Datasets:

mthandazo
/

bnil_poj4_algo_classification

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Split (2)

train · 101k rows

text stringlengths 4 256k	label stringclasses 104 values
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x11d0 {"AVSPH=)"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4040].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4040].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) uint64_t max(int32_t arg1, int32_t arg2): 0x1150 0 eax = esi 0x1154 1 if (edi s> esi) then 2 else 4 @ 0x1157 0x1154 2 eax = edi 0x1154 3 goto 4 @ 0x1157 0x1157 4 <return> jump(pop) uint64_t f(int32_t arg1, int64_t arg2, int64_t arg3): 0x1160 0 push(rbp) 0x1161 1 push(r14) 0x1163 2 push(rbx) 0x1167 3 if (edi == 1) then 4 @ 0x118f else 10 @ 0x1169 0x118f 4 eax = 0 0x1197 5 al = [0x4054].d s>= esi 0x119a 6 rbx = pop 0x119b 7 r14 = pop 0x119d 8 rbp = pop 0x119e 9 <return> jump(pop) 0x1169 10 ebx = edi 0x116b 11 rax = sx.q(edi) 0x116e 12 ebx = ebx - 1 0x1171 13 rcx = 0x4050 {""} 0x1178 14 rax = rcx + (rax << 2) 0x117c 15 goto 16 @ 0x1180 0x1180 16 ebp = [rax].d 0x1184 17 if (ebp s>= esi) then 18 @ 0x119f else 26 @ 0x1186 0x119f 18 edi = ebx 0x11a1 19 call(0x1160) 0x11a6 20 r14d = eax 0x11a9 21 edi = ebx 0x11ab 22 esi = ebp 0x11ad 23 call(0x1160) 0x11b2 24 eax = eax + 1 0x11b8 25 if (r14d s> eax) then 30 else 32 @ 0x11bc 0x1186 26 rax = rax - 4 0x118a 27 temp0.d = ebx 0x118a 28 ebx = ebx - 1 0x118d 29 if (temp0.d != 1) then 16 @ 0x1180 else 4 @ 0x118f 0x11b8 30 eax = r14d 0x11b8 31 goto 32 @ 0x11bc 0x11bc 32 rbx = pop 0x11bd 33 r14 = pop 0x11bf 34 rbp = pop 0x11c0 35 <return> jump(pop) int32_t main(int32_t argc, char argv, char envp): 0x11d0 0 push(r14) 0x11d2 1 push(rbx) 0x11d3 2 push(rax) 0x11d4 3 rdi = 0x2004 {"%d"} 0x11db 4 rsi = 0x40b8 {""} 0x11e2 5 eax = 0 0x11e4 6 call(0x1040) 0x11e9 7 [0x40bc].d = 1 0x11f3 8 edi = [0x40b8].d 0x11fb 9 if (edi s<= 0) then 10 @ 0x1239 else 19 @ 0x11fd 0x1239 10 esi = 0 0x123b 11 call(0x1160) 0x1240 12 rdi = 0x2004 {"%d"} 0x1247 13 esi = eax 0x1249 14 eax = 0 0x124b 15 rsp = rsp + 8 0x124f 16 rbx = pop 0x1250 17 r14 = pop 0x1252 18 <return> tailcall(0x1030) 0x11fd 19 eax = 1 0x1202 20 r14 = 0x4050 {""} 0x1209 21 rbx = 0x2004 {"%d"} 0x1209 22 goto 23 @ 0x1210 0x1210 23 rax = sx.q(eax) 0x1212 24 rsi = r14 + (rax << 2) 0x1216 25 rdi = rbx 0x1219 26 eax = 0 0x121b 27 call(0x1040) 0x1220 28 ecx = [0x40bc].d 0x1226 29 eax = (rcx + 1).d 0x1229 30 [0x40bc].d = eax 0x122f 31 edi = [0x40b8].d 0x1237 32 if (ecx s< edi) then 23 @ 0x1210 else 10 @ 0x1239 int64_t _fini(): 0x125c 0 rsp = rsp - 8 0x1260 1 rsp = rsp + 8 0x1264 2 <return> jump(pop)	POJ_10
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) double cