running config\n telnet_session.write(\"terminal length 0\\n\")\n telnet_session.read_until(\"\\n#\", 5)\n telnet_session.write(\"show running-config\\n\")\n config_file = telnet_session.read_until(\"\\n#\", 10)\n\n # extract SSIDs\n config_file_lines = config_file.split('\\r\\n')\n for line in config_file_lines:\n match = \"dot11 ssid \"\n if line.startswith(match):\n self._ssids.append(line[len(match):].strip())\n\n # extract wep keys\n for i in self.WIFI_RADIOS:\n found = None\n for line in config_file_lines:\n if found == None:\n match = \"interface Dot11Radio\" + str(i)\n if line.startswith(match):\n found = line\n elif line.startswith(' '):\n match = \"encryption key \"\n if line.strip().startswith(match):\n key_id = int(line.strip()[len(match):].strip().split(' ')[0])\n self._wep_keys[i][key_id-1] = True\n else:\n break\n\n # extract wep keys\n\n except:\n msg = \"Read configuration failed.\"\n raise Exception(-2, msg)\n\n # Update handle value\n self._set_handle(telnet_session)",
"def tcp_server(self):\n return self.__tcp_server",
"def handle_request(cls, request, client_address, server):\n self=super().__new__(cls)\n TelnetRequestHandler.__init__(self, request, client_address, server)\n return self",
"def configure_net(self):\n try:\n transport_type = self.server_node['network']['data']['transport_type']\n except:\n raise MotrError(errno.EINVAL, \"transport_type not found\")\n\n check_type(transport_type, str, \"transport_type\")\n\n if transport_type == \"lnet\":\n configure_lnet(self)\n elif transport_type == \"libfabric\":\n configure_libfabric(self)\n else:\n raise MotrError(errno.EINVAL, \"Unknown data transport type\\n\")",
"def connect(self):\n try:\n self.tn = telnetlib.Telnet(self.DRONEIP, self.DRONEPORT)\n return self.tn\n except:\n print(\"Error While Connecting the Drone System.\")",
"def set_server_option(self, option): # real signature unknown; restored from __doc__\n pass",
"def connect_telnet(self, ip_address, user='micro', pwd='python'):\n qprint(\"Connecting via telnet to '{}' ...\".format(ip_address))\n b = Board(self.config)\n b.connect_telnet(ip_address, user, pwd)\n self._boards.append(b)\n if not self._default_board: self._default_board = b",
"def set_time_server(time_server=\"time.apple.com\"):\n cmd = \"systemsetup -setnetworktimeserver {}\".format(time_server)\n salt.utils.mac_utils.execute_return_success(cmd)\n\n return time_server in get_time_server()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for logging, mapped from YANG variable /access_points/access_point/system/logging (container)
|
def _get_logging(self):
return self.__logging
|
[
"def access_log(request, msg=None, level=None):\n if level is None:\n level = logging.INFO\n ai = AccessInfo(request)\n ai.log(level, msg)",
"def container_logs(self, token, container_id):\n path = \"/logs\"\n job_info = self._get_job_info()\n token_file = self._get_token_file(job_info[\"home\"],\n job_info['job_id'])\n token = token_parse(token, token_file)\n parameters = {\"token\": token, \"container_id\": container_id}\n results = self.control.execute_get(path=path, parameters=parameters)\n return results",
"def get_log(self):\n return # osid.logging.Log",
"def logs(docker, container):\n info = docker.inspect_container(container)\n real_user = os.environ['SUDO_USER']\n if check_contenair_user(info, real_user):\n print docker.logs(container, stdout=True, stderr=True, tail=\"all\")\n else:\n print >> sys.stderr, \"not you're own container\"\n return 0",
"def get_logging_list(self):\n return self.__logging_list",
"def log(self) -> Logger:\n _returned = None\n if self._log:\n # Logging is unique for this Service Class.\n _returned = self._log\n elif self._log is False:\n # Logging is forcibly disabled for this Service Class.\n _returned = None\n elif self.auth_object:\n _returned = self.auth_object.log\n\n return _returned",
"def get_pod_logs(\n self,\n pod_name: str,\n container: str | None = \"\",\n namespace: str | None = None,\n ):\n return self.core_v1_client.read_namespaced_pod_log(\n name=pod_name,\n container=container,\n _preload_content=False,\n namespace=namespace or self.get_namespace() or self.DEFAULT_NAMESPACE,\n )",
"def get_log(self, log_id):\n return # osid.logging.Log",
"def getLoggingInformation (self, joblogguid, jobguid = \"\", executionparams = {}):\n params =dict()\n params['joblogguid'] = joblogguid\n executionparams['rootobjecttype'] = 'cmc'\n\n \n return q.workflowengine.actionmanager.startRootobjectActionSynchronous('cmc', 'getLoggingInformation', params, jobguid=jobguid, executionparams=executionparams)",
"def get_log(self):\n return self.Log.flat_log",
"def get_pod_log(self, name):\n log = self.kube_client.read_namespaced_pod_log(namespace=self.project, name=name)\n return log",
"def _getLogRecords(self, base_url):\n client = d1_client.baseclient_2_0.DataONEBaseClient_2_0(base_url)\n log = client.getLogRecords()\n self.assertIsInstance(log, d1_common.types.dataoneTypes_v2_0.Log)\n return log",
"def get_log2():\n return logging.getLogger(__name__)",
"def get_log(self, value='app'):\n payload = OrderedDict()\n payload['value'] = value\n payload['dummyParam'] = 1524829265456\n r_log = self.__send_get_request_to_phone(self.phone.urls['logs'], payload=payload)\n if r_log.status_code == 200:\n return r_log.text.split(\"\\n\")\n elif r_log.status_code == 500:\n return \"No log file to fetch\"\n else:\n return False",
"def get_root_logs(self):\n return # osid.logging.LogList",
"def get_log(log_id):\n# print('¤'*100)\n# print('¤'*100)\n# print('¤'*100)\n# print(logging.Logger.manager.loggerDict.keys())\n# print('¤'*100)\n for item in logging.Logger.manager.loggerDict.keys():\n# print('{} _ {}'.format(log_id, item))\n if log_id in item:\n log_id = item\n break\n return logging.getLogger(log_id)",
"def get_log(self, name, logs=None):\n\n if logs is None:\n logs = self.logs\n if logs is None:\n raise ValueError(\"No log initialized.\")\n\n if name not in logs:\n raise ValueError(\"log named '{}' not found in logs '{}'.\".format(name,\n list(logs.keys())))\n\n return logs[name]",
"def get_logger(source=\"\", tenantToken=\"\"):\n return LogManager._LogManager__implementation.get_logger(source, tenantToken)",
"def get_output(self):\n if self.container != '':\n return self.container.logs()\n\n return 'No Container found'",
"def hook_Log(state, level, ea):\n DeepManticore(state).api_log(level, ea)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for logging, mapped from YANG variable /access_points/access_point/system/logging (container)
|
def _set_logging(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_logging_openconfig_access_points__access_points_access_point_system_logging, is_container='container', yang_name="logging", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """logging must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_logging_openconfig_access_points__access_points_access_point_system_logging, is_container='container', yang_name="logging", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__logging = t
if hasattr(self, '_set'):
self._set()
|
[
"def access_log(request, msg=None, level=None):\n if level is None:\n level = logging.INFO\n ai = AccessInfo(request)\n ai.log(level, msg)",
"def _set_logging(self):\n logging.basicConfig(**self.settings[\"general\"][\"logging\"])\n log.info(\n \"Setting logging config: {!r}\".format(self.settings[\"general\"][\"logging\"])\n )",
"def set_log(self, log_path):\n self.log = log_path",
"def set_logging_service(\n self,\n project_id,\n zone,\n cluster_id,\n logging_service,\n name=None,\n retry=google.api_core.gapic_v1.method.DEFAULT,\n timeout=google.api_core.gapic_v1.method.DEFAULT,\n metadata=None,\n ):\n # Wrap the transport method to add retry and timeout logic.\n if \"set_logging_service\" not in self._inner_api_calls:\n self._inner_api_calls[\n \"set_logging_service\"\n ] = google.api_core.gapic_v1.method.wrap_method(\n self.transport.set_logging_service,\n default_retry=self._method_configs[\"SetLoggingService\"].retry,\n default_timeout=self._method_configs[\"SetLoggingService\"].timeout,\n client_info=self._client_info,\n )\n\n request = cluster_service_pb2.SetLoggingServiceRequest(\n project_id=project_id,\n zone=zone,\n cluster_id=cluster_id,\n logging_service=logging_service,\n name=name,\n )\n if metadata is None:\n metadata = []\n metadata = list(metadata)\n try:\n routing_header = [(\"name\", name)]\n except AttributeError:\n pass\n else:\n routing_metadata = google.api_core.gapic_v1.routing_header.to_grpc_metadata(\n routing_header\n )\n metadata.append(routing_metadata)\n\n return self._inner_api_calls[\"set_logging_service\"](\n request, retry=retry, timeout=timeout, metadata=metadata\n )",
"def hook_Log(state, level, ea):\n DeepManticore(state).api_log(level, ea)",
"def update_logging(self):\n # custom loggers passed into tcex would not have log_info method\n if not hasattr(self.tcex.logger, 'log_info'):\n return\n\n if self._default_args.tc_log_level is None:\n # some Apps use logging while other us tc_log_level. ensure tc_log_level is always\n # available.\n self._default_args.tc_log_level = self._default_args.logging\n\n self.tcex.logger.log_info(self._default_args)\n\n # add api handler\n if self._default_args.tc_token is not None and self._default_args.tc_log_to_api:\n self.tcex.logger.add_api_handler(level=self.tcex.default_args.tc_log_level)\n\n # add rotating log handler\n self.tcex.logger.add_rotating_file_handler(\n name='rfh',\n filename=self._default_args.tc_log_file,\n path=self._default_args.tc_log_path,\n backup_count=self._default_args.tc_log_backup_count,\n max_bytes=self._default_args.tc_log_max_bytes,\n level=self.tcex.default_args.tc_log_level,\n )\n\n # replay cached log events\n self.tcex.logger.replay_cached_events(handler_name='cache')",
"def log(self) -> None:\n # Otherwise carry on...\n if self.v_level == 3:\n self.logger.info(self)\n elif self.v_level == 4:\n self.logger.debug(self)",
"def set_logger(l):\n global _logger\n _logger = l",
"def _log(self, logstring, **kwargs):\n if self.logprint:\n print(logstring, **kwargs)",
"def logged(cls):\n setattr(\n cls, \"_%s__log\" % re.sub(r\"^_+\", \"\", cls.__name__),\n logging.getLogger(cls.__name__))\n\n return cls",
"def log(self, message, log_type = Constants.LOG_CONSOLE):\n \n self.view.log(message, log_type)",
"def _write_to_cloud_logging(log_id, log_file_path):\n # TODO(ethanbao): Turn conductor into a python object so that the logging\n # client can be instance variable not global variable.\n global CLOUD_LOGGING_CLIENT\n if not CLOUD_LOGGING_CLIENT:\n CLOUD_LOGGING_CLIENT = cloud_logging.Client()\n cloud_logger = CLOUD_LOGGING_CLIENT.logger(log_id)\n if log_file_path:\n with open(log_file_path, 'r') as log_file:\n cloud_logger.log_text(log_file.read())",
"def setAccessLogLevel(self, *vals):\n return self.config.loglevel(vals, level='access')",
"def log(self, msg):\n self.logs.append(str(msg))",
"def setLogger(self, filePathName='%s/data/%s/%s.log' % (gv.logLocation, getpass.getuser(), getpass.getuser()),\r\n name='pcsLogger', fresh=0):\r\n self.logger = pcsLogger.pcs_logger(filePathName=filePathName, name=name, fresh=fresh)",
"def log(self) -> Logger:\n _returned = None\n if self._log:\n # Logging is unique for this Service Class.\n _returned = self._log\n elif self._log is False:\n # Logging is forcibly disabled for this Service Class.\n _returned = None\n elif self.auth_object:\n _returned = self.auth_object.log\n\n return _returned",
"def setLog(self,log):\n try:\n self.LOG = int(log)\n self.prn(self.DBG,\"writing to log file set:\",self.LOG)\n except Exception, e:\n pass",
"def _log_impl(self\n , level: Optional[int] = None\n , msg: Optional[Any] = None\n , *args\n , **kwargs):\n\n if level is None:\n level = self.logging_level\n\n if msg is None:\n msg_to_log = self.selflog_prefix + str(self)\n elif isinstance(msg, str):\n msg_to_log = msg\n else:\n msg_to_log = NeatStr.object_info(\n msg, div_ch=\" / \", stacks_to_skip = 2)\n\n suffix = \"\"\n if self.reveal_identity and self.reveal_calling_method:\n frame2 = inspect.stack()[2]\n calling_method_name = frame2.function\n if hasattr(self,calling_method_name):\n try:\n if frame2[0].f_locals[\"self\"] is self:\n suffix = \".\" + calling_method_name + \"()\"\n except:\n suffix = \"\"\n if self.reveal_identity:\n suffix += f\" [pid:{os.getpid()}]\"\n self.logger(suffix).log(level, msg_to_log, *args, **kwargs)",
"def logging_action_log(action_log_params: ActionLogParams) -> None:\n if LOGGER.isEnabledFor(logging.DEBUG):\n LOGGER.debug('logging_action_log: {}'.format(action_log_params))",
"def log_class(self, object):\n class_log_name = self.name + \".\" + type(object).__name__\n self.log.debug(f\"new logger {class_log_name=}\")\n log = logging.getLogger(class_log_name)\n return log"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for aaa, mapped from YANG variable /access_points/access_point/system/aaa (container)
|
def _get_aaa(self):
return self.__aaa
|
[
"def aa_at_pos(self, pos):\n return self.aa_at_pos0(pos - 1)",
"def advapi32_AddAuditAccessObjectAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"AccessMask\", \"ObjectTypeGuid\", \"InheritedObjectTypeGuid\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def get_aaa(stations, predictors):\n\n # Slice stations if need be\n\n # Slice Dates\n\n # Stack data\n logging.info('Creating aaa array')\n aaa = None\n for pred in predictors:\n # Just get the station and date dimensions\n num_dimensions = len(pred.data.shape)\n cur_data = pred.data.copy()\n if num_dimensions > 2:\n cur_data = cur_data[:,:,0]\n if aaa is None:\n aaa = cur_data.copy()\n else:\n aaa = np.dstack((aaa,cur_data))\n\n return aaa.T",
"def advapi32_GetAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceIndex\", \"pAce\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def convert2aa(sequence):\r\n\r\n # sequence = \"\".join([x.upper() for x in sequence]) # converts lowercase to uppercase\r\n\r\n number_of_codons = len(sequence)/3\r\n aa_seq = []\r\n\r\n for nmbr in list(range(1, int(number_of_codons)+1)): # goes through each codon converting it to an aa\r\n\r\n if \"\".join([x.upper() for x in sequence])[nmbr*3-3:nmbr*3] in codon2aa:\r\n aa_seq.append(codon2aa[\"\".join([x.upper() for x in sequence])[nmbr*3-3:nmbr*3]])\r\n else:\r\n aa_seq.append(\"XXX\")\r\n\r\n return \"\".join(aa_seq)",
"def get_acls(self):\n return self.access_list_manager.get_objects()",
"def advapi32_AddAuditAccessAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"dwAccessMask\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def get(self, acl):\n return self._instance._client.acls.get(self._instance.name, acl)",
"def cluster_application_attempt_container_info(self, application_id, attempt_id, container_id):\n path = '/ws/v1/cluster/apps/{appid}/appattempts/{attemptid}/containers/{containerid}'.format(\n appid=application_id, attemptid=attempt_id, containerid=container_id)\n\n return self.request(path)",
"def advapi32_AddAuditAccessAceEx(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"dwAccessMask\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def getACL(self, account):\n return EquipmentACLInfo.getRule(account, self)",
"def get_acs():\n data = wikipedia.get_ac_list(\"Haryana\")\n def normalize_name(name):\n name = name.split(\"(\")[0].lower().strip(\". \")\n return name\n\n pc_dict = dict((normalize_name(name), pc_code) for pc_code, ac_code, name in data)\n\n renames = {\n \"ambala cantt\": \"ambala cantonment\",\n \"dadri\": \"charkhi dadri\",\n \"kalawali\": \"kalanwali\",\n \"nangal chaudhry\": \"nagai chaudhry\",\n }\n def get_pc_code(name):\n name = normalize_name(name)\n name = renames.get(name, name)\n if name not in pc_dict:\n name = find_nearest(name, pc_dict.keys())\n return pc_dict[name]\n\n ac_data = _get_ac_data()\n assert(len(pc_dict) == len(ac_data))\n for code, name in ac_data:\n pc_code = get_pc_code(name)\n ac_code_str = \"AC{0:03d}\".format(int(code))\n yield pc_code, ac_code_str, name.title().replace(\"(Sc)\", \" (SC)\").replace(\"(St)\", \" (ST)\")",
"def test_null_acls(self):\n\n # null ACLs\n self.assertEqual(convert_acl('world', None), 'WORLD')\n self.assertEqual(convert_acl('world', ''), 'WORLD')\n self.assertEqual(convert_acl('world', []), 'WORLD')\n self.assertEqual(convert_acl('world', ['']), 'WORLD')\n\n # non-null ACL\n self.assertEqual(convert_acl('world', ['102592']), 'GROUP_102592')",
"def az(self):\n c_ids, p_ids , i_ids = self.vocab.azlist()\n az = \"\"\"<div class=\"azlist\">\"\"\"\n az = \"\"\"%s\\n<p>Classes: |\"\"\" % az\n # print(c_ids, p_ids)\n for c in c_ids:\n # speclog(\"Class \"+c+\" in az generation.\")\n az = \"\"\"%s <a href=\"#%s\">%s</a> | \"\"\" % (az, str(c).replace(\" \", \"\"), c)\n az = \"\"\"%s\\n</p>\"\"\" % az\n \n az = \"\"\"%s\\n<p>Properties: |\"\"\" % az\n for p in p_ids:\n # speclog(\"Property \"+p+\" in az generation.\")\n az = \"\"\"%s <a href=\"#%s\">%s</a> | \"\"\" % (az, str(p).replace(\" \", \"\"), p)\n az = \"\"\"%s\\n</p>\"\"\" % az\n \n if (len(self.vocab.individuals) > 0):\n az = \"\"\"%s\\n<p>Individuals: |\"\"\" % az\n for i in i_ids:\n # speclog(\"Individual \"+p+\" in az generation.\")\n az = \"\"\"%s <a href=\"#%s\">%s</a> | \"\"\" % (az, str(i).replace(\" \", \"\"), i)\n az = \"\"\"%s\\n</p>\"\"\" % az\n \n az = \"\"\"%s\\n</div>\"\"\" % az\n return(az)",
"def aa(self):\n return _ldns.ldns_pkt_aa(self)\n #parameters: const ldns_pkt *,\n #retvals: bool",
"def get_acs_for_protein_seq(self, seq):\n md5 = seq_md5(seq)\n return [r['ac'] for r in self._fetchall(self._queries['acs_for_protein_md5'], [md5])] + ['MD5_' + md5]",
"def unserialize_acs(acs_string):\n toReturn = BpAcs()\n \n (adminrecordheader, status, ) = struct.unpack(\"!BB\", acs_string[0:2])\n acs_string = acs_string[2:]\n \n # Parse the administrative record header byte.\n if (adminrecordheader & 0xF0) != 0x40:\n # Not an aggregate custody signal.\n return None\n if (adminrecordheader & 0x0F) != 0x00:\n print \"Administrative record flags are %x, not 0x00\" % (adminrecordheader & 0x0F) \n raise TypeError\n \n # Parse the status byte\n if (status & 0x80) == 0:\n toReturn.succeeded = 0\n else:\n toReturn.succeeded = 1\n if status & 0x7F:\n toReturn.reason = status & 0x7F\n \n # Parse the fills\n lengthBlocks = []\n while acs_string != \"\":\n (offset, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n (length, n) = sdnv_decode(acs_string)\n acs_string = acs_string[n:]\n lengthBlocks += (offset, length),\n for k in lengthBlocksToList(lengthBlocks):\n toReturn.add(k)\n return toReturn",
"def test_chromosome_to_acs(test_seqrepo_access):\n resp = test_seqrepo_access.chromosome_to_acs(\"7\")\n assert resp == ([\"NC_000007.14\", \"NC_000007.13\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"X\")\n assert resp == ([\"NC_000023.11\", \"NC_000023.10\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"Y\")\n assert resp == ([\"NC_000024.10\", \"NC_000024.9\"], None)\n\n resp = test_seqrepo_access.chromosome_to_acs(\"117\")\n assert resp == (None, \"117 is not a valid chromosome\")",
"def __get_acls_of_event(event, base_url, digest_login):\n\n url = '{}/admin-ng/event/{}/asset/attachment/attachments.json'.format(base_url, get_id(event))\n\n response = get_request(url, digest_login, ElementDescription.EVENT.unknown(), AssetTypeDescription.BOTH.plural(),\n AssetDescription.ACL.plural())\n\n json_content = get_json_content(response)\n\n episode_acls = [__get_asset_content(acl, digest_login, ElementDescription.EVENT.unknown(),\n AssetTypeDescription.EPISODE.singular(), AssetDescription.ACL.singular())\n for acl in json_content if \"security-policy-episode\" in acl[\"id\"]]\n series_acls = [__get_asset_content(acl, digest_login, ElementDescription.EVENT.unknown(),\n AssetTypeDescription.SERIES.singular(), AssetDescription.ACL.singular())\n for acl in json_content if \"security-policy-series\" in acl[\"id\"]]\n\n return episode_acls, series_acls",
"def get_network_acls(self):\n try:\n # Connect to api endpoint for network_acls\n path = (\"/v1/network_acls?version={}&generation={}\".format(\n self.cfg[\"version\"], self.cfg[\"generation\"]))\n\n # Return data\n return qw(\"iaas\", \"GET\", path, headers())[\"data\"]\n\n except Exception as error:\n print(\"Error fetching network ACLs. {}\".format(error))\n raise"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for aaa, mapped from YANG variable /access_points/access_point/system/aaa (container)
|
def _set_aaa(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_aaa_openconfig_access_points__access_points_access_point_system_aaa, is_container='container', yang_name="aaa", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """aaa must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_aaa_openconfig_access_points__access_points_access_point_system_aaa, is_container='container', yang_name="aaa", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__aaa = t
if hasattr(self, '_set'):
self._set()
|
[
"def advapi32_AddAuditAccessObjectAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"AccessMask\", \"ObjectTypeGuid\", \"InheritedObjectTypeGuid\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def set_aa(self, b):\n _ldns.ldns_pkt_set_aa(self, b)\n #parameters: ldns_pkt *,bool,\n #retvals: ",
"def setAnchorAttribute(self, anchor: 'char const *') -> \"void\":\n return _coin.ScXMLTransitionElt_setAnchorAttribute(self, anchor)",
"def advapi32_AddAuditAccessAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"dwAccessMask\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def update_container_acl(self, acl_cql):\n cfg = get_config(None)\n session = connection.get_session()\n keyspace = cfg.get('KEYSPACE', 'drastic')\n session.set_keyspace(keyspace)\n query = SimpleStatement(u\"\"\"UPDATE tree_entry SET container_acl=container_acl+{}\n WHERE container=%s\"\"\".format(acl_cql))\n session.execute(query, (self.container,))",
"def advapi32_AddAuditAccessAceEx(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"dwAccessMask\", \"pSid\", \"bAuditSuccess\", \"bAuditFailure\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def yaml_set_anchor(self, value: Any, always_dump: bool = False) -> None:\n self.anchor.value = value\n self.anchor.always_dump = always_dump",
"def set_legacy_abac(\n self,\n project_id,\n zone,\n cluster_id,\n enabled,\n name=None,\n retry=google.api_core.gapic_v1.method.DEFAULT,\n timeout=google.api_core.gapic_v1.method.DEFAULT,\n metadata=None,\n ):\n # Wrap the transport method to add retry and timeout logic.\n if \"set_legacy_abac\" not in self._inner_api_calls:\n self._inner_api_calls[\n \"set_legacy_abac\"\n ] = google.api_core.gapic_v1.method.wrap_method(\n self.transport.set_legacy_abac,\n default_retry=self._method_configs[\"SetLegacyAbac\"].retry,\n default_timeout=self._method_configs[\"SetLegacyAbac\"].timeout,\n client_info=self._client_info,\n )\n\n request = cluster_service_pb2.SetLegacyAbacRequest(\n project_id=project_id,\n zone=zone,\n cluster_id=cluster_id,\n enabled=enabled,\n name=name,\n )\n if metadata is None:\n metadata = []\n metadata = list(metadata)\n try:\n routing_header = [(\"name\", name)]\n except AttributeError:\n pass\n else:\n routing_metadata = google.api_core.gapic_v1.routing_header.to_grpc_metadata(\n routing_header\n )\n metadata.append(routing_metadata)\n\n return self._inner_api_calls[\"set_legacy_abac\"](\n request, retry=retry, timeout=timeout, metadata=metadata\n )",
"def aa_at_pos(self, pos):\n return self.aa_at_pos0(pos - 1)",
"def _add_aestat_object(self, aestat: AESTAT) -> None:\n key = aestat.aestat_id\n assert key not in self.aestats, '\\naestat=\\n%s old=\\n%s' % (\n aestat, self.aestats[key])\n assert key >= 0\n self.aestats[key] = aestat\n self._type_to_id_map[aestat.type].append(key)",
"def set_accession(self, value, format=\"empty_string\"):\n if isinstance(value, str):\n value = value.strip()\n value = value.split(\".\")[0]\n self.accession = basic.convert_empty(value, format)",
"def change_a(self, value):\n self._svc_a.change(value)",
"def sTAA(self, TAA):\n self.TAA = TAA\n self.TAAtoTM()\n #self.AngleMod()",
"def convert2aa(sequence):\r\n\r\n # sequence = \"\".join([x.upper() for x in sequence]) # converts lowercase to uppercase\r\n\r\n number_of_codons = len(sequence)/3\r\n aa_seq = []\r\n\r\n for nmbr in list(range(1, int(number_of_codons)+1)): # goes through each codon converting it to an aa\r\n\r\n if \"\".join([x.upper() for x in sequence])[nmbr*3-3:nmbr*3] in codon2aa:\r\n aa_seq.append(codon2aa[\"\".join([x.upper() for x in sequence])[nmbr*3-3:nmbr*3]])\r\n else:\r\n aa_seq.append(\"XXX\")\r\n\r\n return \"\".join(aa_seq)",
"def advapi32_SetAclInformation(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"pAclInformation\", \"nAclInformationLength\", \"dwAclInformationClass\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def _set_nssa(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"nssa must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__nssa = t\n if hasattr(self, '_set'):\n self._set()",
"def addAnchor(self, anchor: 'ScXMLAnchorElt') -> \"void\":\n return _coin.ScXMLParallelElt_addAnchor(self, anchor)",
"def set_acl(self, acl):\n if not isinstance(acl, basestring):\n raise TypeError(\"acl can only be an instance of type basestring\")\n self._call(\"setACL\",\n in_p=[acl])",
"def addAnchor(self, anchor: 'ScXMLAnchorElt') -> \"void\":\n return _coin.ScXMLStateElt_addAnchor(self, anchor)",
"def advapi32_AddAccessAllowedObjectAce(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pAcl\", \"dwAceRevision\", \"AceFlags\", \"AccessMask\", \"ObjectTypeGuid\", \"InheritedObjectTypeGuid\", \"pSid\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for memory, mapped from YANG variable /access_points/access_point/system/memory (container)
|
def _set_memory(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_memory_openconfig_access_points__access_points_access_point_system_memory, is_container='container', yang_name="memory", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """memory must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_memory_openconfig_access_points__access_points_access_point_system_memory, is_container='container', yang_name="memory", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__memory = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_memory(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_memory_vnf_bd__scenario_nodes_resources_memory, is_container='container', yang_name=\"memory\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"memory must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_memory_vnf_bd__scenario_nodes_resources_memory, is_container='container', yang_name=\"memory\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__memory = t\n if hasattr(self, '_set'):\n self._set()",
"def set_memory_request(self, memory_request):\n self.memory_request = memory_request",
"def mem(self):\n mem_data = self.__ssh_command(\"egrep 'Mem|Cache|Swap' /proc/meminfo\")\n self.record['memory'] = mem_data",
"def setMemory(self, memory):\n ret = libvirtmod.virDomainSetMemory(self._o, memory)\n if ret == -1: raise libvirtError ('virDomainSetMemory() failed', dom=self)\n return ret",
"def memory_write(self, start_position: int, size: int, value: bytes) -> None:\n return self._memory.write(start_position, size, value)",
"def ex_set_vm_memory(self, vapp_or_vm_id, vm_memory):\r\n self._validate_vm_memory(vm_memory)\r\n self._change_vm_memory(vapp_or_vm_id, vm_memory)",
"def memory(self):\n return self._domain_info.get('memory')",
"def pin_memory(self): # real signature unknown; restored from __doc__\n pass",
"def get_memory(self):\n return self.__memories[self.__server_specific_name]",
"def setMemoryFlags(self, memory, flags=0):\n ret = libvirtmod.virDomainSetMemoryFlags(self._o, memory, flags)\n if ret == -1: raise libvirtError ('virDomainSetMemoryFlags() failed', dom=self)\n return ret",
"def memory_map(self) -> Dict[str, OMMemoryRegion]:\n return self._memorymap",
"def set_shared_memory(self, region_name, byte_size, offset=0):\n if 'classification' in self._output.parameters:\n raise_error(\"shared memory can't be set on classification output\")\n\n self._output.parameters[\n 'shared_memory_region'].string_param = region_name\n self._output.parameters[\n 'shared_memory_byte_size'].int64_param = byte_size\n if offset != 0:\n self._output.parameters['shared_memory_offset'].int64_param = offset",
"def _memory_map(self, address, size, perm=None):\n # This function should not be called directrly. Use add_memory_area\n # instead.\n self.logger.debug(\"Mapping 0x%08X - 0x%08X (size 0x%X)\" % (\n address, address + size, size))\n\n if perm:\n self.__uc.mem_map(address, size, perm)\n else:\n self.__uc.mem_map(address, size)",
"def test_memory_level_1(self):\n memory = np.array([[1.0j, 1.0, 0.5 + 0.5j], [0.5 + 0.5j, 1.0, 1.0j]], dtype=complex)\n result = marginal_memory(memory, [0, 2])\n expected = np.array([[1.0j, 0.5 + 0.5j], [0.5 + 0.5j, 1.0j]], dtype=complex)\n np.testing.assert_array_equal(result, expected)",
"def memory():\n return myself()[MEMORY]",
"def _set_ec2_task_memory(self, source: Dict[str, Any] = None) -> Optional[int]:\n if not source:\n source = self.data\n memory = None\n if 'memory' in self.data:\n try:\n memory = int(self.data['memory'])\n except ValueError:\n raise SchemaException('Task memory must be an integer')\n return memory",
"def set_indication_memory(self, stage):\n self._memory_usage_indications[stage].append(\n dict(psutil.virtual_memory()._asdict())\n )",
"def memory_gb(self, memory_gb):\n\n self._memory_gb = memory_gb",
"def __init__(self):\n super(_MemoryAccessor, self).__init__(\"memory\")\n self._metric_to_points = collections.defaultdict(sortedcontainers.SortedDict)\n self._name_to_metric = {}\n self._directory_names = sortedcontainers.SortedSet()\n self.__downsampler = _downsampling.Downsampler()\n self.__delayed_writer = _delayed_writer.DelayedWriter(self)",
"def test_marginalize_memory(self):\n memory = [hex(ii) for ii in range(8)]\n res = marginal_memory(memory, indices=[0])\n self.assertEqual(res, [bin(ii % 2)[2:] for ii in range(8)])"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for cpus, mapped from YANG variable /access_points/access_point/system/cpus (container)
|
def _set_cpus(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_cpus_openconfig_access_points__access_points_access_point_system_cpus, is_container='container', yang_name="cpus", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """cpus must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_cpus_openconfig_access_points__access_points_access_point_system_cpus, is_container='container', yang_name="cpus", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__cpus = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_cpu(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"cpu must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_cpu_vnf_bd__scenario_nodes_resources_cpu, is_container='container', yang_name=\"cpu\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__cpu = t\n if hasattr(self, '_set'):\n self._set()",
"def host_cpus(self, session):\n url = utils.urljoin(self.base_path, self.id, 'host_info', 'cpus')\n resp = session.get(url, endpoint_filter=self.service).json()\n return resp['info']",
"def _set_num_cpu(self, name, vcpus, brand):\n zone = self._get_zone_by_name(name)\n if zone is None:\n raise exception.InstanceNotFound(instance_id=name)\n\n # The Solaris Zone brand type is used to specify the type of\n # 'cpu' resource set in the Solaris Zone configuration.\n if brand == ZONE_BRAND_SOLARIS:\n vcpu_resource = 'capped-cpu'\n else:\n vcpu_resource = 'virtual-cpu'\n\n # TODO(dcomay): Until 17881862 is resolved, this should be turned into\n # an appropriate 'rctl' resource for the 'capped-cpu' case.\n with ZoneConfig(zone) as zc:\n zc.setprop(vcpu_resource, 'ncpus', str(vcpus))",
"def setVcpus(self, nvcpus):\n ret = libvirtmod.virDomainSetVcpus(self._o, nvcpus)\n if ret == -1: raise libvirtError ('virDomainSetVcpus() failed', dom=self)\n return ret",
"def set_number_used_cores(job):\n\n pilot_user = os.environ.get('PILOT_USER', 'generic').lower()\n cpu = __import__('pilot.user.%s.cpu' % pilot_user, globals(), locals(), [pilot_user], 0) # Python 2/3\n cpu.set_core_counts(job)",
"def get_node_vcpus(self, name):\n #\n # Default to zero, because if for some reason the node can't be found\n # (i.e. it was deleted in the background), then it will not be using\n # any cpus\n #\n vcpus = 0\n\n try:\n configDict = self.get_node_resource_adapter_config(\n NodesDbHandler().getNode(self.session, name)\n )\n\n vcpus = configDict.get('vcpus', 0)\n if not vcpus:\n vcpus = self.get_instance_size_mapping(configDict['type'])\n\n except NodeNotFound:\n pass\n\n return vcpus",
"def set_cpus(self, num_cpus):\n if self.batch:\n self.batch_settings.batch_args[\"cpus-per-task\"] = num_cpus\n for db in self:\n db.run_settings.set_cpus_per_task(num_cpus)",
"def set_cpu_request(self, cpu_request):\n self.cpu_request = cpu_request",
"def AddCpuFlag(parser, managed_only=False):\n help_msg = (\n 'Set a CPU limit in Kubernetes cpu units.\\n\\n'\n 'Cloud Run (fully managed) supports values 1, 2 and 4.'\n ' For Cloud Run (fully managed), 4 cpus also requires a minimum '\n '2Gi `--memory` value. Examples 2, 2.0, 2000m'\n )\n if not managed_only:\n help_msg += (\n '\\n\\nCloud Run for Anthos and Knative-compatible Kubernetes '\n 'clusters support fractional values. Examples .5, 500m, 2'\n )\n parser.add_argument('--cpu', help=help_msg)",
"def setGuestVcpus(self, cpumap, state, flags=0):\n ret = libvirtmod.virDomainSetGuestVcpus(self._o, cpumap, state, flags)\n if ret == -1: raise libvirtError ('virDomainSetGuestVcpus() failed', dom=self)\n return ret",
"def _vcpus(compute_resource) -> int:\n instance_type = compute_resource[\"InstanceType\"]\n disable_simultaneous_multithreading = compute_resource[\"DisableSimultaneousMultithreading\"]\n instance_type_info = instance_types_data[instance_type]\n vcpus_info = instance_type_info.get(\"VCpuInfo\", {})\n vcpus_count = vcpus_info.get(\"DefaultVCpus\")\n threads_per_core = vcpus_info.get(\"DefaultThreadsPerCore\")\n if threads_per_core is None:\n supported_architectures = instance_type_info.get(\"ProcessorInfo\", {}).get(\"SupportedArchitectures\", [])\n threads_per_core = 2 if \"x86_64\" in supported_architectures else 1\n return vcpus_count if not disable_simultaneous_multithreading else (vcpus_count // threads_per_core)",
"def getWorkers(cpus=None):\n cpu_count = os.cpu_count()\n if cpus:\n if isinstance(cpus, float):\n return round(cpus * cpu_count)\n elif isinstance(cpus, int):\n return cpus\n else:\n raise TypeError('Unrecogzied input type %s' % str(cpus.__name__))\n limit_usage_machines = ['brain2', 'pinky']\n if socket.gethostname().lower() in limit_usage_machines:\n return cpu_count // 8\n else:\n # Use all cpus if not on SAIL servers\n return cpu_count",
"def set_task_cpu(\n self,\n data: Dict[str, Any],\n container_data: List[Dict[str, Any]],\n source: Dict[str, Any] = None\n ) -> None:\n if not source:\n source = self.data\n cpu_required = self._get_container_cpu_usage(container_data)\n if self.is_fargate():\n cpu = self._set_fargate_task_cpu(cpu_required, source=source)\n else:\n cpu = self._set_ec2_task_cpu(source=source)\n if cpu is not None:\n if cpu_required > cpu:\n raise SchemaException(\n f'You set task cpu to {cpu} but your container cpu sums to {cpu_required}.'\n 'Task cpu must be greater than the sum of container cpu.'\n )\n # we calculate cpu as an int, but register_task_definition wants a str\n data['cpu'] = str(cpu)",
"def vcpus(self, vcpus):\n if vcpus is None:\n raise ValueError(\"Invalid value for `vcpus`, must not be `None`\") # noqa: E501\n\n self._vcpus = vcpus",
"def pin(self, cpus):\n if self.cpus == cpus:\n log.task.debug(\"%s is still pinned to %s\" % (self.pid, cpus))\n return\n # if self.cpus:\n # print(\"migrating pid %s: %s -> %s\" % (self.pid, self.cpus, cpus))\n # else:\n # print(\"pinning %s to %s\" %(self.pid, cpus))\n mask = cpus2mask(cpus)\n self.set_affinity(mask)\n self.cpus = cpus",
"def train_cpu_quota(self, value):\n if value != None:\n if not isinstance(value, str):\n raise ValueError(\"train_cpu_quota must be a string!\")\n if not value.replace(\".\", \"\", 1).isdigit():\n raise ValueError(\"train_cpu_quota must be a number!\")\n self._train_cpu_quota = value",
"def setVcpusFlags(self, nvcpus, flags=0):\n ret = libvirtmod.virDomainSetVcpusFlags(self._o, nvcpus, flags)\n if ret == -1: raise libvirtError ('virDomainSetVcpusFlags() failed', dom=self)\n return ret",
"def _get_cpu_shares(self, instance):\n if isinstance(instance, objects.Instance):\n flavor = instance.get_flavor()\n else:\n flavor = flavors.extract_flavor(instance)\n return int(flavor['vcpus']) * 1024",
"def _get_cpuunits_capability(self):\n try:\n out, err = utils.execute('sudo', 'vzcpucheck')\n if err:\n LOG.error(err)\n\n for line in out.splitlines():\n line = line.split()\n if len(line) > 0:\n if line[0] == 'Power':\n LOG.debug('Power of host: %s' % (line[4],))\n self.utility['UNITS'] = int(line[4])\n\n except ProcessExecutionError as err:\n LOG.error(err)\n raise exception.Error('Problem getting cpuunits for host')",
"def _set_cpuunits(self, instance, units=None):\n if not units:\n LOG.debug(\"Reported cpuunits %s\" % self.utility['UNITS'])\n LOG.debug(\"Reported percent of resource: %s\" %\n self._percent_of_resource(instance))\n units = int(self.utility['UNITS'] *\n self._percent_of_resource(instance))\n # TODO(imsplitbit): This needs to be adjusted to not allow\n # subscription of more than available cpuunits. For now we\n # won't let the obvious case of a container getting more than\n # the maximum cpuunits for the host.\n if units > self.utility['UNITS']:\n units = self.utility['UNITS']\n\n try:\n _, err = utils.execute('sudo', 'vzctl', 'set', instance['id'],\n '--save', '--cpuunits', units)\n if err:\n LOG.error(err)\n except ProcessExecutionError as err:\n LOG.error(err)\n raise exception.Error('Cannot set cpuunits for %s' %\n (instance['id'],))"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for processes, mapped from YANG variable /access_points/access_point/system/processes (container)
|
def _get_processes(self):
return self.__processes
|
[
"def processes(self):\n r = requests.get(self.uri+'processes')\n r.raise_for_status()\n return r.json()",
"def get_processes(process_id=None):\n return get_response(api_.describe_processes(request, process_id))",
"def processes(self):\n ret = self._get_attr(\"processes\")\n return [IGuestProcess(a) for a in ret]",
"def host_processes(self, session):\n url = utils.urljoin(self.base_path, self.id, 'host_info', 'processes')\n resp = session.get(url, endpoint_filter=self.service).json()\n return resp['info']",
"def getProcesses(self):\n return self.dbg.enumerate_processes()",
"def get_processes(self):\n processes = {}\n for proc in psutil.process_iter():\n try:\n pinfo = proc.as_dict(attrs=['pid', 'name'])\n processes[pinfo['name']] = pinfo['pid']\n except psutil.NoSuchProcess:\n pass\n return(processes)",
"def list_user_defined_processes(self) -> List[dict]:\n data = self.get(\"/process_graphs\").json()[\"processes\"]\n return VisualList(\"processes\", data=data)",
"def processes(self, processes: List[int]):\n\n self._processes = processes",
"def findProcesses(self):\n procFinder = ChildProcs(self.process)\n procFinder()\n return procFinder[1:]",
"def getProcesses(nodelist, user):\n # print \"In procedure getProcesses\"\n # Prepare the output\n processlist = []\n for node in nodelist:\n print \"Get processes for node \" + node + \"...\"\n if (not _allProcesses):\n execstring = \"ps -f -u \" + user\n else:\n execstring = \"ps -ef\"\n\n proc = subprocess.Popen(['ssh', node, execstring], stdout=subprocess.PIPE)\n processes = proc.stdout.readlines()\n # print \"Number of lines: %d\" % (len(processes))\n\n # Make the process report - shread off non-iTEM processes, blank lines etc\n foundprocess = 0\n numlines = len(processes)\n for lineidx in range(numlines):\n pline = processes[lineidx]\n # print pline\n # Look for lines with iTEM processes\n if pline.rstrip().endswith('init.ini pinit.ini'):\n if not foundprocess:\n # print \"Found first iTEM process\"\n foundprocess = 1\n processlist.append(node)\n processlist.append(processes[0].rstrip('\\n'))\n\n processlist.append(pline.rstrip('\\n'))\n\n return processlist",
"def _get_process_info(self):\n process_infos = []\n if CONF.process_info.proc_detail:\n logger.debug('More information about the collection process.')\n processss = psutil.process_iter(attrs=['name', 'exe', 'pid',\n 'username', 'cmdline',\n 'memory_percent', 'status',\n 'create_time',\n 'cpu_percent', 'cpu_num'])\n else:\n processss = psutil.process_iter(attrs=[\n 'name', 'exe', 'pid', 'status'])\n for process in processss:\n p_info = process.info\n if p_info.get('create_time', None):\n p_info['create_time'] = utils.str_time(p_info['create_time'])\n else:\n pass\n process_infos.append(p_info)\n logger.info('Collect all process information.')\n return process_infos",
"def get_child_process_ids(self):\n # type: () -> List[str]\n if not self.__shared_object_managers:\n return []\n\n result = []\n\n for shared_object_manager in self.__shared_object_managers.values():\n try:\n # add process identifier.\n result.append(shared_object_manager.pid)\n except Exception:\n pass\n\n return result",
"def update_processes(self):\n self.processes = self.get_processes()",
"def list_foam_processes():\n\n def get_proc_info(foam_name, foam_type, proc):\n with proc.oneshot():\n return ProcessInfoList(\n proc.name(),\n foam_name,\n foam_type,\n proc.pid,\n proc.status(),\n )\n\n info_list = []\n children = psutil.Process().children()\n\n for name, p in _foam_processes.redis.items():\n info_list.append(get_proc_info(name, 'redis', p))\n children.remove(p)\n\n for name, p in _foam_processes.pipeline.items():\n p_psutil = psutil.Process(p.pid)\n info_list.append(get_proc_info(name, 'pipeline', p_psutil))\n children.remove(p_psutil)\n\n for child in children:\n info_list.append(get_proc_info(child.name(), 'other', child))\n\n return info_list",
"def available_processes():\n server_response = requests.get(_event_generator_api_url + 'processes')\n if server_response.status_code != 200:\n raise RuntimeError(\"The event generator server did not answer with a \"\n \"valid message.\")\n return server_response.json()['processes']",
"def find_processes(self, **kwargs):\n kwargs['_return_http_data_only'] = True\n if kwargs.get('callback'):\n return self.find_processes_with_http_info(**kwargs)\n else:\n (data) = self.find_processes_with_http_info(**kwargs)\n return data",
"def get_processes_by_path(path):\n pinfos = []\n for proc in psutil.process_iter():\n pinfo = proc.as_dict(attrs=['pid', 'name', 'exe', 'cwd', 'open_files'])\n\n using_paths = []\n if pinfo['exe']:\n using_paths.append(pinfo['exe'])\n if pinfo['cwd']:\n using_paths.append(pinfo['cwd'])\n if pinfo['open_files']:\n using_paths.extend(pinfo['open_files'])\n\n for using_path in using_paths:\n if is_super_path(path, using_path):\n continue\n pinfos.append({\n 'pid': pinfo['pid'],\n 'name': pinfo['name'],\n 'cmdline': pinfo['exe']\n })\n return pinfos",
"def lista_procesos(self):\n for item in process_iter():\n try:\n data = item.as_dict(attrs=['pid', 'name', 'connections'])\n self.proclist.append(Proceso(pid=data['pid'],\n nombre=data['name'], imagen=item.exe(),\n conexiones=data['connections']))\n\n except AccessDenied:\n print('[!] Problema de acceso!! Ejecuta ese programa como root/Adminsitrador')\n sys.exit(-1)\n except PermissionError:\n print('[!] Problema de acceso!! Ejecuta ese programa como root/Adminsitrador')\n sys.exit(-1)\n return self.proclist",
"def get_processes_filtered_by_valid_schemas(request, detail=True):\n # type: (PyramidRequest, bool) -> Tuple[List[JSON], List[str], Dict[str, Optional[int]], bool, int]\n settings = get_settings(request)\n with_providers = False\n if get_weaver_configuration(settings) in WeaverFeature.REMOTE:\n with_providers = asbool(request.params.get(\"providers\", False))\n revisions_param = sd.ProcessRevisionsQuery(unknown=\"ignore\").deserialize(request.params)\n with_revisions = revisions_param.get(\"revisions\")\n with_links = asbool(request.params.get(\"links\", False)) and detail\n paging_query = sd.ProcessPagingQuery()\n paging_value = {param.name: param.default for param in paging_query.children}\n paging_names = set(paging_value)\n paging_param = paging_query.deserialize(request.params)\n if with_providers and any(value != paging_value[param] for param, value in paging_param.items()):\n raise HTTPBadRequest(json={\n \"description\": \"Cannot combine paging/sorting parameters with providers full listing query.\",\n \"error\": \"ListingInvalidParameter\",\n \"value\": list(paging_names.intersection(request.params))\n })\n\n store = get_db(request).get_store(StoreProcesses)\n processes, total_local_processes = store.list_processes(\n visibility=Visibility.PUBLIC,\n total=True,\n **revisions_param,\n **paging_param\n )\n valid_processes = []\n invalid_processes_ids = []\n for process in processes: # type: Process\n try:\n try:\n valid_processes.append(process.summary(revision=with_revisions, links=with_links, container=request))\n except (InvalidVersion, ValueError) as exc:\n raise colander.Invalid(sd.ProcessSummary, value=None, msg=str(exc))\n except colander.Invalid as invalid:\n process_ref = process.tag if with_revisions else process.identifier\n LOGGER.debug(\"Invalid process [%s] because:\\n%s\", process_ref, invalid)\n invalid_processes_ids.append(process.identifier)\n return valid_processes, invalid_processes_ids, paging_param, with_providers, total_local_processes",
"def processes(self, system_user=False, current_connection=False):\n SELECT_IDs = \"SELECT ID FROM INFORMATION_SCHEMA.PROCESSLIST\"\n if not system_user or not current_connection:\n SELECT_IDs += \" WHERE\"\n if not system_user:\n SELECT_IDs += \" User != 'system user' AND User != 'event_scheduler'\"\n if not current_connection:\n if not system_user:\n SELECT_IDs += \" AND\"\n SELECT_IDs += \" ID != CONNECTION_ID()\"\n\n #User != 'system user' skips over any replication threads that might be\n #running in the system.\n proc_ids = []\n proc_ids_rows = self.exec_stmt(SELECT_IDs)\n for row in proc_ids_rows:\n proc_ids.append(row[0])\n return proc_ids"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for processes, mapped from YANG variable /access_points/access_point/system/processes (container)
|
def _set_processes(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_processes_openconfig_access_points__access_points_access_point_system_processes, is_container='container', yang_name="processes", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """processes must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_processes_openconfig_access_points__access_points_access_point_system_processes, is_container='container', yang_name="processes", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__processes = t
if hasattr(self, '_set'):
self._set()
|
[
"def processes(self, processes: List[int]):\n\n self._processes = processes",
"def update_processes(self):\n self.processes = self.get_processes()",
"def batch_assign_containers(self, containers, process, user, variables):\n # TODO\n raise NotImplementedError()",
"def processes(self):\n ret = self._get_attr(\"processes\")\n return [IGuestProcess(a) for a in ret]",
"def setProcess(self,process):\n\t\tstatus=0\n\t\tsys.stderr.write(\"\\nSTART: setProcess()\\n\")\n\t\ttry:\n\t\n\t\t\tmyprocess = pickle.loads(open(\"process/%s/%s\" %(self.userid,process)).read())\n\t\t\tself.recipe.attachProcess( myprocess )\n\t\t\tstatus=1\n\t\texcept ImportError: \n\t\t\ttraceback.print_exc()\n\t\tsys.stderr.write(\"END: setProcess()\\n\")\n\t\treturn {'operation' :'setProcess','status':status}",
"def clearProcesses(self): \n self.processes = OrderedDict()",
"def processes(self):\n r = requests.get(self.uri+'processes')\n r.raise_for_status()\n return r.json()",
"def list_user_defined_processes(self) -> List[dict]:\n data = self.get(\"/process_graphs\").json()[\"processes\"]\n return VisualList(\"processes\", data=data)",
"def _create_processes(self, settings: dict) -> None:\n # Create processes for each node\n tree = self.process_tree\n for node_name in tree.nodes:\n suffix_flag = \"\"\n suffixes = [f\".{i}\" for i in range(1, len(tree.nodes) + 1)]\n for suffix in suffixes:\n if node_name.endswith(suffix):\n process_name = node_name.rsplit(suffix, 1)[0]\n suffix_flag = suffix\n break\n else:\n process_name = node_name\n level_1, level_2, level_3, *param = process_name.split(\".\")\n if param:\n user_process_data = settings[level_1][level_2][level_3][param[0]]\n process_name = f\"{level_1}.{level_2}.{level_3}\"\n else:\n user_process_data = settings[level_1][level_2][level_3]\n default_process_data = self.config.params_set[process_name]\n default_process_data.merge(user_process_data)\n if param and suffix_flag:\n root_dir = (\n str(default_process_data.root_dir) + f\".{param[0]}\" + suffix_flag\n )\n elif suffix_flag:\n root_dir = str(default_process_data.root_dir) + suffix_flag\n else:\n root_dir = str(default_process_data.root_dir)\n tree.nodes[node_name][\"process\"] = Process(\n default_process_data,\n self.profile,\n str(self.output_location),\n id_=node_name,\n root_dir=root_dir,\n project=self.project,\n resume=self.resume,\n )",
"def get_processes(process_id=None):\n return get_response(api_.describe_processes(request, process_id))",
"def host_processes(self, session):\n url = utils.urljoin(self.base_path, self.id, 'host_info', 'processes')\n resp = session.get(url, endpoint_filter=self.service).json()\n return resp['info']",
"def get_processes(self):\n processes = {}\n for proc in psutil.process_iter():\n try:\n pinfo = proc.as_dict(attrs=['pid', 'name'])\n processes[pinfo['name']] = pinfo['pid']\n except psutil.NoSuchProcess:\n pass\n return(processes)",
"def set_processes(self,\n process_list,\n allow_nonzero_column_sums=False,\n reset_events=True,\n ignore_rate_position_checks=False):\n\n quadratic_events, linear_events = processes_to_events(process_list,\n self.compartments,\n ignore_rate_position_checks)\n self.set_linear_events(linear_events,\n allow_nonzero_column_sums=allow_nonzero_column_sums,\n reset_events=reset_events,\n )\n self.set_quadratic_events(quadratic_events,\n allow_nonzero_column_sums=allow_nonzero_column_sums,\n reset_events=reset_events,\n )\n\n return self",
"def getProcesses(self):\n return self.dbg.enumerate_processes()",
"def setInclProc(self, includedProcesses: Tuple['GraphNode'] =()) -> 'GraphNode':\n self.includedProcesses = includedProcesses\n if not self.__state:\n self.__max = self._getMaxLength()\n return self",
"def register_processes(processes):\n items = list(set(get_subprocesses(processes)))\n\n for item in items:\n item.main_process = None\n\n registerd_items = []\n for _ in range(100):\n unregistered_items = set(items) - set(registerd_items)\n if len(unregistered_items) == 0:\n break\n for item in unregistered_items:\n try:\n item.register_process()\n registerd_items.append(item)\n except Exception as e:\n logger.info(e)\n else:\n raise ValueError(\n \"Due to recursion in the events of the activities, not all the activities can be registered.\"\n )",
"def assign_to_machine(self,\n process,\n *,\n node_pool_name,\n process_group=None,\n process_per_machine=1):\n node_pool_di = self.get_node_pool(node_pool_name)\n if process_group is None:\n process_group = process\n\n np_labels = node_pool_di[\"node_config\"][\"labels\"]\n cpu = np_labels[\"cpu\"]\n memory_m = np_labels[\"memory_m\"]\n\n memory_share = memory_m / (process_per_machine + 1)\n cpu_share = (cpu - 0.6) / process_per_machine\n cpu_share = float(int(cpu_share * 1000)) / 1000\n\n if 'gpu_count' in np_labels:\n num_gpus = np_labels['gpu_count']\n gpu_share = max(int(num_gpus / process_per_machine), 1)\n else:\n gpu_share = None\n\n self.assign_to_node_pool(process,\n node_pool_name=node_pool_name,\n process_group=process_group,\n memory_m=memory_share,\n cpu=cpu_share,\n gpu_count=gpu_share)",
"def kill_processes(self, *Proc):\n stdout = _return_pslist()\n pat=re.compile(r'\\w+')\n psDict = {}\n PIDlist = []\n not_found_list = []\n # build mapping of process name to the list of associated process ids.\n # the pslist process name is currently limited to display first 15 chars, so we will compare only 15 chars\n for ps in stdout.splitlines():\n psInfo = ps.split()\n if len(psInfo) < 2:\n continue\n # get just the process name, remove everything after first non-alphanumeric\n psProcessName = re.match(pat,psInfo[1]).group()\n if psProcessName != None:\n psCompareProcessName = psProcessName.lower()[:15]\n if psCompareProcessName in psDict:\n psDict[psCompareProcessName].append(psInfo[0])\n else:\n psDict[psCompareProcessName] = [psInfo[0]]\n for process in list(Proc):\n compareProcessName = process.lower()[:15]\n if compareProcessName in psDict:\n PIDlist.extend(psDict[compareProcessName])\n else:\n not_found_list.append(process)\n if len(PIDlist):\n _kill_process(PIDlist)\n if len(not_found_list):\n return [12,not_found_list]\n else:\n return [0, []]",
"def _spawn_processes(self, state):\r\n num_to_start = state.numprocesses - len(state.running)\r\n for i in range(num_to_start):\r\n self._spawn_process(state)",
"def load_process_info(self, process_info):\n self.pid = process_info['pid']\n self.pgid = process_info['pgid']\n self.ip = process_info['ip']\n self.kernel_manager.ip = process_info['ip']"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for alarms, mapped from YANG variable /access_points/access_point/system/alarms (container)
|
def _set_alarms(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_alarms_openconfig_access_points__access_points_access_point_system_alarms, is_container='container', yang_name="alarms", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """alarms must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_alarms_openconfig_access_points__access_points_access_point_system_alarms, is_container='container', yang_name="alarms", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__alarms = t
if hasattr(self, '_set'):
self._set()
|
[
"def list_alarms(self, entity):\r\n uri = \"/%s/%s/alarms\" % (self.uri_base, utils.get_id(entity))\r\n resp, resp_body = self.api.method_get(uri)\r\n return [CloudMonitorAlarm(self, dct, entity)\r\n for dct in resp_body[\"values\"]]",
"def describe_alarms_for_metric(self, req):\r\n self._enforce(req, 'DescribeAlarmsForMetric')\r\n return exception.HeatAPINotImplementedError()",
"def clear_all_alarms(self):\n self.navigate_to(self.MONITOR, self.MONITOR_ALL_ALARMS)\n\n #JLIN@20081112 add delay time for ZD implement alarms clear\n self.s.click_and_wait(self.info['loc_mon_alarms_clearall_button'], 5)",
"def _list_alarms(self, alarm_id=None):\n if alarm_id:\n return self.clients(\"ceilometer\").alarms.get(alarm_id)\n else:\n return self.clients(\"ceilometer\").alarms.list()",
"def _updateAlarm(self) -> None:\r\n pass",
"def get_device_alarms(self) -> Dict[str, Any]:\n\n logger.debug(\"Requesting device alarms\")\n\n alarms = []\n devices = self.get_devices()\n for device in devices:\n device_settings = self.get_device_settings(device[\"deviceId\"])\n alarms += device_settings[\"alarms\"]\n return alarms",
"def alarms_cmd(args):\n\n alarms=AlarmManager(\n time_range=args.time_range,\n start_time=args.start_time,\n end_time=args.end_time,\n status_filter=args.status,\n filters=alarms_cmd_parse_filters(args.filters),\n event_filters=alarms_cmd_parse_filters(args.event_filters),\n page_size=args.page_size,\n )\n\n event_fields=[]\n if args.events_fields == None :\n if args.query_events : \n event_fields=DEFAULT_EVENT_FIELDS_QUERY\n else : \n event_fields=DEFAULT_EVENT_FIELDS\n else : \n event_fields=args.events_fields\n\n alarms.load_data(\n events_details = not args.no_events,\n use_query = args.query_events,\n extra_fields=event_fields,\n pages=args.pages\n )\n if args.json:\n text = alarms.json\n else: \n text=alarms.get_text(fields=args.alarms_fields, \n get_text_nest_attr=dict(max_column_width=40, fields=event_fields))\n \n print(text)\n \n if args.action is not None :\n if args.force or ('y' in input('Are you sure you want to '+str(args.action)+' those alarms ? [y/n]')):\n alarms.perform(getattr(Alarm, args.action), progress=False)",
"def sync_alarms(self, diagnostics: Optional[List[str]] = None, alarm_disable: bool = False):\n from noc.core.service.loader import get_service\n\n now = datetime.datetime.now()\n # Group Alarms\n groups = {}\n #\n alarms = {}\n alarm_config: Dict[str, Dict[str, Any]] = {} # diagnostic -> AlarmClass Map\n messages: List[Dict[str, Any]] = [] # Messages for send dispose\n processed = set()\n diagnostics = set(diagnostics or [])\n for d in self:\n d_name = d.diagnostic\n dc = d.config\n if not dc.alarm_class:\n continue\n alarm_config[dc.diagnostic] = {\n \"alarm_class\": dc.alarm_class,\n \"alarm_labels\": dc.alarm_labels or [],\n }\n if d_name in processed:\n continue\n if diagnostics and not dc.dependent and dc.diagnostic not in diagnostics:\n # Skip non-changed diagnostics\n continue\n if diagnostics and dc.dependent and not diagnostics.intersection(set(dc.dependent)):\n # Skip non-affected depended diagnostics\n continue\n if dc.dependent:\n groups[dc.diagnostic] = []\n for d_name in dc.dependent:\n if d_name not in self:\n continue\n dd = self[d_name]\n if (\n dd\n and dd.state == DiagnosticState.failed\n and self.sync_alarm\n and not alarm_disable\n ):\n groups[dc.diagnostic] += [{\"diagnostic\": d_name, \"reason\": dd.reason or \"\"}]\n processed.add(d_name)\n elif d and d.state == d.state.failed and self.sync_alarm and not alarm_disable:\n alarms[dc.diagnostic] = {\n \"timestamp\": now,\n \"reference\": f\"dc:{self.__object.id}:{d.diagnostic}\",\n \"managed_object\": self.__object.id,\n \"$op\": \"raise\",\n \"alarm_class\": dc.alarm_class,\n \"labels\": dc.alarm_labels or [],\n \"vars\": {\"reason\": d.reason or \"\"},\n }\n else:\n alarms[dc.diagnostic] = {\n \"timestamp\": now,\n \"reference\": f\"dc:{self.__object.id}:{dc.diagnostic}\",\n \"$op\": \"clear\",\n }\n # Group Alarm\n for d in groups:\n messages += [\n {\n \"$op\": \"ensure_group\",\n \"reference\": f\"dc:{d}:{self.__object.id}\",\n \"alarm_class\": alarm_config[d][\"alarm_class\"],\n \"alarms\": [\n {\n \"reference\": f'dc:{dd[\"diagnostic\"]}:{self.__object.id}',\n \"alarm_class\": alarm_config[dd[\"diagnostic\"]][\"alarm_class\"],\n \"managed_object\": self.__object.id,\n \"timestamp\": now,\n \"labels\": alarm_config[dd[\"diagnostic\"]][\"alarm_labels\"],\n \"vars\": {\"reason\": dd[\"reason\"] or \"\"},\n }\n for dd in groups[d]\n ],\n }\n ]\n # Other\n for d in alarms:\n if d in processed:\n continue\n messages += [alarms[d]]\n if self.dry_run:\n self.logger.info(\"Sync Diagnostic Alarm: %s\", messages)\n return\n # Send Dispose\n svc = get_service()\n for msg in messages:\n stream, partition = self.__object.alarms_stream_and_partition\n svc.publish(\n orjson.dumps(msg),\n stream=stream,\n partition=partition,\n )\n self.logger.debug(\n \"Dispose: %s\", orjson.dumps(msg, option=orjson.OPT_INDENT_2).decode(\"utf-8\")\n )",
"def list_alarms(self):\r\n return self.manager.list_alarms(self)",
"async def update_alarms(self, host):\n from .googledevices.api.connect import Cast\n\n _LOGGER.debug(\"Updating Google Home bluetooth for %s\", host)\n session = async_get_clientsession(self.hass)\n\n try:\n token = self.hass.data[TOKENS][self.hass.data[DOMAIN][host][\"info\"][\"name\"]]\n except KeyError:\n if not self.hass.data[DOMAIN][host].get(\"alarms\"):\n self.hass.data[DOMAIN][host][\"alarms\"] = {\"timer\": [], \"alarm\": []}\n return\n \n assistant = await Cast(host, self.hass.loop, session).assistant()\n alarms_data = await assistant.get_alarms(token)\n if not alarms_data:\n print(\"Getting alarms failed, scheduling token update\")\n update_tokens(self.hass)\n return\n\n self.hass.data[DOMAIN][host][\"alarms\"] = alarms_data",
"def advapi32_PrivilegedServiceAuditAlarm(jitter, get_str, set_str):\n ret_ad, args = jitter.func_args_stdcall([\"SubsystemName\", \"ServiceName\", \"ClientToken\", \"Privileges\", \"AccessGranted\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def list_alarms(self, entity):\r\n return self._entity_manager.list_alarms(entity)",
"def delete_alarms(self, req):\r\n self._enforce(req, 'DeleteAlarms')\r\n return exception.HeatAPINotImplementedError()",
"def alarm_stats(self, alarm_stats):\n\n self._alarm_stats = alarm_stats",
"def onAlarm(self):",
"def get_alarms(zone=None):\n alarms = Alarms()\n alarms.update(zone)\n return set(alarms.alarms.values())",
"def set_alarm(self, message):\n alarm_string = message\n self._alarm_state = True\n self._alarm_trace.append(alarm_string)\n logging.info(alarm_string)",
"def set_alarm_time(times):\n alarm_time.append(times)",
"def alarms(self):\n sources = copy.deepcopy(self.sources)\n alarms = []\n idx = 0\n for src in sources:\n if src.device.alarm:\n alarms.append(\"s_\"+str(idx).zfill(2)) #the s_ prefix is generated in pxp.py\n idx+=1\n return alarms",
"def check_alarms(self):\r\n\r\n # Low level alarm\r\n # Check if the low level alarm is configured\r\n if self.min_level_alarm != None:\r\n if (self.current_level <= self.min_level_alarm):\r\n if (not self.level_alarm_low_triggered\r\n and self.level_growing == False):\r\n self.generate_alarm(LEVEL_ALARM, MINIMUM_LIMIT)\r\n self.level_alarm_low_triggered = True\r\n self.level_alarm_high_triggered = False\r\n else:\r\n self.level_alarm_low_triggered = False\r\n\r\n # High level alarm\r\n # Check if the high level alarm is configured\r\n if self.max_level_alarm != None:\r\n if(self.current_level >= self.max_level_alarm):\r\n if (not self.level_alarm_high_triggered\r\n and self.level_growing == True):\r\n self.generate_alarm(LEVEL_ALARM, MAXIMUM_LIMIT)\r\n self.level_alarm_high_triggered = True\r\n self.level_alarm_low_triggered = False\r\n else:\r\n self.level_alarm_high_triggered = False\r\n\r\n # Low temperature alarm\r\n # Check if the low temperature alarm is configured\r\n if self.min_temperature_alarm != None:\r\n if (self.current_temperature <= self.min_temperature_alarm):\r\n if (not self.temperature_alarm_low_triggered\r\n and self.temperature_growing == False):\r\n self.generate_alarm(TEMPERATURE_ALARM, MINIMUM_LIMIT)\r\n self.temperature_alarm_low_triggered = True\r\n self.temperature_alarm_high_triggered = False\r\n else:\r\n self.temperature_alarm_low_triggered = False\r\n\r\n # High temperature alarm\r\n # Check if the high temperature alarm is configured\r\n if self.max_temperature_alarm != None:\r\n if(self.current_temperature >= self.max_temperature_alarm):\r\n if (not self.temperature_alarm_high_triggered\r\n and self.temperature_growing == True):\r\n self.generate_alarm(TEMPERATURE_ALARM, MAXIMUM_LIMIT)\r\n self.temperature_alarm_high_triggered = True\r\n self.temperature_alarm_low_triggered = False\r\n else:\r\n self.temperature_alarm_high_triggered = False"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for joined, mapped from YANG variable /access_points/access_point/assigned_ap_managers/ap_manager/state/joined (boolean)
|
def _set_joined(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGBool, is_leaf=True, yang_name="joined", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='boolean', is_config=False)
except (TypeError, ValueError):
raise ValueError({
'error-string': """joined must be of a type compatible with boolean""",
'defined-type': "boolean",
'generated-type': """YANGDynClass(base=YANGBool, is_leaf=True, yang_name="joined", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='boolean', is_config=False)""",
})
self.__joined = t
if hasattr(self, '_set'):
self._set()
|
[
"def did_join_trivia(m):\n return m.channel == msg.channel and (m.content == '>join' or m.content == '>leave')",
"def check_join():\n if not lora.has_joined():\n app_eui = binascii.unhexlify(config.APP_EUI.replace(' ',''))\n app_key = binascii.unhexlify(config.APP_KEY.replace(' ',''))\n dev_eui = binascii.unhexlify(config.DEV_EUI.replace(' ',''))\n print(\"AppEUI: %s\" % (binascii.hexlify(app_eui)))\n print(\"AppKey: %s\" % (binascii.hexlify(app_key)))\n print(\"Custom DevEUI: %s\" % (binascii.hexlify(dev_eui)))\n lora.join(activation=LoRa.OTAA, auth=(dev_eui, app_eui, app_key), timeout=0, dr=config.DATARATE)\n while not lora.has_joined():\n blink_led(color=config.COLOR_RED, delay=2.5)\n time.sleep(1.0)\n print('Not yet joined...')\n print('OTAA joined')\n blink_led(color=config.COLOR_GREEN, delay=1.0)",
"def is_join_menu(message: Message) -> bool:\n return 'join' in User.get(message.from_user.id).state",
"async def player_has_joined(self, ctx, user):\r\n await ctx.send(f\"{user.mention} has joined the game!\")",
"async def joined(member: discord.Member):\n await eolas.say('{0.name} joined in {0.joined_at}'.format(member))",
"def fjoin(l, b, i):\n if i.args is None:\n name = i.nick\n else:\n name = i.args[0]\n b.user_join_event(name, i.channel)\n b.l_say('Faked user join for %s%s' % (PURPLE, name), i, 0)\n return True",
"def join_agents_coalition(self, agent):\n\n if self.network is not None:\n # In a coalition already, try to merge the other coalition into ours\n if agent.network is None:\n # Let the solo agent join our coalition\n return self.network.add_member(agent)\n elif self.network is not agent.network:\n # Merge the two DIFFERENT coalitions\n return self.network.merge(agent.network)\n elif agent.network is None:\n # Other agent is also not in a coalition, create a new one.\n coalition = self.environment.new_coalition()\n coalition.add_member(self)\n coalition.add_member(agent)\n return True\n else:\n # Not currently in a network, try to join the coalition\n return agent.network.add_member(self)",
"async def joined(member : discord.Member):\r\n await bot.say('{0.name} joined in {0.joined_at}'.format(member))",
"def join_lobby(self, name, playerid):\n global games\n global waiting_games\n global players\n global games_lock\n global players_lock\n\n # make sure game name exists\n games_lock.acquire()\n if name not in games:\n games_lock.release()\n return False, LobbyError.game_does_not_exist\n\n # make sure the game is not full\n if name not in waiting_games:\n games_lock.release()\n return False, LobbyError.game_is_full\n\n # set second player id in the game and add the id to the list of players\n games[name].set_second_player(playerid)\n players_lock.acquire()\n players[playerid].set_id(playerid)\n players_lock.release()\n\n # remove game from the list of waiting games\n waiting_games.remove(name)\n games_lock.release()\n\n # trigger on_update event\n self.__notify_all(LobbyEvent.on_update)\n\n return True, None",
"def join_instruction(self) -> Optional['outputs.DataSetLogicalTableMapSourceJoinInstruction']:\n return pulumi.get(self, \"join_instruction\")",
"def use_join_table(self: Fdef) -> Optional[bool]:\n self._resolve_if_needed()\n return self._use_join_table",
"async def on_member_join(self, member):",
"def d_toonJoinRequest(self):\n if self._localToonRequestStatus is None:\n assert(self.notify.debug(\"d_toonJoinRequest\"))\n self.localToonJoining()\n self.sendUpdate(\"toonJoinRequest\")\n else:\n assert(self.notify.debug(\"d_toonJoinRequest not sending request as _localToonRequest=%d\" %\n self._localToonRequest))",
"def onJoinGame(self, success):\n\n\t\tif success:\n\t\t\tself.lobby.joinSuccessful()\n\t\t\tlogging.info(\"Successfully join game '%s' against '%s'\" % (self.lobby.game.name,\n\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t self.lobby.getNickname(self.lobby.opponent)))\n\n\t\t# TODO: validate current client status\n\t\tself.__updateClientStatus(ClientStatus.PREPARATIONS)\n\n\t\tfor cb in self.__joinGameCallbacks:\n\t\t\tcb.onAction(success)\n\t\tself.__joinGameCallbacks = []",
"def simplejoin():\n def modify(cls):\n setattr(cls, \"simplejoin\", True)\n return cls\n return modify",
"async def join_role(self, ctx, *, role: discord.Role):\n if str(ctx.guild.id) not in Data.server_data:\n Data.server_data[str(ctx.guild.id)] = Data.create_new_data()\n\n Data.server_data[str(ctx.guild.id)][\"join_role\"] = role.id\n await ctx.send(f\"This server's join role has been set to **{role}**\")",
"def join(self, partB):\r\n print \"join:\", self.partB, partB, self.partB == partB, type(self.partB), type(partB)\r\n if self.partB == partB:\r\n self.partB.ndb.tradehandler = self\r\n self.partB.cmdset.add(CmdsetTrade())\r\n self.trade_started = True\r\n return True\r\n return False",
"async def toggle(self, ctx: commands.Context):\n data = self.search(ctx.guild.id)\n\n if not data:\n await ctx.send(\"No join role system for this server\")\n else:\n data.switch = not data.switch\n status = \"On\" if data.switch else \"Off\"\n self.db.update_one({\"guild_id\": ctx.guild.id}, {\"$set\": {\"switch\": data.switch}})\n await ctx.send(f\"Join role system is now {status}\")",
"def joined_by_invite(self):\n return isinstance(self.original.action,\n types.ChannelAdminLogEventActionParticipantJoinByInvite)",
"def join_rooms(self) -> None:\n if self.rooms:\n for room in self.rooms:\n # self.add_event_handler(f'muc::{room}::got_online', self.notify_user)\n self.plugin['xep_0045'].join_muc(room, self.nick, wait=True)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for config, mapped from YANG variable /access_points/access_point/assigned_ap_managers/ap_manager/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def alertmanagers_config(self) -> Optional[pulumi.Input['ThanosRulerSpecAlertmanagersConfigArgs']]:\n return pulumi.get(self, \"alertmanagers_config\")",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_wmm_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot1x_timers_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_probes__probes_probe_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/probes', defining_module='openconfig-probes', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_probes__probes_probe_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/probes', defining_module='openconfig-probes', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for state, mapped from YANG variable /access_points/access_point/assigned_ap_managers/ap_manager/state (container)
|
def _set_state(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """state must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager_state, is_container='container', yang_name="state", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__state = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_access_points__access_points_access_point_system_grpc_server_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_local_aggregates_aggregate_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_queue_management_profiles_queue_management_profile_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_members_member_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=False)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def set_autonomous_state():\n state = request.args.get('state', type=str)\n print(state)\n\n al_srv.setState(state)\n\n return {\n \"status\": \"ok\",\n \"state\": state\n }",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_wmm_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def setstate(self, state):\n if state not in VALID_STATES:\n states = ', '.join(VALID_STATES)\n raise ValueError(\"Wrong state, allowed states {}\".format(states))\n if state in ('enable', 'disable'):\n cmd = \"{} server {}/{}\".format(state, self.backendname, self.name)\n else:\n cmd = \"set server {}/{} state {}\".format(\n self.backendname, self.name, state\n )\n\n results = cmd_across_all_procs(self._server_per_proc, 'command', cmd)\n\n return check_command(results)",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_vlan__vlans_vlan_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def setstate(self, state):\n\t\timport numpy as np\n\t\t# check given state\n\t\tstate=np.array(state)\n\t\tshape=state.shape\n\t\tif (shape[0]>self.shape[0]) & (shape[1]>self.shape[1]):\n\t\t\tprint (\"WARNING! state.shape = (%d, %d)\" %state.shape+\n\t\t\t\t\t \" != (%d, %d) = map.shape\" %self.shape)\n\t\t\treturn\n\t\t# cycle on cells\n\t\tfor (id, cell) in self.cells.iteritems():\n\t\t\tif (id[0]<shape[0]) & (id[1]<shape[1]):\n\t\t\t\tcell.state=state[id[0], id[1]]",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_interfaces_interface_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_mst_instances_mst_instance_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_queues_queue_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_spanning_tree__stp_mstp_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_platform__components_component_port_breakout_mode_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for ap_manager, mapped from YANG variable /access_points/access_point/assigned_ap_managers/ap_manager (list)
|
def _set_ap_manager(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("id",yc_ap_manager_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager, yang_name="ap-manager", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="ap-manager", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """ap_manager must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("id",yc_ap_manager_openconfig_access_points__access_points_access_point_assigned_ap_managers_ap_manager, yang_name="ap-manager", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name="ap-manager", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)""",
})
self.__ap_manager = t
if hasattr(self, '_set'):
self._set()
|
[
"def mock_multi_apm(mock_parameter_manager):\n multi_apm = Mock()\n multi_apm.apm_list = [mock_parameter_manager, mock_parameter_manager]\n n_params = mock_parameter_manager.n_active_params\n multi_apm.n_active_params = n_params * 2\n multi_apm.apm_data = {\n 0: {\"start_idx\": 0, \"end_idx\": n_params},\n 1: {\"start_idx\": n_params, \"end_idx\": n_params * 2},\n }\n return multi_apm",
"def GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def list_managers(self):\n return self.manager_manager.list_names()",
"def AuiManager_GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def set_calibration_manager(self, calibration_manager):\n\t\tself.calibration_manager = calibration_manager\n\n\t\tself.set_calibration_data()\n\t\tself.update_point_list()",
"def manager_address(self) -> MaybeValue:\n return AssetParam.manager(self._asset)",
"def account_manager_policy(self):\n if \"accountManagerPolicy\" in self._prop_dict:\n if isinstance(self._prop_dict[\"accountManagerPolicy\"], OneDriveObjectBase):\n return self._prop_dict[\"accountManagerPolicy\"]\n else :\n self._prop_dict[\"accountManagerPolicy\"] = SharedPCAccountManagerPolicy(self._prop_dict[\"accountManagerPolicy\"])\n return self._prop_dict[\"accountManagerPolicy\"]\n\n return None",
"def get_managers(self):\n\n f = StringIO.StringIO()\n\n run('mmlsmgr', stdout=f)\n\n for line in f.getvalue().splitlines():\n\n if any(regex.match(line) for regex in _LINE_REGEX):\n continue\n\n elif re.match('Cluster manager node: ', line):\n clusterman = line.split()[-1].strip('(').strip(')')\n self.state['managers']['cluster'] = clusterman\n\n # this should get the filesystem manager lines\n else:\n fs = line.split()[0]\n fsman = line.split()[-1].strip('(').strip(')')\n self.state['managers'][fs] = fsman\n\n return",
"def _register_manager(self, manager):\n\n self.manager = manager",
"def get_manager( self, manager_name ):\n\n try:\n return self.managers[ manager_name ]\n except:\n return None",
"def get_mapping_batch_manager(self):\n return # osid.mapping.batch.MappingBatchManager",
"def get_manager_id_locator(self):\n return self.managerId;",
"def get_manager(self):\n return self.__manager",
"def get_managers(self):\n return get_user_model().objects.filter(\n Q(id__in=self.member_queryset().filter(\n role='manager').values_list(\n \"user\",\n flat=True)))",
"def get_mapping_path_manager(self):\n return # osid.mapping.path.MappingPathManager",
"def manager_root(self, manager_root: ConfigNodePropertyString):\n\n self._manager_root = manager_root",
"def assign_to_items(self, items):\r\n params = {'f' : 'json',\r\n 'items' : json.dumps(items)}\r\n if self._url.lower().find(\"/portals/\") == -1:\r\n # If this SchemaManager is attached to a GroupManager\r\n url = \"{base}/updateCategories\".format(base=self._url)\r\n else:\r\n # else this SchemaManager is attached to a ContentManager\r\n url = \"{base}content/updateItems\".format(base=self._gis._portal.resturl)\r\n response = self._gis._con.post(url, params)\r\n output = {}\r\n if 'results' in response:\r\n for res in response['results']:\r\n if 'success' in res and 'itemId' in res:\r\n output[res['itemId']] = res['success']\r\n return output",
"def prepare_alm(alm=None, ainfo=None, lmax=None, pre=(), dtype=np.float64):\n\tif alm is None:\n\t\tif ainfo is None:\n\t\t\tif lmax is None:\n\t\t\t\traise ValueError(\"prepare_alm needs either alm, ainfo or lmax to be specified\")\n\t\t\tainfo = alm_info(lmax)\n\t\talm = np.zeros(pre+(ainfo.nelem,), dtype=np.result_type(dtype,0j))\n\tif ainfo is None:\n\t\tainfo = alm_info(nalm=alm.shape[-1])\n\treturn alm, ainfo",
"def _configure_aparams(self, aparams=None):\n\n log.debug(\"%r: _configure_aparams: aparams=%s\" % (self._platform_id, aparams))\n\n self._configure_aparams_arg = None\n\n if self._aam:\n # if we already have an alert manager, do the thing right away (but\n # this is not the case at time of writing).\n self._do_configure_aparams(aparams)\n else:\n # save the argument for subsequent processing in on_start:\n self._configure_aparams_arg = aparams",
"def promote_to_manager(self, host_ip):\n\t\tself.swarm_manager.promote_to_manager(host_ip)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for config, mapped from YANG variable /access_points/access_point/config (container)
|
def _set_config(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """config must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_config, is_container='container', yang_name="config", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__config = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_enable_bfd_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_interface_ref_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_static_routes_static_next_hops_next_hop_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_platform__components_component_port_breakout_mode_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/platform/port', defining_module='openconfig-platform-port', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_output_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_mstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos__qos_buffer_allocation_profiles_buffer_allocation_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_interfaces__qos_interfaces_interface_input_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_local_routing__local_routes_local_aggregates_aggregate_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/local-routing', defining_module='openconfig-local-routing', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_destination_groups_destination_group_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_telemetry__telemetry_system_subscriptions_persistent_subscriptions_persistent_subscription_sensor_profiles_sensor_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/telemetry', defining_module='openconfig-telemetry', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_global_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_spanning_tree__stp_rstp_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/spanning-tree', defining_module='openconfig-spanning-tree', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_qos_mem_mgmt__qos_queue_management_profiles_queue_management_profile_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/qos', defining_module='openconfig-qos', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_vlan__vlans_vlan_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/vlan', defining_module='openconfig-vlan', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_dot11v_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_dot11v_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for radios, mapped from YANG variable /access_points/access_point/radios (container)
|
def _get_radios(self):
return self.__radios
|
[
"def radii(self):\n return self._data.get(b'keyOriginRRectRadii')",
"def getRadii(self):\n\n return self._radii.copy()",
"def radii(self):\n return array([self.graph[u][v]['conductivity']\n for u, v in self.edgeset])",
"def radii(data):\n rs = np.empty(len(data))\n for i, (points_sequence, labels_sequence) in enumerate(data):\n rs[i] = radius(points_sequence, labels_sequence, data)\n return rs",
"def get_radii(self, particles):\n num_atoms = particles.get_num_atoms()\n radii = np.zeros((num_atoms+1,), dtype=np.float64)\n\n symbols = particles.get_atomic_symbol()\n atomic_variant = particles.get_atomic_variant()\n residue = particles.get_residue()\n\n table = self.get_ff_cm_dict()\n\n for i in range(num_atoms+1):\n ret_type = self.get_form_factor_atom_type(symbols[i], atomic_variant[i], residue[i])\n\n idx = table[ret_type]\n radii[i] = self.ff_radii[idx]\n\n return radii",
"def radius(self, default=None):\n radii = []\n for cr in self.coordinate_references(todict=True).values():\n r = cr.datum.get_parameter(\"earth_radius\", None)\n if r is not None:\n r = Data.asdata(r)\n if not r.Units:\n r.override_units(\"m\", inplace=True)\n\n if r.size != 1:\n radii.append(r)\n continue\n\n got = False\n for _ in radii:\n if r == _:\n got = True\n break\n\n if not got:\n radii.append(r)\n\n if len(radii) > 1:\n raise ValueError(\n \"Multiple radii found from coordinate reference \"\n f\"constructs: {radii!r}\"\n )\n\n if not radii:\n if default is None:\n raise ValueError(\n \"No radius found from coordinate reference constructs \"\n \"and no default provided\"\n )\n\n if isinstance(default, str):\n if default != \"earth\":\n raise ValueError(\n \"The default radius must be numeric, 'earth', \"\n \"or None\"\n )\n\n return _earth_radius.copy()\n\n r = Data.asdata(default).squeeze()\n else:\n r = Data.asdata(radii[0]).squeeze()\n\n if r.size != 1:\n raise ValueError(f\"Multiple radii: {r!r}\")\n\n r.Units = Units(\"m\")\n r.dtype = float\n return r",
"def getRadius(self):\n return _almathswig.RoundedRectangle_getRadius(self)",
"def set_bond_radii(atoms, bond_type='bond'):\n if atoms.info is None:\n atoms.info = {}\n if 'bond_radii' in atoms.info:\n r_a = atoms.info['bond_radii']\n else:\n r_a = np.ones(len(atoms))\n \n for atom in atoms:\n if bond_type == 'covalent':\n r_a[atom.index] = (pyTEMlib.crystal_tools.electronFF[atom.symbol]['bond_length'][0])\n else:\n r_a[atom.index] = (pyTEMlib.crystal_tools.electronFF[atom.symbol]['bond_length'][1])\n atoms.info['bond_radii'] = r_a\n return r_a",
"def calc_radii(self):\r\n\r\n # First, calculate the bending radius\r\n n_sides = len(self.edges)\r\n r_bend = 0\r\n counter = 0\r\n for j in self.edges:\r\n if j is not NotImplemented:\r\n sum = 0\r\n counter += 1\r\n for i in j.circles:\r\n sum = sum + i.radius\r\n\r\n r_bend = r_bend + sum / len(j.circles)\r\n\r\n r_bend = r_bend / counter\r\n\r\n # Then calculate the radius of the circumscribed circle through the theoretical edges.\r\n r_circum = 0\r\n counter = 0\r\n for i in self.edges:\r\n if i is not NotImplemented:\r\n counter += 1\r\n r_crnt_down = (i.theoretical_edge.xy_for_z(0)[0] ** 2 + i.theoretical_edge.xy_for_z(0)[1] ** 2)**0.5\r\n r_crnt_up = (i.theoretical_edge.xy_for_z(700)[0] ** 2 + i.theoretical_edge.xy_for_z(700)[1] ** 2)**0.5\r\n r_circum = r_circum + r_crnt_down + r_crnt_up\r\n\r\n r_circum = r_circum / (2 * counter)\r\n theta = np.pi/n_sides\r\n r_c_measured = (n_sides * (r_circum * np.sin(theta) - r_bend*np.tan(theta))/np.pi) + r_bend\r\n\r\n self.r_circle = r_c_measured\r\n self.r_bend = r_bend",
"def fromGeoToRadiants(self):\n points = list(zip(self.df.latitude, self.df.longitude))\n rads = np.radians(points)\n self.logger.debug(rads)\n return rads",
"def radius_at_node(self):\n try:\n return self._node_radii\n except AttributeError:\n self._node_radii = numpy.sqrt(numpy.square(self.node_x -\n self._origin_x) +\n numpy.square(self.node_y -\n self._origin_y))\n return self._node_radii",
"def get_rois(self):\n return [[r.x, r.y, r.w, r.h, r.t] for r in self.rh.ROIs]",
"def _get_rs(self):\n\n r1 = self.radius_1\n r2, r3, r4 = r1, r1, r1\n\n if self.radius_2:\n r2 = self.radius_2\n\n if self.radius_3:\n r3 = self.radius_3\n\n if self.radius_4:\n r4 = self.radius_4\n\n return np.array( (r1, r2, r3, r4) )[0:self._n]",
"def getRadius(self):\n return _almathswig.Pill_getRadius(self)",
"def _calcRadiation(self, surf_az, surf_tilt):\n # init required time series\n SOL_POS = pvlib.solarposition.get_solarposition(\n self.cfg[\"weather\"].index, self.cfg[\"latitude\"], self.cfg[\"longitude\"]\n )\n AM = pvlib.atmosphere.get_relative_airmass(SOL_POS[\"apparent_zenith\"])\n DNI_ET = pvlib.irradiance.get_extra_radiation(self.cfg[\"weather\"].index.dayofyear)\n\n for key in surf_az:\n # calculate total irradiance depending on surface tilt and azimuth\n total = pvlib.irradiance.get_total_irradiance(\n surf_tilt[key],\n surf_az[key],\n SOL_POS[\"apparent_zenith\"],\n SOL_POS[\"azimuth\"],\n dni=self.cfg[\"weather\"][\"DNI\"],\n ghi=self.cfg[\"weather\"][\"GHI\"],\n dhi=self.cfg[\"weather\"][\"DHI\"],\n dni_extra=DNI_ET,\n airmass=AM,\n model=\"perez\",\n surface_type=\"urban\",\n )\n # get plane of array (POA) irradiance and replace nan\n self._irrad_surf[key] = total[\"poa_global\"].fillna(0)\n\n # W to kW\n self._irrad_surf = self._irrad_surf / 1000\n return",
"def get_radius(box, element, dr, n=1, ratio=0.5):\n bubble_ratio = box.atom_stats(element, dr)\n deltas = [abs(x - ratio) for x in bubble_ratio]\n # Use nanmin to ignore NaNs in ratio vector.\n # Do not select radiuses smaller than 10 angstrom.\n min_index = deltas.index(np.nanmin(deltas))\n n = n / 2\n ret = []\n for i in range(-n, n + 1):\n index = min_index + i\n ret.append((dr * (index + 1), bubble_ratio[index]))\n return ret",
"def setAllRadii(self):\n for chain in self.protein.getChains():\n for residue in chain.get(\"residues\"):\n for atom in residue.get(\"atoms\"):\n atomname = atom.get(\"name\")\n if atomname.find('FLIP') != -1:\n continue\n if atomname == \"HD1\": ###PC\n charge = 0.44\n radiues = 1.05\n else:\n charge, radius = self.forcefield.getParams(residue, atomname)\n ###PC\n if radius != None:\n atom.set(\"radius\", radius)\n else:\n if residue.type != 2:\n text = \"Could not find radius for atom %s \" % atomname\n text += \"in residue %s %i\" % (residue.name, residue.resSeq)\n text += \" while attempting to set all radii!\"\n raise ValueError(text)",
"def get_recursos(self):\n return get_recursos_asociados(self)",
"def roof_rdiso(azimuth, inclination, visibility):\r\n\r\n rdiso = 0\r\n rdiso_flat = 0\r\n for phi in range(0, 360):\r\n for theta in range(0, 90):\r\n # use angle of the center of the sky element\r\n theta = theta + 0.5\r\n rdiso += (\r\n (pi / (90 * 360)) * sin(radians(theta)) * visibility * max(\r\n sin(radians(theta)) * sin(radians(inclination)) * cos(\r\n radians(phi - azimuth)) +\r\n cos(radians(theta)) * cos(radians(inclination)), 0))\r\n rdiso_flat += (pi / (90 * 360)) * sin(\r\n radians(theta)) * visibility * cos(radians(theta))\r\n return max(0.0, min(1.0, rdiso_flat)), max(0.0, min(1.0, rdiso))",
"def plot_radar_across_documents(self, docs: List[Dict], anchor_documents: List[Dict], vector_field: str, \n label_field: str, range: List=[0, 1], fill: str=None, scoring_metric ='cosine'):\n categories = self.get_field_across_documents(label_field, docs)\n fig = go.Figure()\n for anchor_document in anchor_documents:\n if scoring_metric == 'cosine':\n scores = self.get_cosine_similarity_scores(docs, anchor_document, vector_field=vector_field)\n else:\n scores = scoring_metric(docs, anchor_document, vector_field=vector_field)\n fig.add_trace(self._plot_radar(scores=scores, spokes=categories, name=vector_field, fill=fill))\n \n fig.update_layout(\n polar=dict(\n radialaxis=dict(\n visible=True,\n range=range\n )),\n showlegend=True\n )\n return fig"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for radios, mapped from YANG variable /access_points/access_point/radios (container)
|
def _set_radios(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_radios_openconfig_access_points__access_points_access_point_radios, is_container='container', yang_name="radios", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """radios must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_radios_openconfig_access_points__access_points_access_point_radios, is_container='container', yang_name="radios", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__radios = t
if hasattr(self, '_set'):
self._set()
|
[
"def radii(self):\n return self._data.get(b'keyOriginRRectRadii')",
"def getRadii(self):\n\n return self._radii.copy()",
"def radii(data):\n rs = np.empty(len(data))\n for i, (points_sequence, labels_sequence) in enumerate(data):\n rs[i] = radius(points_sequence, labels_sequence, data)\n return rs",
"def radii(self):\n return array([self.graph[u][v]['conductivity']\n for u, v in self.edgeset])",
"def set_bond_radii(atoms, bond_type='bond'):\n if atoms.info is None:\n atoms.info = {}\n if 'bond_radii' in atoms.info:\n r_a = atoms.info['bond_radii']\n else:\n r_a = np.ones(len(atoms))\n \n for atom in atoms:\n if bond_type == 'covalent':\n r_a[atom.index] = (pyTEMlib.crystal_tools.electronFF[atom.symbol]['bond_length'][0])\n else:\n r_a[atom.index] = (pyTEMlib.crystal_tools.electronFF[atom.symbol]['bond_length'][1])\n atoms.info['bond_radii'] = r_a\n return r_a",
"def setAllRadii(self):\n for chain in self.protein.getChains():\n for residue in chain.get(\"residues\"):\n for atom in residue.get(\"atoms\"):\n atomname = atom.get(\"name\")\n if atomname.find('FLIP') != -1:\n continue\n if atomname == \"HD1\": ###PC\n charge = 0.44\n radiues = 1.05\n else:\n charge, radius = self.forcefield.getParams(residue, atomname)\n ###PC\n if radius != None:\n atom.set(\"radius\", radius)\n else:\n if residue.type != 2:\n text = \"Could not find radius for atom %s \" % atomname\n text += \"in residue %s %i\" % (residue.name, residue.resSeq)\n text += \" while attempting to set all radii!\"\n raise ValueError(text)",
"def radius(self, default=None):\n radii = []\n for cr in self.coordinate_references(todict=True).values():\n r = cr.datum.get_parameter(\"earth_radius\", None)\n if r is not None:\n r = Data.asdata(r)\n if not r.Units:\n r.override_units(\"m\", inplace=True)\n\n if r.size != 1:\n radii.append(r)\n continue\n\n got = False\n for _ in radii:\n if r == _:\n got = True\n break\n\n if not got:\n radii.append(r)\n\n if len(radii) > 1:\n raise ValueError(\n \"Multiple radii found from coordinate reference \"\n f\"constructs: {radii!r}\"\n )\n\n if not radii:\n if default is None:\n raise ValueError(\n \"No radius found from coordinate reference constructs \"\n \"and no default provided\"\n )\n\n if isinstance(default, str):\n if default != \"earth\":\n raise ValueError(\n \"The default radius must be numeric, 'earth', \"\n \"or None\"\n )\n\n return _earth_radius.copy()\n\n r = Data.asdata(default).squeeze()\n else:\n r = Data.asdata(radii[0]).squeeze()\n\n if r.size != 1:\n raise ValueError(f\"Multiple radii: {r!r}\")\n\n r.Units = Units(\"m\")\n r.dtype = float\n return r",
"def setRadius(self, radiusinpixels: 'float const') -> \"void\":\n return _coin.SoRayPickAction_setRadius(self, radiusinpixels)",
"def get_radii(self, particles):\n num_atoms = particles.get_num_atoms()\n radii = np.zeros((num_atoms+1,), dtype=np.float64)\n\n symbols = particles.get_atomic_symbol()\n atomic_variant = particles.get_atomic_variant()\n residue = particles.get_residue()\n\n table = self.get_ff_cm_dict()\n\n for i in range(num_atoms+1):\n ret_type = self.get_form_factor_atom_type(symbols[i], atomic_variant[i], residue[i])\n\n idx = table[ret_type]\n radii[i] = self.ff_radii[idx]\n\n return radii",
"def fromGeoToRadiants(self):\n points = list(zip(self.df.latitude, self.df.longitude))\n rads = np.radians(points)\n self.logger.debug(rads)\n return rads",
"def plot_radar_across_vector_fields(self, docs: List[Dict], anchor_document: Dict, \n vector_fields: List[str], label_field: str, range=[0, 1], fill=None, scoring_metric='cosine'):\n categories = self.get_field_across_documents(label_field, docs)\n fig = go.Figure()\n for vector in vector_fields:\n if scoring_metric == 'cosine':\n scores = self.get_cosine_similarity_scores(docs, anchor_document, vector_field=vector)\n else:\n scores = scoring_metric(docs, anchor_document, vector_field=vector)\n \n fig.add_trace(self._plot_radar(scores=scores, spokes=categories, name=vector, fill=fill))\n\n fig.update_layout(\n polar=dict(\n radialaxis=dict(\n visible=True,\n range=range\n )),\n showlegend=True \n )\n return fig",
"def getRadius(self):\n return _almathswig.RoundedRectangle_getRadius(self)",
"def calc_radii(self):\r\n\r\n # First, calculate the bending radius\r\n n_sides = len(self.edges)\r\n r_bend = 0\r\n counter = 0\r\n for j in self.edges:\r\n if j is not NotImplemented:\r\n sum = 0\r\n counter += 1\r\n for i in j.circles:\r\n sum = sum + i.radius\r\n\r\n r_bend = r_bend + sum / len(j.circles)\r\n\r\n r_bend = r_bend / counter\r\n\r\n # Then calculate the radius of the circumscribed circle through the theoretical edges.\r\n r_circum = 0\r\n counter = 0\r\n for i in self.edges:\r\n if i is not NotImplemented:\r\n counter += 1\r\n r_crnt_down = (i.theoretical_edge.xy_for_z(0)[0] ** 2 + i.theoretical_edge.xy_for_z(0)[1] ** 2)**0.5\r\n r_crnt_up = (i.theoretical_edge.xy_for_z(700)[0] ** 2 + i.theoretical_edge.xy_for_z(700)[1] ** 2)**0.5\r\n r_circum = r_circum + r_crnt_down + r_crnt_up\r\n\r\n r_circum = r_circum / (2 * counter)\r\n theta = np.pi/n_sides\r\n r_c_measured = (n_sides * (r_circum * np.sin(theta) - r_bend*np.tan(theta))/np.pi) + r_bend\r\n\r\n self.r_circle = r_c_measured\r\n self.r_bend = r_bend",
"def plot_radar_across_documents(self, docs: List[Dict], anchor_documents: List[Dict], vector_field: str, \n label_field: str, range: List=[0, 1], fill: str=None, scoring_metric ='cosine'):\n categories = self.get_field_across_documents(label_field, docs)\n fig = go.Figure()\n for anchor_document in anchor_documents:\n if scoring_metric == 'cosine':\n scores = self.get_cosine_similarity_scores(docs, anchor_document, vector_field=vector_field)\n else:\n scores = scoring_metric(docs, anchor_document, vector_field=vector_field)\n fig.add_trace(self._plot_radar(scores=scores, spokes=categories, name=vector_field, fill=fill))\n \n fig.update_layout(\n polar=dict(\n radialaxis=dict(\n visible=True,\n range=range\n )),\n showlegend=True\n )\n return fig",
"def _calcRadiation(self, surf_az, surf_tilt):\n # init required time series\n SOL_POS = pvlib.solarposition.get_solarposition(\n self.cfg[\"weather\"].index, self.cfg[\"latitude\"], self.cfg[\"longitude\"]\n )\n AM = pvlib.atmosphere.get_relative_airmass(SOL_POS[\"apparent_zenith\"])\n DNI_ET = pvlib.irradiance.get_extra_radiation(self.cfg[\"weather\"].index.dayofyear)\n\n for key in surf_az:\n # calculate total irradiance depending on surface tilt and azimuth\n total = pvlib.irradiance.get_total_irradiance(\n surf_tilt[key],\n surf_az[key],\n SOL_POS[\"apparent_zenith\"],\n SOL_POS[\"azimuth\"],\n dni=self.cfg[\"weather\"][\"DNI\"],\n ghi=self.cfg[\"weather\"][\"GHI\"],\n dhi=self.cfg[\"weather\"][\"DHI\"],\n dni_extra=DNI_ET,\n airmass=AM,\n model=\"perez\",\n surface_type=\"urban\",\n )\n # get plane of array (POA) irradiance and replace nan\n self._irrad_surf[key] = total[\"poa_global\"].fillna(0)\n\n # W to kW\n self._irrad_surf = self._irrad_surf / 1000\n return",
"def radius_at_node(self):\n try:\n return self._node_radii\n except AttributeError:\n self._node_radii = numpy.sqrt(numpy.square(self.node_x -\n self._origin_x) +\n numpy.square(self.node_y -\n self._origin_y))\n return self._node_radii",
"def emit_rois(self, toggle=0):\n self.roi_values.emit([[r.x, r.y, r.w, r.h, r.t] for r in self.rh.ROIs])",
"def setRadius(self, r):\n if not isinstance(r, (int,float)):\n raise TypeError('Radius must be a number')\n if r <= 0:\n raise ValueError(\"The circle's radius must be positive.\")\n\n factor = float(r)/self.getRadius()\n self._transform = self._transform * _Transformation((factor,0.,0.,factor,0.,0.))\n \n self._objectChanged(True,False,False)",
"def set_rois(self, ROIlist):\n self.rh.create_rois(len(ROIlist))\n self.rh.resize_rois(ROIlist)\n self.display_rois()",
"def set_rois(self, ROIlist):\n self.stats['ROIs'] = ROIlist\n self.create_rois()"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for ssids, mapped from YANG variable /access_points/access_point/ssids (container)
|
def _set_ssids(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_ssids_openconfig_access_points__access_points_access_point_ssids, is_container='container', yang_name="ssids", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """ssids must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_ssids_openconfig_access_points__access_points_access_point_ssids, is_container='container', yang_name="ssids", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__ssids = t
if hasattr(self, '_set'):
self._set()
|
[
"def _set_ssids(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_ssids_openconfig_wifi_mac__ssids, is_container='container', yang_name=\"ssids\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"ssids must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_ssids_openconfig_wifi_mac__ssids, is_container='container', yang_name=\"ssids\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__ssids = t\n if hasattr(self, '_set'):\n self._set()",
"def _get_ssids(self):\n return self.__ssids",
"def _set_ssid(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGListType(\"name\",yc_ssid_openconfig_wifi_mac__ssids_ssid, yang_name=\"ssid\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name=\"ssid\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='list', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"ssid must be of a type compatible with list\"\"\",\n 'defined-type': \"list\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGListType(\"name\",yc_ssid_openconfig_wifi_mac__ssids_ssid, yang_name=\"ssid\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='name', extensions=None), is_container='list', yang_name=\"ssid\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='list', is_config=True)\"\"\",\n })\n\n self.__ssid = t\n if hasattr(self, '_set'):\n self._set()",
"def getNetworkWirelessSsidIdentityPsks(self, networkId: str, number: str):\n\n metadata = {\n 'tags': ['wireless', 'configure', 'ssids', 'identityPsks'],\n 'operation': 'getNetworkWirelessSsidIdentityPsks'\n }\n resource = f'/networks/{networkId}/wireless/ssids/{number}/identityPsks'\n\n return self._session.get(metadata, resource)",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_wifi_mac__ssids_ssid_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_wifi_mac__ssids_ssid_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_state(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"state must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_state_openconfig_wifi_mac__ssids_ssid_state, is_container='container', yang_name=\"state\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__state = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_ss(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=RestrictedClassType(base_type=int, restriction_dict={'range': ['0..255']}, int_size=8), is_leaf=True, yang_name=\"ss\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='uint8', is_config=False)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"ss must be of a type compatible with uint8\"\"\",\n 'defined-type': \"uint8\",\n 'generated-type': \"\"\"YANGDynClass(base=RestrictedClassType(base_type=int, restriction_dict={'range': ['0..255']}, int_size=8), is_leaf=True, yang_name=\"ss\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='uint8', is_config=False)\"\"\",\n })\n\n self.__ss = t\n if hasattr(self, '_set'):\n self._set()",
"def toggleSSIDMode(self, allow):\n return self.request('toggleSSIDMode', {'mode': mode})",
"def _set_clients(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_clients_openconfig_wifi_mac__ssids_ssid_clients, is_container='container', yang_name=\"clients\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"clients must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_clients_openconfig_wifi_mac__ssids_ssid_clients, is_container='container', yang_name=\"clients\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/mac', defining_module='openconfig-wifi-mac', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__clients = t\n if hasattr(self, '_set'):\n self._set()",
"def cluster_ids():\n\n # Initialise.\n ids = ['free spins']\n\n # Add the defined IDs.\n if hasattr(cdp, 'clustering'):\n for key in cdp.clustering:\n if key not in ids:\n ids.append(key)\n\n # Return the IDs.\n return ids",
"def sids(test_songs):\r\n return [s.sid for s in test_songs]",
"def set_cds_id_list(self):\n start_end_id_list = []\n end_orient_id_list = []\n for cds_ftr in self.cds_features:\n start_end_id_list.append(cds_ftr._start_end_id)\n end_orient_id_list.append(cds_ftr._end_orient_id)\n self._cds_start_end_ids = start_end_id_list\n self._cds_end_orient_ids = end_orient_id_list",
"def _set_nssa(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"nssa must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=nssa.nssa, is_container='container', presence=True, yang_name=\"nssa\", rest_name=\"nssa\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions={u'tailf-common': {u'cli-compact-syntax': None, u'info': u'Specify an nssa area', u'cli-incomplete-no': None}}, namespace='urn:brocade.com:mgmt:brocade-ospfv3', defining_module='brocade-ospfv3', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__nssa = t\n if hasattr(self, '_set'):\n self._set()",
"def add_ssa(hdf, dset):\n from specdb.ssa import default_fields\n Title = '{:s}: The Keck/ESI Survey for high-z DLAs'.format(dset)\n ssa_dict = default_fields(Title, flux='flambda')\n hdf[dset]['meta'].attrs['SSA'] = json.dumps(ltu.jsonify(ssa_dict))",
"def setSNPs(self, snps):\n return _core.ALMM_setSNPs(self, snps)",
"def create_ssid(self, ssid):\n self.get_logger().info(\"Create ssid '%s'\" % str(ssid))\n \n self._ssid = str(ssid)\n self._ssids.append(self._ssid)\n \n # Send commands to equipment\n self._send_cmd(\"dot11 ssid \" + self._ssid)\n self._send_cmd(\"guest-mode\")\n self._send_cmd(\"exit\")",
"def set_LSEID(self, value):\n super(GetSeasonGroupsInputSet, self)._set_input('LSEID', value)",
"def list_essids(self, storage):\n self.tell(\"Listing ESSIDs...\\n\")\n for essid in sorted(storage.essids):\n self.tell(\"ESSID '%s'\" % essid)\n self.tell(\"\")",
"def advapi32_SetSecurityDescriptorSacl(jitter):\n ret_ad, args = jitter.func_args_stdcall([\"pSecurityDescriptor\", \"bSaclPresent\", \"pSacl\", \"bSaclDefaulted\"])\n raise RuntimeError('API not implemented')\n jitter.func_ret_stdcall(ret_ad, ret_value)",
"def set_AccountSID(self, value):\n super(CreateApplicationInputSet, self)._set_input('AccountSID', value)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for system, mapped from YANG variable /access_points/access_point/system (container)
|
def _set_system(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_system_openconfig_access_points__access_points_access_point_system, is_container='container', yang_name="system", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """system must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_system_openconfig_access_points__access_points_access_point_system, is_container='container', yang_name="system", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__system = t
if hasattr(self, '_set'):
self._set()
|
[
"def set_system(self, system_id, attributes):\n response = self.systems_api.systems_put(\n id=system_id,\n accept='application/json',\n content_type='application/json',\n body=Systemput(**attributes)\n )\n return response.to_dict()",
"def coordinate_system(self, system):\n self.set_coordinate_system(system)",
"def modify_system(system_name, prop_name, prop_value, remote, token):\n\n handle = remote.get_system_handle(system_name, token)\n\n remote.modify_system(handle, prop_name, prop_value, token)\n\n return remote.save_system(handle, token)",
"def IsSystem(self):\n return self.type == Viewpoint.SYSTEM",
"def add_system(self, system):\n self.systems = np.append(self.systems, system)\n self.cum_states = np.append(self.cum_states,\n self.cum_states[-1] + system.dim_state)\n self.cum_inputs = np.append(self.cum_inputs,\n self.cum_inputs[-1] + system.dim_input)\n self.cum_outputs = np.append(self.cum_outputs,\n self.cum_outputs[-1] + system.dim_output)\n self.cum_outputs = np.append(self.cum_outputs,\n self.cum_outputs[-1] + system.dim_output)\n self.events = np.append(self.events,\n (hasattr(system, 'event_equation_function') and\n hasattr(system, 'update_equation_function')))\n self.cum_events = np.append(self.cum_events,\n self.cum_events[-1] + self.events[-1])\n self.dts = np.append(self.dts, system.dt)\n self.connections = np.pad(self.connections,\n ((0, system.dim_output),\n (0, system.dim_input)),\n 'constant', constant_values=0)",
"def add(self, system):\n self.collection[system.name()] = system.lifetimeperformance()",
"def set_coordinate_system(self, system):\n if self.ndim is not None and self.ndim != system.size:\n raise ValueError(\n f\"Number of coordinate system axes ({system.size}) \"\n f\"does not equal the grid dimensions ({self.ndim}).\")\n self._coordinate_system = system",
"def get_system(self, system_name):\n return self._system_dict[system_name]",
"def _update_system(self, system: System):\n with self.grad_context:\n # Collect all requested properties (including forces)\n for p in self.required_properties:\n if p not in self.results:\n raise MDCalculatorError(\n \"Requested property {:s} not in \" \"results\".format(p)\n )\n else:\n dim = self.results[p].shape\n # Bring to general structure of MD code. Second dimension can be n_mol or n_mol x n_atoms.\n system.properties[p] = (\n self.results[p].view(system.n_replicas, -1, *dim[1:])\n * self.property_conversion[p]\n )\n\n # Set the forces for the system (at this point, already detached)\n self._set_system_forces(system)\n\n # Store potential energy to system if requested:\n if self.energy_key is not None:\n self._set_system_energy(system)\n\n # Set stress of the system if requested:\n if self.stress_key is not None:\n self._set_system_stress(system)",
"def update_system_details(cursor, system_uid, data):\n if len(data) > 0:\n # Explicitly check all parameters to sanitize what\n # goes into the database\n params = []\n setters = []\n num_orgs = 0\n num_crops = 0\n query = \"update systems set \"\n if 'system_name' in data:\n setters.append('name=%s')\n params.append(data['system_name'])\n if 'start_date' in data:\n setters.append('start_date=%s')\n params.append(data['start_date'])\n if 'aqx_technique_id' in data:\n setters.append('aqx_technique_id=%s')\n params.append(data['aqx_technique_id'])\n\n query += \",\".join(setters)\n query += \" where system_uid=%s\"\n params.append(system_uid)\n cursor.execute(query, params)\n cursor.execute('select id from systems where system_uid=%s', system_uid)\n system_pk = cursor.fetchone()[0]\n\n if 'aquatic_org_id' in data and 'num_aquatic_org' in data:\n _update_system_aquatic_orgs(cursor, system_pk,\n dict(zip(data['aquatic_org_id'], data['num_aquatic_org'])))\n\n if 'crop_id' in data and 'num_crops' in data:\n _update_system_crops(cursor, system_pk, dict(zip(data['crop_id'], data['num_crops'])))",
"def system_graph(self):\n return self[\"system\"]",
"def addsystem(self, system):\n q = self.db['Systems'].find_one(system=system)\n if q is None:\n data = dict(system=system)\n id = self.db['Systems'].insert(data, ['system'])\n else:\n id = q['id']\n return id",
"def system(self):\n return get_unit_system(self.name)",
"def system_columns(self, system_columns):\n \n self._system_columns = system_columns",
"def system_settings(self, system_settings):\n\n self._system_settings = system_settings",
"def IsSystemLevel(self):\n return self.path_spec.IsSystemLevel()",
"def system(self):\n from mastic.system import System\n if not self.isin_system:\n return None\n else:\n # the atom may be alone in the system or in a molecule\n # if it is alone the system should select it directly\n # to get the selection in the registry that contains this\n # SelectionMember search through them all and take the\n # first one that is a System type\n if self.isin_molecule:\n system = next((sel for key, sel in self.molecule.registry\n if isinstance(sel, System)),\n None)\n assert system\n return system\n else:\n system = next((sel for key, sel in self.registry\n if isinstance(sel, System)),\n None)\n assert system\n return system",
"def _save_system_info(self, system_info):\n super(Firewall, self)._save_system_info(system_info)\n self.multi_vsys = system_info['system']['multi-vsys'] == 'on'",
"def system(self):\n from mastic.system import System\n if self.isin_system is False:\n return None\n else:\n # to get the selection in the registry that contains this\n # SelectionMember search through them all and take the\n # first one that is a System type\n system = next((sel for key, sel in self.registry\n if isinstance(sel, System)),\n None)\n assert system\n return system",
"def _set_system_forces(self, system: System):\n forces = self.results[self.force_key]\n system.forces = (\n forces.view(system.n_replicas, system.total_n_atoms, 3)\n * self.force_conversion\n )"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for assigned_ap_managers, mapped from YANG variable /access_points/access_point/assigned_ap_managers (container)
|
def _get_assigned_ap_managers(self):
return self.__assigned_ap_managers
|
[
"def list_managers(self):\n return self.manager_manager.list_names()",
"def get_managers(self):\n\n f = StringIO.StringIO()\n\n run('mmlsmgr', stdout=f)\n\n for line in f.getvalue().splitlines():\n\n if any(regex.match(line) for regex in _LINE_REGEX):\n continue\n\n elif re.match('Cluster manager node: ', line):\n clusterman = line.split()[-1].strip('(').strip(')')\n self.state['managers']['cluster'] = clusterman\n\n # this should get the filesystem manager lines\n else:\n fs = line.split()[0]\n fsman = line.split()[-1].strip('(').strip(')')\n self.state['managers'][fs] = fsman\n\n return",
"def get_managers(self):\n return get_user_model().objects.filter(\n Q(id__in=self.member_queryset().filter(\n role='manager').values_list(\n \"user\",\n flat=True)))",
"def AuiManager_GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def get_acls(self):\n return self.access_list_manager.get_objects()",
"def get_arena_service_records(self, players):\n return self._get_service_records(mode=\"arena\", players=players)",
"def GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def active_mandate_assignments(self):\n if not hasattr(self, '_active_mandate_assignments'):\n now = datetime.datetime.now()\n first_day, last_day = calendar.monthrange(now.year, now.month)\n start_date_month = datetime.datetime(now.year, now.month, 1, 0, 0, 0)\n end_date_month = datetime.datetime(now.year, now.month, last_day, 23, 59, 59)\n self._active_mandate_assignments = self.mandateassignment_set.filter(\n Q(mandate__start_date__lte=end_date_month, mandate__end_date__gte=start_date_month,\n mandate__ongoing=False) | Q(\n mandate__ongoing=True,\n mandate__completed=False))\n accs = []\n for ama in self._active_mandate_assignments:\n accs.append(ama.mandate.account)\n return self._active_mandate_assignments",
"def ccaip_managed_users(self) -> bool:\n return pulumi.get(self, \"ccaip_managed_users\")",
"def alertmanagers_config(self) -> Optional[pulumi.Input['ThanosRulerSpecAlertmanagersConfigArgs']]:\n return pulumi.get(self, \"alertmanagers_config\")",
"def get_manager_id_locator(self):\n return self.managerId;",
"def locate_private_alleles(*acs):\n\n # check inputs\n acs = [asarray_ndim(ac, 2) for ac in acs]\n check_dim0_aligned(*acs)\n acs = ensure_dim1_aligned(*acs)\n\n # stack allele counts for convenience\n pac = np.dstack(acs)\n\n # count the numbers of populations with each allele\n npa = np.sum(pac > 0, axis=2)\n\n # locate alleles found only in a single population\n loc_pa = npa == 1\n\n return loc_pa",
"def get_workspace_manager_assignment(resource_group_name: Optional[str] = None,\n workspace_manager_assignment_name: Optional[str] = None,\n workspace_name: Optional[str] = None,\n opts: Optional[pulumi.InvokeOptions] = None) -> AwaitableGetWorkspaceManagerAssignmentResult:\n __args__ = dict()\n __args__['resourceGroupName'] = resource_group_name\n __args__['workspaceManagerAssignmentName'] = workspace_manager_assignment_name\n __args__['workspaceName'] = workspace_name\n opts = pulumi.InvokeOptions.merge(_utilities.get_invoke_opts_defaults(), opts)\n __ret__ = pulumi.runtime.invoke('azure-native:securityinsights:getWorkspaceManagerAssignment', __args__, opts=opts, typ=GetWorkspaceManagerAssignmentResult).value\n\n return AwaitableGetWorkspaceManagerAssignmentResult(\n etag=pulumi.get(__ret__, 'etag'),\n id=pulumi.get(__ret__, 'id'),\n items=pulumi.get(__ret__, 'items'),\n last_job_end_time=pulumi.get(__ret__, 'last_job_end_time'),\n last_job_provisioning_state=pulumi.get(__ret__, 'last_job_provisioning_state'),\n name=pulumi.get(__ret__, 'name'),\n system_data=pulumi.get(__ret__, 'system_data'),\n target_resource_name=pulumi.get(__ret__, 'target_resource_name'),\n type=pulumi.get(__ret__, 'type'))",
"def mock_multi_apm(mock_parameter_manager):\n multi_apm = Mock()\n multi_apm.apm_list = [mock_parameter_manager, mock_parameter_manager]\n n_params = mock_parameter_manager.n_active_params\n multi_apm.n_active_params = n_params * 2\n multi_apm.apm_data = {\n 0: {\"start_idx\": 0, \"end_idx\": n_params},\n 1: {\"start_idx\": n_params, \"end_idx\": n_params * 2},\n }\n return multi_apm",
"def account_manager_policy(self):\n if \"accountManagerPolicy\" in self._prop_dict:\n if isinstance(self._prop_dict[\"accountManagerPolicy\"], OneDriveObjectBase):\n return self._prop_dict[\"accountManagerPolicy\"]\n else :\n self._prop_dict[\"accountManagerPolicy\"] = SharedPCAccountManagerPolicy(self._prop_dict[\"accountManagerPolicy\"])\n return self._prop_dict[\"accountManagerPolicy\"]\n\n return None",
"def getmanager(self, user):\n\n url_encoded = urllib.parse.quote_plus(f'{user}')\n request_string = f\"{self.base_url}/users/{url_encoded}/manager\"\n header = {\n \"Content-type\": \"application/json\",\n \"Authorization\": \"Bearer \" + self.access_token2\n }\n response = requests.get(request_string, headers=header)\n data = response.json()\n if \"error\" in data.keys():\n return \"Notfound\"\n else:\n return data['userPrincipalName']",
"def get_mapping_path_manager(self):\n return # osid.mapping.path.MappingPathManager",
"def get_managed_requester_orgs(cache=True):\n\n db = current.db\n\n auth = current.auth\n s3db = current.s3db\n\n organisation_ids = None\n\n user = auth.user\n ORG_ADMIN = auth.get_system_roles().ORG_ADMIN\n if user and ORG_ADMIN in user.realms:\n realms = user.realms.get(ORG_ADMIN)\n if realms:\n from .config import TESTSTATIONS\n otable = s3db.org_organisation\n mtable = s3db.org_group_membership\n gtable = s3db.org_group\n ltable = s3db.org_organisation_organisation_type\n rtable = s3db.req_requester_category\n\n join = [mtable.on((mtable.organisation_id == otable.id) & \\\n (mtable.deleted == False) & \\\n (gtable.id == mtable.group_id) & \\\n (gtable.name == TESTSTATIONS)),\n rtable.on((ltable.organisation_id == otable.id) & \\\n (ltable.deleted == False) & \\\n (rtable.organisation_type_id == ltable.organisation_type_id) & \\\n (rtable.item_category_id != None) & \\\n (rtable.deleted == False)),\n ]\n\n query = otable.pe_id.belongs(realms)\n rows = db(query).select(otable.id,\n cache = s3db.cache if cache else None,\n groupby = otable.id,\n join = join,\n )\n if rows:\n organisation_ids = list(set(row.id for row in rows))\n\n return organisation_ids",
"def manager_address(self) -> MaybeValue:\n return AssetParam.manager(self._asset)",
"def get_workspace_manager_assignment_output(resource_group_name: Optional[pulumi.Input[str]] = None,\n workspace_manager_assignment_name: Optional[pulumi.Input[str]] = None,\n workspace_name: Optional[pulumi.Input[str]] = None,\n opts: Optional[pulumi.InvokeOptions] = None) -> pulumi.Output[GetWorkspaceManagerAssignmentResult]:\n ..."
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for assigned_ap_managers, mapped from YANG variable /access_points/access_point/assigned_ap_managers (container)
|
def _set_assigned_ap_managers(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_assigned_ap_managers_openconfig_access_points__access_points_access_point_assigned_ap_managers, is_container='container', yang_name="assigned-ap-managers", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """assigned_ap_managers must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_assigned_ap_managers_openconfig_access_points__access_points_access_point_assigned_ap_managers, is_container='container', yang_name="assigned-ap-managers", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__assigned_ap_managers = t
if hasattr(self, '_set'):
self._set()
|
[
"def get_managers(self):\n\n f = StringIO.StringIO()\n\n run('mmlsmgr', stdout=f)\n\n for line in f.getvalue().splitlines():\n\n if any(regex.match(line) for regex in _LINE_REGEX):\n continue\n\n elif re.match('Cluster manager node: ', line):\n clusterman = line.split()[-1].strip('(').strip(')')\n self.state['managers']['cluster'] = clusterman\n\n # this should get the filesystem manager lines\n else:\n fs = line.split()[0]\n fsman = line.split()[-1].strip('(').strip(')')\n self.state['managers'][fs] = fsman\n\n return",
"def list_managers(self):\n return self.manager_manager.list_names()",
"def assign_to_items(self, items):\r\n params = {'f' : 'json',\r\n 'items' : json.dumps(items)}\r\n if self._url.lower().find(\"/portals/\") == -1:\r\n # If this SchemaManager is attached to a GroupManager\r\n url = \"{base}/updateCategories\".format(base=self._url)\r\n else:\r\n # else this SchemaManager is attached to a ContentManager\r\n url = \"{base}content/updateItems\".format(base=self._gis._portal.resturl)\r\n response = self._gis._con.post(url, params)\r\n output = {}\r\n if 'results' in response:\r\n for res in response['results']:\r\n if 'success' in res and 'itemId' in res:\r\n output[res['itemId']] = res['success']\r\n return output",
"def get_managers(self):\n return get_user_model().objects.filter(\n Q(id__in=self.member_queryset().filter(\n role='manager').values_list(\n \"user\",\n flat=True)))",
"def setAssigned(self, assigned):\n self.assigned = assigned",
"def active_mandate_assignments(self):\n if not hasattr(self, '_active_mandate_assignments'):\n now = datetime.datetime.now()\n first_day, last_day = calendar.monthrange(now.year, now.month)\n start_date_month = datetime.datetime(now.year, now.month, 1, 0, 0, 0)\n end_date_month = datetime.datetime(now.year, now.month, last_day, 23, 59, 59)\n self._active_mandate_assignments = self.mandateassignment_set.filter(\n Q(mandate__start_date__lte=end_date_month, mandate__end_date__gte=start_date_month,\n mandate__ongoing=False) | Q(\n mandate__ongoing=True,\n mandate__completed=False))\n accs = []\n for ama in self._active_mandate_assignments:\n accs.append(ama.mandate.account)\n return self._active_mandate_assignments",
"def mock_multi_apm(mock_parameter_manager):\n multi_apm = Mock()\n multi_apm.apm_list = [mock_parameter_manager, mock_parameter_manager]\n n_params = mock_parameter_manager.n_active_params\n multi_apm.n_active_params = n_params * 2\n multi_apm.apm_data = {\n 0: {\"start_idx\": 0, \"end_idx\": n_params},\n 1: {\"start_idx\": n_params, \"end_idx\": n_params * 2},\n }\n return multi_apm",
"def alertmanagers_config(self) -> Optional[pulumi.Input['ThanosRulerSpecAlertmanagersConfigArgs']]:\n return pulumi.get(self, \"alertmanagers_config\")",
"def set_calibration_manager(self, calibration_manager):\n\t\tself.calibration_manager = calibration_manager\n\n\t\tself.set_calibration_data()\n\t\tself.update_point_list()",
"def AuiManager_GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def GetManager(*args, **kwargs):\n return _aui.AuiManager_GetManager(*args, **kwargs)",
"def get_manager_id_locator(self):\n return self.managerId;",
"def manager_root(self, manager_root: ConfigNodePropertyString):\n\n self._manager_root = manager_root",
"def preferred_autoattach_mem_balloon(self, preferred_autoattach_mem_balloon):\n\n self._preferred_autoattach_mem_balloon = preferred_autoattach_mem_balloon",
"def set_compartment_axon_map(self, target_axons, atoms=None):\n self.compartment_map = target_axons\n self.compartment_atoms = atoms",
"def ccaip_managed_users(self) -> bool:\n return pulumi.get(self, \"ccaip_managed_users\")",
"def on_assign (self,consumer, partitions):\n old_assignment = self.assignment\n self.assignment = [AssignedPartition(p.topic, p.partition) for p in partitions]\n # Move over our last seen offsets so that we can report a proper\n # minOffset even after a rebalance loop.\n for a in old_assignment:\n b = self.find_assignment(a.topic, a.partition)\n b.min_offset = a.min_offset\n self.assignment_dict = {a.skey: a for a in self.assignment}",
"def update_assignable_nums(self):\n for i in range(self.__user_num):\n for j in range(len(self.edge_selections[i])):\n\n server_index = self.get_connectable_servers()[i][j]\n if self.edge_selections[i][j] == 1:\n self.assignable_nums[server_index] -= 1",
"def get_workspace_manager_assignment(resource_group_name: Optional[str] = None,\n workspace_manager_assignment_name: Optional[str] = None,\n workspace_name: Optional[str] = None,\n opts: Optional[pulumi.InvokeOptions] = None) -> AwaitableGetWorkspaceManagerAssignmentResult:\n __args__ = dict()\n __args__['resourceGroupName'] = resource_group_name\n __args__['workspaceManagerAssignmentName'] = workspace_manager_assignment_name\n __args__['workspaceName'] = workspace_name\n opts = pulumi.InvokeOptions.merge(_utilities.get_invoke_opts_defaults(), opts)\n __ret__ = pulumi.runtime.invoke('azure-native:securityinsights:getWorkspaceManagerAssignment', __args__, opts=opts, typ=GetWorkspaceManagerAssignmentResult).value\n\n return AwaitableGetWorkspaceManagerAssignmentResult(\n etag=pulumi.get(__ret__, 'etag'),\n id=pulumi.get(__ret__, 'id'),\n items=pulumi.get(__ret__, 'items'),\n last_job_end_time=pulumi.get(__ret__, 'last_job_end_time'),\n last_job_provisioning_state=pulumi.get(__ret__, 'last_job_provisioning_state'),\n name=pulumi.get(__ret__, 'name'),\n system_data=pulumi.get(__ret__, 'system_data'),\n target_resource_name=pulumi.get(__ret__, 'target_resource_name'),\n type=pulumi.get(__ret__, 'type'))",
"def get_arena_service_records(self, players):\n return self._get_service_records(mode=\"arena\", players=players)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for access_point, mapped from YANG variable /access_points/access_point (list)
|
def _set_access_point(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=YANGListType("hostname",yc_access_point_openconfig_access_points__access_points_access_point, yang_name="access-point", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='hostname', extensions=None), is_container='list', yang_name="access-point", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """access_point must be of a type compatible with list""",
'defined-type': "list",
'generated-type': """YANGDynClass(base=YANGListType("hostname",yc_access_point_openconfig_access_points__access_points_access_point, yang_name="access-point", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='hostname', extensions=None), is_container='list', yang_name="access-point", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='list', is_config=True)""",
})
self.__access_point = t
if hasattr(self, '_set'):
self._set()
|
[
"def access_point(self, access_point: List[AccessPointInfo]):\n\n self._access_point = access_point",
"def access_point(self) -> List[AccessPointInfo]:\n return self._access_point",
"def access_point_id(self, access_point_id: AccessPointId):\n\n self._access_point_id = access_point_id",
"def access(self, access):\n if self.local_vars_configuration.client_side_validation and access is None: # noqa: E501\n raise ValueError(\"Invalid value for `access`, must not be `None`\") # noqa: E501\n allowed_values = [\"PUBLIC_INDEXABLE\", \"PUBLIC_NOT_INDEXABLE\", \"HIDDEN_INDEXABLE\", \"HIDDEN_NOT_INDEXABLE\", \"HIDDEN_PRIVATE\", \"PRIVATE\"] # noqa: E501\n if self.local_vars_configuration.client_side_validation and access not in allowed_values: # noqa: E501\n raise ValueError(\"Invalid value for `access` ({0}), must be one of {1}\".format(access, allowed_values)) # noqa: E501\n\n self._access = access",
"def set_points(self, points):\n self.clear_points()\n self.add_points(points)\n return",
"def _set_connection_points(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGListType(\"id\",yc_connection_points_vnf_bd__scenario_nodes_connection_points, yang_name=\"connection_points\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='list', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"connection_points must be of a type compatible with list\"\"\",\n 'defined-type': \"list\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGListType(\"id\",yc_connection_points_vnf_bd__scenario_nodes_connection_points, yang_name=\"connection_points\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='list', is_config=True)\"\"\",\n })\n\n self.__connection_points = t\n if hasattr(self, '_set'):\n self._set()",
"def set_points(self, points):\n self.discard_points()\n self.append_points(points)",
"def setPoint(self, point, index=-1):\n if not isinstance(index,int):\n raise TypeError('index must be an integer')\n if not isinstance(point,Point):\n raise TypeError('first parameter must be a Point instance')\n try:\n self._points[index] = point\n except:\n raise IndexError('index out of range')\n self._objectChanged(True,False,False)",
"def set_point(agent, point_name, value):\n return agent.vip.rpc.call('test_IEEE2030_5agent', 'set_point', DEVICE_ID, point_name, value).get(timeout=10)",
"def point_hints(self, point_hints):\n\n self._point_hints = point_hints",
"def add_point_list(self, point_list, name=None, title=None):\r\n self.point_lists[name] = PointSelection(point_list, name=name, title=title)",
"def get_point_list(self, name):\r\n if name in self.point_lists:\r\n return self.point_lists[name]\r\n \r\n return None",
"def __init__(self, list_of_points):\n self.list_of_points = list(list_of_points)",
"def setPoints(self, pts):\n colors.printc(\"WARNING: setPoints(pts) is obsolete, use points(pts) instead.\", box='=', c=1)\n return self.points(pts)",
"def at_access(self, result, accessing_obj, access_type, **kwargs):\r\n pass",
"def add_access_list(self, loadbalancer, access_list):\r\n return loadbalancer.add_access_list(access_list)",
"def set(self, idx: 'int const', pp: 'SoPickedPoint') -> \"void\":\n return _coin.SoPickedPointList_set(self, idx, pp)",
"def change_point(self, point, index):\r\n pass",
"def set_point_list_fload(self,point_list):\n self._point_list.clear()\n for p in point_list:\n self._point_list.append(Qt.QPoint(p[0],p[1]))",
"def achievement_points(self, achievement_points: int):\n\n self._achievement_points = achievement_points"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Getter method for access_points, mapped from YANG variable /access_points (container)
|
def _get_access_points(self):
return self.__access_points
|
[
"def access_point(self) -> List[AccessPointInfo]:\n return self._access_point",
"def get_points(self, analyses):\n raise NotImplementedError(\"Getting points is not yet supported.\")",
"def _points_dictionary(self):\n return self._points",
"def access_point(self, access_point: List[AccessPointInfo]):\n\n self._access_point = access_point",
"def access(self, access):\n if self.local_vars_configuration.client_side_validation and access is None: # noqa: E501\n raise ValueError(\"Invalid value for `access`, must not be `None`\") # noqa: E501\n allowed_values = [\"PUBLIC_INDEXABLE\", \"PUBLIC_NOT_INDEXABLE\", \"HIDDEN_INDEXABLE\", \"HIDDEN_NOT_INDEXABLE\", \"HIDDEN_PRIVATE\", \"PRIVATE\"] # noqa: E501\n if self.local_vars_configuration.client_side_validation and access not in allowed_values: # noqa: E501\n raise ValueError(\"Invalid value for `access` ({0}), must be one of {1}\".format(access, allowed_values)) # noqa: E501\n\n self._access = access",
"def get_dense_points(self):\n return self.dense_points",
"def get_data_points(self):\n return self._points",
"def GetPoints(self, *args):\n return _itkPointSetPython.itkPointSetD2S_GetPoints(self, *args)",
"def getPoints(self) -> \"SoPointDetail *\":\n return _coin.SoFaceDetail_getPoints(self)",
"def get_points(self):\n\n\t\tPoints = collections.namedtuple(\"Points\",[\"Player1\",\"Player2\"])\n\n\t\treturn Points(*[len(player.cards_won) for player in self.players])",
"def geojson_points(self, as_features=False):\n if not self.geojson_features:\n return None\n points = []\n for area_feat in self.geojson_features:\n props = area_feat['properties']\n p = props['point']\n point = geojson.Point(p)\n if as_features:\n points.append(geojson.Feature(geometry=point,properties=props))\n else:\n points.append(point)\n return points",
"def all_points(self):\n point_list = []\n for inner_dict in self._points_dictionary().values():\n point_list.extend(inner_dict.values())\n return point_list",
"def points(self):\n return [self.point1, self.point2]",
"def getAccessions(self, taxon_id):\n return self.datasets[\"taxon_id\"][taxon_id][\"accession\"].keys()",
"def AddPoints(self, points, allowdups = False):\n\n vmap = [0] * len(points.pos)\n for i in range(len(points.pos)):\n vmap[i] = self.AddPoint(points.pos[i], allowdups)\n return vmap",
"def achievement_points(self, achievement_points: int):\n\n self._achievement_points = achievement_points",
"def get_access_list(self, loadbalancer):\r\n return loadbalancer.get_access_list()",
"def list_access (pawn) :\n nonlocal board\n dirs = [[1, -1], [2, 0], [1, 1], [-1, 1], [-2, 0], [-1, -1]]\n list = []\n for i in range(6) :\n for h in range(1, pawn.accessibles[i]+1) :\n list.append([pawn.x+h*dirs[i][0],pawn.y+h*dirs[i][1]])\n return list",
"def get_points(self) -> List[Point]:\n return [self.first, self.second, self.third]",
"def points(self):\n points = []\n if self.locations.count():\n points = [(loc.lat, loc.lng) for loc in self.locations.all()]\n elif self.places.count():\n # We need to track the geolevel of the first place we've found\n # with a boundary so we can try to add points for all other\n # places at that geolevel\n point_geolevel = None\n # Loop through related places looking at smaller geographies \n # first\n for place in self.places.all().order_by('-geolevel__level'):\n if place.boundary:\n # Place has a geometry associated with it\n centroid = place.boundary.centroid\n if not point_geolevel:\n points.append((centroid.y, centroid.x))\n point_geolevel = place.geolevel\n else:\n if place.geolevel == point_geolevel:\n points.append((centroid.y, centroid.x))\n else:\n # We've exhausted all the points at the \n # lowest geolevel. Quit.\n break\n\n # TODO: Decide if we should check non-explicit places\n\n return points"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Setter method for access_points, mapped from YANG variable /access_points (container)
|
def _set_access_points(self, v, load=False):
if hasattr(v, "_utype"):
v = v._utype(v)
try:
t = YANGDynClass(v,base=yc_access_points_openconfig_access_points__access_points, is_container='container', yang_name="access-points", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)
except (TypeError, ValueError):
raise ValueError({
'error-string': """access_points must be of a type compatible with container""",
'defined-type': "container",
'generated-type': """YANGDynClass(base=yc_access_points_openconfig_access_points__access_points, is_container='container', yang_name="access-points", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)""",
})
self.__access_points = t
if hasattr(self, '_set'):
self._set()
|
[
"def access_point(self, access_point: List[AccessPointInfo]):\n\n self._access_point = access_point",
"def access_point(self) -> List[AccessPointInfo]:\n return self._access_point",
"def set_points(self, points):\n self.clear_points()\n self.add_points(points)\n return",
"def achievement_points(self, achievement_points: int):\n\n self._achievement_points = achievement_points",
"def access(self, access):\n if self.local_vars_configuration.client_side_validation and access is None: # noqa: E501\n raise ValueError(\"Invalid value for `access`, must not be `None`\") # noqa: E501\n allowed_values = [\"PUBLIC_INDEXABLE\", \"PUBLIC_NOT_INDEXABLE\", \"HIDDEN_INDEXABLE\", \"HIDDEN_NOT_INDEXABLE\", \"HIDDEN_PRIVATE\", \"PRIVATE\"] # noqa: E501\n if self.local_vars_configuration.client_side_validation and access not in allowed_values: # noqa: E501\n raise ValueError(\"Invalid value for `access` ({0}), must be one of {1}\".format(access, allowed_values)) # noqa: E501\n\n self._access = access",
"def access_point_id(self, access_point_id: AccessPointId):\n\n self._access_point_id = access_point_id",
"def set_points(self, points):\n self.discard_points()\n self.append_points(points)",
"def setPoints(self, pts):\n colors.printc(\"WARNING: setPoints(pts) is obsolete, use points(pts) instead.\", box='=', c=1)\n return self.points(pts)",
"def _set_connection_points(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,unique=True, base=TypedListType(allowed_type=six.text_type), is_leaf=False, yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='leafref', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"connection_points must be of a type compatible with leafref\"\"\",\n 'defined-type': \"leafref\",\n 'generated-type': \"\"\"YANGDynClass(unique=True, base=TypedListType(allowed_type=six.text_type), is_leaf=False, yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='leafref', is_config=True)\"\"\",\n })\n\n self.__connection_points = t\n if hasattr(self, '_set'):\n self._set()",
"def _set_connection_points(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=YANGListType(\"id\",yc_connection_points_vnf_bd__scenario_nodes_connection_points, yang_name=\"connection_points\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='list', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"connection_points must be of a type compatible with list\"\"\",\n 'defined-type': \"list\",\n 'generated-type': \"\"\"YANGDynClass(base=YANGListType(\"id\",yc_connection_points_vnf_bd__scenario_nodes_connection_points, yang_name=\"connection_points\", parent=self, is_container='list', user_ordered=False, path_helper=self._path_helper, yang_keys='id', extensions=None), is_container='list', yang_name=\"connection_points\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='urn:ietf:params:xml:ns:yang:vnf-bd', defining_module='vnf-bd', yang_type='list', is_config=True)\"\"\",\n })\n\n self.__connection_points = t\n if hasattr(self, '_set'):\n self._set()",
"def get_points(self, analyses):\n raise NotImplementedError(\"Getting points is not yet supported.\")",
"def _points_dictionary(self):\n return self._points",
"def setPointsLayer(self, pointsLayer):\n self.__memoryPointsLayer = pointsLayer\n id = None\n if pointsLayer is not None:\n id = pointsLayer.id()\n self.__memoryPointsLayer.layerDeleted.connect(self.__memoryPointsLayerDeleted)\n QgsProject.instance().writeEntry(\"VDLTools\", \"memory_points_layer\", id)",
"def AddPoints(self, points, allowdups = False):\n\n vmap = [0] * len(points.pos)\n for i in range(len(points.pos)):\n vmap[i] = self.AddPoint(points.pos[i], allowdups)\n return vmap",
"def accessories(self, accessories):\n\n self._accessories = accessories",
"def _set_config(self, v, load=False):\n if hasattr(v, \"_utype\"):\n v = v._utype(v)\n try:\n t = YANGDynClass(v,base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\n except (TypeError, ValueError):\n raise ValueError({\n 'error-string': \"\"\"config must be of a type compatible with container\"\"\",\n 'defined-type': \"container\",\n 'generated-type': \"\"\"YANGDynClass(base=yc_config_openconfig_access_points__access_points_access_point_system_grpc_server_config, is_container='container', yang_name=\"config\", parent=self, path_helper=self._path_helper, extmethods=self._extmethods, register_paths=True, extensions=None, namespace='http://openconfig.net/yang/wifi/access-points', defining_module='openconfig-access-points', yang_type='container', is_config=True)\"\"\",\n })\n\n self.__config = t\n if hasattr(self, '_set'):\n self._set()",
"def svn_fs_set_access(fs: \"svn_fs_t\", access_ctx: \"svn_fs_access_t\") -> \"svn_error_t *\":\n return _fs.svn_fs_set_access(fs, access_ctx)",
"def reset_points(self):\n self._container['points'] = {}",
"def set_keypoints(self, indexes, keypoints):\n raise NotImplementedError()",
"def at_access(self, result, accessing_obj, access_type, **kwargs):\r\n pass"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Return count and color based on credit float amount
|
def set_led_ring(amount: float):
# Green colors for 1, 2, 3, and greater
color_scale = ["#006600", "#009900", "#00E600", "#00FF00"]
# Cast to float, most likely Decimal coming in
amount = float(amount)
if amount == 0.0:
# No credits all lit up red
count = 8
color = "#FF0000"
elif amount < 1.00:
# 0.01 - 0.99 - 2 per .25, white
count = int(amount / 0.25) * 2
color = "#F0F0F0"
else:
# At least 1.00 or more, set count to 1-8 per 1.00
count = int(amount / 1.00) if amount < 8.00 else 8
if count < 4:
color = color_scale[count - 1]
else:
color = color_scale[3]
return count, color
|
[
"def __get_amount_color(self, node_indexes, color_number):\n\n color_counter = 0;\n for index in node_indexes:\n if (self.__coloring[index] == color_number):\n color_counter += 1;\n\n return color_counter;",
"def value_black_and_red(self):\n value = int(0)\n if self.is_red():\n if CardGame.Rank.Ace == self.rank:\n value = 14\n else:\n value = int(self.rank)\n else:\n if CardGame.Rank.Ace == self.rank:\n value = 14\n else:\n value = int(self.rank)\n if value <= 10:\n value = 11 - value\n return value",
"def get_color(self, count):\n EPSILON = sys.float_info.epsilon # smallest possible difference\n minval, maxval = self.min, self.max\n if count > self.max:\n count = self.max\n steps = 26\n delta = float(maxval - minval) / steps\n colors = [(0, 0, 255), (0, 255, 0), (255, 0, 0)] # [BLUE, GREEN, RED]\n fi = float(count - minval) / float(maxval - minval) * (len(colors) - 1)\n i = int(fi)\n f = fi - i\n if f < EPSILON:\n return colors[i]\n else:\n (r1, g1, b1), (r2, g2, b2) = colors[i], colors[i + 1]\n return int(r1 + f * (r2 - r1)), int(g1 + f * (g2 - g1)), int(b1 + f * (b2 - b1))",
"def background_cr(self):\n return sum([self._count_rates[x] for x in ['zodi_cr', 'exoz_cr', \n 'speckle_cr', 'dark_cr',\n 'read_cr', 'thermal_cr']])",
"def percentage(self, amount=1):\n rgb, alpha = self.linear_rgb[:3], self.alpha\n rgb_modified = [(1 - amount) + amount * v for v in rgb] + [alpha]\n return Color(color_value=rgb_modified, color_type=\"linear-rgb\")",
"def getColor(R, G, B):\n minimum = 1000\n csv = read_color()\n for i in range(len(csv)):\n # these below formula d is absolute sum of the differencr of (rgb value clicked on and the rgb value in csv file)\n d = abs(R - int(csv.loc[i, \"R\"]))\n d = d + abs(G - int(csv.loc[i, \"G\"]))\n d = d + abs(B - int(csv.loc[i, \"B\"]))\n if d <= minimum:\n minimum = d\n cname = csv.loc[i, \"color_name\"]\n return cname",
"def _calculate_color(thisCountry, maxCountry, maxColor, minColor):\n countryFactor = float(thisCountry) / maxCountry\n colorRange = maxColor - minColor\n\n return int(colorRange * countryFactor + minColor)",
"def total_cups(total: int, amount_per_cup: int) -> int:\n \n #Your code here",
"def color(self, color):\n if color == 0:\n return 0\n tmp = color\n tmp += self.game.level\n tmp = tmp % 7\n if tmp == 0:\n tmp += 1\n return tmp",
"def definirColor(cantUbicaciones):\r\n try:\r\n ubicacion = random.choice(range(0, cantUbicaciones))\r\n archivoTemperaturas = open('temperatura_' + str(ubicacion) + '.json', 'r')\r\n lista_temperaturas = json.load(archivoTemperaturas)\r\n \r\n cantTotal = 0\r\n cantTemperatura = 0\r\n for dic in lista_temperaturas:\r\n cantTemperatura = cantTemperatura + dic['temperatura']\r\n cantTotal = cantTotal + 1\r\n \r\n if ((cantTemperatura / cantTotal) < 15):\r\n return 'blue'\r\n else:\r\n return 'red'\r\n except:\r\n return 'blue'",
"def color(self):\n alpha = \"abcdefghijklmnopqrstuvwxyz\" # alpha[1] = \"b\"\n alphaPos = dict([ (x[1],x[0]) for x in enumerate(alpha) ]) # alphaPos[\"b\"] = 1\n colorValue = 0\n for letter in self.formatedText:\n if letter.isdigit():\n colorValue += int(letter)\n else:\n colorValue += alphaPos[letter.lower()]\n return [(colorValue * len(self.formatedText)) % 256, (colorValue * 2) % 256, (colorValue * 3 % 256)]",
"def check_credit(df):\n\n cdf = df.copy()\n answers = df.drop('name', axis=1)\n credit = answers.count(axis=1).apply(lambda x: 5 if (x > (0.75 * answers.shape[1])) else 0)\n cdf['credit'] = credit\n\n ninety = False\n\n for col in answers:\n if (answers[col].count() / answers.shape[0]) > 0.9:\n ninety = True\n\n if ninety == True:\n cdf['credit'] = cdf['credit'] + 1\n\n return cdf[['name', 'credit']]",
"def treat(self, colour, amount):\n if colour == \"blue\":\n if self.blue==0:\n return False\n else:\n self.blue -= (amount if self.blue-amount > 0 else self.blue)\n return True\n elif colour == \"yellow\":\n if self.yellow==0:\n return False\n self.yellow -= (amount if self.yellow - amount > 0 else self.yellow)\n return True\n elif colour == \"red\":\n if self.red==0:\n return False\n self.red -= (amount if self.red - amount > 0 else self.red)\n return True\n elif colour == \"black\":\n if self.black==0:\n return False\n self.black -= (amount if self.black - amount > 0 else self.black)\n return True",
"def colorizer(x, y):\n r = min(1, 1 - y/3)\n g = min(1, 1 + y/3)\n b = 1/4 + x/16\n return r, g, b",
"def credit(self) -> float:\n return self._get_account_info_double(AccountInfoDouble.ACCOUNT_CREDIT)",
"def generatecomplementary(colorobj, amount=1):\n startHSV=colorobj.getHSV()\n angle=360/(amount+1)\n huelist=[startHSV[0]]\n rgblist=[]\n for colorint in range(amount):\n testangle=huelist[colorint]+angle\n if testangle > 360:\n testangle-=360\n huelist.append(testangle)\n\n for hue in huelist:\n testlist=[hue,startHSV[1],startHSV[2]]\n testcolor = color.Color(testlist)\n rgblist.append(color.Color(testlist)) \n return rgblist",
"def findColor(score):\n if score >= 0 and score < 5:\n color = '#F5F9FC'\n elif score >= 5 and score < 10:\n color = '#EBF4FA'\n elif score >= 10 and score < 15:\n color = '#E1EFF7'\n elif score >= 15 and score < 20:\n color = '#D7EAF5'\n elif score >= 20 and score < 25:\n color = '#CDE4F3'\n elif score >= 25 and score < 30:\n color = '#C3DFF0'\n elif score >= 30 and score < 35:\n color = '#BADAEE'\n elif score >= 35 and score < 40:\n color = '#B0D5EB'\n elif score >= 40 and score < 45:\n color = '#A6CFE9'\n elif score >= 45 and score < 50:\n color = '#9CCAE7'\n elif score >= 50 and score < 55:\n color = '#92C5E4'\n elif score >= 55 and score < 60:\n color = '#88C0E2'\n elif score >= 60 and score < 65:\n color = '#7EBADF'\n elif score >= 65 and score < 70:\n color = '#75B5DD'\n elif score >= 70 and score < 75:\n color = '#6BB0DB'\n elif score >= 75 and score < 80:\n color = '#61ABD8'\n elif score >= 80 and score < 85:\n color = '#57A5D6'\n elif score >= 85 and score < 90:\n color = '#439BD1'\n elif score >= 95 and score <= 100:\n color = '#3A96CF'\n else:\n color = '#ffffff'\n\n return color",
"def get_value_coins(area):\n if area > 3550 and area < 3750:\n print(area)\n return '2E', 2\n if area > 2950 and area < 3150:\n return '1E', 1\n if area > 2350 and area < 2550:\n return '5cnt', 0.05\n if area > 3200 and area < 3400:\n return '50cnt', 0.5\n if area > 2600 and area < 2800:\n return '20cnt', 0.2\n if area > 1400 and area < 1600:\n return '1cnt', 0.01\n if area > 2050 and area < 2250:\n return '10cnt', 0.1\n if area > 1800 and area < 2000:\n return '2cnt', 0.02\n return '0',0",
"def add_colors(my_color_list):\n added_color = {\"R\": 0.0, \"G\": 0.0, \"B\": 0.0}\n\n for idx, my_color in enumerate(my_color_list):\n\n added_color[\"R\"] += my_color[\"R\"]\n added_color[\"G\"] += my_color[\"G\"]\n added_color[\"B\"] += my_color[\"B\"]\n\n is_white = sum([added_color[pixel] for pixel in [\"R\", \"G\", \"B\"]]) >= 2.9\n\n if is_white:\n added_color[[\"R\", \"G\", \"B\"][idx % 3]] = 0.0\n\n return added_color",
"def getColorIndex(arg1: 'SoState', num: 'int') -> \"int32_t\":\n return _coin.SoLazyElement_getColorIndex(arg1, num)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Credit target dispenser with $0.25
|
def credit_dispenser(dispenser, crediting_dispenser):
dispenser = str(dispenser)
dispenser_table = ddb.Table(os.environ["DISPENSER_TABLE"])
# Query dispenser
response = dispenser_table.query(
KeyConditionExpression=Key("dispenserId").eq(dispenser)
)
# If count is zero, this is a non-existent dispenser
if response["Count"] == 0:
return http_response(
httpHeaders,
200,
f"ERROR: Credit not issued, dispenser {dispenser} does not exist",
)
else:
user_db_record = response["Items"][0]
# We have a valid dispenser, add $0.25 to it and put updated record
user_db_record["credits"] = user_db_record["credits"] + Decimal(0.25)
dispenser_table.put_item(Item=user_db_record)
# Update led_ring desired state
# For less than $1.00, count 1 to 3, greater than $1.00, count = 5
count, color = set_led_ring(user_db_record["credits"])
desired_state = {
"state": {"desired": {"led_ring": {"count": count, "color": color}}}
}
iot_client.update_thing_shadow(
thingName=dispenser, payload=json.dumps(desired_state)
)
# Publish IoT event to receiving dispenser
publish_event(
topic=f"events/{dispenser}",
payload=f"Received $0.25 credit from dispenser: {crediting_dispenser}",
)
return http_response(httpHeaders, 200, f"Dispenser: {dispenser} credited $0.25")
|
[
"def update(self, target):\n change = (self.coeff * (target - self.price) +\n self.momentum * self.last_change)\n self.last_change = change\n \n limiter = self.buyer and min or max\n self.price = int(limiter(self.price + change, self.limit))",
"def charge(token, amount, description, email):",
"def _showPrice():\r\n amount = int(self.game.getTile(self.game.getTileId(propName))['houseCost'])\r\n Label(buildFrame, text=f\"Would cost: {amount}\").grid(row=1, column=0, columnspan=2)\r\n Button(buildFrame, text=\"Accept\", command=lambda: self._executeBuild(\r\n propName)).grid(row=2, column=0, columnspan=2)",
"def discount_available():",
"def send_money(self):\n pass",
"def exchange(src, dst, amt):\r\n assert iscurrency(src)\r\n assert iscurrency(dst)\r\n assert isinstance(float(amt), float) or isinstance(int(amt), int)\r\n assert not isinstance(amt, bool)\r\n\r\n # query the server\r\n x = introcs.urlread(\r\n 'https://ecpyfac.ecornell.com/python/currency/fixed?src=' +\r\n src + '&dst=' + dst + '&amt=' + str(amt) + '&key=' + APIKEY)\r\n\r\n y = get_dst(x)\r\n z = before_space(y)\r\n\r\n return float(z)",
"def main():\n\n price = int(input())\n\n # Calculate service charge using min max because service will charge minimum of 50\n # and maximum of 1000\n serivce = min(max(price * 0.1, 50), 1000)\n\n # Add service into price before calculate tax\n price += serivce\n\n # Include 7% VAT\n price *= 1.07\n\n # Print summary only 2 decimals\n print(\"%.2f\" %price)",
"def _showPrice(propName):\r\n amount = int(self.game.getTile(self.game.getTileId(propName))['houseCost']/2)\r\n Label(sellFrame, text=f\"Would receive: {amount}\").grid(row=1, column=0, columnspan=2)\r\n Button(sellFrame, text=\"Accept\", command=lambda: self._executeSell(\r\n propName)).grid(row=2, column=0, columnspan=2)",
"def take(self):\n print(f\"I gave you ${self.money}\\n\")\n self.money = 0",
"def discount_end():",
"def _showPrice(propName):\r\n amount = int(self.game.getTile(self.game.getTileId(propName))['price']/2)\r\n Label(mortgageFrame,\r\n text=f\"Would receive ${amount}\").grid(row=1, column=0, columnspan=2)\r\n\r\n Button(mortgageFrame, text=\"Accept\", command=lambda: self._executeMortgage(\r\n propName)).grid(row=2, column=0, columnspan=2)",
"def service_response(src, dst, amt):\r\n assert introcs.isalpha(src)\r\n assert introcs.isalpha(dst)\r\n assert isinstance(amt, float) or isinstance(amt, int)\r\n assert not isinstance(amt, bool)\r\n\r\n x = 'https://ecpyfac.ecornell.com/python/currency/fixed?src=' + \\\r\n src + '&dst=' + dst + '&amt=' + str(amt) + '&key=' + APIKEY\r\n\r\n return introcs.urlread(x)",
"def credit(self, amount):\n if self._is_asset_or_expenses:\n self.balance -= amount\n else:\n self.balance += amount",
"def donate(self):",
"def test_filter_search_for_amount(self):\n credit = random.choice(self.credits)\n search_phrase = '£%0.2f' % (credit.amount / 100)\n self._test_response_with_filters({\n 'search': search_phrase,\n })",
"def test_09_credit_limit(self):\n\tprint \"...starting test 2.09\"\n\tprint \"putting load off\"\n\tself.testHandler.handle_maxwell_request(\"voltage:0\")\n\tself.testHandler.handle_maxwell_request(\"phase_load:10\")\n\ttime.sleep(5)\n\tself.testHandler.handle_network_request(\"forbid_negative_credits\")\n\tprint \"restriction of negative credits\"\n\tprint\"clearing account\"\n\tself.testHandler.handle_network_request(\"clear_account\", validity_level=\"medium\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"accurate credits = \",a\n \tassert_equal(a,0.0)\n\tprint \"recharging with 10\"\n\tself.testHandler.handle_network_request(\"recharge:10\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"accurate credits = \",a\n\tself.testHandler.handle_network_request(\"slab_disable\")\n\tprint \"slab disabled\"\n\tself.testHandler.handle_network_request(\"fd_disable\")\n\tprint \" fd disabled\"\n\tself.testHandler.handle_network_request(\"set_credit_limit:-2147483648 \",validity_level=\"medium\")\n\tcredit_limit=int((self.testHandler.handle_network_request(\"get_credit_limit\")).split(\" \")[0])\n\tprint \"credit limit = \",credit_limit\t\n\tprint\"checking for huge positive recharge\"\n\tprint \"recharging with 2147483660\"\n\tself.testHandler.handle_network_request(\"recharge:2147483660\",validity_level=\"medium\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"recharge should not be accepted the ceredits should remain same \"\n\tprint \"accurate credits = \",a\n\tassert_equal(a,10.0)\n\tprint \"passed for huge positive value test\" \n\n\tprint \"checking for huge negative values\"\n\tprint\"clearing account\"\n\tself.testHandler.handle_network_request(\"clear_account\", validity_level=\"medium\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"accurate credits = \",a\n \tassert_equal(a,0.0)\n\tprint \"recharging with 10\"\n\tself.testHandler.handle_network_request(\"recharge:10\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"accurate credits = \",a\n\tprint \"recharging with -2147483660\"\n\tself.testHandler.handle_network_request(\"recharge:-2147483660\",validity_level=\"medium\")\n\tacc_crdts=self.testHandler.handle_network_request(\"get_accurate_credits\", validity_level=\"high\")\n\tacc_crdts= (acc_crdts.split(\"\\n\"))[3].split(\" \")[2]\n\ta=float(acc_crdts)\n\tprint \"recharge should not be accepted the ceredits should remain same ie.. 10\"\n\tprint \"accurate credits = \",a\n\tif(a>10.0):\n\t\tprint \"the value has got a jump towards positve end so test is about to fail\"\n\telif(a==10.0):\n\t\tprint \"the test should pass\"\n\telse:\n\t\tprint\"the price has decreased from 10 check the load\"\n\tassert_equal(a,10.0)",
"def _map_non_formatted_money_to_version_with_currency(cost, resource, token):\n return '$%.3f' % cost",
"async def donate(self, ctx, amount: CoinConverter):\n await self.transfer(ctx.author.id, ctx.guild.id, amount)\n await ctx.send(f'\\N{MONEY WITH WINGS} `{ctx.author!s}` > '\n f'`{amount}JC` > `{ctx.guild!s}` \\N{MONEY BAG}')",
"def calc_shield_recharge(block_count):\n return block_count * 5.5"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Publish payload to IoT topic as JSON attribute message
|
def publish_event(topic, payload):
iot_client.publish(topic=topic, qos=0, payload=f'{{"message": "{payload}"}}')
|
[
"def publish(self, topic: str, message: dict):\n pass",
"def publish(self, topic, *args, **kwargs):\n assert(type(topic) == str)\n\n ## this will get filled and later serialized into HTTP/POST body\n ##\n event = {\n 'topic': topic\n }\n\n if 'options' in kwargs:\n event['options'] = kwargs.pop('options')\n assert(type(event['options']) == dict)\n\n if args:\n event['args'] = args\n\n if kwargs:\n event['kwargs'] = kwargs\n\n try:\n body = json.dumps(event, separators = (',',':'))\n body = body.encode('utf8')\n\n except Exception as e:\n raise Exception(\"invalid event payload - not JSON serializable: {0}\".format(e))\n\n params = {\n 'timestamp': _utcnow(),\n 'seq': self._seq,\n }\n\n if self._key:\n ## if the request is to be signed, create extra fields and signature\n params['key'] = self._key\n params['nonce'] = random.randint(0, 9007199254740992)\n\n # HMAC[SHA256]_{secret} (key | timestamp | seq | nonce | body) => signature\n\n hm = hmac.new(self._secret.encode('utf8'), None, hashlib.sha256)\n hm.update(params['key'].encode('utf8'))\n hm.update(params['timestamp'].encode('utf8'))\n hm.update(\"{0}\".format(params['seq']).encode('utf8'))\n hm.update(\"{0}\".format(params['nonce']).encode('utf8'))\n hm.update(body)\n signature = base64.urlsafe_b64encode(hm.digest())\n\n params['signature'] = signature\n\n self._seq += 1\n\n path = \"{0}?{1}\".format(parse.quote(self._endpoint['path']), parse.urlencode(params))\n\n ## now issue the HTTP/POST\n ##\n self._connection.request('POST', path, body, self._endpoint['headers'])\n response = self._connection.getresponse()\n response_body = response.read()\n\n if response.status != 202:\n raise Exception(\"publication request failed {0} [{1}] - {2}\".format(response.status, response.reason, response_body))\n\n try:\n res = json.loads(response_body)\n except Exception as e:\n raise Exception(\"publication request bogus result - {0}\".format(e))\n\n return res['id']",
"def publishData(self, topic, msg):\n try:\n print(\"Publishing \", msg,\" to topic: \", topic)\n self.client.publish(topic, msg)\n pass\n except Exception as e:\n pass",
"def send_message(self, payload):\n\n kwargs = self.options\n kwargs['payload'] = payload\n\n logger.debug(\"mqtt args=%s\" % kwargs)\n logger.debug(\"mqtt topic=%s\" % self.topic)\n\n publish.single(self.topic, **kwargs)",
"def publishJSON(self):\n\n\t\t# setup AWS and connect\n\t\tAWSClient = AWSIoTMQTTClient(\"basicPubSub\")\n\t\tAWSClient.configureEndpoint(myhost, 8883)\n\t\tAWSClient.configureCredentials(rootCA, privatePath, certPath)\n\n\t\tAWSClient.configureAutoReconnectBackoffTime(1,32,20)\n\t\tAWSClient.configureOfflinePublishQueueing(-1)\n\t\tAWSClient.configureDrainingFrequency(2)\n\t\tAWSClient.configureConnectDisconnectTimeout(10)\n\t\tAWSClient.configureMQTTOperationTimeout(10)\n\t\tAWSClient.connect()\n\n\t\t# create JSON object\n\t\tjsonData = {}\t\n\t\tjsonData['type'] = 'overhead'\n\t\tjsonData['mqtt_lat'] = self.mqtt_latency\n\t\tjsonData['mqtt_ovh'] = self.mqtt_size\n\t\tjsonData['ws_lat'] = self.ws_latency\n\t\tjsonData['ws_ovh'] = self.ws_size\n\t\tjsonData['coap_lat'] = self.coap_latency\n\t\tjsonData['coap_ovh'] = self.coap_size\n\t\tstrData= json.dumps(jsonData)\n\t\t\n\t\t# publish JSON\n\t\tAWSClient.publish(\"AccessControl/performance\", str(strData), 1)\n\t\tprint(\"Published data!\")\n\n\t\t# reset stats for new values\n\t\tself.clearVals()",
"def publish_for( topic_of_topic, data ):\n key = \"topic/\"+topic_of_topic\n if not __conf_items.__contains__(key):\n #print( \"no configured value (topic) for topic_of topic() \"+key+\"'\" )\n return\n\n item = __conf_items[key]\n mq.send_publish( item, data )",
"def mogrify(topic, msg):\n return str(topic) + ' ' + json.dumps(msg)",
"def jsonify(topic, msg):\n return topic + ' ' + json.dumps({'message':msg})",
"def produce(self, topic, msg):\n pass",
"def push_json(topic_name, data):\n # Sets up the kafka producer to serialized json output on localhost port 9092\n producer = KafkaProducer(bootstrap_servers='localhost:9092',\n value_serializer=lambda v: json.dumps(v).encode('utf-8'))\n # blocks for syncronized sends: ensures message sent within 30 seconds\n timeout = 30\n producer.send(topic_name, data).get(timeout=timeout)",
"def pub_callback(topic, payload, qos, retain):\n mqtt.async_publish(topic, payload, qos, retain)",
"def publish(self, data, topic=\"\"):\n with self.lock:\n if topic in self.topic_i:\n self.topic_i[topic] += 1\n else:\n self.topic_i.update({topic: 1})\n\n if settings.PUBLISHER_READY:\n self.pusher.send_string(topic, zmq.SNDMORE)\n if isinstance(data, np.ndarray):\n meta_data = dict(\n numpy=True,\n dtype=str(data.dtype),\n shape=data.shape,\n i=self.topic_i[topic]\n )\n self.pusher.send_json(meta_data, 0 | zmq.SNDMORE)\n self.pusher.send(data, 0, copy=True, track=False)\n else:\n meta_data = dict(\n numpy=False\n )\n self.pusher.send_json(meta_data, 0 | zmq.SNDMORE )\n self.pusher.send_pyobj(data)\n self.i += 1",
"def publish_by_id(self,resource_id, value):\r\n global coap_client\r\n resources = resource_info['resources']\r\n for res in resources:\r\n if (resource_id == str(res[\"resourceid\"])) :\r\n try:\r\n path = str(res[\"topic\"]) + str(coap_options['query'])\r\n print path\r\n response = coap_client.put(path, json.dumps({'value': value}))\r\n print \"NOW TOPIC_NAME :\" + str(res[\"topic\"]) + \" MESSAGE : \" + str(value)\r\n except Exception, error:\r\n print error",
"def publish(self, topic: str, payload: str, **kwargs: base.CommonArgs):\n\t\targs = (topic, payload)\n\t\treturn self._client.request('/pubsub/pub', args, decoder='json', **kwargs)",
"def publish_sensor_to_mqtt(mqttc, data, line):\n path = MQTT_PREFIX\n if \"model\" in data:\n path += \"/\" + sanitize(data[\"model\"])\n if \"channel\" in data:\n path += \"/\" + str(data[\"channel\"])\n elif \"id\" in data:\n path += \"/\" + str(data[\"id\"])\n\n if \"battery\" in data:\n if data[\"battery\"] == \"OK\":\n pass\n else:\n mqttc.publish(path + \"/battery\", str(data[\"battery\"]))\n\n if \"humidity\" in data:\n mqttc.publish(path + \"/humidity\", data[\"humidity\"])\n\n if \"temperature_C\" in data:\n mqttc.publish(path + \"/temperature\", data[\"temperature_C\"])\n\n if \"depth_cm\" in data:\n mqttc.publish(path + \"/depth\", data[\"depth_cm\"])\n\n mqttc.publish(path, line)",
"def publish_data(self, data):\n session = self.session\n buffers = serialize_object(\n data,\n buffer_threshold=session.buffer_threshold,\n item_threshold=session.item_threshold,\n )\n content = json_clean(dict(keys=list(data.keys())))\n session.send(\n self.pub_socket,\n \"data_message\",\n content=content,\n parent=self.parent_header,\n buffers=buffers,\n ident=self.topic,\n )",
"def onPublish(self, topic, payload, qos, dup, retain, msgId):\n\t\tnow = time()\n\t\tdelta = now - float(format(payload.decode('utf8')))\n\t\tprint (\"Delta time is \"+str(delta))\n\t\t\n\t\tmqtt_latency = delta\n\t\tmqtt_size = len(payload)\n\t\tprint(\"Took MQTT measurement\")\n\n\t\tglobal publisher\n\t\tpublisher.setVals(\"MQTT\", mqtt_latency, mqtt_size)",
"def sendMQTTData(temperature, humidity):\n timestamp = time.strftime(\"%Y-%m-%dT%H:%M:%SZ\", time.gmtime(time.time()))\n payload = (\"\"\"\n {\n \"deviceID\" : \"WeatherMap\",\n \"Data\" :{\n \"Temperature\" : {\n \"data\": \"%s\",\n \"unit\" : \"C\"\n },\n \"Humidity\" : {\n \"data\" : \"%s\",\n \"unit\" : \"%%\"\n },\n \"Timestamp\" : \"%s\"\n }\n }\n \"\"\"%(temperature, humidity, timestamp))\n client.publish(\"/RSU/remote/WeatherMap/json\", payload, 1)\n\n f = open(\"Receive/Weather.txt\", \"a+\")\n f.write(payload + \"\\n\")\n f.close()",
"async def test_setting_attribute_via_mqtt_json_message(opp, mqtt_mock):\n assert await async_setup_component(\n opp,\n vacuum.DOMAIN,\n {\n vacuum.DOMAIN: {\n \"platform\": \"mqtt\",\n \"name\": \"test\",\n \"json_attributes_topic\": \"attr-topic\",\n }\n },\n )\n\n async_fire_mqtt_message(opp, \"attr-topic\", '{ \"val\": \"100\" }')\n state = opp.states.get(\"vacuum.test\")\n\n assert state.attributes.get(\"val\") == \"100\""
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Creates a 6DOF InteractiveMarkerControl that can be translated and rotated.
|
def make_6DOF_marker(int_marker):
#x movement
control = InteractiveMarkerControl()
control.name = "move_x"
control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS
control.orientation.w = 1
control.orientation.x = 1
control.orientation.y = 0
control.orientation.z = 0
int_marker.controls.append(control);
#x rotation
control = InteractiveMarkerControl()
control.name = "rotate_x"
control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS
control.orientation.w = 1
control.orientation.x = 1
control.orientation.y = 0
control.orientation.z = 0
int_marker.controls.append(control);
#y movement
control = InteractiveMarkerControl()
control.name = "move_y"
control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS
control.orientation.w = 1
control.orientation.x = 0
control.orientation.y = 1
control.orientation.z = 0
int_marker.controls.append(control);
#y rotation
control = InteractiveMarkerControl()
control.name = "rotate_y"
control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS
control.orientation.w = 1
control.orientation.x = 0
control.orientation.y = 1
control.orientation.z = 0
int_marker.controls.append(control);
#z movement
control = InteractiveMarkerControl()
control.name = "move_z"
control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS
control.orientation.w = 1
control.orientation.x = 0
control.orientation.y = 0
control.orientation.z = 1
int_marker.controls.append(control);
#z rotation
control = InteractiveMarkerControl()
control.name = "rotate_z"
control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS
control.orientation.w = 1
control.orientation.x = 0
control.orientation.y = 0
control.orientation.z = 1
int_marker.controls.append(control);
|
[
"def create_im(pose_st, markers):\n gripper_control = InteractiveMarkerControl()\n gripper_control.interaction_mode = InteractiveMarkerControl.MENU\n gripper_control.orientation = pose_st.pose.orientation\n gripper_control.always_visible = True\n gripper_control.markers.extend(markers)\n\n # set every marker in the gripper IM to green\n for m in gripper_control.markers:\n m.color = ColorRGBA(0, 1, 0, 1)\n\n gripper_im = InteractiveMarker()\n gripper_im.header = copy.deepcopy(pose_st.header)\n gripper_im.name = \"GripperMarker\"\n gripper_im.description = \"Gripper AutoPick Interactive Marker\"\n gripper_im.controls.append(gripper_control)\n gripper_im.controls.extend(make_6dof_controls())\n gripper_im.scale = 0.2\n gripper_im.menu_entries.extend(create_menu())\n return gripper_im",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF23IVF23.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIUS3IUS3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF43IVF43.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def makeMarker(self, centroidX, centroidY, ID, action = Marker.ADD, new=True):\n \n RVIZmarker = Marker()\n \n RVIZmarker.header.frame_id = '/map'\n RVIZmarker.header.stamp = rospy.Time(0)\n \n RVIZmarker.ns = 'Frontier'\n RVIZmarker.id = ID\n RVIZmarker.type = Marker.CUBE\n RVIZmarker.action = action\n \n # Position with respect to the frame\n RVIZmarker.pose.position.x = centroidX\n RVIZmarker.pose.position.y = centroidY\n RVIZmarker.pose.position.z = 0.0\n RVIZmarker.pose.orientation.x = 0.0\n RVIZmarker.pose.orientation.y = 0.0\n RVIZmarker.pose.orientation.z = 0.0\n RVIZmarker.pose.orientation.w = 1.0\n \n # Define the scale (meter scale)\n RVIZmarker.scale.x = 0.3\n RVIZmarker.scale.y = 0.3\n RVIZmarker.scale.z = 0.3\n \n # Set the color \n RVIZmarker.color.a = 1.0\n RVIZmarker.color.g = 0.0\n \n if new:\n RVIZmarker.color.r = 0.0\n RVIZmarker.color.b = 1.0\n else:\n RVIZmarker.color.r = 1.0\n RVIZmarker.color.b = 0.0\n \n #Store the marker\n if len(self.markerArray.markers) <= ID:\n self.markerArray.markers.append(RVIZmarker)\n else:\n self.markerArray.markers[ID] = RVIZmarker",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF33IVF33.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIF3IF3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICVF23ICVF23.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICVF43ICVF43.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICF3ICF3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICVF33ICVF33.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIUC3IUC3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF22IVF22.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICVF42ICVF42.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterISS3ISS3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICVF22ICVF22.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIUS2IUS2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkStochasticFractalDimensionImageFilterIF3IUS3.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def classFactory(iface): # pylint: disable=invalid-name\n #\n from .qgis_acoustics import QGISAcoustics\n return QGISAcoustics(iface)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Create three Marker msgs from a PoseStamped set of arrows (x=red, y=green, z=blue).
|
def axis_marker(pose_stamped, id,
ns):
marker = Marker()
marker.header = pose_stamped.header
marker.ns = ns
marker.type = Marker.ARROW
marker.action = Marker.ADD
marker.scale.x = 0.01
marker.scale.y = 0.02
marker.color.a = 1.0
marker.lifetime = rospy.Duration(1/5.0)
orientation = pose_stamped.pose.orientation
quat = [orientation.x, orientation.y, orientation.z, orientation.w]
mat = tf.transformations.quaternion_matrix(quat)
start = (pose_stamped.pose.position.x,
pose_stamped.pose.position.y,
pose_stamped.pose.position.z)
x_end = list(mat[:,0][0:3]*.05 + numpy.array(start))
y_end = list(mat[:,1][0:3]*.05 + numpy.array(start))
z_end = list(mat[:,2][0:3]*.05 + numpy.array(start))
marker.id = id
marker.points = [pose_stamped.pose.position, Point(*x_end)]
marker.color.r = 1.0
marker.color.g = 0.0
marker.color.b = 0.0
marker2 = copy.deepcopy(marker)
marker2.id = id+1
marker2.points = [pose_stamped.pose.position, Point(*y_end)]
marker2.color.r = 0.0
marker2.color.g = 1.0
marker2.color.b = 0.0
marker3 = copy.deepcopy(marker2)
marker3.id = id+2
marker3.points = [pose_stamped.pose.position, Point(*z_end)]
marker3.color.r = 0.0
marker3.color.g = 0.0
marker3.color.b = 1.0
return (marker, marker2, marker3)
|
[
"def marker_setup():\n\n markers = [0, 1, 2, 3]\n poses = [[0, 0, -0.005], [0.30, 0.25, 0], [-0.30, 0.25, 0], [-0.30, -0.25, 0], [0.30, -0.25, 0], [0, 0, 0],\n [0, 0, 0]]\n scales = [[0.036, 0.036, 0.01], [0.036, 0.036, 0.01], [0.036, 0.036, 0.01],\n [0.036, 0.036, 0.01]]\n colors = [[0, 1, 0, .5], [1, 0, 0, .5], [1, 0, 0, .5], [1, 0, 0, .5]]\n for i in range(len(markers)):\n markers[i] = Marker()\n markers[i].header.frame_id = '/world_frame'\n markers[i].type = markers[i].CUBE\n markers[i].id = i\n markers[i].action = markers[i].ADD\n markers[i].scale.x = scales[i][0]\n markers[i].scale.y = scales[i][1]\n markers[i].scale.z = scales[i][2]\n markers[i].color.r = colors[i][0]\n markers[i].color.g = colors[i][1]\n markers[i].color.b = colors[i][2]\n markers[i].color.a = colors[i][3]\n markers[i].pose.position.x = poses[i][0]\n markers[i].pose.position.y = poses[i][1]\n markers[i].pose.position.z = poses[i][2]\n\n return markers",
"def get_gripper_markers(pose_st):\n gripper_m = Marker()\n gripper_m.type = Marker.MESH_RESOURCE\n gripper_m.mesh_resource = GRIPPER_MESH\n gripper_m.pose = copy.deepcopy(pose_st.pose)\n gripper_m.pose.position.x += 0.166\n gripper_m.scale.x = 1.0\n gripper_m.scale.y = 1.0\n gripper_m.scale.z = 1.0\n\n finger_left_m = Marker()\n finger_left_m.type = Marker.MESH_RESOURCE\n finger_left_m.mesh_resource = L_FINGER_MESH\n finger_left_m.pose = copy.deepcopy(pose_st.pose)\n finger_left_m.pose.position.x += 0.166\n finger_left_m.pose.position.y -= 0.054\n finger_left_m.scale.x = 1.0\n finger_left_m.scale.y = 1.0\n finger_left_m.scale.z = 1.0\n\n finger_right_m = Marker()\n finger_right_m.type = Marker.MESH_RESOURCE\n finger_right_m.mesh_resource = R_FINGER_MESH\n finger_right_m.pose = copy.deepcopy(pose_st.pose)\n finger_right_m.pose.position.x += 0.166\n finger_right_m.pose.position.y += 0.054\n finger_right_m.scale.x = 1.0\n finger_right_m.scale.y = 1.0\n finger_right_m.scale.z = 1.0\n\n return [gripper_m, finger_left_m, finger_right_m]",
"def compare_vicon_and_pose_signals(pose_data,vicon_data,center_marker,target_marker):\n\n\t\tvicon_data = Vicon_Processor.__format_vicon_data(vicon_data)\n\t\tprint(np.shape(vicon_data))\n\n\t\tdef center_pose_around_marker(data,marker_index):\n\t\t\tfor i,pose in enumerate(data):\n\t\t\t\tfor dim in range(3):\n\t\t\t\t\tdata[i][dim] = data[i][dim] - data[i][dim][marker_index]\n\n\t\tcenter_pose_around_marker(pose_data,pose_mappings[center_marker])\n\t\tcenter_pose_around_marker(vicon_data,vicon_mappings[center_marker])\n\n\t\tpose_data = np.transpose(pose_data[:,:,pose_mappings[target_marker]])\n\t\tvicon_data = np.transpose(vicon_data[:200,:,vicon_mappings[target_marker]])\n\n\t\t\n\t\tfor dim in range(2):\n\t\t\t#pd = [pose_data[i][dim][5] for i in range(len(pose_data))]\n\t\t\tplt.plot([ i / 30 for i in range(len(pose_data[dim]))],pose_data[1- dim],label = '3D Pose Estimation')\n\t\t\tplt.plot([i / 100 for i in range(len(vicon_data[dim]))], vicon_data[dim], color = 'red',label = 'Elderly Vicon')\n\t\t\tplt.ylabel('{} Position with respect to {}'.format(target_marker,center_marker))\n\t\t\tplt.xlabel('Time (Seconds)')\n\t\t\tplt.legend(loc = 'lower right')\n\t\t\tplt.show()",
"def plotGlobalArrows(diffx_g,diffz_g,x_g,y_g,minVal,maxVal):\n cNormx = colors.Normalize(vmin=minVal, vmax=maxVal)\n scalarMapx = cmx.ScalarMappable(norm=cNormx, cmap='CMRmap_r')\n cNormy = colors.Normalize(vmin=minVal, vmax=maxVal)\n scalarMapy = cmx.ScalarMappable(norm=cNormy, cmap='CMRmap_r')\n count = 0\n for i in range(18):\n colorValx = scalarMapx.to_rgba(diffx_g[i])\n if i < 9:\n plt.arrow(x_g[i], y_g[i], 0, 0.8, width=0.05, color=colorValx,zorder=11)\n else:\n plt.arrow(x_g[i], y_g[i], 0, -0.8, width=0.05, color=colorValx,zorder=11)\n if i != 8:\n colorValz = scalarMapy.to_rgba(diffz_g[i - count])\n plt.scatter(x_g[i], y_g[i], s=250, facecolor='none', edgecolors=colorValz, linewidths=2, zorder=12)\n plt.scatter(x_g[i], y_g[i], s=40, color=colorValz, zorder=12)\n else:\n count = 1",
"def arrow(x0,x1,y0,y1,col=\"Black\"):\n ob = lines([(x0,y0),(x1,y1)],col)\n ob[\"arrows\"] = quoteString(\"to\")\n return ob",
"def markers():\n\treturn {\"point\":\t\t\".\", \n\t\t\"pixel\":\t\t\t\",\", \n\t\t\"circle\":\t\t\t\"o\",\n\t\t\"triangle_down\":\t\"v\",\n\t\t\"circle\":\t\t\t\"o\",\n\t\t\"triangle_down\":\t\"V\",\n\t\t\"triangle_up\":\t\t\"^\", \n\t\t\"triangle_left\":\t\"<\", \n\t\t\"triangle_right\":\t\">\",\n\t\t\"tri_down\":\t\t\t\"1\",\n\t\t\"tri_up\":\t\t\t\"2\", \n\t\t\"tri_left\":\t\t\t\"3\", \n\t\t\"tri_right\":\t\t\"4\", \n\t\t\"octagon\":\t\t\t\"8\", \n\t\t\"square\": \t\t\t\"s\", \n\t\t\"pentagon\":\t\t\t\"p\", \n\t\t\"plus_filled\":\t\t\"P\", \n\t\t\"star\":\t\t\t\t\"*\",\n\t\t\"hexagon1\":\t\t\t\"h\", \n\t\t\"hexagon2\":\t\t\t\"H\", \n\t\t\"plus\":\t\t\t\t\"+\",\n\t\t\"x\":\t\t\t\t\"x\", \n\t\t\"x_filled\":\t\t\t\"X\", \n\t\t\"diamond\":\t\t\t\"D\", \n\t\t\"thin_diamond\":\t\t\"d\", \n\t\t\"vline\":\t\t\t\"|\", \n\t\t\"hline\":\t\t\t\"_\", \n\t\t\"tickleft\":\t\t\t\"TICKLEFT\",\n\t\t\"tickright\":\t\t\"TICKRIGHT\",\n\t\t\"tickup\":\t\t\t\"TICKUP\",\n\t\t\"tickdown\":\t\t\t\"TICKDOWN\", \n\t\t\"caretright\":\t\t\"CARETRIGHT\", \n\t\t\"caretleft\":\t\t\"CARETLEFT\", \n\t\t\"caretup\":\t\t\t\"CARETUP\",\n\t\t\"caretdown\":\t\t\"CARETDOWN\",\n\t\t\"caretrightbase\":\t\"CARETRIGHTBASE\", \n\t\t\"caretleftbase\":\t\"CARETLEFTBASE\",\n\t\t\"caretupbase\":\t\t\"CARETUPBASE\"\n\t}",
"def test_markers(self):\r\n g = gca()\r\n lines = g.get_lines() \r\n self.assertEqual(lines[1].get_marker(), 's')\r\n self.assertEqual(lines[2].get_marker(), '8')\r\n self.assertEqual(lines[4].get_marker(), '.')",
"def arrow_specs(self):\n a = self.viewee.array\n n, m = a.shape\n i, j = self.viewee.loc\n center = j + 0.5, n - i - 0.5\n angle = -np.pi / 2 * self.viewee.state\n return center, angle",
"def create_im(pose_st, markers):\n gripper_control = InteractiveMarkerControl()\n gripper_control.interaction_mode = InteractiveMarkerControl.MENU\n gripper_control.orientation = pose_st.pose.orientation\n gripper_control.always_visible = True\n gripper_control.markers.extend(markers)\n\n # set every marker in the gripper IM to green\n for m in gripper_control.markers:\n m.color = ColorRGBA(0, 1, 0, 1)\n\n gripper_im = InteractiveMarker()\n gripper_im.header = copy.deepcopy(pose_st.header)\n gripper_im.name = \"GripperMarker\"\n gripper_im.description = \"Gripper AutoPick Interactive Marker\"\n gripper_im.controls.append(gripper_control)\n gripper_im.controls.extend(make_6dof_controls())\n gripper_im.scale = 0.2\n gripper_im.menu_entries.extend(create_menu())\n return gripper_im",
"def create_marker_color_cycle(markers=(\"o\", \"X\", \"P\")):\n colors = pyplot.rcParams[\"axes.prop_cycle\"].by_key()[\"color\"]\n\n # Vary color first, then markers\n marker_color_iterator = product(markers, colors)\n\n return marker_color_iterator",
"def add_direction_arrows(self, pres):\n match_colors_to_type = {\"White\": RGBColor(255, 255, 255), \"Yellow\": RGBColor(250, 201, 49)}\n arrows_placeholders = {\"NORTH_ARROWS\": self.NO.LAN.Organize_arrows_order(),\n \"SOUTH_ARROWS\": self.SO.LAN.Organize_arrows_order(),\n \"EAST_ARROWS\": self.EA.LAN.Organize_arrows_order(),\n \"WEST_ARROWS\": self.WE.LAN.Organize_arrows_order()}\n for slide in pres.slides:\n for shape in slide.shapes:\n if shape.name in arrows_placeholders.keys():\n text_frame = shape.text_frame\n text_frame.clear()\n arrows_list = arrows_placeholders[shape.name]\n for arrow in arrows_list:\n text_frame = shape.text_frame\n p = text_frame.paragraphs[0]\n run = p.add_run()\n font = run.font\n font.bold = False\n font.size = Pt(50)\n font.color.rgb = match_colors_to_type[arrow[2]]\n font.name = 'Traffic Arrows 2 Med normal'\n run.text = arrow[0] * arrow[1]\n pres.save(\"Dirc_Diagram.pptx\")",
"def create_arrowhead():\r\n element = ET.Element('marker')\r\n element.set('id', 'Arrowhead')\r\n element.set('markerUnits', 'strokeWidth')\r\n element.set('markerWidth', '7.5')\r\n element.set('markerHeight', '6.6')\r\n element.set('orient', 'auto')\r\n element.set('refX', '0')\r\n element.set('refY', '3.3') # Offset by half width\r\n\r\n path = ET.Element('path')\r\n path.set('d', \"M 0 0 L 7.5 3.3 L 0 6.6 z\")\r\n element.append(path)\r\n return element",
"def _create_markers(self):\n self.remove_all_markers()\n self.remove_all_gps()\n self.remove_all_tracks()\n if ( self.current_map is not None and\n self.current_map != config.get(\"geography.map_service\") ):\n self.change_map(self.osm, config.get(\"geography.map_service\"))\n last = \"\"\n current = \"\"\n differtype = False\n savetype = None\n lat = 0.0\n lon = 0.0\n icon = None\n count = 0\n self.uistate.set_busy_cursor(True)\n _LOG.debug(\"%s\" % time.strftime(\"start create_marker : \"\n \"%a %d %b %Y %H:%M:%S\", time.gmtime()))\n for mark in self.sort:\n current = ([mark[3], mark[4]])\n if last == \"\":\n last = current\n lat = mark[3]\n lon = mark[4]\n icon = mark[7]\n differtype = False\n count = 1\n continue\n if last != current:\n self.add_marker(None, None, lat, lon, icon, differtype, count)\n differtype = False\n count = 1\n last = current\n lat = mark[3]\n lon = mark[4]\n icon = mark[7]\n else: # This marker already exists. add info.\n count += 1\n if icon != mark[7]:\n differtype = True\n if ( lat != 0.0 and lon != 0.0 ):\n self.add_marker(None, None, lat, lon, icon, differtype, count)\n self._set_center_and_zoom()\n _LOG.debug(\"%s\" % time.strftime(\" stop create_marker : \"\n \"%a %d %b %Y %H:%M:%S\", time.gmtime()))\n self.uistate.set_busy_cursor(False)",
"def marker(string, valueU=float, time=(), orientationMarker=bool, sideTwist=int, frontTwist=int, attach=bool, positionMarker=bool, upTwist=int, detach=bool):\n pass",
"def makeGripperMarker(angle=0.541, color=None, scale=1.0):\n\n T1 = euclid.Matrix4()\n T2 = euclid.Matrix4()\n\n T1.translate(0.07691, 0.01, 0.)\n T1.rotate_axis(angle, euclid.Vector3(0,0,1))\n T2.translate(0.09137, 0.00495, 0.)\n T1.rotate_axis(-angle, euclid.Vector3(0,0,1))\n\n T_proximal = T1.copy()\n T_distal = T1 * T2\n\n control = InteractiveMarkerControl()\n mesh = Marker()\n mesh.type = Marker.MESH_RESOURCE\n mesh.scale.x = scale\n mesh.scale.y = scale\n mesh.scale.z = scale\n \n if color is not None:\n mesh.color.r = color[0]\n mesh.color.g = color[1]\n mesh.color.b = color[2]\n mesh.color.a = color[3]\n mesh.mesh_use_embedded_materials = False\n else:\n mesh.mesh_use_embedded_materials = True\n\n mesh.mesh_resource = \"package://pr2_description/meshes/gripper_v0/gripper_palm.dae\"\n mesh.pose.orientation.w = 1\n control.markers.append(copy.deepcopy(mesh))\n \n mesh.mesh_resource = \"package://pr2_description/meshes/gripper_v0/l_finger.dae\"\n mesh.pose = matrix4ToPose(T_proximal)\n control.markers.append(copy.deepcopy(mesh))\n\n mesh.mesh_resource = \"package://pr2_description/meshes/gripper_v0/l_finger_tip.dae\"\n mesh.pose = matrix4ToPose(T_distal)\n control.markers.append(copy.deepcopy(mesh))\n\n T1 = euclid.Matrix4()\n T2 = euclid.Matrix4()\n\n T1.translate(0.07691, -0.01, 0.)\n T1.rotate_axis(numpy.pi, euclid.Vector3(1,0,0))\n T1.rotate_axis(angle, euclid.Vector3(0,0,1))\n T2.translate(0.09137, 0.00495, 0.)\n T1.rotate_axis(-angle, euclid.Vector3(0,0,1))\n\n T_proximal = T1.copy()\n T_distal = T1 * T2\n\n mesh.mesh_resource = \"package://pr2_description/meshes/gripper_v0/l_finger.dae\"\n mesh.pose = matrix4ToPose(T_proximal)\n control.markers.append(copy.deepcopy(mesh))\n\n mesh.mesh_resource = \"package://pr2_description/meshes/gripper_v0/l_finger_tip.dae\"\n mesh.pose = matrix4ToPose(T_distal)\n control.markers.append(copy.deepcopy(mesh))\n\n control.interaction_mode = InteractiveMarkerControl.BUTTON\n\n return control",
"def make_6DOF_marker(int_marker):\n #x movement\n control = InteractiveMarkerControl()\n control.name = \"move_x\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 1\n control.orientation.y = 0\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #x rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_x\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 1\n control.orientation.y = 0\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #y movement\n control = InteractiveMarkerControl()\n control.name = \"move_y\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 1\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #y rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_y\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 1\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #z movement\n control = InteractiveMarkerControl()\n control.name = \"move_z\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 0\n control.orientation.z = 1\n int_marker.controls.append(control);\n\n #z rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_z\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 0\n control.orientation.z = 1\n int_marker.controls.append(control);",
"def show_vector(ax, tip, tail=(0,0), c='k'):\n arrowprops={'color': c, 'headwidth': 8, 'width': 2}\n ax.annotate(s='', xy=tip, xytext=tail, arrowprops=arrowprops)",
"def gen_markers(labels):\n\n\tstylemap = {'1080Lines': 'circle', '1400Ripples': 'hex', 'Air_Compressor': 'diamond', 'Blip': 'square', 'Chirp': 'inverted_triangle', \n\t\t\t\t'Extremely_Loud': 'triangle', 'Koi_Fish': 'circle', 'Light_Modulation': 'hex', 'Low_Frequency_Burst': 'diamond', \n\t\t\t\t'Low_Frequency_Lines': 'square', 'No_Glitch': 'inverted_triangle', 'None_of_the_Above': 'triangle', 'Paired_Doves': 'circle', \n\t\t\t\t'Power_Line': 'hex', 'Repeating_Blips': 'diamond', 'Scattered_Light': 'square', 'Scratchy': 'inverted_triangle', \n\t\t\t\t'Tomte': 'triangle', 'Unlabeled': 'circle', 'Wandering_Line': 'hex', 'Whistle': 'diamond', 'H_detector': 'hex', \n\t\t\t\t'L_detector': 'square'}\n\n\tsizemap = {'1080Lines': 8, '1400Ripples': 8, 'Air_Compressor': 11, 'Blip': 8, 'Chirp': 9, \n\t\t\t 'Extremely_Loud': 9, 'Koi_Fish': 8, 'Light_Modulation': 8, 'Low_Frequency_Burst': 11, \n\t\t\t 'Low_Frequency_Lines': 8, 'No_Glitch': 9, 'None_of_the_Above': 9, 'Paired_Doves': 8, \n\t\t\t 'Power_Line': 8, 'Repeating_Blips': 11, 'Scattered_Light': 8, 'Scratchy': 9, \n\t\t\t 'Tomte': 9, 'Unlabeled': 8, 'Wandering_Line': 8, 'Whistle': 11, 'H_detector': 8, 'L_detector': 8}\n\n\tmarkers = []\n\tsizes = []\n\tfor label in (labels):\n\t\tif label not in stylemap.keys():\n\t\t\tmarkers.append(stylemap['Unlabeled'])\n\t\t\tsizes.append(sizemap['Unlabeled'])\n\t\t\tcontinue\n\n\t\tmarkers.append(stylemap[label])\n\t\tsizes.append(sizemap[label])\n\n\treturn markers, sizes",
"def flow_mark(evs, color):\n for el in evs:\n if color != None:\n el.setMarker(color)\n inters = el.getIncomingInteractions()\n if inters != None:\n for inter in inters:\n inev = inter.getFromEvent()\n if inev != None and inev in evs:\n inter.setMarker(color)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Converts a Matrix 4 to a Pose message by extracting the translation and rotation specified by the Matrix.
|
def matrix4ToPose(matrix):
pos = Pose()
pos.position.x = matrix.d
pos.position.y = matrix.h
pos.position.z = matrix.l
q = matrix.get_quaternion()
pos.orientation.x = q.x
pos.orientation.y = q.y
pos.orientation.z = q.z
pos.orientation.w = q.w
return pos
|
[
"def matrixToPose(self, matrix):\n m = np.array(matrix)\n translation = list(m.T[3, 0:3])\n quaternion = npRotation.from_matrix(m[0:3, 0:3])\n\n return translation, quaternion.as_quat()",
"def unpack_pose_msg(msg, stamped=False):\n if stamped:\n p = msg.pose.position\n o = msg.pose.orientation\n else:\n p = msg.position\n o = msg.orientation\n\n return (p.x, p.y, p.z), (o.w, o.x, o.y, o.z)",
"def get_trs_from_transform_matrix(transform_matrix: np.ndarray) -> Tuple[np.ndarray, np.ndarray, np.ndarray]:\n if not transform_matrix.shape == (4, 4):\n raise ValueError(\"The transform matrix should be of size 4x4\")\n\n # See https://math.stackexchange.com/questions/237369/given-this-transformation-matrix-how-do-i-decompose-it-into-translation-rotati\n\n translation = transform_matrix[:3, 3]\n scale = np.array(\n [\n np.linalg.norm(transform_matrix[:3, 0]),\n np.linalg.norm(transform_matrix[:3, 1]),\n np.linalg.norm(transform_matrix[:3, 2]),\n ]\n )\n\n rotation = np.zeros((3, 3))\n rotation[:, 0] = transform_matrix[:3, 0] / scale[0]\n rotation[:, 1] = transform_matrix[:3, 1] / scale[1]\n rotation[:, 2] = transform_matrix[:3, 2] / scale[2]\n\n m00, m01, m02 = rotation[0].tolist()\n m10, m11, m12 = rotation[1].tolist()\n m20, m21, m22 = rotation[2].tolist()\n\n # See https://www.euclideanspace.com/maths/geometry/rotations/conversions/matrixToQuaternion/\n\n tr = m00 + m11 + m22\n\n if tr > 0:\n s = np.sqrt(tr + 1.0) * 2 # s=4*qw\n qw = 0.25 * s\n qx = (m21 - m12) / s\n qy = (m02 - m20) / s\n qz = (m10 - m01) / s\n elif (m00 > m11) and (m00 > m22):\n s = np.sqrt(1.0 + m00 - m11 - m22) * 2 # s=4*qx\n qw = (m21 - m12) / s\n qx = 0.25 * s\n qy = (m01 + m10) / s\n qz = (m02 + m20) / s\n elif m11 > m22:\n s = np.sqrt(1.0 + m11 - m00 - m22) * 2 # s=4*qy\n qw = (m02 - m20) / s\n qx = (m01 + m10) / s\n qy = 0.25 * s\n qz = (m12 + m21) / s\n else:\n s = np.sqrt(1.0 + m22 - m00 - m11) * 2 # s=4*qz\n qw = (m10 - m01) / s\n qx = (m02 + m20) / s\n qy = (m12 + m21) / s\n qz = 0.25 * s\n\n rotation = np.array([qx, qy, qz, qw])\n\n return translation, rotation, scale",
"def unpack_transform_msg(msg, stamped=False):\n if stamped:\n t = msg.transform.translation\n r = msg.transform.rotation\n else:\n t = msg.translation\n r = msg.rotation\n\n return (t.x, t.y, t.z), (r.w, r.x, r.y, r.z)",
"def poseToMatrix(self, pose):\n translation = pose[0]\n quaternion = pose[1]\n\n rotation = self.getRotationMatrix(quaternion)\n m = np.identity(4)\n m[0:3, 0:3] = rotation\n m.T[3, 0:3] = translation\n return np.matrix(m)",
"def ros_to_transform(msg):\n p = [msg.position.x, msg.position.y, msg.position.z]\n q = [msg.orientation.x, msg.orientation.y, msg.orientation.z, msg.orientation.w]\n T = quaternion_matrix(q)\n T[0:3,-1] = p\n return T",
"def frame_matrix_to_pose(frame_matrix):\n \n # Get translation of frame\n trans = tf.transformations.translation_from_matrix(frame_matrix)\n \n # Get quarternion rotation of the frame\n rot = tf.transformations.quaternion_from_matrix(frame_matrix)\n \n # Create pose from results\n pose_out = Pose()\n pose_out.position.x = trans[0]\n pose_out.position.y = trans[1]\n pose_out.position.z = trans[2]\n pose_out.orientation.x = rot[0]\n pose_out.orientation.y = rot[1]\n pose_out.orientation.z = rot[2]\n pose_out.orientation.w = rot[3]\n \n return pose_out",
"def pose_tup_to_msg(tup):\n msg = Pose()\n msg.position.x = tup[0][0]\n msg.position.y = tup[0][1]\n msg.position.z = tup[0][2]\n msg.orientation.x = tup[1][0]\n msg.orientation.y = tup[1][1]\n msg.orientation.z = tup[1][2]\n msg.orientation.w = tup[1][3]\n return msg",
"def model_matrix(self):\n sm = tr.scale(self.scale).T\n rx, ry, rz = self.rotation\n rxm =tr.rotate(rx, [1,0,0]).T\n rym =tr.rotate(ry, [0,1,0]).T\n rzm =tr.rotate(rz, [0,0,1]).T\n trm = tr.translate(self.position).T\n mm = trm @ rxm @ rym @ rzm @ sm\n return mm",
"def ros_to_pose_tuple(msg):\n p = [msg.position.x, msg.position.y, msg.position.z]\n q = [msg.orientation.x, msg.orientation.y, msg.orientation.z, msg.orientation.w]\n return (p,q)",
"def qtvec_to_transformation_matrix(pose):\n b, _ = pose.shape\n p, q = pose.split([3, 4], dim=1)\n rot_matrix = quaternion_to_rotation_matrix(q)\n trans_matrix = torch.cat([rot_matrix, p.view(b, 3, 1)], dim=-1)\n return trans_matrix",
"def decompose(matrix):\n R = Quaternion()\n S = Matrix4x4()\n \n # Extract translation _T_ from transformation matrix\n T = Vector(matrix.m[0][3],\n matrix.m[1][3],\n matrix.m[2][3])\n\n # Compute new transformation matrix _M_ without translation\n M = Matrix4x4.from_matrix4x4(matrix)\n for i in range(3):\n M.m[i][3] = 0.0\n M.m[3][i] = 0.0\n M.m[3][3] = 1.0\n\n # Extract rotation _R_ from transformation matrix\n norm = 1.0\n count = 0\n R = Matrix4x4.from_matrix4x4(M)\n while (count<100 and norm>0.0001):\n # Compute next matrix _Rnext_ in series\n Rnext = Matrix4x4()\n Rit = inverse(transpose(R))\n for i in range(4):\n for j in range(4):\n Rnext.m[i][j] = 0.5 * (R.m[i][j] + Rit.m[i][j])\n\n # Compute norm of difference between _R_ and _Rnext_\n norm = 0.0\n for i in range(3):\n n = abs(R.m[i][0] - Rnext.m[i][0]) + \\\n abs(R.m[i][1] - Rnext.m[i][1]) + \\\n abs(R.m[i][2] - Rnext.m[i][2])\n norm = max(norm, n)\n\n R = Rnext\n count += 1\n\n # XXX TODO FIXME deal with flip...\n Rquat = Quaternion.from_transform(Transform(R))\n\n # Compute scale _S_ using rotation and original matrix\n S = inverse(R) * M\n\n return T, Rquat, S",
"def make_pose_msg(p, o, frame_id, time=0.0):\n msg = PoseStamped()\n msg.header.stamp = rospy.Time.from_sec(time)\n msg.header.frame_id = frame_id\n msg.pose.position = Point(*p)\n msg.pose.orientation = Quaternion(o[1], o[2], o[3], o[0])\n\n return msg",
"def get_homogeneous_transformation(pose):\n M = mat.zeros((4, 4))\n p = pose[0:3]\n R = quat2rot(pose[3:7])\n for i in range(0, 3):\n M[i, 3] = p[i]\n for j in range(0, 3):\n M[i, j] = R[i, j]\n M[3, 3] = 1\n return M",
"def transform_to_ros(T, msg):\n msg.position.x, msg.position.y, msg.position.z = translation_from_matrix(T)\n msg.orientation.x, msg.orientation.y, msg.orientation.z, msg.orientation.w = \\\n quaternion_from_matrix(T)",
"def pose_matrix(R=None, t=None):\n # Default to no rotation\n if R is None:\n R = np.eye(3)\n # Default to origin\n if t is None:\n t = [0, 0, 0]\n # Convert lists to ndarrays\n R = Marshal.ndarrayify(R)\n t = Marshal.ndarrayify(t)\n # Convert from Rodrigues notation if necessary\n if R.shape == (3,):\n R, _ = cv2.Rodrigues(R)\n # Construct the matrix\n H = np.eye(4)\n H[:3, :3] = R\n H[:3, 3] = t\n return H",
"def _make_rigid_transformation_4x4(ex, ey, translation):\n # Normalize ex.\n ex_normalized = ex / np.linalg.norm(ex)\n\n # make ey perpendicular to ex\n ey_normalized = ey - np.dot(ey, ex_normalized) * ex_normalized\n ey_normalized /= np.linalg.norm(ey_normalized)\n\n # compute ez as cross product\n eznorm = np.cross(ex_normalized, ey_normalized)\n m = np.stack([ex_normalized, ey_normalized, eznorm, translation]).transpose()\n m = np.concatenate([m, [[0., 0., 0., 1.]]], axis=0)\n return m",
"def getRotationMatrix( self):",
"def camera_pose_extraction(E):\r\n W = np.array([[0, -1, 0],\r\n [1, 0, 0],\r\n [0, 0, 1]])\r\n U, _, V = np.linalg.svd(E)\r\n C1 = U[:, -1].reshape((3, 1))\r\n R1 = U @ W @ V\r\n\r\n C2 = -U[:, -1].reshape((3, 1))\r\n R2 = U @ W @ V\r\n\r\n C3 = U[:, -1].reshape((3, 1))\r\n R3 = U @ W.T @ V\r\n\r\n C4 = -U[:, -1].reshape((3, 1))\r\n R4 = U @ W.T @ V\r\n\r\n C = np.asarray([C1, C2, C3, C4], dtype=np.float64)\r\n R = np.asarray([R1, R2, R3, R4], dtype=np.float64)\r\n\r\n for i in range(len(R)):\r\n if not check_determinant(R[i]):\r\n R[i] = -R[i]\r\n C[i] = -C[i]\r\n\r\n return C, R"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Creates an InteractiveMarkerControl with the PR2 gripper shape.
|
def makeGripperMarker(angle=0.541, color=None, scale=1.0):
T1 = euclid.Matrix4()
T2 = euclid.Matrix4()
T1.translate(0.07691, 0.01, 0.)
T1.rotate_axis(angle, euclid.Vector3(0,0,1))
T2.translate(0.09137, 0.00495, 0.)
T1.rotate_axis(-angle, euclid.Vector3(0,0,1))
T_proximal = T1.copy()
T_distal = T1 * T2
control = InteractiveMarkerControl()
mesh = Marker()
mesh.type = Marker.MESH_RESOURCE
mesh.scale.x = scale
mesh.scale.y = scale
mesh.scale.z = scale
if color is not None:
mesh.color.r = color[0]
mesh.color.g = color[1]
mesh.color.b = color[2]
mesh.color.a = color[3]
mesh.mesh_use_embedded_materials = False
else:
mesh.mesh_use_embedded_materials = True
mesh.mesh_resource = "package://pr2_description/meshes/gripper_v0/gripper_palm.dae"
mesh.pose.orientation.w = 1
control.markers.append(copy.deepcopy(mesh))
mesh.mesh_resource = "package://pr2_description/meshes/gripper_v0/l_finger.dae"
mesh.pose = matrix4ToPose(T_proximal)
control.markers.append(copy.deepcopy(mesh))
mesh.mesh_resource = "package://pr2_description/meshes/gripper_v0/l_finger_tip.dae"
mesh.pose = matrix4ToPose(T_distal)
control.markers.append(copy.deepcopy(mesh))
T1 = euclid.Matrix4()
T2 = euclid.Matrix4()
T1.translate(0.07691, -0.01, 0.)
T1.rotate_axis(numpy.pi, euclid.Vector3(1,0,0))
T1.rotate_axis(angle, euclid.Vector3(0,0,1))
T2.translate(0.09137, 0.00495, 0.)
T1.rotate_axis(-angle, euclid.Vector3(0,0,1))
T_proximal = T1.copy()
T_distal = T1 * T2
mesh.mesh_resource = "package://pr2_description/meshes/gripper_v0/l_finger.dae"
mesh.pose = matrix4ToPose(T_proximal)
control.markers.append(copy.deepcopy(mesh))
mesh.mesh_resource = "package://pr2_description/meshes/gripper_v0/l_finger_tip.dae"
mesh.pose = matrix4ToPose(T_distal)
control.markers.append(copy.deepcopy(mesh))
control.interaction_mode = InteractiveMarkerControl.BUTTON
return control
|
[
"def create_im(pose_st, markers):\n gripper_control = InteractiveMarkerControl()\n gripper_control.interaction_mode = InteractiveMarkerControl.MENU\n gripper_control.orientation = pose_st.pose.orientation\n gripper_control.always_visible = True\n gripper_control.markers.extend(markers)\n\n # set every marker in the gripper IM to green\n for m in gripper_control.markers:\n m.color = ColorRGBA(0, 1, 0, 1)\n\n gripper_im = InteractiveMarker()\n gripper_im.header = copy.deepcopy(pose_st.header)\n gripper_im.name = \"GripperMarker\"\n gripper_im.description = \"Gripper AutoPick Interactive Marker\"\n gripper_im.controls.append(gripper_control)\n gripper_im.controls.extend(make_6dof_controls())\n gripper_im.scale = 0.2\n gripper_im.menu_entries.extend(create_menu())\n return gripper_im",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIF2IF2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIRGBUC2IRGBUC2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIUS2IUS2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterICF2ICF2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkConstantPadImageFilterID2ID2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkInPlaceImageFilterICF2ID2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkConstantPadImageFilterID2ID2_Superclass.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkInPlaceImageFilterID2ICF2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterISS2ISS2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIUC2IUC2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def Clone(self) -> \"itkCyclicShiftImageFilterIF2IF2_Pointer\":\n return _itkCyclicShiftImageFilterPython.itkCyclicShiftImageFilterIF2IF2_Clone(self)",
"def New(*args, **kargs):\n obj = itkStochasticFractalDimensionImageFilterID2IUS2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkValuedRegionalMinimaImageFilterID2ID2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF22IVF22.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def make_6DOF_marker(int_marker):\n #x movement\n control = InteractiveMarkerControl()\n control.name = \"move_x\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 1\n control.orientation.y = 0\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #x rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_x\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 1\n control.orientation.y = 0\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #y movement\n control = InteractiveMarkerControl()\n control.name = \"move_y\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 1\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #y rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_y\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 1\n control.orientation.z = 0\n int_marker.controls.append(control);\n\n #z movement\n control = InteractiveMarkerControl()\n control.name = \"move_z\"\n control.interaction_mode = InteractiveMarkerControl.MOVE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 0\n control.orientation.z = 1\n int_marker.controls.append(control);\n\n #z rotation\n control = InteractiveMarkerControl()\n control.name = \"rotate_z\"\n control.interaction_mode = InteractiveMarkerControl.ROTATE_AXIS\n control.orientation.w = 1\n control.orientation.x = 0\n control.orientation.y = 0\n control.orientation.z = 1\n int_marker.controls.append(control);",
"def New(*args, **kargs):\n obj = itkCyclicShiftImageFilterIVF43IVF43.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def New(*args, **kargs):\n obj = itkInPlaceImageFilterIVF22ID2.__New_orig__()\n import itkTemplate\n itkTemplate.New(obj, *args, **kargs)\n return obj",
"def __init__(self, *args, **kwargs):\n super(PolygonROI, self).__init__(*args, **kwargs)\n rect = self.imageItem.boundingRect() # type: QRectF\n positions = [\n (rect.bottomLeft().x(), rect.bottomLeft().y()),\n (rect.bottomRight().x(), rect.bottomRight().y()),\n (rect.topRight().x(), rect.topRight().y()),\n (rect.topLeft().x(), rect.topLeft().y()),\n ]\n self._roiItem = BetterPolyLineROI(positions=positions, closed=True, scaleSnap=True, translateSnap=True)\n self.addItem(self._roiItem)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Short Summary Multiply the envelope by each fringe 'image'.
|
def multiplyenv(env, fringeterms):
# The envelope has size (fov, fov). This multiplies the envelope by each
# of the 43 slices in the fringe model
full = np.ones((np.shape(fringeterms)[1], np.shape(fringeterms)[2],
np.shape(fringeterms)[0] + 1))
for i, val in enumerate(fringeterms):
full[:, :, i] = env * fringeterms[i]
log.debug('Total number of fringe terms: %s', len(fringeterms) - 1)
return full
|
[
"def zoom(image):",
"def test_60_spectral_index_image_filtering():\n\tcasalog.origin(\"test_60_spectral_index_image_filtering\")\n\tcasalog.post(\"starting\")\n\n\timmath(imagename=['imgG192_6s_spw0-63_mfs2.image.alpha', \n\t 'imgG192_6s_spw0-63_mfs2.image.tt0'],\n\t mode='evalexpr',\n\t expr='IM0[IM1>2.0E-4]',\n\t outfile='imgG192_6s_spw0-63_mfs2.image.alpha.filtered')",
"def make_images_several_energyband(image_size,energy_bins, offset_band, source_name, center, data_store, obs_table_subset,\n exclusion_mask, outdir, make_background_image=True, spectral_index=2.3,\n for_integral_flux=False, radius=10.,save_bkg_norm=True):\n list_mosaicimages=list()\n for i, E in enumerate(energy_bins[0:-1]):\n energy_band = Energy([energy_bins[i].value, energy_bins[i + 1].value], energy_bins.unit)\n print energy_band\n mosaicimages=make_images(image_size,energy_band, offset_band, center, data_store, obs_table_subset, exclusion_mask, outdir,\n make_background_image, spectral_index, for_integral_flux, radius,save_bkg_norm)\n list_mosaicimages.append(mosaicimages)\n if save_bkg_norm:\n table=Table()\n for i,mosaic_images in enumerate(list_mosaicimages):\n table_bkg=mosaic_images.table_bkg_scale\n if i==0:\n array_bkg_scale=np.zeros((len(obs_table_subset),len(energy_bins[0:-1])))\n array_counts=np.zeros((len(obs_table_subset),len(energy_bins[0:-1])))\n itot=0 \n for irun,run in enumerate(table_bkg[\"OBS_ID\"]):\n while run!=obs_table_subset[\"OBS_ID\"][itot]:\n itot+=1\n array_bkg_scale[itot,i]=table_bkg[\"bkg_scale\"][irun]\n array_counts[itot,i]=table_bkg[\"N_counts\"][irun]\n itot+=1\n c0 = fits.Column(name=\"OBS_ID\", format='E', array=table_bkg[\"OBS_ID\"].data)\n c1 = fits.Column(name=\"bkg_norm\", format='PE()', array=array_bkg_scale)\n c2 = fits.Column(name=\"counts\", format='PE()', array=array_counts)\n hdu = fits.BinTableHDU.from_columns([c0, c1,c2])\n ebounds = energy_axis_to_ebounds(energy_bins)\n #ebounds = energy_axis_to_ebounds(BinnedDataAxis(energy_bins[0:-1],energy_bins[1:]))\n prim_hdu = fits.PrimaryHDU()\n hdu_list=fits.HDUList([prim_hdu, hdu, ebounds])\n hdu_list.writeto(outdir + \"/table_bkg_norm_.fits\")",
"def multiply(self,beam):\n\n # get array sizes\n N = np.size(beam.y)\n M = np.size(beam.x)\n\n # Number of pixels per grating period\n self.x_pitch = np.round(self.pitch/beam.dx)\n self.y_pitch = np.round(self.pitch/beam.dy)\n\n print(self.pitch/beam.dx)\n print(self.pitch/beam.dy)\n\n # re-initialize 1D gratings\n self.grating_x = np.zeros(M)\n self.grating_y = np.zeros(N)\n\n # calculate number of periods in the grating\n Mg = np.floor(M / self.x_pitch)\n Ng = np.floor(N / self.y_pitch)\n\n # width of feature based on duty cycle\n x_width = int(self.x_pitch/2*self.duty_cycle)\n y_width = int(self.y_pitch/2*self.duty_cycle)\n\n # loop through periods in the horizontal grating\n for i in range(int(Mg)):\n # each step defines one period\n self.grating_x[int(self.x_pitch) * (i + 1) - x_width:int(self.x_pitch) * (i + 1) + x_width] = 1\n\n # loop through features in the vertical grating\n for i in range(int(Ng)):\n # each step defines one period\n self.grating_y[int(self.y_pitch) * (i+1) - y_width:int(self.y_pitch) * (i + 1) + y_width] = 1\n\n # convert to checkerboard pi phase grating if desired\n if self.phase:\n\n self.grating_x = np.exp(1j*np.pi*self.grating_x)\n self.grating_y = np.exp(1j*np.pi*self.grating_y)\n\n # multiply beam by grating\n beam.wavex *= self.grating_x\n beam.wavey *= self.grating_y",
"def calculate_flat_field(images):\n\n _, height, _ = images.shape\n print(images.shape)\n filter_sigma = height // 16\n flat_field = gaussian_filter(normalize_and_convert_to_16_bit(np.median(images, axis = 0)), filter_sigma)\n \n print(flat_field.shape)\n return flat_field",
"def test_deVaucouleurs_profile(): \n\n # check scale_radius input\n obj = galsim.DeVaucouleurs(scale_radius=scale_radius)\n image_galsim_scale_radius = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_scale_radius = gf.lightprofiles.deVaucouleurs(scale_radius=[scale_radius], nx=stamp_size)[0,...]\n \n # check batch input\n obj1 = galsim.DeVaucouleurs(scale_radius=scale_radius)\n obj2 = galsim.DeVaucouleurs(scale_radius=scale_radius*2)\n image_galsim_batch1 = obj1.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galsim_batch2 = obj2.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galsim_batch = np.stack([image_galsim_batch1, image_galsim_batch2], axis=0)\n image_galflow_batch = gf.lightprofiles.deVaucouleurs(scale_radius=[scale_radius, scale_radius*2.], nx=stamp_size)\n\n # check half_light_radius input\n obj = galsim.DeVaucouleurs(half_light_radius=hlr, flux=flux)\n image_galsim_hlr = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_hlr = gf.lightprofiles.deVaucouleurs(half_light_radius=[hlr], nx=stamp_size, flux=flux)[0,...]\n\n # check scale input\n obj = galsim.DeVaucouleurs(half_light_radius=hlr, flux=flux)\n image_galsim_scale = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=scale, method='no_pixel').array\n image_galflow_scale = gf.lightprofiles.deVaucouleurs(half_light_radius=[hlr], nx=stamp_size, flux=[flux], scale=scale)[0,...]\n\n # check even and odd stamp sizes\n obj = galsim.DeVaucouleurs(scale_radius=scale_radius)\n image_galsim_size = obj.drawImage(nx=stamp_size, ny=stamp_size+1, scale=1., method='no_pixel').array\n image_galflow_size = gf.lightprofiles.deVaucouleurs(scale_radius=[scale_radius], nx=stamp_size, ny=stamp_size+1)[0,...]\n\n # check truncated profile, flux_untruncated=Flase\n obj = galsim.DeVaucouleurs(scale_radius=scale_radius, trunc=trunc, flux_untruncated=False)\n image_galsim_truncf = obj.drawImage(nx=stamp_size, ny=stamp_size+1, scale=1., method='no_pixel').array\n image_galflow_truncf = gf.lightprofiles.deVaucouleurs(scale_radius=[scale_radius], nx=stamp_size, ny=stamp_size+1, trunc=[trunc], flux_untruncated=[False])[0,...]\n \n # check truncated profile, flux_untruncated=True\n obj = galsim.DeVaucouleurs(scale_radius=scale_radius, trunc=trunc, flux_untruncated=True)\n image_galsim_trunct = obj.drawImage(nx=stamp_size, ny=stamp_size+1, scale=1., method='no_pixel').array\n image_galflow_trunct = gf.lightprofiles.deVaucouleurs(scale_radius=[scale_radius], nx=stamp_size, ny=stamp_size+1, trunc=[trunc], flux_untruncated=[True])[0,...]\n\n assert_allclose(image_galsim_scale_radius, image_galflow_scale_radius, rtol=1e-5)\n assert_allclose(image_galsim_batch, image_galflow_batch, atol=1e-5)\n assert_allclose(image_galsim_hlr, image_galflow_hlr, rtol=1e-5)\n assert_allclose(image_galsim_scale, image_galflow_scale, rtol=1e-5)\n assert_allclose(image_galsim_size, image_galflow_size, rtol=1e-5)\n assert_allclose(image_galsim_truncf, image_galflow_truncf, rtol=1e-5)\n assert_allclose(image_galsim_trunct, image_galflow_trunct, rtol=1e-5)",
"def _modifyPixelDigitizerForPhase1PixelWithPileup( processObject ) :\n if hasattr(processObject,'mix'): \n n=0\n if hasattr(processObject.mix,'input'):\n n=processObject.mix.input.nbPileupEvents.averageNumber.value()\n if n>0:\n processObject.mix.digitizers.pixel.thePixelColEfficiency_BPix1 = cms.double(1.0-(0.0238*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_BPix2 = cms.double(1.0-(0.0046*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_BPix3 = cms.double(1.0-(0.0018*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_BPix4 = cms.double(1.0-(0.0008*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_FPix1 = cms.double(1.0-(0.0018*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_FPix2 = cms.double(1.0-(0.0018*n/50.0))\n processObject.mix.digitizers.pixel.thePixelColEfficiency_FPix3 = cms.double(1.0-(0.0018*n/50.0))",
"def rescaled_image():",
"def aperphot(image,objects,aper=[3],gain=None,mag_zeropoint=25.0):\n\n if isinstance(image,CCDData) is False:\n raise ValueError(\"Image must be a CCDData object\")\n\n # Get C-continuous data\n data,error,mask,sky = image.ccont\n data_sub = data-sky\n \n # Get gain from image if possible\n gain = image.gain\n\n # Initialize the output catalog\n outcat = objects.copy()\n \n # Circular aperture photometry\n for i,ap in enumerate(aper):\n apflux, apfluxerr, apflag = sep.sum_circle(data_sub, outcat['x'], outcat['y'],\n ap, err=error, mask=mask, gain=gain)\n # Add to the catalog\n outcat['flux_aper'+str(i+1)] = apflux\n outcat['fluxerr_aper'+str(i+1)] = apfluxerr\n outcat['mag_aper'+str(i+1)] = -2.5*np.log10(apflux)+mag_zeropoint\n outcat['magerr_aper'+str(i+1)] = (2.5/np.log(10))*(apfluxerr/apflux) \n outcat['flag_aper'+str(i+1)] = apflag\n\n # Make sure theta's are between -pi/2 and +pi/2 radians\n if 'theta' in objects.columns:\n theta = objects['theta'].copy()\n hi = theta>0.5*np.pi\n if np.sum(hi)>0:\n theta[hi] -= np.pi\n lo = theta<-0.5*np.pi \n if np.sum(lo)>0:\n theta[lo] += np.pi\n else:\n theta = np.zeros(len(outcat),float)\n \n # We have morphology parameters\n if 'a' in outcat.columns and 'b' in outcat.columns:\n kronrad, krflag = sep.kron_radius(data_sub, outcat['x'], outcat['y'], outcat['a'],\n outcat['b'], theta, 6.0, mask=mask)\n else:\n kronrad, krflag = None, None\n \n # Add more columns\n outcat['flux_auto'] = 0.0\n outcat['fluxerr_auto'] = 0.0\n outcat['mag_auto'] = 0.0\n outcat['magerr_auto'] = 0.0\n outcat['kronrad'] = kronrad\n outcat['flag_auto'] = np.int16(0)\n\n # BACKGROUND ANNULUS???\n\n # FLUX_AUTO\n \n # Only use elliptical aperture if Kron radius is large enough\n # Use circular aperture photometry if the Kron radius is too small\n r_min = 1.75 # minimum diameter = 3.5 \n if kronrad is not None:\n use_circle = kronrad * np.sqrt(outcat['a'] * outcat['b']) < r_min\n else:\n use_circle = np.ones(len(outcat),bool)\n nuse_ellipse = np.sum(~use_circle)\n nuse_circle = np.sum(use_circle)\n \n # Elliptical aperture\n if nuse_ellipse>0:\n #import pdb; pdb.set_trace()\n flux, fluxerr, flag = sep.sum_ellipse(data=data_sub, x=outcat['x'][~use_circle], y=outcat['y'][~use_circle],\n a=outcat['a'][~use_circle],b=outcat['b'][~use_circle],\n theta=outcat['theta'][~use_circle], r=2.5*kronrad[~use_circle],\n subpix=1, err=error, mask=mask)\n flag |= krflag[~use_circle] # combine flags into 'flag'\n outcat['flux_auto'][~use_circle] = flux\n outcat['fluxerr_auto'][~use_circle] = fluxerr\n outcat['mag_auto'][~use_circle] = -2.5*np.log10(flux)+mag_zeropoint\n outcat['magerr_auto'][~use_circle] = (2.5/np.log(10))*(fluxerr/flux) \n outcat['flag_auto'][~use_circle] = flag\n \n # Use circular aperture photometry if the Kron radius is too small\n if nuse_circle>0:\n cflux, cfluxerr, cflag = sep.sum_circle(data_sub, outcat['x'][use_circle],\n outcat['y'][use_circle], r_min, subpix=1,\n err=error, mask=mask)\n outcat['flux_auto'][use_circle] = cflux\n outcat['fluxerr_auto'][use_circle] = cfluxerr\n outcat['mag_auto'][use_circle] = -2.5*np.log10(cflux)+mag_zeropoint\n outcat['magerr_auto'][use_circle] = (2.5/np.log(10))*(cfluxerr/cflux) \n outcat['flag_auto'][use_circle] = cflag\n outcat['kronrad'][use_circle] = r_min\n\n # Add S/N\n outcat['snr'] = 1.087/outcat['magerr_auto']\n \n return outcat",
"def _perturb_image(self, x: np.ndarray, img: np.ndarray) -> np.ndarray:\n return img",
"def test_gaussian_profile(): \n\n # check sigma input\n obj = galsim.Gaussian(sigma=sigma)\n image_galsim_sigma = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_sigma = gf.lightprofiles.gaussian(sigma=[sigma], nx=stamp_size, ny=stamp_size)[0,...]\n\n # check batch input\n obj1 = galsim.Gaussian(sigma=sigma)\n obj2 = galsim.Gaussian(sigma=sigma*2)\n image_galsim_batch1 = obj1.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galsim_batch2 = obj2.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galsim_batch = np.stack([image_galsim_batch1, image_galsim_batch2], axis=0)\n image_galflow_batch = gf.lightprofiles.gaussian(sigma=[sigma, sigma*2], nx=stamp_size, ny=stamp_size)\n\n # check half_light_radius input\n obj = galsim.Gaussian(half_light_radius=hlr)\n image_galsim_hlr = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_hlr = gf.lightprofiles.gaussian(half_light_radius=[hlr], nx=stamp_size, ny=stamp_size)[0,...]\n\n # check fwhm input\n obj = galsim.Gaussian(fwhm=fwhm)\n image_galsim_fwhm = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_fwhm = gf.lightprofiles.gaussian(fwhm=[fwhm], nx=stamp_size, ny=stamp_size)[0,...]\n\n # check fwhm input\n obj = galsim.Gaussian(fwhm=fwhm)\n image_galsim_scale = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=scale, method='no_pixel').array\n image_galflow_scale = gf.lightprofiles.gaussian(fwhm=[fwhm], nx=stamp_size, ny=stamp_size, scale=scale)[0,...]\n\n # check flux input\n obj = galsim.Gaussian(fwhm=fwhm, flux=flux)\n image_galsim_flux = obj.drawImage(nx=stamp_size, ny=stamp_size, scale=1., method='no_pixel').array\n image_galflow_flux = gf.lightprofiles.gaussian(fwhm=[fwhm], flux=[flux], nx=stamp_size, ny=stamp_size)[0,...]\n\n # check even and odd stamp sizes\n obj = galsim.Gaussian(fwhm=fwhm, flux=flux)\n image_galsim_size = obj.drawImage(nx=stamp_size, ny=stamp_size+1, scale=1., method='no_pixel').array\n image_galflow_size = gf.lightprofiles.gaussian(fwhm=[fwhm], flux=[flux], nx=stamp_size, ny=stamp_size+1)[0,...]\n\n assert_allclose(image_galsim_sigma, image_galflow_sigma, atol=1e-5)\n assert_allclose(image_galsim_batch, image_galflow_batch, atol=1e-5)\n assert_allclose(image_galsim_hlr, image_galflow_hlr, atol=1e-5)\n assert_allclose(image_galsim_fwhm, image_galflow_fwhm, atol=1e-5)\n assert_allclose(image_galsim_scale, image_galflow_scale, rtol=1e-5)\n assert_allclose(image_galsim_flux, image_galflow_flux, atol=1e-5)\n assert_allclose(image_galsim_size, image_galflow_size, atol=1e-5)",
"def GSS(PixA_I, PixA_J, PixA_mI, PixA_mJ, SFFTConfig, ContamMask_I=None, \\\n BACKEND_4SUBTRACT='Cupy', NUM_CPU_THREADS_4SUBTRACT=8, VERBOSE_LEVEL=2):\n \n SFFT_BANNER = r\"\"\"\n __ __ __ __\n / \\ / \\ / \\ / \\\n / \\/ \\/ \\/ \\\n █████████████████/ /██/ /██/ /██/ /█████████████████████████\n / / \\ / \\ / \\ / \\ \\____\n / / \\_/ \\_/ \\_/ \\ o \\__,\n / _/ \\_____/ `\n |/\n \n █████████ ███████████ ███████████ ███████████ \n ███░░░░░███░░███░░░░░░█░░███░░░░░░█░█░░░███░░░█ \n ░███ ░░░ ░███ █ ░ ░███ █ ░ ░ ░███ ░ \n ░░█████████ ░███████ ░███████ ░███ \n ░░░░░░░░███ ░███░░░█ ░███░░░█ ░███ \n ███ ░███ ░███ ░ ░███ ░ ░███ \n ░░█████████ █████ █████ █████ \n ░░░░░░░░░ ░░░░░ ░░░░░ ░░░░░ \n \n Saccadic Fast Fourier Transform (SFFT) algorithm\n sfft (v1.*) supported by @LeiHu\n \n GitHub: https://github.com/thomasvrussell/sfft\n Related Paper: https://arxiv.org/abs/2109.09334\n \n ████████████████████████████████████████████████████████████████\n \n \"\"\"\n \n if VERBOSE_LEVEL in [2]:\n print(SFFT_BANNER)\n \n # * Size-Check\n tmplst = [PixA_I.shape, PixA_J.shape, PixA_mI.shape, PixA_mI.shape]\n if len(set(tmplst)) > 1:\n raise Exception('MeLOn ERROR: Input images should have same size!')\n \n # * Subtraction Solution derived from input masked image-pair\n Solution = ElementalSFFTSubtract.ESS(PixA_I=PixA_mI, PixA_J=PixA_mJ, \\\n SFFTConfig=SFFTConfig, SFFTSolution=None, Subtract=False, BACKEND_4SUBTRACT=BACKEND_4SUBTRACT, \\\n NUM_CPU_THREADS_4SUBTRACT=NUM_CPU_THREADS_4SUBTRACT, VERBOSE_LEVEL=VERBOSE_LEVEL)[0]\n \n # * Subtraction of the input image-pair (use above solution)\n PixA_DIFF = ElementalSFFTSubtract.ESS(PixA_I=PixA_I, PixA_J=PixA_J, \\\n SFFTConfig=SFFTConfig, SFFTSolution=Solution, Subtract=True, BACKEND_4SUBTRACT=BACKEND_4SUBTRACT, \\\n NUM_CPU_THREADS_4SUBTRACT=NUM_CPU_THREADS_4SUBTRACT, VERBOSE_LEVEL=VERBOSE_LEVEL)[1]\n \n # * Identify propagated contamination region through convolving I\n ContamMask_CI = None\n if ContamMask_I is not None:\n tSolution = Solution.copy()\n DB = SFFTConfig[0]['DB']\n Fpq = int((DB+1)*(DB+2)/2)\n tSolution[-Fpq:] = 0.0\n\n _tmpI = ContamMask_I.astype(np.float64)\n _tmpJ = np.zeros(PixA_J.shape).astype(np.float64)\n _tmpD = ElementalSFFTSubtract.ESS(PixA_I=_tmpI, PixA_J=_tmpJ, \\\n SFFTConfig=SFFTConfig, SFFTSolution=tSolution, Subtract=True, BACKEND_4SUBTRACT=BACKEND_4SUBTRACT, \\\n NUM_CPU_THREADS_4SUBTRACT=NUM_CPU_THREADS_4SUBTRACT, VERBOSE_LEVEL=VERBOSE_LEVEL)[1]\n \n FTHRESH = -0.001 # Emperical\n ContamMask_CI = _tmpD < FTHRESH\n \n return Solution, PixA_DIFF, ContamMask_CI",
"def ap_trace(img, fmask=(1,), nsteps=20, interac=False,\n recenter=False, prevtrace=(0,), bigbox=15,\n Saxis=1, display=False,mode='spline',degree=3):\n\n # define the wavelength axis\n Waxis = 0\n # add a switch in case the spatial/wavelength axis is swapped\n if Saxis is 0:\n Waxis = 1\n\n print('Tracing Aperture using nsteps='+str(nsteps))\n # the valid y-range of the chip\n if (len(fmask)>1):\n ydata = np.arange(img.shape[Waxis])[fmask]\n else:\n ydata = np.arange(img.shape[Waxis])\n\n # need at least 4 samples along the trace. sometimes can get away with very few\n if (nsteps<4):\n nsteps = 4\n\n # median smooth to crudely remove cosmic rays\n img_sm = scipy.signal.medfilt2d(img, kernel_size=(5,5))\n\n #--- Pick the strongest source, good if only 1 obj on slit\n ztot = np.nansum(img_sm,axis=Saxis)[ydata]\n yi = np.arange(img.shape[Waxis])[ydata]\n peak_y = yi[np.nanargmax(ztot)]\n peak_guess = [np.nanmax(ztot), np.nanmedian(ztot), peak_y, 2.]\n\n #-- allow interactive mode, if mult obj on slit\n if interac is True and recenter is False:\n class InteracTrace(object):\n def __init__(self):\n self.fig = plt.figure()\n self.ax = self.fig.add_subplot(111)\n self.ax.plot(yi, ztot)\n plt.ylabel('Counts (Image summed in X direction)')\n plt.xlabel('Y Pixel')\n plt.title('Click on object!')\n\n self.cursor = Cursor(self.ax, useblit=False, horizOn=False,\n color='red', linewidth=1 )\n self.connect = self.fig.canvas.mpl_connect\n self.disconnect = self.fig.canvas.mpl_disconnect\n self.ClickID = self.connect('button_press_event', self.__onclick__)\n\n return\n\n def __onclick__(self,click):\n if self.fig.canvas.manager.toolbar._active is None:\n self.xpoint = click.xdata\n self.ypoint = click.ydata\n self.disconnect(self.ClickID) # disconnect from event\n self.cursor.disconnect_events()\n self.cursor._update()\n plt.close() # close window when clicked\n return self.xpoint, self.ypoint\n else:\n pass\n \n if matplotlib.is_interactive():\n print(\"Momentarily turning off matplotlib interactive mode...\")\n plt.ioff()\n mplwasinteract = True\n else:\n mplwasinteract = False\n\n theclick = InteracTrace() #interactive bits don't work properly as is withn matplotlib interactive is on\n plt.show()\n\n if mplwasinteract:\n plt.ion()\n\n xcl = theclick.xpoint\n # ycl = theclick.ypoint\n\n peak_guess[2] = xcl\n\n #-- use middle of previous trace as starting guess\n if (recenter is True) and (len(prevtrace)>10):\n peak_guess[2] = np.nanmedian(prevtrace)\n\n #-- fit a Gaussian to peak\n popt_tot, pcov = curve_fit(_gaus, yi[np.isfinite(ztot)], ztot[np.isfinite(ztot)], p0=peak_guess)\n #-- only allow data within a box around this peak\n ydata2 = ydata[np.where((ydata>=popt_tot[2] - popt_tot[3]*bigbox) &\n (ydata<=popt_tot[2] + popt_tot[3]*bigbox))]\n\n yi = np.arange(img.shape[Waxis])[ydata2]\n # define the X-bin edges\n xbins = np.linspace(0, img.shape[Saxis], nsteps).astype('int')\n ybins = np.zeros_like(xbins)\n\n for i in range(0,len(xbins)-1):\n #-- fit gaussian w/i each window\n if Saxis is 1:\n zi = np.nanmean(img_sm[ydata2, xbins[i]:xbins[i+1]],axis=Saxis)\n else:\n zi = np.nanmean(img_sm[xbins[i]:xbins[i+1], ydata2],axis=Saxis)\n\n pguess = [np.nanmax(zi), np.nanmedian(zi), yi[np.nanargmax(zi)], 2.]\n popt,pcov = curve_fit(_gaus, yi[np.isfinite(zi)], zi[np.isfinite(zi)], p0=pguess)\n\n # if gaussian fits off chip, then use chip-integrated answer\n if (popt[2] <= min(ydata)+25) or (popt[2] >= max(ydata)-25):\n ybins[i] = popt_tot[2]\n popt = popt_tot\n else:\n ybins[i] = popt[2]\n\n # update the box it can search over, in case a big bend in the order\n # ydata2 = ydata[np.where((ydata>= popt[2] - popt[3]*bigbox) &\n # (ydata<= popt[2] + popt[3]*bigbox))]\n\n # recenter the bin positions, trim the unused bin off in Y\n mxbins = (xbins[:-1]+xbins[1:]) / 2.\n mybins = ybins[:-1]\n\n mx = np.arange(0, img.shape[Saxis])\n\n if mode=='spline':\n # run a cubic spline thru the bins\n ap_spl = UnivariateSpline(mxbins, mybins, ext=0, k=3, s=0)\n # interpolate the spline to 1 position per column\n my = ap_spl(mx)\n elif mode=='poly':\n trcoeffs = np.polyfit(mxbins,mybins,degree)\n my = np.polyval(trcoeffs,mx)\n\n\n if display is True:\n plt.figure()\n plt.imshow(np.log10(img),origin='lower',aspect='auto',cmap=cm.Greys_r)\n plt.autoscale(False)\n plt.plot(mx,my,'b',lw=1)\n # plt.plot(mx,my+popt_tot[3]*bigbox,'y')\n # plt.plot(mx,my-popt_tot[3]*bigbox,'y')\n plt.show()\n\n print(\"> Trace gaussian width = \"+str(popt_tot[3])+' pixels')\n return my",
"def convolve(self, img):",
"def main():\n single_patch = create_filtered_image(1.5, 0, 1.5)\n if single_patch != None:\n single_patch.show()\n\n warhol_image = make_warhol()\n if warhol_image != None:\n warhol_image.show()",
"def skysub(imagename,fibersize):\n skyname = '{:}.ms_s{:n}_lin.fits'.\\\n format(imagename.split('.ms_lin.fits')[0],fibersize)\n print \"Generating {} micron sky sub image {}\".format(fibersize*100,skyname)\n\n iraf.skysub(imagename,\n output=skyname,\n objbeam='{},{}'.format(fibersize,fibersize*11),\n skybeam='{}'.format(fibersize*11),\n skyedit='yes',\n combine='average',\n reject='avsigclip',\n scale='none',\n savesky='yes',\n logfile='spool.txt')\n\n return skyname",
"def main():\n original_img = image.Image('pres_casey.gif')\n red_image = red_filter(original_img)\n win = image.ImageWin(original_img.getWidth(), original_img.getHeight())\n red_image.draw(win)\n\n grayscale_img = grayscale(original_img)\n grayscale_img.draw(win)\n\n cycle_colors_img = cycle_colors(original_img)\n cycle_colors_img.draw(win)\n\n negative_img = negative(original_img)\n negative_img.draw(win)\n\n brightness_img = brightness(original_img, 90)\n brightness_img.draw(win)\n\n increase_contrast_img = increase_contrast(original_img)\n increase_contrast_img.draw(win)\n\n vertical_flip_image = vertical_flip(original_img)\n vertical_flip_image.draw(win)\n\n posterize_image = posterize(original_img)\n posterize_image.draw(win)\n\n scroll_image = scroll(original_img, 10)\n scroll_image.draw(win)\n\n horizontal_mirror_image = horizontal_mirror(original_img)\n horizontal_mirror_image.draw(win)\n\n obamafy_image = obamafy(original_img)\n obamafy_image.draw(win)",
"def test_62_intensity_weighted_mean_spectral_analysis():\n\tcasalog.origin(\"test_62_intensity_weighted_mean_spectral_analysis\")\n\tcasalog.post(\"starting\")\n\n\t# Removing any file output from previous runs, so immath will proceed\n\tos.system('rm -rf imgG192_6s_spw0-63_mfs2.image.tt1.filtered')\n\timmath(imagename=['imgG192_6s_spw0-63_mfs2.image.tt1',\n\t 'imgG192_6s_spw0-63_mfs2.image.tt0'],\n\t mode='evalexpr',\n\t expr='IM0[IM1>2E-4]',\n\t outfile='imgG192_6s_spw0-63_mfs2.image.tt1.filtered')\n\t#\n\t# Removing any file output from previous runs, so immath will proceed\n\tos.system('rm -rf imgG192_6s_spw0-63_mfs2.image.tt0.filtered')\n\timmath(imagename=['imgG192_6s_spw0-63_mfs2.image.tt0'],\n\t mode='evalexpr',\n\t expr='IM0[IM0>2E-4]',\n\t outfile='imgG192_6s_spw0-63_mfs2.image.tt0.filtered')",
"def subtractnei(image,allcat,psfcat,psf):\n\n indnei = findpsfnei(allcat,psfcat,psf.npix)\n nnei = len(indnei)\n\n flux = image.data-image.sky\n resid = image.copy()\n fitradius = psf.fwhm()*0.5\n \n # Loop over neighboring stars and fit just the core\n for i in range(nnei):\n x1 = allcat['x'][indnei[i]]\n xp1 = int(np.minimum(np.maximum(np.round(x1),0),image.shape[1]-1))\n y1 = allcat['y'][indnei[i]]\n yp1 = int(np.minimum(np.maximum(np.round(y1),0),image.shape[0]-1))\n if 'amp' in allcat.columns:\n h1 = allcat['amp'][indnei[i]]\n elif 'peak' in allcat.columns:\n h1 = allcat['peak'][indnei[i]]\n else:\n h1 = flux[yp1,xp1]\n initpars = [h1,x1,y1] #image.sky[yp1,xp1]]\n bbox = psf.starbbox((initpars[1],initpars[2]),image.shape,psf.radius)\n # Fit amp empirically with central pixels\n flux1 = flux[bbox.slices]\n err1 = image[bbox.slices].error\n model1 = psf(pars=initpars,bbox=bbox)\n good = ((flux1/err1>2) & (flux1>0) & (model1/np.max(model1)>0.25))\n amp = np.median(flux1[good]/model1[good]) * initpars[0]\n pars = [amp, x1, y1]\n #starcat,perror = psf.fit(flux,pars=initpars,radius=fitradius,recenter=False,niter=2)\n #pars = [starcat['amp'][0],starcat['x'][0],starcat['y'][0]]\n im1 = psf(pars=pars,bbox=bbox)\n resid[bbox.slices].data -= im1\n return resid"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Short Summary Calculate closure phases between each pair of holes
|
def closurephase(deltap, n=7):
# p is a triangular matrix set up to calculate closure phases
if n == 7:
p = np.array([deltap[:6], deltap[6:11], deltap[11:15],
deltap[15:18], deltap[18:20], deltap[20:]], dtype=object)
elif n == 10:
p = np.array([deltap[:9], deltap[9:17], deltap[17:24],
deltap[24:30], deltap[30:35], deltap[35:39],
deltap[39:42], deltap[42:44], deltap[44:]], dtype=object)
else:
log.critical('invalid hole number: %s', n)
# calculates closure phases for general N-hole mask (with p-array set
# up properly above)
cps = np.zeros((n - 1) * (n - 2) // 2)
for j1 in range(n - 2):
for j2 in range(n - 2 - j1):
cps[int(j1 * ((n + (n - 3) - j1) / 2.0)) + j2] = \
p[j1][0] + p[j1 + 1][j2] - p[j1][j2 + 1]
return cps
|
[
"def outer_loop(G, cycles):\n return max([(c.area(), c) for c in cycles])[1]",
"def components_in_closure(self):\n cycles = self.permutation().to_cycles(singletons=False)\n return self.strands() - sum(len(c)-1 for c in cycles)",
"def ray_trace_jones_bottom_up_test():",
"def ray_trace_full_set_jones(tstep=5, runtime=24, m0=(2*np.pi)/250, plots=True):\n ladcp, ctd, bathy = data_load.load_data()\n U, V, z_grid = oc.loadLADCP(ladcp)\n S, T, p, lat, lon = oc.loadCTD(ctd)\n N2 = oc.gswN2(S, T, p, lat, lon)\n for i, cast in enumerate(N2.T):\n N2[:,i] = oc.verticalBoxFilter1(cast, p[:,i])\n # Load Data\n lambdaH = pd.read_excel('lambdaH.xlsx')\n kh = pd.read_excel('Kh_masked.xlsx')\n omega = pd.read_excel('omega_masked.xlsx')\n # Depth grid stored as index in pandas dataframes\n depths = np.array(omega.index)\n X = pd.DataFrame(index=depths, columns=np.arange(0,21))\n Z = pd.DataFrame(index=depths, columns=np.arange(0,21))\n OM = pd.DataFrame(index=depths, columns=np.arange(0,21))\n m = pd.DataFrame(index=depths, columns=np.arange(0,21))\n# time = np.arange(0, runtime, tstep)\n x_all = []\n z_all = []\n Om_all = []\n starts = []\n count=0\n for i in range(kh.shape[1]):\n \n \n for k in range(kh.shape[0]):\n depth = depths[k]\n if np.isfinite(kh.loc[depth][i]) and np.isfinite(omega.loc[depth][i]):\n X.loc[depth][i], Z.loc[depth][i],\\\n OM.loc[depth][i], m.loc[depth][i]\\\n = ray_trace_jones_top_down(U[:,i], V[:,i], z_grid,\\\n N2[:,i], p[:,i], kh.loc[depth][i],\\\n m0, depth, omega.loc[depth][i], lat[:,i],\\\n tstep=tstep, runtime=runtime)\n starts.append([i+1, depth])\n x_all.append(X.loc[depth][i])\n z_all.append(Z.loc[depth][i])\n Om_all.append(OM.loc[depth][i])\n \n else:\n X.loc[depth][i] = np.nan\n OM.loc[depth][i] = np.nan\n Z.loc[depth][i] = np.nan\n m.loc[depth][i] = np.nan\n count +=1\n print(count)\n \n \n x_all = np.vstack(x_all)\n z_all = np.vstack(z_all)\n Om_all = np.vstack(Om_all)\n starts = np.vstack(starts)\n \n np.savetxt('x_ray_trace.csv', x_all)\n np.savetxt('z_ray_trace.csv', z_all)\n np.savetxt('Om_ray_trace.csv', Om_all)\n np.savetxt('starts_ray_trace.csv', starts)\n \n \n \n \n # Plotting Data\n if plots:\n fig = plt.figure()\n for i in range(kh.shape[1]):\n for k in range(kh.shape[0]):\n depth = depths[k]\n idx = i\n plt.plot(X.loc[depth][idx],Z.loc[depth][idx])\n plt.xlabel('Horizontal Distance (km)')\n plt.ylabel('depth (m)')\n plt.gca().invert_yaxis()\n \n \n fig = plt.figure()\n for i in range(kh.shape[1]):\n for k in range(kh.shape[0]):\n depth = depths[k]\n idx = i\n plt.plot(X.loc[depth][idx],m.loc[depth][idx]/(2*np.pi))\n plt.xlabel('Horizontal Distance (km)')\n plt.ylabel('vertical wavenumber')\n \n \n fig = plt.figure()\n for i in range(kh.shape[1]):\n for k in range(kh.shape[0]):\n depth = depths[k]\n idx = i\n plt.plot(X.loc[depth][idx],OM.loc[depth][idx])\n plt.xlabel('Horizontal Distance (km)')\n plt.ylabel('frequency ')\n \n \n \n \n \n return x_all, z_all, Om_all, starts",
"def pie_parts(t, n, length) :\n t.lt(30)\n angle = 90 + 180/n\n for i in range(n) :\n t.fd(length/2/math.sin(math.pi/n))\n t.lt(angle)\n t.fd(length)\n t.lt(angle)\n t.fd(length/2/math.sin(math.pi/n))\n t.lt(180)\n t.rt(30)",
"def berry_phase(self):\n det = 1\n for i_k in range(self.N-2):\n\n det *= self.link(i_k,i_k+1)\n\n return det * self.periodic_link()",
"def life(a, b, c, d, E, f, g, h, i):\n outer = sum([t.n for t in [a, b, c, d, f, g, h, i]])\n return on if (E.n and outer == 2) or outer == 3 else off",
"def polyHole(assignHole=bool, createHistory=bool):\n pass",
"def calculatedifferencesEEallrings(c_i,c_i_p):\n\n \n differencesp = [[0.0 for col in range(72)] for row in range (39) ]\n differencesm = [[0.0 for col in range(72)] for row in range (39) ]\n\n\n rmssp = [[0.0 for col in range(72)] for row in range (39) ]\n rmssm = [[0.0 for col in range(72)] for row in range (39) ] \n\n\n\n for rng in range(39):\n for sec in range(72):\n n=0 \n for hash in range(hashsizeEE): \n \n ix,iy,iz= unhashEEIndex(hash)\n\n if endcapring(ix,iy,iz) == rng and sector(ix,iy,iz)==sec:\n n+=1 \n diff = c_i[hash] - c_i_p[hash]\n if iz>0 :differencesp[rng][sec]+=diff\n else :differencesm[rng][sec]+=diff\n\n if n: \n differencesp[rng][sec]/=n\n differencesm[rng][sec]/=n\n\n\n for rng in range(39):\n for sec in range(72):\n n=0 \n for hash in range(hashsizeEE): \n \n ix,iy,iz= unhashEEIndex(hash)\n\n if endcapring(ix,iy,iz) == rng and sector(ix,iy,iz)==sec:\n n+=1 \n diff = c_i[hash] - c_i_p[hash]\n if iz>0 :rmssp[rng][sec]+=pow(diff - differencesp[rng][sec],2)\n else :rmssm[rng][sec]+=pow(diff - differencesp[rng][sec],2)\n if n: \n rmssp[rng][sec] = sqrt(rmssp[rng][sec]/n/(n-1))\n rmssm[rng][sec] = sqrt(rmssp[rng][sec]/n/(n-1))\n\n return differencesp,rmssp,differencesm,rmssm",
"def closure_amplitudes(amps, n=7):\n arr = populate_symmamparray(amps, n=n) # fringe amp array\n nn = 0\n\n cas = np.zeros(int(comb(n, 4)))\n\n for ii in range(n - 3):\n for jj in range(n - ii - 3):\n for kk in range(n - jj - ii - 3):\n for ll in range(n - jj - ii - kk - 3):\n cas[nn + ll] = arr[ii, jj + ii + 1] \\\n * arr[ll + ii + jj + kk + 3, kk + jj + ii + 2] \\\n / (arr[ii, kk + ii + jj + 2] *\n arr[jj + ii + 1, ll + ii + jj + kk + 3])\n nn = nn + ll + 1\n\n return cas",
"def longestPhase(self,passovers):\n # loop through each passover\n for passes in passovers:\n passoverStart = passes.getStartTime()\n passoverEnd = passes.getEndTime()\n tle = passes.getTLE()\n #get azi0 point\n azi0=self.azimuthZero(passoverStart, passoverEnd,tle)\n #get the size of phase1\n phase1=time.mktime(azi0.timetuple())-(time.mktime(passoverStart.timetuple()))\n #get the size of phase2\n phase2=time.mktime(passoverEnd.timetuple())-(time.mktime(azi0.timetuple())+1)\n #if phase 1 is longer\n if phase1>=phase2:\n print('phase1 chosen. phase1 %.2f ........ phase2 %.2f' % (phase1,phase2))\n #set end time to azi0.\n passes.setEndTime(azi0)\n #if phase 2 is longer\n elif phase2>phase1:\n print('phase2')\n #set start time to one second after azi0\n passes.setStartTime(azi0+timedelta(seconds=1))\n return passovers",
"def try_phase():\n global init_simp, smp_trace,aigs\n n = n_phases()\n print 'Phases = %d'%n\n## if ((n == 1) or (n_ands() > 45000) or init_simp == 0):\n if ((n == 1) or (n_ands() > 60000)):\n return False\n## init_simp = 0\n res = a_trim()\n## print hist\n print 'Trying phase abstraction - Max phase = %d'%n\n abc('w %s_phase_temp.aig'%f_name)\n na = n_ands()\n nl = n_latches()\n ni = n_pis()\n no = n_pos()\n z = ok_phases(n) # factors n into prime factors\n print z,\n if len(z) == 1:\n return False\n #p = choose_phase()\n p = z[1]\n abc('phase -F %d'%p)\n if no == n_pos(): #nothing happened because p is not mod period\n print 'Phase %d is incompatible'%p\n abc('r %s_phase_temp.aig'%f_name)\n if len(z)< 3:\n return False\n else:\n p = z[2]\n #print 'Trying phase = %d: '%p,\n abc('phase -F %d'%p)\n if no == n_pos(): #nothing happened because p is not mod period\n print 'Phase %d is incompatible'%p\n abc('r %s_phase_temp.aig'%f_name)\n return False\n else:\n smp_trace = smp_trace + ['phase -F %d'%p]\n abc('r %s_phase_temp.aig'%f_name)\n abc('&get;&frames -o -F %d;&scl;&put'%p)\n else:\n abc('r %s_phase_temp.aig'%f_name)\n abc('&get;&frames -o -F %d;&scl;&put'%p)\n smp_trace = smp_trace + ['phase -F %d'%p]\n print 'Simplifying with %d phases: => '%p,\n smp_trace = smp_trace + ['simplify(1)']\n simplify(1)\n## res = a_trim() #maybe we don't need this because rel_cost uses n_real_inputs\n ps()\n cost = rel_cost([ni,nl,na])\n print 'New relative cost = %f'%(cost)\n if cost < -.01:\n abc('w %s_phase_temp.aig'%f_name)\n if ((n_latches() == 0) or (n_ands() == 0)):\n return True\n if n_phases() == 1: #this bombs out if no latches. Need to see if any more phases to be tried.\n aigs_pp('push','phase') #this code can be simplified - \n print 'n_phases = %d'%n_phases()\n return False\n else:\n aigs_pp('push','phase')\n result = try_phase()\n return result\n elif len(z)>2: #Try the next eligible phase.\n abc('r %s_phase_temp.aig'%f_name)\n if p == z[2]: #already tried this\n return False\n p = z[2]\n print 'Trying phase = %d: => '%p,\n abc('phase -F %d'%p)\n if no == n_pos(): #nothing happened because p is not mod period\n print 'Phase = %d is not compatible'%p\n return False\n abc('r %s_phase_temp.aig'%f_name)\n abc('&get;&frames -o -F %d;&scl;&put'%p)\n smp_trace = smp_trace + ['phase -F %d'%p]\n print 'Simplify with %d phases: '%p,\n simplify(1)\n## res =a_trim() #maybe we don't need this because rel_cost uses n_real_inputs\n cost = rel_cost([ni,nl,na])\n print 'New relative cost = %f'%(cost)\n if cost < -.01:\n print 'Phase abstraction with %d phases obtained:'%p,\n print_circuit_stats()\n abc('w %s_phase_temp.aig'%f_name)\n if ((n_latches() == 0) or (n_ands() == 0)):\n return True\n if n_phases() == 1: # this bombs out if no latches\n return True\n else:\n aigs_pp('push','phase')\n result = try_phase()\n return result\n else:\n smp_trace = smp_trace + ['de_phase']\n abc('r %s_phase_temp.aig'%f_name)\n return False",
"def number_of_reflection_hyperplanes(self):\n from sage.rings.all import ZZ\n return ZZ.sum(codeg+1 for codeg in self.codegrees())",
"def pattern_for_phase( p, size ):\n return [[0,1,0,-1][(c//(p+1))%4] for c in range(1,size+1)]",
"def airport_throughput(airport):\n C = 0.0\n count = 0\n for sid in airport.sids():\n for star in airport.stars():\n if sid.RWY == star.RWY == 19:\n q = topology_complexity(sid, star)\n Cr, Cm, Cp, P = complexity2throughput(1, q, 0.5)\n # print(\"%s vs %s: %g(%g)\" % (sid.name, star.name, Cr/2, q))\n C += Cr/2\n count +=1\n if count == 0:\n return 1\n return C/count;",
"def triangulate_hole(start,end,hx,hy,hole_start,hole_end):\t\n\tarea = (hx*hy)/2.0\n\tL_init = [start,[start[0]+hx,start[1]],[start[0],start[1]+hy]]\n\tU_init = [[start[0]+hx,start[1]],[start[0],start[1]+hy],[start[0]+hx,start[1]+hy]]\n\tdiff_y = end[1] - start[1]\n\tdiff_x = end[0] - start[0]\n\tmesh = []\n\tboundary = [] \n\tinternal = [] \n\tfor x in xrange(int(diff_x / hx)+1):\n\t\tfor y in xrange(int(diff_y / hy)+1):\n\t\t\tgrid_x = start[0] + (x*hx)\n\t\t\tgrid_y = start[1] + (y*hx)\n\t\t\tif (grid_x <= hole_start[0] or grid_x >= hole_end[0] or \n\t\t\t\tgrid_y <= hole_start[1] or grid_y >= hole_end[1]):\n\t\t\t\tmesh.append([grid_x,grid_y])\n\t\t\t\tif (grid_y >= hole_start[1] and grid_y <= hole_end[1] and\n\t\t\t\t\tgrid_x >= hole_start[0] and grid_x <= hole_end[0]):\n\t\t\t\t\tboundary.append([grid_x, grid_y])\n\t\t\t\telif (grid_y == start[1] or grid_y == end[1] or \n\t\t\t\t\tgrid_x == start[0] or grid_x == end[0] and [grid_x, grid_y] not in boundary):\n\t\t\t\t\tboundary.append([grid_x, grid_y])\n\t\t\t\telse:\n\t\t\t\t\tinternal.append([grid_x,grid_y])\n\ttriangles = [] \n\tfor coord in internal:\n\t\ta, b = coord[0], coord[1]\n\t\ttri1 = [[a,b],[a+hx,b-hy],[a,b-hy]]\n\t\ttri2 = [[a,b],tri1[-1],[a-hx,b]]\n\t\ttri3 = [[a,b],tri2[-1],[a-hx,b+hy]]\n\t\ttri4 = [[a,b],tri3[-1],[a,b+hy]]\n\t\ttri5 = [[a,b],tri4[-1],[a+hx,b]]\n\t\ttri6 = [[a,b],tri5[-1],[a+hx,b-hy]]\n\t\ttriangles.append([tri1,tri2,tri3,tri4,tri5,tri6])\n\n\treturn mesh, boundary, internal, triangles",
"def lifehex(initial_state, nsteps):\n\n nrow = len(initial_state)\n \n for i in range(nrow):\n initial_state[i] = np.array(initial_state[i]) + 0\n \n if len(initial_state[0]) < len(initial_state[1]):\n slength = len(initial_state[0])\n else:\n slength = len(initial_state[1])\n \n edge_1= np.array([0] * (slength + 2))\n \n \n \n \n for n in range(nsteps):\n iterate =[0]* (nrow + 2)\n for i in range(nrow):\n initial_state[i] = np.insert(initial_state[i],0,0)\n initial_state[i] = np.append(initial_state[i],0)\n \n initial_state.insert(0,edge_1)\n initial_state.append(edge_1)\n \n for i in range(len(initial_state)):\n iterate[i] = initial_state[i].copy()\n\n\n for i in range(1,nrow+1):\n \n if len(initial_state[i]) == slength + 2:\n \n for j in range(1,len(initial_state[i])-1):\n \n env_live = initial_state[i][j-1] + initial_state[i][j+1] + initial_state[i-1][j] + initial_state[i-1][j+1] +initial_state[i+1][j] +initial_state[i+1][j+1]\n\n if initial_state[i][j] == 1:\n if env_live == 3 or env_live == 5:\n iterate[i][j] = 1\n else:\n iterate[i][j] = 0\n elif initial_state[i][j] == 0:\n if env_live == 2:\n iterate[i][j] = 1\n else:\n iterate[i][j] = 0\n\n elif len(initial_state[i]) == slength +3:\n\n for j in range(1,len(initial_state[i])-1):\n \n env_live = initial_state[i][j-1] + initial_state[i][j+1] + initial_state[i-1][j-1] + initial_state[i-1][j] +initial_state[i+1][j-1] +initial_state[i+1][j]\n\n if initial_state[i][j] == 1:\n if env_live == 3 or env_live == 5:\n iterate[i][j] = 1\n else:\n iterate[i][j] = 0\n elif initial_state[i][j] == 0:\n if env_live == 2:\n iterate[i][j] = 1\n else:\n iterate[i][j] = 0\n \n \n \n del iterate[0]\n del iterate[-1]\n del initial_state[0]\n del initial_state[-1]\n\n for i in range(nrow):\n iterate[i]= np.delete(iterate[i], [0,-1])\n initial_state[i]= np.delete(initial_state[i], [0,-1])\n\n\n \n \n for i in range(nrow):\n initial_state[i] = iterate[i].copy()\n \n\n\n \n \n final_state = [0] * nrow \n for i in range(len(initial_state)):\n final_state[i] = initial_state[i].copy() > 0 \n\n \n # write your code here to replace return statement\n return final_state",
"def test02(particle_object):\n\ttwo_m_hbar_square = prefactor(particle_object)\n\tr_min = 0.5\n\tr_max = 5.5\n\tr_steps = 1000\n\trs, dr = np.linspace(r_min, r_max, r_steps, retstep=True)\n\n\tEs = np.linspace(0.4, 5, 200)\n\tdelta_l = np.zeros_like(Es)\n\tls = np.arange(0, 9, dtype=np.int8)\n\n\tfig = plt.figure(figsize=(12, 9)) # plot the calculated values\n\tfig.add_subplot(1, 1, 1)\n\n\tfor l in ls:\n\t\tfor i in range(np.size(Es)):\n\t\t\tpsi = radial_schrodinger_equation(rs, dr, Es[i], l, particle_object)\n\t\t\tdelta_l[i] = phase_shift(rs, dr, psi, Es[i], l, two_m_hbar_square)\n\t\tdelta_diff = np.diff(delta_l)\n\t\tflip_position = np.where(np.diff(np.sign(delta_l)))[0]\n\t\tdiscard_flag = False\n\n\t\tif np.size(flip_position) > 0:\n\t\t\tfirst_flip = flip_position[0]\n\t\t\tif delta_diff[first_flip] >= (np.pi / 2):\n\t\t\t\tdelta_l[0: first_flip + 1] += np.pi\n\t\t\t\tif np.size(flip_position) >= 2:\n\t\t\t\t\tdiscard_flag = True\n\t\t\telif delta_diff[first_flip] <= -(np.pi / 2):\n\t\t\t\tif np.size(flip_position) >= 2:\n\t\t\t\t\tdelta_l[first_flip + 1:flip_position[1]+1] += np.pi\n\t\t\t\telse:\n\t\t\t\t\tdelta_l[first_flip + 1:] += np.pi\n\t\t\t\t\tif np.size(flip_position) >= 2:\n\t\t\t\t\t\tdiscard_flag = True\n\t\t\telse:\n\t\t\t\tsecond_flip = flip_position[1]\n\t\t\t\tif delta_diff[second_flip] >= (np.pi / 2):\n\t\t\t\t\tdelta_l[0: second_flip + 1] += np.pi\n\t\t\t\telif delta_diff[second_flip] <= -(np.pi / 2):\n\t\t\t\t\tdelta_l[second_flip + 1:] += np.pi\n\t\tif l in [4, 5, 6, 7]:\n\t\t\tif not discard_flag:\n\t\t\t\tplt.plot(Es, delta_l, label=r\" l={0}\".format(l), linewidth=6, linestyle=\"-\")\n\t\t\telse:\n\t\t\t\tplt.plot(Es[:flip_position[2] + 1], delta_l[:flip_position[2] + 1], label=r\" l={0}\".format(l), linewidth=6, linestyle=\"-\")\n\t\telse:\n\t\t\tif not discard_flag:\n\t\t\t\tplt.plot(Es, delta_l, label=r\" l={0}\".format(l), linewidth=3, linestyle=\"--\")\n\t\t\telse:\n\t\t\t\tplt.plot(Es[:flip_position[2] + 1], delta_l[:flip_position[2] + 1], label=r\" l={0}\".format(l), linewidth=3, linestyle=\"--\")\n\n\tplt.hlines(np.pi / 2, Es[0], Es[-1])\n\tfor peak in particle_object.peak_e_info:\n\t\tplt.axvspan(peak[0] - peak[1], peak[0] + peak[1], ymin=0.0, color=\"grey\", alpha=0.5)\n\tplt.title(r'Phase Shifts $\\delta_{l}$')\n\tplt.xlabel(r\"Energy[meV]\", fontsize=12)\n\tplt.ylabel(r\"$\\delta_{l}[rad]$\", fontsize=12)\n\n\tplt.legend()\n\tplt.tight_layout()\n\tfig.subplots_adjust(top=0.88)\n\t# plt.show()\n\tfig.savefig(\"{0}PhaseShift.pdf\".format(particle_object.name), format=\"pdf\")",
"def test_get_disparate_rings(self):\n\n # norbornane\n m1 = Molecule(smiles='C1CC2CCC1C2')\n monorings, polyrings = m1.get_disparate_cycles()\n self.assertEqual(len(monorings), 0)\n self.assertEqual(len(polyrings), 1)\n self.assertEqual(len(polyrings[0]), 7) # 7 carbons in cycle\n\n # norbornane + cyclobutane on chain\n m2 = Molecule(smiles='C(CCC1C2CCC1CC2)CC1CCC1')\n monorings, polyrings = m2.get_disparate_cycles()\n self.assertEqual(len(monorings), 1)\n self.assertEqual(len(polyrings), 1)\n self.assertEqual(len(monorings[0]), 4)\n self.assertEqual(len(polyrings[0]), 7)\n\n # spiro-octane + cyclobutane on chain\n m3 = Molecule(smiles='C1CCC2(CC1)CC2CCCCC1CCC1')\n monorings, polyrings = m3.get_disparate_cycles()\n self.assertEqual(len(polyrings), 1)\n self.assertEqual(len(monorings), 1)\n self.assertEqual(len(monorings[0]), 4)\n self.assertEqual(len(polyrings[0]), 8)\n\n # butane\n m4 = Molecule(smiles='CCCC')\n monorings, polyrings = m4.get_disparate_cycles()\n self.assertEqual(len(monorings), 0)\n self.assertEqual(len(polyrings), 0)\n\n # benzene + cyclopropane on chain + cyclopropane on chain\n m5 = Molecule(smiles='C1=CC=C(CCCC2CC2)C(=C1)CCCCCC1CC1')\n monorings, polyrings = m5.get_disparate_cycles()\n self.assertEqual(len(monorings), 3)\n self.assertEqual(len(polyrings), 0)\n\n # octacene\n m6 = Molecule(smiles='c1ccc2cc3cc4cc5cc6cc7cc8ccccc8cc7cc6cc5cc4cc3cc2c1')\n monorings, polyrings = m6.get_disparate_cycles()\n self.assertEqual(len(monorings), 0)\n self.assertEqual(len(polyrings), 1)\n self.assertEqual(len(polyrings[0]), 34)\n\n # JP-10\n m7 = Molecule(smiles='C1CC2C3CCC(C3)C2C1')\n monorings, polyrings = m7.get_disparate_cycles()\n self.assertEqual(len(monorings), 0)\n self.assertEqual(len(polyrings), 1)\n self.assertEqual(len(polyrings[0]), 10)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Short Summary Calculate closure amplitudes
|
def closure_amplitudes(amps, n=7):
arr = populate_symmamparray(amps, n=n) # fringe amp array
nn = 0
cas = np.zeros(int(comb(n, 4)))
for ii in range(n - 3):
for jj in range(n - ii - 3):
for kk in range(n - jj - ii - 3):
for ll in range(n - jj - ii - kk - 3):
cas[nn + ll] = arr[ii, jj + ii + 1] \
* arr[ll + ii + jj + kk + 3, kk + jj + ii + 2] \
/ (arr[ii, kk + ii + jj + 2] *
arr[jj + ii + 1, ll + ii + jj + kk + 3])
nn = nn + ll + 1
return cas
|
[
"def evaluate(self, ts):\n print(ts)\n phases = PI2 * self.freq * ts + self.offset\n print(phases)\n ys = self.amp * np.exp(1j * phases)\n return ys",
"def calc_carry_scalars():\r\n scalar_list = []\r\n symbols_list = get_futures_info()\r\n symbols_list = symbols_list.loc[symbols_list['Include'] == 'Y']['Symbol'].tolist()\r\n for symbol in symbols_list:\r\n forecast_inputs = get_forecast_inputs(symbol)\r\n carry_est_profits = calc_carry_est_profits(forecast_inputs)\r\n scalar_list.append(carry_est_profits['ScalarUnpooled'][0])\r\n # consider weighting instrument scalars by number of periods available for each scalar\r\n return np.median(scalar_list)",
"def __sum__(self):\n return sum(self.TAA)",
"def alpha_decay(self):\n self.atomic_num -= 2\n self.isotope_num -= 2",
"def earned_value(self): \n \n return self.apc * self.budget",
"def quantumChernoffInformation(lambda_0, lambda_1, theta, s):\n return ((lambda_0 ** s * lambda_1 ** (1 - s) +\n (1 - lambda_0) ** s * (1 - lambda_1) ** (1 - s)) * (np.cos(theta/2)) ** 2 +\n (lambda_0 ** s * (1 - lambda_1) ** (1 - s) +\n (1 - lambda_0) ** s * lambda_1 ** (1 - s)) * (np.sin(theta/2)) ** 2)",
"def __const_c(self):\n return gamma((self.eta+1)/2) \\\n / ((np.pi*(self.eta-2))**.5*gamma(self.eta/2))",
"def __fact(window):\n return 1./np.sqrt(np.mean(np.square(window)))",
"def warranted_returns(self):\n years = self.years\n return np.vectorize(lambda cape: np.power(1 + (1 / cape), years) - 1)",
"def frame_energy(frame):\n return (abs(frame)**2).sum()",
"def func(cls, t, tau, amp, offset):\n return offset + amp * (1 - np.exp(- t / tau))",
"def Ctau(self):\n pass",
"def ComputeAmplitudeAndPhase(self):\n # Compute the residues\n B = np.zeros((self.N, self.M), dtype=self.lam.dtype)\n for i in range(self.N):\n for j in range(self.M):\n B[i,j] = np.abs(self.lam[j])**i*np.exp(1.0j*i*np.angle(self.lam[j]))\n\n r, _, _, _ = la.lstsq(B, self.X)\n\n # Extract amplitudes and phases from residues\n self.amps = np.abs(r)\n self.faze = np.angle(r)\n\n return",
"def myopic_price(lambdas: np.ndarray, betas_transition=const.betas_transition):\n #Elasticity implied by lambdas\n elasticity = np.dot(lambdas, betas_transition) #-2.2\n assert elasticity < -1.0\n return const.c / (1 + (1/elasticity))",
"def sky(self, obs):\n return 0.",
"def calcium_event(t, onset, ampli=1., ton=0.179, toff=0.550):\n y = ampli*(1-np.exp(-(t-onset)/ton))*(np.exp(-(t-onset)/toff))\n # remove the negative part at the beginning\n # (btw: why there is a negative part at the beginning???)\n y[:int(onset/(t[1]-t[0]))+2] = 0\n # normalize\n# y = y-np.min(y)\n# y = y/np.max(y)\n return y",
"def calculateLambda(self):\n\t\tself.getGames()\n\t\tcount=1\n\t\tfor game in self.seasonGame:\n\t\t\tattrib=self.getTeamAttr(game[1],game[2]) # id = 0, HomeTeam = 1, AwayTeam = 2, FTHG = 3, FTAG = 4, MatchDay = 5\n\t\t\t#HomeAttack=00, HomeDefense=01, Beta=02, BetaHome=03\n\t\t\t#AwayAttack=10, AwayDefense=11, Beta=12\n\t\t\tself.lambdaHome=float(attrib[0][0])*float(attrib[1][1])*float(attrib[0][2])*float(attrib[0][3])\n\t\t\tself.lambdaAway=float(attrib[1][0])*float(attrib[0][1])*float(attrib[1][2])\n\t\t\tproba=self.probabilities()\n\t\t\t#proba=self.probabilitiesImproved()\n\t\t\t#self.printStat(game,proba) # Decomment to see answer in terminal\n\t\t\tself.compareProb(game,proba)\n\t\t\tcount+=1\n\t\t#self.printResult()\n\n\t\treturn(round((self.successScore*100.0)/(len(self.seasonGame)*1.0)), \\\n\t\t\t round((self.successOutCome*100.0)/(len(self.seasonGame)*1.0)))",
"def a_realization(self):\n return self.powersum()",
"def get_self_consumption(self):\n yef = self.get_annual_energyflows()\n YtL = yef['Eptl'] + yef['Eptb'] # annual yield consumed by loads and stored in battery\n YtG = yef['Eptg'] # annual yield injected into grid\n return YtL / (YtL + YtG) * 100.0"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
The epsilon closure of a substate is the state containing all reachable substates that are accessible without "eating" a character. These paths are called "epsilons". This function takes a dfa, and adds to it, all substates reachable via epsilon paths. It is nonmutating, so it returns a new dfa state instead of mutating the current one
|
def get_epsilon_closure(self, dfa_state):
# DepthFirstSearch setup
# prevent cycles
explored = set()
# new_dfa_state will only represent the full state at the end of this
# function call
new_dfa_state = DFAState()
substates = dfa_state.get_substates()
# frontier contains all current substates
frontier = Stack(substates)
while not frontier.is_empty():
substate = frontier.top()
frontier.pop()
node = substate.get_node()
if node not in explored:
new_dfa_state.add_substate(substate)
free_nodes = node.epsilon_paths()
# derive all freely reachable nodes and give them the same age
new_substates = [NFAIterator(freenode, substate.get_age())
for freenode in free_nodes]
for new_sub in new_substates:
frontier.push(new_sub)
explored.add(node)
return new_dfa_state
|
[
"def add_new_state(dfa, state):\r\n transition = dfa[state[0]]\r\n\r\n for substate in state:\r\n # substate represents the state broken down like: AB = \"A\" & \"B\"\r\n transition = tuple(union(x, y)\r\n # transition is the values which appear in dfa\r\n for x, y in zip(transition, dfa[substate]))\r\n\r\n dfa[state] = transition\r\n return dfa",
"def getEpsilonReachableFromState(self, state, letter):\n next_state = state.getNextState(letter)\n if next_state is None:\n return set()\n return self.epsilonClosures[next_state]",
"def _removeEpsilonConnections(self):\n\t\tstatesToTraverse, outStates = [self.inState], set()\n\n\t\tfor currentState in statesToTraverse:\n\t\t\t# An ε-closure is the set of all the states reachable via ε-\n\t\t\t# connections of the current state. The new connections are all the \n\t\t\t# external connections of the ε-closure.\n\t\t\teClosure, newConnections = [currentState], set()\n\t\t\tfor state in eClosure:\n\t\t\t\tfor (value, connectedState) in state.connections:\n\t\t\t\t\t# If a connection is an ε-connection, we add it to the ε-\n\t\t\t\t\t# closure.\n\t\t\t\t\tif value == 'ε':\n\t\t\t\t\t\teClosure.append(connectedState)\n\t\t\t\t\t# Otherwise, we add it to the set of new connections, and to \n\t\t\t\t\t# the list of states to traverse (if not already present).\n\t\t\t\t\telse:\n\t\t\t\t\t\tnewConnections.add((value, connectedState))\n\t\t\t\t\t\tif connectedState not in statesToTraverse:\n\t\t\t\t\t\t\tstatesToTraverse.append(connectedState)\n\n\t\t\t# If a state's ε-closure has no external connections, that means that \n\t\t\t# it's an end-state.\n\t\t\tif not newConnections:\n\t\t\t\toutStates.add(currentState)\n\t\t\tcurrentState.connections = newConnections\n\n\t\treturn outStates",
"def minimize(afd):\n #Initialize del_list list, the minimized DFA and changed flag\n del_list = []\n min_afd = copy.deepcopy(afd)\n changed = True\n # compare two states,if they have the same transitions, they have not been del_list\n # and they are both final or non final, delete them from min_afd then\n # add them to the del_list list and rename any transitions with the del_list state to the new state\n while(changed):\n changed = False\n for state1 in afd:\n for state2 in afd:\n if state1 != state2:\n if state1 in min_afd and state2 in min_afd:\n if min_afd[state1] == min_afd[state2]:\n if state2 in min_afd and state2 not in del_list:\n if (state2 in final and state1 in final) or (state2 not in final and state1 not in final):\n\n\n del_list.append(state2)\n del_list.append(state1)\n changed = True\n #Check if one of the states is initial, in order to avoid its deletion\n if state1 in initial:\n print(\"state to delete: \", state2)\n del min_afd[state2]\n renameState(min_afd, state2, state1)\n if state2 in final:\n final.remove(state2)\n elif state2 in initial:\n print(\"state to delete: \", state1)\n if state1 in final:\n final.remove(state1)\n del min_afd[state1]\n renameState(min_afd, state1, state2)\n else:\n print(\"state to delete: \", state2)\n if state2 in final:\n final.remove(state2)\n del min_afd[state2]\n renameState(min_afd, state2, state1)\n\n return min_afd",
"def extend_dfa(dfa, temp_list, current_state):\r\n # Check if new states appear\r\n for state in dfa.get(current_state, ()):\r\n if not state:\r\n continue\r\n # if state is not null, function will continue\r\n\r\n if state not in dfa:\r\n # Add new states in temp_list\r\n temp_list.append(state)\r\n\r\n # Add new states in dfa\r\n dfa = add_new_state(dfa, state)\r\n\r\n return dfa, temp_list",
"def nfa2dfa(graph):\n\n\tif not isinstance(graph, nfa.NFANode):\n\t\traise TypeError(\"Invalid graph type for NFA determinisation algorithm.\")\n\n\t# Get the set of initial states and the initial DFA node.\n\tstates = frozenset(graph._epsilon_closure())\n\tnew_graph = dfa.DFANode(tag=states, accept=nfa._accepts(states))\n\n\t# Sink -- where all edges go to die.\n\tsink = dfa.DFANode(tag=\"sink\", accept=False)\n\tfor token in constants.ALPHABET:\n\t\tsink.add_edge(token, sink)\n\n\tseen = {states: new_graph}\n\ttodo = [new_graph]\n\n\twhile todo:\n\t\t# Get next node to create edges for.\n\t\ttodo_node = todo.pop()\n\t\tstates = todo_node._tag\n\n\t\t# Add sink node.\n\t\ttodo_node._sink = sink\n\n\t\t# Ensure that each node has an edge the is in on of each of the states.\n\t\tfor token in _all_edges(states):\n\t\t\t# Get set of states which are occupied after consuming the token.\n\t\t\ts = nfa._moves(states, token)\n\t\t\ts = frozenset(nfa._epsilon_closures(s))\n\n\t\t\t# No states -- just forward to the sink.\n\t\t\tif not s:\n\t\t\t\ttodo_node.add_edge(token, sink)\n\t\t\t\tcontinue\n\n\t\t\t# New set of NFA states -- create a new DFA node to describe it.\n\t\t\tif s not in seen:\n\t\t\t\tnode = dfa.DFANode(tag=s, accept=nfa._accepts(s))\n\t\t\t\ttodo.append(node)\n\t\t\t\tseen[s] = node\n\n\t\t\t# Use pre-existing DFA node.\n\t\t\telse:\n\t\t\t\tnode = seen[s]\n\n\t\t\t# Add edge for given token.\n\t\t\ttodo_node.add_edge(token, node)\n\n\treturn new_graph",
"def NFA_to_DFA(nfa):\r\n\r\n # Initialize DFA; Initialize queue;\r\n dfa = nfa\r\n temp_list = list(dfa)\r\n\r\n # While new states in queue\r\n while temp_list:\r\n # print(f\"temp_list: {temp_list}\\n\")\r\n current_state = temp_list.pop(0)\r\n # Extend current state\r\n # Add new states in queue\r\n # Add new states/ transitions in DFA\r\n dfa, temp_list = extend_dfa(dfa, temp_list, current_state)\r\n return dfa",
"def optimaze(self):\n \n final = self.get_list_of_final()\n not_final = self.get_list_of_final(False)\n # Using frozenset since we will use set of sets. and we won't change it's value\n p = {frozenset(final), frozenset(not_final)}\n w = {frozenset(final)}\n\n while len(w):\n a = w.pop()\n x = set()\n for symbol in self.alphabet:\n x = {node for node in self.G.nodes_iter() if self.get_next_state(node, symbol) in a}\n # using set(p) instead of p since we will change it (the same for w).\n for y in set(p):\n inter = x.intersection(y)\n dif = y.difference(x)\n if inter and dif :\n p.remove(y)\n p.add(frozenset(inter))\n p.add(frozenset(dif))\n if y in set(w):\n w.remove(y)\n w.add(frozenset(inter))\n w.add(frozenset(dif))\n elif len(inter) <= len(dif):\n w.add(frozenset(inter))\n else :\n w.add(frozenset(dif))\n \n d = {}\n # Creation of a new automaton.\n for i, e in enumerate(sorted(p, key= lambda x: min(x))):\n d[e] = i+1\n new_automaton = Automaton()\n for key in d:\n state = set(key).pop()\n for char in self.alphabet:\n next_state = self.get_next_state(state, char)\n for elem in d:\n if next_state in elem:\n to_state = d[elem]\n break\n new_automaton.add_transition(d[key], char, to_state)\n for e in key:\n if e in final:\n new_automaton.set_state_final(d[key])\n break\n print(new_automaton.G.edges())\n return new_automaton",
"def load_dfa(path_to_dfa_file):\n# idea of using line.split() came form here\n# https://stackoverflow.com/questions/8270092/remove-all-whitespace-in-a-string-in-python\n\n # YOUR CODE HERE\n initial_state=0\n accepting_states=[]\n edges={}\n with open(path_to_dfa_file) as dfa_file:\n\n for line in dfa_file:\n a=line.split() # using line.split() to read line word by word\n if(a[0]=='initial'):\n initial_state=a[-1][-1]\n if(a[1][0]=='o'):\n initial_state=a[1]\n\n elif(a[0]=='accepting'):\n for i in range(len(a)):\n if i>0:\n if(a[i][0]=='s'):\n accepting_states.append(a[i][5:])\n elif(a[i][0]=='o'):\n accepting_states.append(a[i][:])\n elif(a[i][0]=='z'):\n accepting_states.append(a[i][:])\n\n elif(a[0]=='transition'):\n\n if (a[1][0] == 's'):\n v1=a[1][5:]\n v2=a[2][5:]\n v3=a[3]\n if(v1 in edges.keys()):\n vgh=[v3,v2]\n vold = edges[v1].append(vgh)\n\n else:\n n=[v3,v2]\n edges[v1]=n\n elif (a[1][0] == 'o'):\n\n v1=a[1]\n v2=0\n v3=0\n\n if(a[2][0]=='z'):\n\n v2=a[2]\n v3 = a[3]\n elif(a[2][0]=='o'):\n\n v2=a[2]\n v3 = a[3]\n\n if(v1 in edges.keys()):\n\n vgh=[v3,v2]\n vold = edges[v1].append(vgh)\n else:\n edges[v1]=[v3,v2]\n\n elif (a[1][0] == 'z'):\n\n v1=a[1]\n v2 = 0\n v3 = 0\n\n if (a[2][0] == 'z'):\n\n v2=a[2]\n v3 = a[3]\n elif (a[2][0] == 'o'):\n\n v2=a[2]\n v3 = a[3]\n\n if (v1 in edges.keys()):\n\n vgh=[v3,v2]\n vold = edges[v1].append(vgh) # v3= label and v2= edge\n\n else:\n vgm=[v3,v2]\n edges[v1] = [v3, v2]\n tup1=(initial_state,accepting_states,edges)\n return tup1",
"def getTrivialDFA():\n s = State()\n return DFA(s, {s})",
"def __dfa_to_regex(dfa):\n start = dfa.states\n final = dfa.states + 1\n transitions = {}\n middle_states = list(range(dfa.states))\n\n # Compactar arcos multiples\n for x in dfa.transitions:\n # Dado el estado x por cada estado destino d se unen\n # los simbolos que provocan una transicion de x -> d\n compacted_arcs = {}\n for regex in dfa.transitions[x]:\n d = dfa.transitions[x][regex][0]\n try:\n compacted_arcs[d].append(regex)\n except KeyError:\n compacted_arcs[d] = [regex]\n\n # Compactar los arcos multiples\n # etiquetandolos con la union de los simbolos\n for d, symbols in compacted_arcs.items():\n transitions[x, d] = '|'.join(symbols) if x != d else f'({\"|\".join(symbols)})*'\n\n # Agragamos nuestro estado inicial y final\n for f in dfa.finals:\n transitions[f, final] = EPSILON\n transitions[start, dfa.start] = EPSILON\n\n # Por cada estado intermedio...\n while middle_states:\n\n x = middle_states.pop() # Estado para eliminacion\n\n # Computar indegree y outdegree del estado x\n # con los arcos compactados para tener un acceso\n # mas rapido en cada estado intermedio\n in_deg = [(s, regex) for (s, d), regex in transitions.items() if d == x and s != d]\n out_deg = [(d, regex) for (s, d), regex in transitions.items() if s == x and d != s]\n\n # Checkeamos que si el estado x tiene auto-transiciones\n try:\n mid_regex = transitions[x, x]\n del transitions[x, x]\n except KeyError:\n mid_regex = ''\n\n # Creamos las nuevas aristas eliminando al estado x del automata\n for l, left_regex in in_deg:\n for r, right_regex in out_deg:\n left_regex = '' if left_regex == EPSILON else f'({left_regex})'\n right_regex = '' if right_regex == EPSILON else f'({right_regex})'\n mid_regex = '' if not mid_regex else f'({mid_regex})'\n\n regex = left_regex + mid_regex + right_regex\n\n try: # Comprobamos si ya existe una transicion entre l y r para compactar la arista\n previous_regex = transitions[l, r] # Buscamos la regex de la arista anterior\n regex = f'{previous_regex}|{regex}' # Unimos las expresiones regulares de las transiciones\n except KeyError:\n pass\n\n transitions[l, r] = regex if r != l else process_closure(regex) # Insertamos en la tablas de transiciones\n\n # Eliminamos transiciones que entran y salen del estado x\n for l, _ in in_deg:\n del transitions[l, x]\n\n for r, _ in out_deg:\n del transitions[x, r]\n\n assert (start, final) in transitions, 'State Elimination Error...'\n\n regex = transitions[start, final]\n\n change = True\n while change:\n new_regex = clean_regex(regex)\n change = new_regex != regex\n regex = new_regex\n\n return regex",
"def concatenate(*fsms):\n if len(fsms) == 0:\n return epsilon({})\n alphabet = set().union(*[fsm.alphabet for fsm in fsms])\n last_index, last = len(fsms) - 1, fsms[-1]\n\n def connect_all(i, substate):\n result = {(i, substate)}\n while i < last_index and substate in fsms[i].accepting:\n i += 1\n substate = fsms[i].initial\n result.add((i, substate))\n return result\n\n initial = set()\n if len(fsms) > 0:\n initial.update(connect_all(0, fsms[0].initial))\n initial = frozenset(initial)\n\n def accepts(state):\n \"\"\"\n Test if state is accepting in last fsm\n \"\"\"\n for (i, substate) in state:\n if i == last_index and substate in last.accepting:\n return True\n return False\n\n def follow(current, symbol):\n next_states = set()\n for (i, substate) in current:\n fsm = fsms[i]\n if fsm.valid_transition(substate, symbol):\n next_states.update(\n connect_all(i, fsm.transition[substate][symbol]))\n if not next_states:\n raise OblivionError\n return frozenset(next_states)\n\n return crawl(alphabet, initial, accepts, follow)",
"def expand(self, state):\n successor_function = self.graph.successor(state.content)\n new_nodes_list = []\n for successor in successor_function:\n new_node = State(\n content=successor[0],\n total_cost=state.cost + successor[1],\n depth=state.depth + 1,\n parent=state\n )\n new_nodes_list.append(new_node)\n self.closure.add(state)\n return new_nodes_list",
"def count(dfa, time_bool, inp):\n\n dfa_length = dfa.states_length()\n prev = [0 for _ in range(dfa_length)]\n next = [0 for _ in range(dfa_length)]\n\n for i in range(0, dfa_length):\n state = dfa.states[i]\n if state in dfa.accepting_states:\n prev[i] = 1\n else:\n pass\n\n if time_bool:\n n = inp\n else:\n n = int(input('Enter a value for n: '))\n\n if n == 1 and not time_bool:\n print(\"Number of acceptable spanning trees in a 3 x \" + str(n) + \" graph is: 1\")\n return\n for j in range(1, n + 1):\n for i in range(0, dfa_length):\n state = dfa.states[i]\n state_0 = state.on_0\n state_1 = state.on_1\n state_2 = state.on_2\n state_3 = state.on_3\n state_4 = state.on_4\n state_5 = state.on_5\n state_6 = state.on_6\n state_7 = state.on_7\n state_8 = state.on_8\n state_9 = state.on_9\n state_10 = state.on_10\n state_11 = state.on_11\n state_12 = state.on_12\n state_13 = state.on_13\n state_14 = state.on_14\n state_15 = state.on_15\n state_16 = state.on_16\n state_17 = state.on_17\n state_18 = state.on_18\n state_19 = state.on_19\n state_20 = state.on_20\n state_21 = state.on_21\n state_22 = state.on_22\n state_23 = state.on_23\n state_24 = state.on_24\n state_25 = state.on_25\n state_26 = state.on_26\n state_27 = state.on_27\n state_28 = state.on_28\n state_29 = state.on_29\n state_30 = state.on_30\n state_31 = state.on_31\n\n state_32 = state.on_E00\n state_33 = state.on_E01\n state_34 = state.on_E10\n state_35 = state.on_E11\n\n next[i] = prev[state_0.ID] + prev[state_1.ID] + prev[state_2.ID] + prev[state_3.ID] + prev[state_4.ID] + \\\n prev[state_5.ID] + prev[state_6.ID] + prev[state_7.ID] + prev[state_8.ID] + prev[state_9.ID] + \\\n prev[state_10.ID] + prev[state_11.ID] + prev[state_12.ID] + prev[state_13.ID] + prev[state_14.ID] + \\\n prev[state_15.ID] + prev[state_16.ID] + prev[state_17.ID] + prev[state_18.ID] + prev[state_19.ID] + \\\n prev[state_20.ID] + prev[state_21.ID] + prev[state_22.ID] + prev[state_23.ID] + prev[state_24.ID] + \\\n prev[state_25.ID] + prev[state_26.ID] + prev[state_27.ID] + prev[state_28.ID] + prev[state_29.ID] + \\\n prev[state_30.ID] + prev[state_31.ID] + prev[state_32.ID] + prev[state_33.ID] + prev[state_34.ID] + prev[state_35.ID]\n prev = next.copy()\n if not time_bool:\n print(\"Number of acceptable spanning trees in a 3 x \" + str(n) + \" graph is: \" + str(next[0]))\n # Brute force test\n # print(\"Brute force takes a while...\")\n # print(\"Brute force n = 6: \" + str(string_count(dfa)))",
"def state_parent_tree(sdfg: SDFG) -> Dict[SDFGState, SDFGState]:\n idom = nx.immediate_dominators(sdfg.nx, sdfg.start_state)\n alldoms = all_dominators(sdfg, idom)\n loopexits: Dict[SDFGState, SDFGState] = defaultdict(lambda: None)\n\n # First, annotate loops\n for be in back_edges(sdfg, idom, alldoms):\n guard = be.dst\n laststate = be.src\n if loopexits[guard] is not None:\n continue\n\n # Natural loops = one edge leads back to loop, another leads out\n in_edges = sdfg.in_edges(guard)\n out_edges = sdfg.out_edges(guard)\n\n # A loop guard has two or more incoming edges (1 increment and\n # n init, all identical), and exactly two outgoing edges (loop and\n # exit loop).\n if len(in_edges) < 2 or len(out_edges) != 2:\n continue\n\n # The outgoing edges must be negations of one another.\n if out_edges[0].data.condition_sympy() != (sp.Not(out_edges[1].data.condition_sympy())):\n continue\n\n # Find all nodes that are between each branch and the guard.\n # Condition makes sure the entire cycle is dominated by this node.\n # If not, we're looking at a guard for a nested cycle, which we ignore for\n # this cycle.\n oa, ob = out_edges[0].dst, out_edges[1].dst\n\n reachable_a = False\n a_reached_guard = False\n\n def cond_a(parent, child):\n nonlocal reachable_a\n nonlocal a_reached_guard\n if reachable_a: # If last state has been reached, stop traversal\n return False\n if parent is laststate or child is laststate: # Reached back edge\n reachable_a = True\n a_reached_guard = True\n return False\n if oa not in alldoms[child]: # Traversed outside of the loop\n return False\n if child is guard: # Traversed back to guard\n a_reached_guard = True\n return False\n return True # Keep traversing\n\n reachable_b = False\n b_reached_guard = False\n\n def cond_b(parent, child):\n nonlocal reachable_b\n nonlocal b_reached_guard\n if reachable_b: # If last state has been reached, stop traversal\n return False\n if parent is laststate or child is laststate: # Reached back edge\n reachable_b = True\n b_reached_guard = True\n return False\n if ob not in alldoms[child]: # Traversed outside of the loop\n return False\n if child is guard: # Traversed back to guard\n b_reached_guard = True\n return False\n return True # Keep traversing\n\n list(sdutil.dfs_conditional(sdfg, (oa, ), cond_a))\n list(sdutil.dfs_conditional(sdfg, (ob, ), cond_b))\n\n # Check which candidate states led back to guard\n is_a_begin = a_reached_guard and reachable_a\n is_b_begin = b_reached_guard and reachable_b\n\n loop_state = None\n exit_state = None\n if is_a_begin and not is_b_begin:\n loop_state = oa\n exit_state = ob\n elif is_b_begin and not is_a_begin:\n loop_state = ob\n exit_state = oa\n if loop_state is None or exit_state is None:\n continue\n loopexits[guard] = exit_state\n\n # Get dominators\n parents: Dict[SDFGState, SDFGState] = {}\n step_up: Set[SDFGState] = set()\n for state in sdfg.nodes():\n curdom = idom[state]\n if curdom == state:\n parents[state] = None\n continue\n\n while curdom != idom[curdom]:\n if sdfg.out_degree(curdom) > 1:\n break\n curdom = idom[curdom]\n\n if sdfg.out_degree(curdom) == 2 and loopexits[curdom] is not None:\n p = state\n while p != curdom and p != loopexits[curdom]:\n p = idom[p]\n if p == loopexits[curdom]:\n # Dominated by loop exit: do one more step up\n step_up.add(state)\n\n parents[state] = curdom\n\n # Step up\n for state in step_up:\n if parents[state] is not None:\n parents[state] = parents[parents[state]]\n\n return parents",
"def compile(self):\n nfa = Optional(self.item).compile()\n for initial_state in nfa.initial_states:\n for accept_state in nfa.accept_states:\n accept_state.transitions.add(\n EpsilonTransition(\n destination=initial_state\n )\n )\n return nfa",
"def minimize(nondist_pairs, transitions, alphabet, accepting_states):\n for pair1 in nondist_pairs:\n for elem in pair1:\n transitions.update({tuple(pair1) : transitions[str(elem)]})\n for pair in nondist_pairs:\n for elem in pair:\n if str(elem) in transitions:\n del transitions[str(elem)]\n new_list = list(transitions.items())\n for elem in new_list:\n for char in alphabet:\n for pair in nondist_pairs:\n if elem[1][char] in pair:\n elem[1][char] = pair\n\n print(\"\\nHere is the DFA Description:\")\n print(f\"Number of states: {len(new_list)}\")\n print(f\"Accepting states: {accepting_states}\")\n\n for elem in new_list:\n print(f\"State: {elem[0]} Transitions: {elem[1]}\")",
"def accept(self, input, state=None):\n\n # Begin at the start state if we aren't called with a state\n state = state or self.q0\n\n # Handle epsilon case\n for n in self.δ(state,input=None):\n a = self.accept(input, n)\n if a:\n return True\n\n # Return our acceptance status when we're out of input\n if len(input) == 0:\n return state in self.F\n\n # Get the next state or return our acceptance status if we're stuck\n try:\n next = self.δ(state,input[0])\n except KeyError:\n return state in self.F\n \n # Recurse using all possible next states and the rest of our input\n #\n # It's worth noting that the search walk for an NFA takes exponential\n # time, while the conversion to DFA would include an exponential\n # number of states. It's a time/memory tradeoff.\n for n in next:\n a = self.accept(input[1:], n)\n # We accept if any path results in acceptance\n if a:\n return True\n\n return False",
"def accepts_word(dfa, word):\n # YOUR CODE HERE\n\n initial_state=dfa[0]\n accepting_states=dfa[1]\n edges=dfa[2]\n current_state=initial_state\n #In the loop below i is the index of the character and word[i] has the current character we are processing\n for i in range(len(word)):\n #I am checking length of edge of current state because of the limitation of the way they are stored when there are more than 2\n #edges present\n if i==0:\n if len(edges[current_state])==2:\n if word[i]==edges[current_state][0] :\n current_state=edges[current_state][1]\n\n continue\n else:\n for j in range(len(edges[current_state])):\n if j <=1:\n if edges[current_state][0]==word[i] :\n current_state=edges[current_state][1]\n\n break\n else:\n continue\n elif j>1:\n if word[i]==str(edges[current_state][j][0]):\n current_state=edges[current_state][j][1]\n break\n else:\n continue\n else:\n if len(edges[current_state])>2:\n for k in range( len(edges[current_state]) ):\n if k<=1:\n if edges[current_state][0] == word[i] :\n current_state = edges[current_state][1]\n\n break\n\n elif k > 1:\n if word[i] == edges[current_state][k][0] :\n current_state = edges[current_state][k][1]\n\n break\n elif len(edges[current_state])==2:\n if word[i]==edges[current_state][0] :\n current_state=edges[current_state][1]\n\n continue\n else:\n\n continue\n\n if(current_state in accepting_states):\n return True\n else:\n return False"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Queries the reddening and its uncertainty for each star, taking into account that Bayestar19 has uncertainties at each distance, and that stellar distances are uncertain.
|
def query_reddening(q_b19, d, n_samples=25):
# Identify stars without parallaxes
idx = ~np.isfinite(d['parallax']) | ~np.isfinite(d['parallax_err'])
d['parallax'][idx] = 1.
d['parallax_err'][idx] = 0.1
# Draw parallaxes from Gaia plx likelihood for each star (clipped to >0).
# This is equivalent to putting a flat prior on parallax (for plx > 0).
# Could also use another choice of prior, such as Coryn-Bailer Jones'
# distances.
plx = np.empty((d.size, n_samples), dtype='f4')
for k,(mu,sigma) in enumerate(zip(d['parallax'], d['parallax_err'])):
#if ~idx[k]:
# plx[k,:] = 1.
# continue
try:
plx[k,:] = truncnorm.rvs(0., np.inf, mu, sigma, size=n_samples)
except Exception as e:
print(mu, sigma)
raise(e)
# Replace negative parallaxes (truncnorm sometimes fails)
plx[plx < 0.] = 1.e-5
# Naive transformation of parallax into distance
r = 1. / plx # in kpc
# Sample reddenings, taking into account uncertainty in distance
# and Bayestar19 estimates
E = np.empty((d.size, n_samples), dtype='f4')
for k in range(n_samples):
E[:,k] = q_b19.query_gal(
d['gal_l'],
d['gal_b'],
d=r[:,k],
mode='random_sample'
)
# Store mean and std. dev. of reddening samples
E0 = np.mean(E, axis=1)
sigma_E = np.std(E, axis=1)
# Stars without parallaxes get NaN reddenings
E0[idx] = np.nan
sigma_E[idx] = np.nan
return E0, sigma_E
|
[
"def test_detrending_residuals():\n # Retrieve the custom, known signal properties\n tpf = KeplerTargetPixelFile(filename_synthetic_flat)\n\n # Run the SFF algorithm\n lc = tpf.to_lightcurve()\n corrector = SFFCorrector(lc)\n cor_lc = corrector.correct(\n tpf.pos_corr2, tpf.pos_corr1, niters=10, windows=5, bins=7, restore_trend=True\n )\n\n # Verify that we get a significant reduction in RMS\n cdpp_improvement = lc.estimate_cdpp() / cor_lc.estimate_cdpp()\n assert cdpp_improvement > 10.0\n\n # The residuals should be Gaussian-\"ish\"\n # Table 4.1 of Ivezic, Connolly, Vanerplas, Gray 2014\n anderson_threshold = 1.57\n\n resid_n_sigmas = (cor_lc.flux - np.mean(cor_lc.flux)) / cor_lc.flux_err\n A_value, _, _ = stats.anderson(resid_n_sigmas)\n assert A_value ** 2 < anderson_threshold\n\n n_sigma = np.std(resid_n_sigmas)\n assert n_sigma < 2.0\n\n corrector = tpf.to_corrector(\"pld\")\n cor_lc = corrector.correct(restore_trend=False)\n\n cdpp_improvement = lc.estimate_cdpp() / cor_lc.estimate_cdpp()\n assert cdpp_improvement > 10.0\n\n resid_n_sigmas = (cor_lc.flux - np.mean(cor_lc.flux)) / cor_lc.flux_err\n A_value, crit, sig = stats.anderson(resid_n_sigmas)\n assert A_value ** 2 < anderson_threshold\n\n n_sigma = np.std(resid_n_sigmas)\n assert n_sigma < 2.0",
"def removeOutliers(self, stars):\n # I started writing this class, but then realized this isn't what we want to do\n # for the PixelGrid model. So leave this for now...\n raise NotImplementedError(\"MAD algorithm not implemented\")",
"def reEvalRD():\r\n c = 46.5 # for 7 day system\r\n #c = 36.5 # for 4 day system\r\n for pl in playerRating:\r\n t = playerRating[pl][2]\r\n RD = playerRating[pl][1]\r\n playerRating[pl][1] = min((math.sqrt(RD ** 2 + c ** 2 * t)), 350)\r\n if pl in specialPlayers:\r\n playerRating[pl][2] += 1\r\n primary = specialPlayers[pl]\r\n for al in specialSets[primary]:\r\n if al in activePlayers:\r\n playerRating[pl][2] = 1\r\n else:\r\n if pl in activePlayers:\r\n playerRating[pl][2] = 1\r\n else:\r\n playerRating[pl][2] += 1",
"def test_get_per_sample_average_diversities(self):\n # test that it extracts the correct max depth if depth==None\n exp_depth = 910 \n exp_rare_mat = array([ 2.73645965, 2.20813124, 2.88191683, \n 2.78969155, 3.10064886, 3.08441138])\n exp_sids = ['Sam1', 'Sam2', 'Sam3', 'Sam4', 'Sam5', 'Sam6']\n exp = {'Sam1': 2.736459655,\n 'Sam2': 2.2081312350000002,\n 'Sam3': 2.8819168300000002,\n 'Sam4': 2.7896915474999999,\n 'Sam5': 3.1006488600000002,\n 'Sam6': 3.0844113799999997}\n obs = get_per_sample_average_diversities(self.rarefaction_data, None)\n # check that values are the same\n for k,v in exp.iteritems():\n self.assertFloatEqual(obs[k], v)\n # check that keys are the same\n self.assertEqualItems(obs.keys(), exp.keys())\n # test when depth is specified\n depth = 850\n exp = {'Sam1': 3.32916466,\n 'Sam2': nan,\n 'Sam3': nan,\n 'Sam4': 2.2746077633333335,\n 'Sam5': 3.0135700166666664,\n 'Sam6': 2.1973854533333337}\n obs = get_per_sample_average_diversities(self.rarefaction_data, depth)\n # check that values are the same\n for k,v in exp.iteritems():\n self.assertFloatEqual(obs[k], v)\n # check that keys are the same\n self.assertEqualItems(obs.keys(), exp.keys())",
"def hindered_rd(self):\n return radial_diffusivity(self.hindered_evals)",
"def denoise_images(self):\n\n tol = 1e-5\n accuracies = []\n self.denoised_images = np.zeros(self.noisy_train_images.shape)\n for im in np.arange(self.noisy_train_images.shape[0]):\n print(im)\n new_pi_array = np.zeros((self.side_length, self.side_length))\n while True:\n for y in np.arange(self.side_length):\n for x in np.arange(self.side_length):\n first_term, second_term = self.get_terms((x, y), im)\n # print(\"Old pi\", self.pi[im, x, y])\n new_pi = first_term/(first_term + second_term)\n # print(\"New pi\", new_pi)\n new_pi_array[x, y] = new_pi\n if abs(np.sum(new_pi_array - self.pi[im, :, :])) < tol:\n break\n else:\n self.pi[im, :, :] = new_pi_array\n pi_list = self.pi[im, :, :].flatten().tolist()\n dn_im = np.array([1 if x >= 0.5 else -1 for x in pi_list]).reshape((self.side_length, self.side_length))\n self.denoised_images[im, :, :] = dn_im\n # plt.figure(1)\n # plt.imshow(self.noisy_train_images[im, :, :])\n # plt.show(1)\n # plt.figure(1)\n # plt.imshow(dn_im)\n # plt.show(1)\n\n # print(\"Accuracy: \", np.sum(self.orig_train_images[im, :, :] == self.denoised_images[im, :, :])/(self.side_length*self.side_length))\n accuracies += [np.sum(self.orig_train_images[im, :, :] == self.denoised_images[im, :, :])/(self.side_length*self.side_length)]\n self.accuracies = accuracies\n best_index = np.argmax(accuracies)\n print(\"The best image is: \", best_index)\n plt.figure(1)\n plt.subplot(3, 1, 1)\n plt.imshow(self.orig_train_images[best_index, :, :])\n plt.subplot(3, 1, 2)\n plt.imshow(self.noisy_train_images[best_index, :, :])\n plt.subplot(3, 1, 3)\n plt.imshow(self.denoised_images[best_index, :, :])\n plt.show(1)\n\n worst_index = np.argmin(accuracies)\n print(\"The worst image is: \", worst_index)\n plt.figure(2)\n plt.subplot(3, 1, 1)\n plt.imshow(self.orig_train_images[worst_index, :, :])\n plt.subplot(3, 1, 2)\n plt.imshow(self.noisy_train_images[worst_index, :, :])\n plt.subplot(3, 1, 3)\n plt.imshow(self.denoised_images[worst_index, :, :])\n plt.show(2)",
"def _rdaam_diffusivity(self):\r\n self._damage()\r\n \r\n R = 0.008314472\r\n \r\n product = lambda lmbd : np.exp(lmbd * self.t1) - np.exp(lmbd * self.t2)\r\n \r\n if self.mineral =='apatite':\r\n rhov = (8/8 * self.U238 * 3.19 * product(self.lmbd238)\r\n + 7/8 * self.U235 * 3.19 * product(self.lmbd235)\r\n + 6/8 * self.Th232 * 3.19 * product(self.lmbd232)\r\n )\r\n \r\n # Parameters: Flowers et al. (2009)\r\n lambdaf = 8.46e-17\r\n lambdaD = 1.55125e-10\r\n eta = 0.91\r\n L = 8.15e-4\r\n \r\n anneal_d = self.damage * (lambdaf / lambdaD) * rhov * eta * L\r\n anneal_d = np.sum(anneal_d, axis=0)\r\n \r\n omega = 1e-22\r\n psi = 1e-13\r\n Do = 0.6071\r\n Ea = 122.3\r\n Et = 34\r\n \r\n trap_diff = psi * anneal_d + omega * anneal_d**3\r\n \r\n diffusivities = 1e8 * ((Do * np.exp(-Ea / (R * self.T_mean)))\r\n / (trap_diff * np.exp(Et / (R * self.T_mean)) + 1))\r\n \r\n self.diffusivities = diffusivities\r\n \r\n if self.mineral =='zircon':\r\n alphai = (8 * self.U238 * product(self.lmbd238)\r\n + 7 * self.U235 * product(self.lmbd235)\r\n + 6 * self.Th232 * product(self.lmbd232)\r\n )\r\n \r\n anneal_d = alphai * np.flip(self.damage)\r\n anneal_d = np.sum(anneal_d, axis=0)\r\n \r\n # Parameters: Guenthner et al. (2013)\r\n Ba = 5.48E-19\r\n SV = 1.669\r\n D0l = 193188\r\n El = 165\r\n D0N17 = 0.0034\r\n EaN17 = 71\r\n Lint_lattice = 45920\r\n \r\n a = self.r * 1e-4\r\n fa = 1 - np.exp(-Ba * anneal_d)\r\n DI = 1 - np.exp(-Ba * anneal_d * 3)\r\n Lint = (4.2 / (fa * SV) - 2.5)\r\n Tau = (Lint_lattice / Lint)**2\r\n DTaua2 = (1 / Tau) * D0l * np.exp(-El / (R * self.T_mean)) / (a * (1 - DI))**2\r\n DN17a2 = D0N17 * np.exp(-EaN17 / (R * self.T_mean)) / (a * DI)**2\r\n \r\n diffusivities = self.r**2 * (DI / DN17a2 + (1 - DI) / DTaua2)**-1\r\n \r\n self.diffusivities = diffusivities",
"def evaluate(self, evaluation_set, measure, sparsity):\n\n #print('Evaluating fingerperints using SDRs from images/fp_{}'.format(self.opts['id']))\n\n \n testdataset = list(evaluation_set.values())[0]\n datasetname = list(evaluation_set.keys())[0]\n\n # Define distance measures mapping\n distance_measures = {\n \"cosine\": self._cosine, \n \"euclidean\": self._euclidean, \n \"similarbits\": self._similarbits, \n \"structutal similarity\": self._struc_similatity,\n 'earth movers distance': self._wasserstein,\n }\n\n \n w1 = [w.lower() for w in testdataset[0]]\n w2 = [w.lower() for w in testdataset[1]]\n score = testdataset[2]\n\n df = pd.DataFrame({0: w1, 1: w2, 2: score})\n bunch = Bunch(X=df.values[:, 0:2].astype(\"object\"),\n y=df.values[:, 2:].astype(np.float))\n\n if (self.opts['algorithm'] == 'KMEANS' or self.opts['algorithm'] == 'MINISOMBATCH'):\n \n filepath = './images/fp_{}/dict_{}.npy'.format(self.opts['id'], self.opts['id'])\n if (os.path.isfile(filepath) is not False):\n with open(filepath, 'rb') as handle:\n fingerprints = pickle.load(handle)\n\n w1_ = [] \n w2_ = [] \n score_ = [] \n for a, b, c in zip(w1, w2, score):\n if (a in fingerprints) and (b in fingerprints):\n w1_.append(a)\n w2_.append(b)\n score_.append(c)\n\n test_percentage = round((len(w1_)/len(w1)) * 100, 1)\n if test_percentage == 0:\n return {'score': 0, 'percentage': test_percentage}\n\n df = pd.DataFrame({0: w1_, 1: w2_, 2: score_})\n bunch = Bunch(X=df.values[:, 0:2].astype(\"object\"), y=df.values[:, 2:].astype(np.float))\n \n A, B = self._get_embeddings(bunch, datasetname, sparsity, self.opts['algorithm'])\n \n\n else:\n\n w1_ = [] \n w2_ = [] \n score_ = [] \n for a, b, c in zip(w1, w2, score):\n if (os.path.isfile('./images/fp_{}/{}.bmp'.format(self.opts['id'], a)) is True) and (os.path.isfile('./images/fp_{}/{}.bmp'.format(self.opts['id'], b)) is True):\n w1_.append(a)\n w2_.append(b)\n score_.append(c)\n\n test_percentage = round((len(w1_)/len(w1)) * 100, 1)\n if test_percentage == 0:\n return {'score': 0, 'percentage': test_percentage}\n \n df = pd.DataFrame({0: w1_, 1: w2_, 2: score_})\n bunch = Bunch(X=df.values[:, 0:2].astype(\"object\"), y=df.values[:, 2:].astype(np.float))\n\n if measure == 'ssim':\n mode = '2darray'\n A = [self._get_fingerprint_from_image(word, mode) for word in bunch.X[:, 0]]\n B = [self._get_fingerprint_from_image(word, mode) for word in bunch.X[:, 1]]\n else:\n mode = 'flatten'\n A = np.vstack(self._get_fingerprint_from_image(word, mode) for word in bunch.X[:, 0])\n B = np.vstack(self._get_fingerprint_from_image(word, mode) for word in bunch.X[:, 1])\n\n measure_fnct = distance_measures[measure]\n\n predicted_scores = measure_fnct(A, B)\n result = scipy.stats.spearmanr(predicted_scores, bunch.y).correlation\n \n return {'score': result, 'percentage': test_percentage}",
"def read_density(allele1, allele2, alleles, unit, pmf):\n allele_prob = prod(pmf(abs(a - allele1)/unit) / 2.0 +\n pmf(abs(a - allele2)/unit) / 2.0\n for a in alleles)\n\n for a in alleles:\n x = abs(a - allele1) / unit\n print(\"pmf(%d)=%f\" % (x, pmf(x)))\n x = abs(a - allele2) / unit\n print(\"pmf(%d)=%f\" % (x, pmf(x)))\n\n # I drew N=total depth reads from an infinite population that is\n # distributed with ratio (1/2)-epsilon between real alleles 1 and 2\n # and epsilon/(#alleles-2) for all other alleles. Multinomial.\n # For version 1, just look at distribution of reads for the two real\n # alleles (or better yet, to easily consider nearby alleles, for each\n # allele, assign it to the closest in allele{1,2} and sum over each\n # group. split reads in half if an allele is equidistant from both\n # allele1 and allele2.\n allele1_support = alleles.get(allele1, [0])[0]\n allele2_support = alleles.get(allele2, [0])[0]\n '''\n # XXX: Bad idea. This causes alleles with next to no support to be given\n # support from nearby alleles with strong signals. E.g.:\n # 8:1 9:1 10:18 11:1 is called 9/11 het because the 10 allele's reads are\n # split evenly between 9 and 11, causing the read probability to miss this\n # obvious nonhet.\n for a, data in alleles.iteritems():\n print(\"a=%s, data=%s, a1=%d, a2=%d\" % (a, str(data), allele1, allele2))\n nreads = data[0]\n a1_dist = abs(a - allele1)\n a2_dist = abs(a - allele2)\n if a1_dist == a2_dist:\n print(\"a1_dist == a2_dist\")\n allele1_support += nreads / 2.0\n allele2_support += nreads / 2.0\n elif a1_dist < a2_dist:\n print(\"a1_dist < a2_dist\")\n allele1_support += nreads\n else:\n print(\"a1_dist > a2_dist\")\n allele2_support += nreads\n '''\n allele1_support = int(allele1_support)\n allele2_support = int(allele2_support)\n tot_support = allele1_support + allele2_support\n print('allele1_support=' + str(allele1_support))\n print('allele2_support=' + str(allele2_support))\n # Min ensures we're measuring the probability of the most extreme event.\n # _p_binom is not symmetric in a,b if size=a+b\n # _d_binom is symmetric\n read_prob = rpy.r.dbinom(allele1_support, size=tot_support, prob=0.5)\n\n print('allele_prob=%f, read_prob=%f' % (allele_prob, read_prob))\n return allele_prob * read_prob",
"def computeNEFD(data):\n chans = data.BolometerArray.checkChanList([])\n if not data._DataAna__statisticsDone:\n data._DataAna__statistics()\n rms = []\n for c in chans:\n rms.append(data.ChanRms[data.BolometerArray.getChanIndex(c)[0]])\n rms = array(rms,'f') \n sampling = 1./fStat.f_median(data.ScanParam.get('deltaT'))\n # Weighted average NEFD\n w_nefd = sum(1./rms) / sum(1./rms**2) / sqrt(sampling)\n\n data.MessHand.info(\"--------------------------------------------\")\n data.MessHand.info(\"Weighted average NEFD = %6.1f mJy sqrt(Hz)\"%(w_nefd * 1.e3))\n data.MessHand.info(\"--------------------------------------------\")\n return w_nefd",
"def testPsfexDeterminerTooFewStars(self):\n self.setupDeterminer(self.exposure)\n metadata = dafBase.PropertyList()\n\n stars = self.starSelector.run(self.catalog, exposure=self.exposure)\n psfCandidateList = self.makePsfCandidates.run(stars.sourceCat, exposure=self.exposure).psfCandidates\n\n psfCandidateListShort = psfCandidateList[0: 3]\n\n with self.assertRaisesRegex(RuntimeError, \"Failed to determine\"):\n psf, cellSet = self.psfDeterminer.determinePsf(self.exposure, psfCandidateListShort, metadata)",
"def removeOutliers(self, stars, logger=None):\n logger = galsim.config.LoggerWrapper(logger)\n\n if self.include_reserve:\n use_stars = stars\n else:\n use_stars = [ s for s in stars if not s.is_reserve ]\n\n nstars = len(use_stars)\n logger.debug(\"Checking %d stars for outliers\", nstars)\n\n chisq = np.array([ s.fit.chisq for s in use_stars ])\n dof = np.array([ s.fit.dof for s in use_stars ])\n\n # Scale up threshold by global chisq/dof.\n factor = np.sum(chisq) / np.sum(dof)\n if factor < 1: factor = 1\n\n thresh = np.array([ self._get_thresh(d) for d in dof ]) * factor\n\n if np.all(dof == dof[0]):\n logger.debug(\"dof = %f, thresh = %f * %f = %f\",\n dof[0], self._get_thresh(dof[0]), factor, thresh[0])\n else:\n min_dof = np.min(dof)\n max_dof = np.max(dof)\n min_thresh = self._get_thresh(min_dof)\n max_thresh = self._get_thresh(max_dof)\n logger.debug(\"Minimum dof = %d with thresh = %f * %f = %f\",\n min_dof, min_thresh, factor, min_thresh*factor)\n logger.debug(\"Maximum dof = %d with thresh = %f * %f = %f\",\n max_dof, max_thresh, factor, max_thresh*factor)\n\n nremoved = np.sum(~(chisq <= thresh)) # Write it as not chisq <= thresh in case of nans.\n if nremoved == 0:\n return stars, 0\n\n logger.info(\"Found %d stars with chisq > thresh\", nremoved)\n\n # Update max_remove if necessary\n max_remove = self.max_remove\n if max_remove is not None and 0 < max_remove < 1:\n max_remove = int(math.ceil(max_remove * len(stars)))\n\n if max_remove is None or nremoved <= max_remove:\n good = chisq <= thresh\n good_stars = [ s for g, s in zip(good, use_stars) if g ]\n else:\n # Since the thresholds are not necessarily all equal, this might be tricky to\n # figure out which ones should be removed.\n # e.g. if max_remove == 1 and we have items with \n # chisq = 20, thresh = 15\n # chisq = 40, thresh = 32\n # which one should we remove?\n # The first has larger chisq/thresh, and the second has larger chisq - thresh.\n # I semi-arbitrarily remove based on the difference.\n nremoved = max_remove\n diff = chisq - thresh\n new_thresh_index = np.argpartition(diff, -nremoved)[-nremoved]\n new_thresh = diff[new_thresh_index]\n good = diff < new_thresh\n good_stars = [ s for g, s in zip(good, use_stars) if g ]\n\n # Add back the reserve stars if we aren't including them in the cut.\n if not self.include_reserve:\n good_stars += [ s for s in stars if s.is_reserve ]\n\n logger.debug(\"chisq = %s\",chisq[~(chisq <= thresh)])\n logger.debug(\"thresh = %s\",thresh[~(chisq <= thresh)])\n logger.debug(\"flux = %s\",[s.flux for g,s in zip(good,stars) if not g])\n\n assert nremoved == len(stars) - len(good_stars)\n return good_stars, nremoved",
"def addApproxDiam(dics, verbose=True):\n # surface brightness relations for dwarf stars\n # from Kervella et al. 2004\n k04 = {}\n # coef0 coef1 error\n k04['BV']=[.9095, .4889, .0918]\n k04['BJ']=[.3029, .5216, .0307]\n k04['BH']=[.2630, .5134, .0189]\n k04['BK']=[.2538, .5158, .0100]\n k04['VJ']=[.3547, .5310, .0475]\n k04['VH']=[.2893, .5148, .0185]\n k04['VK']=[.2753, .5175, .0101]\n k04['JK']=[.5256, .5097, .0575]\n\n for k, d in enumerate(dics): # for each star\n diams = []\n errs = []\n for coul in k04.keys(): # for each color\n # check magnitudes are valid, compute diameter and error\n if d.has_key(coul[0]+'MAG') and d[coul[0]+'MAG']>-90 and\\\n d.has_key(coul[1]+'MAG') and d[coul[1]+'MAG']>-90:\n diams.append(diamSurfBri(d[coul[0]+'MAG'], d[coul[1]+'MAG'],\n k04[coul]))\n errs.append(k04[coul][2]*diams[-1])\n if len(diams)>1:\n # weighted average\\\n dics[k]['DIAM'] = reduce(lambda x,y: x+y, [diams[i]*errs[i]\n for i in range(len(diams))])/\\\n reduce(lambda x,y: x+y, errs)\n dics[k]['DIAM'] = round(dics[k]['DIAM'],\n int(-math.log10(dics[k]['DIAM']) +3))\n elif len(diams)==1:\n dics[k]['DIAM'] = round(diams[0], int(-math.log10(diams[0])+3))\n else:\n dics[k]['DIAM'] = 0 \n if verbose: \n print dics[k]['NAME'], '|', dics[k]['DIAM']\n return dics",
"def _discount_normalize_rewards(self):\n # all_discounted = self._discount_rewards(self.rewards)\n # we don't want to discount because we only have one step per episode\n all_discounted = np.array(self.rewards)\n reward_mean = all_discounted.mean()\n reward_std = all_discounted.std()\n return [(d - reward_mean) / reward_std for d in all_discounted]",
"def fleissKappa(rate,n):\n\n N = len(rate)\n k = len(rate[0])\n print(\"#raters = \", n, \", #subjects = \", N, \", #categories = \", k)\n checkInput(rate, n)\n\n #mean of the extent to which raters agree for the ith subject \n PA = sum([(sum([i**2 for i in row])- n) / (n * (n - 1)) for row in rate])/N\n print(\"PA = \", PA)\n \n # mean of squares of proportion of all assignments which were to jth category\n PE = sum([j**2 for j in [sum([rows[i] for rows in rate])/(N*n) for i in range(k)]])\n print(\"PE =\", PE)\n \n kappa = -float(\"inf\")\n try:\n kappa = (PA - PE) / (1 - PE)\n kappa = float(\"{:.3f}\".format(kappa))\n except ZeroDivisionError:\n print(\"Expected agreement = 1\")\n\n print(\"Fleiss' Kappa =\", kappa)\n \n return kappa",
"def obtain_safra_lung_missingness(self):\n print('Working on missingness estimation')\n #First, get a binary representation of the lung location predictions:\n lung_bin = self.binarize_complex_labels(chosen_labels = list(self.lung_loc_dict.keys()), label_type='location')\n \n #Initialize and fill in missingness df:\n cols = ['left_lobes_all','right_lobes_all','lungs_right_left']\n missing = pd.DataFrame(np.ones((len(self.uniq_set_files), len(cols))),\n index = self.uniq_set_files, columns = cols)\n for filename in missing.index.values.tolist():\n if ((lung_bin.at[filename,'lung']==1)\n and (lung_bin.at[filename,'right_lung']==0)\n and (lung_bin.at[filename,'left_lung']==0)):\n missing.at[filename,'lungs_right_left'] = 0\n if ((lung_bin.at[filename,'right_lung']==1)\n and (lung_bin.at[filename,'right_lower']==0)\n and (lung_bin.at[filename,'right_upper']==0)\n and (lung_bin.at[filename,'right_mid']==0)):\n missing.at[filename,'right_lobes_all'] = 0\n if ((lung_bin.at[filename,'left_lung']==1)\n and (lung_bin.at[filename,'left_lower']==0)\n and (lung_bin.at[filename,'left_upper']==0)\n and (lung_bin.at[filename,'left_mid']==0)):\n missing.at[filename,'left_lobes_all'] = 0\n self.missing = missing",
"def calculate(self, strand):\r\n result = []\r\n\r\n for row in self.assessmentData[strand]:\r\n score = 0\r\n baseNum = 5\r\n # Consider only the last three entries of the row since we've appended our counting dictionaries\r\n # to the end of the object's assessment data\r\n for columnNum in range(-3, 0):\r\n # If the column only has one entry so far\r\n column = row[columnNum]\r\n \r\n # Developing and Understanding\r\n if columnNum != -1: \r\n if \"2\" in column:\r\n if column[\"2\"] > 1 or (column[\"2\"] == 1 and len(column) == 1):\r\n score = baseNum + columnNum\r\n elif \"1\" in column:\r\n if column[\"1\"] > 1:\r\n score = baseNum - 0.5 + columnNum\r\n elif \"1\" in column:\r\n if column[\"1\"] > 1 or (column[\"1\"] == 1 and len(column) == 1):\r\n score = baseNum -1 + columnNum\r\n else:\r\n score = baseNum - 1.5 + columnNum\r\n \r\n # Mastery Column\r\n else:\r\n # This creates a threshold so that if they haven't achieved the previous strands\r\n # They cannot achieve mastery\r\n if score < 3:\r\n pass\r\n\r\n elif \"2\" in column:\r\n masteryData = strand[-5]\r\n if len(masteryData) == 1:\r\n score = 4\r\n \r\n elif column[\"2\"] > 1:\r\n if masteryData[-2:] == \"22\":\r\n score = 4\r\n\r\n # at this point, we'll create a temporary scale and fix this later\r\n elif \"1\" in column:\r\n if column[\"1\"] > 1:\r\n score = 3.75\r\n else:\r\n score = 3.5 \r\n result.append(score) \r\n\r\n try:\r\n return round(sum(result)/len(result), 2)\r\n except ZeroDivisionError:\r\n return 0",
"def calculate_rdf(struc, binsize, cutoff):\n\n\t# expand\n\t[unitcell, atoms, title] = struc\n\n\t# collect sizes\n\tnr_bins = int(math.ceil(cutoff / binsize))\n\tnr_atoms = atoms.shape[0]\n\n\t# expand unit cell\n\texpanded_cell_atoms = numpy.zeros([0,3])\n\tdp = int(math.ceil(cutoff / numpy.linalg.norm(unitcell[0])))\n\tfor p in range(-dp, dp):\n\t\tdq = int(math.ceil(cutoff / numpy.linalg.norm(unitcell[1])))\n\t\tfor q in range(-dq, dq):\n\t\t\tdr = int(math.ceil(cutoff / numpy.linalg.norm(unitcell[2])))\n\t\t\tfor r in range(-dr, dr):\n\t\t\t\tif p is 0 and q is 0 and r is 0:\n\t\t\t\t\tcontinue\n\t\t\t\tfor i in range(0, nr_atoms):\n\t\t\t\t\texpanded_cell_atoms = numpy.vstack([expanded_cell_atoms, atoms[i]+numpy.array([p,q,r])])\n\n\t# count distances\n\tnr_expanded_cell_atoms = expanded_cell_atoms.shape[0]\n\tdistances = []\n\tfor i in range(0, nr_atoms):\n\t\tp1 = atoms[i].dot(unitcell)\n\t\tfor j in range(i+1, nr_atoms):\n\t\t\tp2 = atoms[j].dot(unitcell)\n\t\t\td = numpy.linalg.norm(p1 - p2, 2)\n\t\t\tdistances.append(d)\n\t\tfor j in range(0, nr_expanded_cell_atoms):\n\t\t\tp2 = expanded_cell_atoms[j].dot(unitcell)\n\t\t\td = numpy.linalg.norm(p1 - p2, 2)\n\t\t\tdistances.append(d)\n\n\t# sort the distances\n\tdistances.sort()\n\n\t# construct rdf matrix\n\trdf = numpy.zeros((3, nr_bins))\n\n\t# loop over bins\n\tidx = 0\n\tfor i in range(0, nr_bins):\n\t\trdf[0,i] = i * binsize\n\t\tr1 = (float(i)-0.5) * binsize\n\t\tr2 = (float(i) + 0.5) * binsize\n\t\trdf[2,i] = 4./3. * math.pi * (r2**3 - r1**3) # calculation shell volume\n\n\t\twhile(distances[idx] < r2):\n\t\t\trdf[1,i] += 1\n\t\t\tidx += 1\n\n\t# divide by volume\n\tfor i in range(0, nr_bins):\n\t\trdf[1,i] /= rdf[2,i]\n\n\treturn rdf",
"def get_clean_epc():\n epc = get_epc()\n #\n # Calculate median energy rating for each LA:\n epc_medians = (\n epc.groupby(\"LOCAL_AUTHORITY\")[\"CURRENT_ENERGY_EFFICIENCY\"]\n .apply(np.median)\n .reset_index(name=\"median_energy_efficiency\")\n )\n #\n # Calculate proportions of 'improvable' social housing\n # (socially rented dwellings that are currently EPC D or below,\n # and have the potential to be C or above)\n #\n # There are two different strings signifying socially rented\n # in the TENURE column of the EPC data:\n epc_social = epc.loc[epc[\"TENURE\"].isin([\"rental (social)\", \"Rented (social)\"])]\n #\n epc_social[\"is_improvable\"] = (\n epc_social[\"CURRENT_ENERGY_RATING\"].isin([\"G\", \"F\", \"E\", \"D\"])\n ) & (epc_social[\"POTENTIAL_ENERGY_RATING\"].isin([\"C\", \"B\", \"A\"]))\n #\n # Find the numbers of improvable / not improvable social houses in each LA\n potential_counts = (\n epc_social.groupby([\"LOCAL_AUTHORITY\", \"is_improvable\"])[\n [\"LOCAL_AUTHORITY\", \"is_improvable\"]\n ]\n .size()\n .reset_index(name=\"count\")\n .pivot(index=\"LOCAL_AUTHORITY\", columns=\"is_improvable\", values=\"count\")\n .rename(columns={True: \"total_improvable\", False: \"total_not_improvable\"})\n )\n # Calculate proportions\n potential_counts.columns.name = None\n potential_counts[\"total_social\"] = potential_counts.sum(axis=1)\n potential_counts[\"prop_improvable\"] = (\n potential_counts[\"total_improvable\"] / potential_counts[\"total_social\"]\n )\n potential_counts = potential_counts.reset_index()[\n [\"LOCAL_AUTHORITY\", \"total_improvable\", \"prop_improvable\"]\n ]\n # Join to medians\n clean_epc = epc_medians.merge(potential_counts, on=\"LOCAL_AUTHORITY\").rename(\n columns={\"LOCAL_AUTHORITY\": \"code\"}\n )\n #\n return clean_epc"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Uses ArgParse to get search term and number of jokes
|
def get_user_input():
args = argparse.ArgumentParser()
args.add_argument('-t', '--term', default=None,
help="Find a joke containing the term")
args.add_argument('-n' '--number-of-jokes', dest='number_of_jokes', default=1, type=int,
help='Number of jokes you would like to receive')
return args.parse_args()
|
[
"def checkInput():\n\tif len(sys.argv) != 5:\n\t\t# number of argument is not correct\n\t\tprint(\"Four arguments are needed:\")\n\t\tprint(\"1. a path to the index file\")\n\t\tprint(\"2. k (the maximum number of answers)\")\n\t\tprint(\"3. [y/n] indicating whether to print the scores\")\n\t\tprint(\"4. followed by a list of keywords\")\n\t\tprint('python3 lm_query.py [path] [k] [y/n] \"[whitespace-separated multi-term query]\"')\n\t\tsys.exit(-1)\n\tindexFilePath = sys.argv[1]\n\tk = sys.argv[2]\n\tprintScore = sys.argv[3]\n\tqueryTermString = sys.argv[4]\n\tif not os.path.isfile(indexFilePath):\n\t\t# check if the training json file exists\n\t\tprint(\"The given index file path is invalid\")\n\t\tsys.exit(-1)\n\ttry:\n\t\t# check input k\n\t\tk = int(k)\n\texcept:\n\t\tprint(\"The given k(the maximum number of answers) is invalid\")\n\t\tsys.exit(-1)\n\tif printScore.lower() != 'y' and printScore.lower() != 'n':\n\t\t# check y/n\n\t\tprint(\"Third argument has to be either y or n.\")\n\t\tsys.exit(-1)\n\treturn indexFilePath,k,printScore,queryTermString",
"def main():\n\n #parse options\n parser = OptionParser()\n parser.add_option(\"-i\", \"--ignore-case\", dest=\"ignoreCase\", action=\"store_true\",\n help=\"\"\"Use case-insensitive searches. ('Foo' matches 'foo')\"\"\")\n parser.add_option(\"-r\", \"--regex\", dest=\"regex\", action=\"store\",\n help=\"\"\"Use regular expression instead of phrase.\"\"\")\n parser.add_option(\"-s\", \"--spotlight-expression\", dest=\"spotlightExpression\",\n action=\"store\", help=\"\"\"An extra expression used to seach the spotlight index\n for example mdgrep \"Frank Zappa\" -s \"utopia\" finds all items in the spotlight\n index matching \"utopia\" with the phrase \"Frank Zappa\".\"\"\")\n parser.add_option(\"-o\", \"--only-in\", dest=\"directory\",\n action=\"store\", help=\"\"\"Search only in this directory.\"\"\")\n parser.add_option(\"-v\", \"--verbose\", dest=\"verbose\", action=\"store_true\",\n help=\"Print out some debug messages.\")\n \n \n parser.set_usage(\"%prog seachPhrase [options]\")\n \n (options, args) = parser.parse_args()\n \n \n \n\n #set our debug level\n global debug\n debug = options.verbose\n\n if debug:\n print \"Options:\" \n print options\n print \"Args:\"\n print args\n \n\n #get the search phrase from the args\n searchPhrase = None\n if len(args):\n searchPhrase = args[0]\n \n \n \n #error checking. We need either a search phrase or a spotLight expression.\n #for any query.\n if not (searchPhrase or options.spotlightExpression):\n print \"\"\"You must supply either a search phrase, or a spotlight expression.\"\"\"\n parser.print_help()\n sys.exit()\n \n #set options for ignoreCase\n if options.ignoreCase:\n ignoreCase = True\n regexFlags = re.I\n else:\n ignoreCase = None\n regexFlags = 0\n \n #if there is a regular expression specified, do the \"phrase\" search using that. \n if options.regex:\n reObject = re.compile(options.regex,regexFlags)\n searchSpotlight(searchPhrase,\n spotlightQuery=options.spotlightExpression,\n onlyin=options.directory,\n regexObject=reObject)\n \n #run a normal text search. \n else:\n searchSpotlight(searchPhrase,\n spotlightQuery = options.spotlightExpression,\n onlyin=options.directory,\n case=ignoreCase)",
"def run(self):\n keywords = input('\\nPlease enter a space separated list of one or more keywords:\\n> ')\n while len(keywords) == 0:\n keywords = input('Invalid input - you must enter at least one keyword:\\n> ')\n SearchResults(self.db_manager, self.user_id, keywords).run()",
"def test_arg() -> None:\n parser = arg_parser()\n parsed = parser.parse_args(\n [\"--test\", \"test_name\", \"-n\", \"52\", \"--tool\", \"cwltool\", \"-j\", \"4\"]\n )\n assert parsed.test == \"test_name\"\n assert parsed.n == \"52\"\n assert parsed.tool == \"cwltool\"\n assert parsed.j == 4",
"def main(argv=None):\n bing_api_key = get_bing_api_key_from_env()\n query_terms = get_query_terms(argv)\n run_search(query_terms, bing_api_key)",
"def parse_search_args(tokens):\n tokens = tokens[1:]\n \n # interactive mode\n if not tokens:\n search = search_helper(text='search')\n exclude = search_helper(text='exclude')\n show = search_helper(text='show')\n show = [process_long_key(i) for i in show]\n kwargs = {'search': search, 'show': show, 'exclude': exclude,\n 'cql': isinstance(search, str), 'conc': objs._do_conc}\n return kwargs\n\n search_related = []\n for token in tokens:\n search_related.append(token)\n if token in [',', 'showing', 'with', 'excluding']:\n break\n\n if 'excluding' in tokens:\n start = tokens.index('excluding')\n ex_related = tokens[start+1:]\n end = ex_related.index('showing') if 'showing' in ex_related else False\n if end is False:\n end = ex_related.index('with') if 'with' in ex_related else False\n if end:\n ex_related = ex_related[:end]\n else:\n ex_related = []\n\n if 'showing' in tokens:\n start = tokens.index('showing')\n show_related = tokens[start+1:]\n end = show_related.index('with') if 'with' in show_related else False\n if end:\n show_related = show_related[:end]\n else:\n show_related = []\n\n if 'with' in tokens:\n start = tokens.index('with')\n with_related = tokens[start+1:]\n else:\n with_related = []\n\n search, exclude, searchmode, cqlmode = parse_search_related(search_related)\n if not exclude and ex_related:\n exclude, _, _, _, _ = parse_search_related(ex_related)\n\n show = []\n if show_related:\n for token in show_related:\n token = token.rstrip(',')\n if token == 'and':\n continue\n token = process_long_key(token)\n show.append(token)\n else:\n show = ['w']\n\n withs = process_kwargs(tokens)\n\n kwargs = {'search': search, 'exclude': exclude,\n 'show': show, 'cql': cqlmode, 'conc': objs._do_conc, 'searchmode': searchmode}\n kwargs.update(withs)\n return kwargs",
"def main():\r\n index(parserCmdLine())",
"def validate_joke_criteria(args, jokes_json):\n if args.term and jokes_json['total_jokes'] < args.number_of_jokes:\n raise Exception(\n f\"Was unable to find {args.number_of_jokes} jokes\"\n f\" that match the search filter: {args.term}\"\n )\n if jokes_json['total_jokes'] < args.number_of_jokes:\n raise Exception(\n f\"You are requesting {args.number_of_jokes},\"\n f\" but this API only contains a total of {jokes_json['total_jokes']}\"\n )",
"def keyword_search(self,abc = False):\n \n print(\"\\033c\")\n if abc == True:\n word = ' Abc '\n else:\n word = 'Keyword'\n while True:\n print('#####################')\n print('# Search({}) #'.format(word))\n print('#####################')\n print(\"Type: '00' to return \\n\")\n selection = ''.join(input('>>> ').split()).lower() \n if selection in ('00'):\n print(\"\\033c\")\n return\n if abc == True:\n comics = [i.lower() for i in self.book_lib if i[0] == selection[0]]\n else:\n comics = [i.lower() for i in self.book_lib if selection in i]\n \n if len(comics) == 0:\n print('No Results Found!')\n time.sleep(2)\n print(\"\\033c\")\n while True:\n print('Search Again?')\n again = input('>>> ').lower()\n if again in ('y','yes'):\n break\n elif again in ('n','no'):\n return \n else:\n break\n print(\"\\033c\")\n comics.sort(key = self.natural_key)\n numbered_list = [''.join((str(i),')',comics[i])) for i in range(len(comics))]\n while True:\n print('####################')\n print('# Search Results #')\n print('####################\\n')\n print('Showing Matches for: {}'.format(selection))\n print('{} result(s) found\\n'.format(len(comics)))\n for result in numbered_list:\n print(result.title())\n pick = ''.join(input('>>> ').split()).lower() \n if pick in ('back','b','q'):\n print(\"\\033c\")\n return\n elif pick.isdigit():\n if int(pick) in range(len(comics)):\n book_link = self.book_lib[comics[int(pick)]]\n self.load_pull()\n if book_link not in self.pull_list.values():\n self.book_display(book_link)\n else:\n self.book_display(book_link)\n else:\n print('Invalid Entry!')\n time.sleep(1)\n print('\\033c')",
"def main():\n # TODO: ask the user to input some `text`\n\n\n # TODO: count the number of occurences of each word in the text\n\n\n # TODO: sort by descending order of occurences and display the result",
"def main():\n # parse cmdline arguments\n parser = argparse.ArgumentParser(\n description=\"Display cheatsheets for miscelaneous topics\",\n epilog=(\"If the topic is not specified prints the list of \"\n \"available topics\")\n )\n\n parser.add_argument(\"-v\", \"--verbose\", action='store_true',\n help=\"print some debug data\")\n\n parser.add_argument(\"-s\", \"--search\", nargs=\"+\", default=[],\n help=\"search the text in all topics (or in the specified topic)\")\n\n parser.add_argument(\"-S\", \"--search-word\", nargs=\"+\", default=[],\n help=\"search the word in all topics (or in the specified topic)\")\n\n parser.add_argument(\"topic\", nargs='?',\n help=\"the topic to display. Topic is selected 1) by filename, \"\n \"2) or by title, 3) or by topic's metadata item\")\n\n args = parser.parse_args()\n\n _configure_logging(\n level=logging.DEBUG if args.verbose else logging.WARNING)\n\n topics_dirs = get_topics_dirs()\n\n # and do the job\n if args.topic is None:\n if args.search_word or args.search:\n matching_topics = search_topics_by_pattern(\n topics_dirs, args.search_word, args.search)\n if not matching_topics:\n print(\"No topics contain the searth pattern\")\n return 0\n print(\"Search pattern found in the following {} topic(s):\".format(len(matching_topics)))\n for topic_meta in matching_topics:\n print(topic_meta.make_colored_descr())\n if len(matching_topics) == 1:\n print(\"\")\n do_print_topic(matching_topics[0].filename, args.search_word, args.search)\n return 0\n else:\n # print list of all the topics\n num_topics = 0\n for topic_meta in get_all_topic_metas(topics_dirs):\n print(topic_meta.make_colored_descr())\n num_topics += 1\n print(\"---\\n Total: {} tipic(s) found\".format(num_topics))\n return 0\n else:\n # the topic name is specified. Find it and print it.\n topic_file_path = find_topic_by_name(topics_dirs, args.topic)\n if topic_file_path:\n # topic was found by name\n do_print_topic(topic_file_path, args.search_word, args.search)\n return 0\n elif not args.topic.endswith(\".topic\"):\n # try to search for topic by topics metadata\n matching_topics = find_topic_by_topicitem(topics_dirs, args.topic)\n if matching_topics:\n for topic_meta in matching_topics:\n print(topic_meta.make_colored_descr())\n\n if len(matching_topics) == 1:\n print(\"\")\n do_print_topic(matching_topics[0].filename, args.search_word, args.search)\n return 0\n else:\n print(\"---\\n Total: {} tipic(s) found\".format(matching_topics))\n return 1\n print(\"Topic '{}' not found. Examined directories: {}\".format(\n args.topic, topics_dirs))\n return 1",
"def get_recall_arg_parse():\n\n ap = ArgumentParser(description='Determine the naive recall of the search query data set')\n ap.add_argument('-query',\n help='Directory containing automatically generated queries',\n default=QUERY_DIRECTORY)\n ap.add_argument('-recall',\n help='Directory containing recall queries',\n default=RECALL_DIRECTORY)\n\n return ap",
"def main():\n entries = get_feed_entries()\n while True:\n try:\n search_term = input('Search for (q for exit): ').lower()\n except EOFError:\n break\n\n if search_term == '':\n print('Please provide a search term')\n\n if search_term != '' and search_term != 'q':\n output_list = []\n for entry in entries:\n if filter_entries_by_tag(search_term, entry):\n output_list.append(entry)\n output_list = sorted(output_list, key=lambda x: x.date)\n\n titles = ', '.join([entry.title for entry in output_list])\n\n output_number = len(output_list)\n if output_number < 1:\n print(f'{output_number} entries matched')\n if output_number == 1:\n print(titles)\n print(f'{output_number} entry matched')\n if output_number > 1:\n print(titles)\n print(f'{output_number} entries matched')\n\n if search_term == 'q':\n print('Bye')\n break",
"def get_query_terms(argv):\n if argv is None:\n argv = sys.argv\n arg = argv[1:]\n if len(arg) > 0:\n query_terms = arg\n else:\n with open(os.path.expanduser(\"~/allSettings.json\")) as settings:\n query_terms = json.load(settings)['search-terms']\n return [term.strip() for term in query_terms]",
"def do_search(out=None, edit_mode=False):\n\n duration = 0\n start_t = time()\n\n fields = list(valid_tags)\n fields.remove('filename')\n fields = tuple(fields)\n\n if callable(out):\n song_output = out\n elif out == 'm3u':\n print \"#EXTM3U\"\n def song_output(song):\n print u\"#EXTINF:%d,%s - %s\\n%s\"%(song.length, song.artist, song.title, song.filename)\n elif out == 'null':\n def song_output(song): pass\n else:\n def song_output(song):\n txt = '%s :\\n%s [%s, score: %s, tags: %s]'%(song.filename,\n '%s - %s - %s'%(song.artist, song.album, song.title),\n duration_tidy(song.length), song.score, song.tags,\n )\n print txt.decode('utf8').encode('utf8')\n\n pat = string2python(' '.join(zshell.args))\n if edit_mode:\n search_fn = zshell.songs.u_search\n else:\n search_fn = zshell.songs.search\n\n num = 0\n for num, res in enumerate(search_fn(None, pat)):\n song_output(res)\n duration += res.length\n\n sys.stderr.write(\"# %d results in %s for a total of %s!\\n\"%(\n num,\n duration_tidy(time()-start_t),\n duration_tidy(duration)\n ))",
"def tsearch(self, irc, msg, args, optlist, optterm):\n # enforce +voice or above to use command?\n if self.registryValue(\"requireVoiceOrAbove\", msg.args[0]): # should we check?\n if ircutils.isChannel(msg.args[0]): # are we in a channel?\n if not irc.state.channels[msg.args[0]].isVoicePlus(\n msg.nick\n ): # are they + or @?\n irc.error(\n \"ERROR: You have to be at least voiced to use the tsearch \"\n \"command in {0}.\".format(msg.args[0])\n )\n return\n # before we do anything, make sure we have a twitterApi object.\n if not self.twitterApi:\n irc.reply(\n \"ERROR: Twitter is not authorized. Please check logs before running \"\n \"this command.\"\n )\n return\n self.since_id.setdefault(msg.channel, {})\n self.since_id[msg.channel].setdefault(\"{0}\".format(optterm), None)\n new = False\n # default arguments.\n tsearchArgs = {\n \"include_entities\": \"false\",\n \"tweet_mode\": \"extended\",\n \"count\": self.registryValue(\"defaultSearchResults\", msg.args[0]),\n \"lang\": \"en\",\n \"q\": utils.web.urlquote(optterm),\n }\n # check input.\n if optlist:\n for (key, value) in optlist:\n if key == \"num\": # --num\n maxresults = self.registryValue(\"maxSearchResults\", msg.args[0])\n if not (\n 1 <= value <= maxresults\n ): # make sure it's between what we should output.\n irc.reply(\n \"ERROR: '{0}' is not a valid number of tweets. Range is \"\n \"between 1 and {1}.\".format(value, maxresults)\n )\n return\n else: # change number to output.\n tsearchArgs[\"count\"] = value\n if key == \"searchtype\": # getopts limits us here.\n tsearchArgs[\n \"result_type\"\n ] = value # limited by getopts to valid values.\n if key == \"lang\": # lang . Uses ISO-639 codes like 'en'\n tsearchArgs[\"lang\"] = value\n if key == \"new\" and self.since_id[msg.channel][\"{0}\".format(optterm)]:\n new = True\n tsearchArgs[\"since_id\"] = self.since_id[msg.channel][\n \"{0}\".format(optterm)\n ]\n if key == \"nort\":\n tsearchArgs[\"q\"] += \" -filter:retweets\"\n # now build our API call.\n data = self.twitterApi.ApiCall(\"search/tweets\", parameters=tsearchArgs)\n if not data:\n if not new:\n irc.reply(\n \"ERROR: Something went wrong trying to search Twitter. ({0})\"\n .format(data)\n )\n log.error(\"Tweety: ERROR trying to search Twitter: {0}\".format(data))\n return\n try:\n data = json.loads(data)\n except:\n if not new:\n irc.reply(\n \"ERROR: Something went wrong trying to search Twitter. ({0})\"\n .format(data)\n )\n log.error(\"Tweety: ERROR trying to search Twitter: {0}\".format(data))\n return\n # check the return data.\n results = data.get(\"statuses\") # data returned as a dict.\n if not results or len(results) == 0: # found nothing or length 0.\n if not new:\n irc.reply(\n \"ERROR: No Twitter Search results found for '{0}'\".format(optterm)\n )\n log.info(\n \"Tweety: No Twitter Search results found for '{0}': {1}\".format(\n optterm, data\n )\n )\n return\n else: # we found something.\n self.since_id[msg.channel][\"{0}\".format(optterm)] = results[0].get(\"id\")\n for result in results[0 : int(tsearchArgs[\"count\"])]: # iterate over each.\n nick = self._unescape(result[\"user\"].get(\"screen_name\"))\n name = self._unescape(result[\"user\"].get(\"name\"))\n verified = result[\"user\"].get(\"verified\")\n text = self._unescape(result.get(\"full_text\")) or self._unescape(\n result.get(\"text\")\n )\n date = self._time_created_at(result.get(\"created_at\"))\n tweetid = result.get(\"id_str\")\n # build output string and output.\n output = self._outputTweet(\n irc, msg, nick, name, verified, text, date, tweetid, None\n )\n irc.reply(output)",
"def search(): \r\n os.system('cls')\r\n topic = input(\"Enter your search query (Press X to Quit):\")\r\n if topic.lower()=='x':\r\n exit(0)\r\n res = wiki.search(topic)\r\n if len(res)==1:\r\n return res[0]\r\n \r\n elif res == []:\r\n if wiki.suggest(topic) != None:\r\n print(\"You want to search for: {}?\".format(wiki.suggest(topic)))\r\n ch = input(\"Enter Y(Yes) to continue or any other key to search other term:\")\r\n if ch.lower()=='y' or ch.lower()=='yes':\r\n return wiki.suggest(topic)\r\n else:\r\n print(\"Sorry, no content matches your query.\\nTry with another term.\")\r\n return(search())\r\n else:\r\n print(\"\\nSuggested topics are:\")\r\n for i,r in enumerate(res,1):\r\n print('{}. {}'.format(i,r))\r\n ch = int(input(\"Press corresponding number to read about any term from the suggestions:\"))\r\n if ch in range(1,len(res)+1):\r\n return res[ch-1]\r\n else:\r\n print(\"Sorry, your term is not in given suggestions\\nCarrying on with the original query...\")\r\n return res[0]",
"def find(kw, by=\"n\", case=0, path=\"~\", depth=0, access=None):\n\n\t# Prevents a bajillion false positives\n\tassert type(kw) in (list, tuple, set) and all(type(x) == str for x in kw), \"FooF: error: kw must be a string\"\n\n\timport os\n\n\t# Path handling\n\tif path[0] == \"~\":\n\t\tpath = os.path.expanduser(\"~\") + path[1:]\n\tpath = os.path.abspath(path)\n\tif not os.path.isdir(path):\n\t\treturn 1, \"FooF: error: argument -p/--path: no such directory \" + path\n\n\t# Permissions\n\tif access is not None:\n\t\tdef permissions(f):\n\t\t\tP = oct(os.stat(f).st_mode & 0o777)[-3:]\n\t\t\town = os.geteuid() != os.stat(f).st_uid\n\t\t\treturn int(P[own * 2])\n\n\t# Prepare content search\n\tif by in \"ca\":\n\t\timport re, shlex\n\t\tkw2 = \"|\".join(map(lambda k: re.escape(k).replace(\"'\", r\"\\'\"), kw))\n\t\tif not os.popen(\"which ag\").read().strip():\n\t\t\treturn 1, \"Dependency required: ag\\nGet it from (http://github.com/ggreer/the_silver_searcher)\"\n\n\tmatches = set()\n\ta = os.walk(path)\n\tfor src, dirs, files in a:\n\t\tif depth and src.count(\"/\") - path.count(\"/\") >= depth:\n\t\t\tcontinue\n\t\tif by in \"na\":\n\t\t\tfor name in dirs + files:\n\t\t\t\tfor keyw in kw:\n\t\t\t\t\tN, K = (name.lower(), keyw.lower()) if case else (name, keyw)\n\t\t\t\t\tif K in N:\n\t\t\t\t\t\tmatches.add(src + os.path.sep + name)\n\t\t\t\t\t\tbreak\n\t\tif by in \"ca\":\n\t\t\tcmd = f\"ag --depth 1 -l -m 1 {('-s', '-i')[case]} '{kw2}' {shlex.quote(src)} 2>/dev/null\"\n\t\t\tmatches.update(x for x in os.popen(cmd).read().split(\"\\n\") if x)\n\tif access is not None:\n\t\tmatches = filter(lambda f: permissions(f) == (access[0] if type(access) == list else access), matches)\n\treturn 0, sorted(matches)",
"def search(collection: list):\n print('--------------------------------------------')\n print('Search for a book by:')\n print('1 = Author\\n2 = Title\\n3 = Publisher\\n4 = Shelf\\n5 = Category\\n6 = Subject')\n print('--------------------------------------------')\n search_input = int(input('Please input a number to make a selection:'))\n results = search_results(collection, search_input)\n return results"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Validates API contains enough jokes to satisfy request
|
def validate_joke_criteria(args, jokes_json):
if args.term and jokes_json['total_jokes'] < args.number_of_jokes:
raise Exception(
f"Was unable to find {args.number_of_jokes} jokes"
f" that match the search filter: {args.term}"
)
if jokes_json['total_jokes'] < args.number_of_jokes:
raise Exception(
f"You are requesting {args.number_of_jokes},"
f" but this API only contains a total of {jokes_json['total_jokes']}"
)
|
[
"def test_400_get_questions_containing_long_searchTerm(self):\n res = self.client().post('/api/questions', json={'searchTerm': 'a'*1001})\n data = json.loads(res.data)\n self.assertEqual(res.status_code, 400)\n self.assertEqual(data['success'], False)\n self.assertEqual(data['message'], 'bed request')",
"def test_patch_karaoke_forbidden(self):\n # login as user\n self.authenticate(self.user)\n\n # set karaoke ogoing to false\n response = self.client.patch(self.url, {\"ongoing\": False})\n self.assertEqual(response.status_code, status.HTTP_403_FORBIDDEN)",
"def test_action_put_bad_json(self):\n self.checkBadJSONPayload(self.putToApi)",
"def test_get_karaoke_forbidden(self):\n # get karaoke\n response = self.client.get(self.url)\n self.assertEqual(response.status_code, status.HTTP_401_UNAUTHORIZED)",
"def test_API1_missing(self):\n response = self.app.put(\n constants.API1_URL,\n data = json.dumps(dict()),\n mimetype = 'application/json')\n\n self.assertEqual(response.status_code, 400)",
"def test_nurses_cs_endpoint_with_keyword_only(self):\n response = self.client.get(\"search?q=nursing officer\")\n self.assertIn(b'\"status\": \"FAILED\"', response.data)",
"def test_API1_valid(self):\n responses.add(\n responses.POST, \n constants.API_URL + constants.API9_URL,\n json = {'query_result': []},\n status = 200)\n\n responses.add(\n responses.POST, \n constants.API_URL + constants.API8_URL,\n json = {},\n status = 200)\n\n response = self.app.put(\n constants.API1_URL,\n data = json.dumps(dict(\n username = username_3,\n password = password_3)),\n mimetype = 'application/json')\n\n self.assertEqual(response.status_code, 201)",
"def test_action_post_bad_json(self):\n self.checkBadJSONPayload(self.postToApi)",
"def test_action_get_bad_json(self):\n self.checkBadJSONPayload(self.getToApi)",
"def test_nurses_endpoint_with_nonkeyword(self):\n response = self.client.get(\"search?q=kijana Marie\")\n self.assertIn(b'\"status\": \"FAILED\"', response.data)",
"def _check_api_limits(gh_session, api_required=250):\n api_rates = gh_session.rate_limit()\n\n api_remaining = api_rates[\"rate\"][\"remaining\"]\n api_reset = api_rates[\"rate\"][\"reset\"]\n logger.debug(\"Rate Limit - %d requests remaining\", api_remaining)\n\n if api_remaining > api_required:\n return\n\n now_time = time.time()\n time_to_reset = int(api_reset - now_time)\n logger.warning(\"Rate Limit Depleted - Sleeping for %d seconds\", time_to_reset)\n\n while now_time < api_reset:\n time.sleep(10)\n now_time = time.time()\n\n return",
"def test_error_addMeal_bad_keys(self):\n method = 'addMeal'\n data1 = {'ten': self.token,\n 'stuff': 'Chicken',\n 'ServingSize': 1.98,\n 'barcode': 'false'}\n resp = requests.post(self.url + method, data=data1)\n self.assertNotEqual(resp.status_code, 200)\n\n data2 = {'token': self.token,\n 'item': 'Orange',\n 'ServingSize': \"hi\"}\n resp = requests.post(self.url + method, data=data2)\n self.assertNotEqual(resp.status_code, 200)",
"def testI_requestStructure(self):\n _, campaignIds, requestIds = self._inject(20) # creates x documents / requests\n allRequests = self._getViewResults(\"all\") \n for req in allRequests:\n docId = req[u\"id\"]\n state = req[u\"key\"]\n # all requests should be NewlyHeld state\n self.assertEqual(state, \"NewlyHeld\")\n # check that the doc is well formed and matches the data we inserted\n doc = self.couch.document(docId) \n self.failUnless(doc[u\"state\"] == \"NewlyHeld\")\n self.failUnless(doc.has_key(u\"created\"))\n self.failUnless(doc.has_key(u\"timestamp\"))\n # description is a list of dictionaries, the first one is the initial message\n self.failUnless(\"Initial injection by the RequestManager\" in doc[u\"description\"][0].values())\n self.failUnless(doc[u\"request\"][u\"campaign_id\"] in campaignIds)\n self.failUnless(doc[u'request'][u'request_id'] in requestIds)",
"def test_conformance(self):\n self._request_valid(\"conformance\")",
"def test_request_all_non_auth(self):\n client = APIClient()\n url = '/api/forbidden/request/all/'\n request = client.get(url)\n self.assertEqual(request.status_code, 403) # expecting status 403 - forbidden",
"def test_api_course_wish_get_absent(self):\n user = factories.UserFactory()\n token = self.get_user_token(user.username)\n course = factories.CourseFactory()\n\n response = self.client.get(\n f\"/api/v1.0/courses/{course.id}/wish/\",\n content_type=\"application/json\",\n HTTP_AUTHORIZATION=f\"Bearer {token}\",\n )\n self.assertEqual(response.status_code, 200)\n self.assertEqual(response.json(), {\"status\": False})",
"def test_missing_checkout_parameter(self):\n patient_id_only = {\n \"patient_id\": self.patient_id\n }\n availability_id_only = {\n \"availability_id\": self.availability_id\n }\n\n response_patient = self.send_put(self.booking_url, patient_id_only)\n response_availability = self.send_put(self.booking_url, availability_id_only)\n\n self.assert_status_code(response_patient, 400)\n self.assert_json_message(response_patient, \"No appointment specified\", error=True)\n\n self.assert_status_code(response_availability, 400)\n self.assert_json_message(response_availability, \"No patient specified\", error=True)",
"def test_update_has_no_details_keyword_in_order_request(self):\n self.order = {}\n result = self.client.put(\n '/api/v1/orders/1',\n content_type = 'application/json',\n data=json.dumps(self.order)\n )\n self.assertEqual(result.status_code,401)\n self.assertIn('No attributes specified in the request',str(result.data))",
"def test_no_details_keyword_in_order_request(self):\n self.order = {}\n result = self.client.post(\n '/api/v1/orders/',\n content_type = 'application/json',\n data=json.dumps(self.order)\n )\n self.assertEqual(result.status_code,401)\n self.assertIn('Details keyword and attributes not specified in the request',str(result.data))"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
Add a new bug label to a tree.
|
def add_bug_label(self, request):
if not auth.is_admin():
raise endpoints.NotFoundException()
tree = Tree.get_by_id(request.tree)
if not tree:
raise endpoints.NotFoundException("Tree '%s' not found." % request.tree)
tree.bug_labels.append(request.label)
tree.bug_labels = list(set(tree.bug_labels))
tree.put()
return tree.to_proto()
|
[
"def add(self, label):\n label.label_list = self\n self.label_tree.addi(label.start, label.end, label)",
"def relabel_tree(self, symbol, counter):\n name = symbol.name\n if name == \"div\":\n name = \"∇⋅\"\n elif name == \"grad\":\n name = \"∇\"\n elif name == \"/\":\n name = \"÷\"\n elif name == \"*\":\n name = \"×\"\n elif name == \"-\":\n name = \"−\"\n elif name == \"+\":\n name = \"+\"\n elif name == \"**\":\n name = \"^\"\n\n new_node = anytree.Node(str(counter), label=name)\n counter += 1\n\n new_children = []\n for child in symbol.children:\n new_child, counter = self.relabel_tree(child, counter)\n new_children.append(new_child)\n new_node.children = new_children\n\n return new_node, counter",
"def label(self, name):\n self.labels[name] = self.node\n return self",
"async def new_label(event, gh, *args, **kwargs):\n if util.label_name(event.data) == SKIP_ISSUE_LABEL:\n issue_number_found = ISSUE_RE.search(\n event.data[\"pull_request\"][\"title\"])\n if issue_number_found:\n status = create_success_status(issue_number_found)\n else:\n status = SKIP_ISSUE_STATUS\n await util.post_status(gh, event, status)",
"def add_label(self, bit, name):\n self.line_labels[bit] = name",
"def add_label(self, label):\n return LabelledDebug(label, self.debug, self.labels)",
"def _add_issue(self, label):\n\n try:\n self._conn.execute(\"ALTER TABLE issues ADD COLUMN {} INTEGER\".format(label))\n except sqlite3.OperationalError:\n pass",
"def addLabel(self, label, instruction_number):\n self._labels[label] = instruction_number",
"def __create_label(self, tree_node):\n graph_node_label = '<'\n\n # Add the node state to the label with highlighting if required\n tree_node_str = str(tree_node).replace('\\n', '<br/>')\n if self.highlight_moves and tree_node.parent:\n parent_node_str = str(tree_node.parent).replace('\\n', '<br/>')\n graph_node_label += self.__highlight_differences(\n tree_node_str, parent_node_str)\n else:\n graph_node_label += tree_node_str\n\n # Add scores to the label if required\n if self.node_scores and tree_node.parent:\n score = '{0:.3f}'.format(round(tree_node.score(), 3))\n if self.verbose_score:\n graph_node_label += '<br/><font point-size=\"10\">Wins: {}' \\\n '<br/>Visits: {}<br/>Score: {}'.format(\n float(tree_node.wins), tree_node.visits, score)\n if (hasattr(tree_node, 'ucb1_score') and\n tree_node.ucb1_score is not None):\n ucb1 = '{0:.3f}'.format(round(tree_node.ucb1_score, 3))\n graph_node_label += '<br/>UCB1: {}'.format(ucb1)\n graph_node_label += '</font>'\n else:\n graph_node_label += '<br/>{}'.format(score)\n\n graph_node_label += '>'\n\n return graph_node_label",
"def create_leaf(tree, label, tag=None):\n global counter\n word = find_word(tree)\n leaf = Leaf(label, word, tag)\n counter += 1\n return leaf",
"def visit_Label(self, node): # pylint: disable=invalid-name\n if node.name is not None:\n self.ids.add(node.name)\n return node",
"def add(self,label):\n\t\tif label not in self._label_to_index:\n\t\t\tself._label_to_index[label] = self.num_labels\n\t\t\tself._index_to_label[self.num_labels] = label\n\t\t\tself.num_labels += 1",
"def relabel_tip(self, tree, tip_label, annotation_values):\n node = tree.find_node_with_taxon(\n lambda taxon: True if self.taxon_parser(taxon.label) == tip_label else False)\n if node is None:\n warnings.warn(\"Taxon: %s not found in tree\" % tip_label, UserWarning)\n else:\n new_label = self.separator.join([str(annotation_values.get(x)) for x in annotation_values])\n if self.replace:\n node.taxon.label = new_label\n else:\n node.taxon.label = node.taxon.label + self.separator + new_label",
"def tests_ti_event_add_label(self):\n super().group_add_label()",
"def _add_log_label(self, label):\n\t\tself.logid.write(\"testing\")\n\t\tself.logid.flush()",
"def _add_label(self, labelname, label_dict, firstpoint, secondpoint, boxtype=-1, original_coords=False):\n\t\tix,iy = firstpoint\n\t\tx,y = secondpoint\n\t\tupper_left = (np.min([ix,x]), np.min([iy,y]))\n\t\tlower_right = (np.max([ix,x]), np.max([iy,y]))\n\t\tself.label_dict[labelname] = [upper_left, lower_right, boxtype]\n\t\t\n\t\tself._add_log_label(self.label_dict[labelname])",
"def add_branch(self, tree):\n# print 'ADDING BRANCH', tree\n self._insert_branch(None, tree)\n self._cleanup_branches()",
"def set_label(self, label):",
"def addLabel(self, nodeLabel):\n # set nextLabelID of last label to current label's labelID.\n if len(self.labels) > 0:\n self.labels[len(self.labels) - 1].nextLabelID = nodeLabel.labelID\n else:\n firstLabelID = nodeLabel.getID()\n\n nodeLabel.nextLabelID = [[3,0], -1]\n\n # add label to labelID\n self.labels.append(nodeLabel)\n\n # add nodeID to label index if node is not already in label index\n # open label index\n labelIndex = LabelIndex(nodeLabel.getLabelStr())\n # add node to index\n if self.nodeID not in labelIndex.getItems():\n labelIndex.addNode(self.nodeID)"
] |
{
"objective": {
"paired": [],
"self": [],
"triplet": [
[
"query",
"document",
"negatives"
]
]
}
}
|
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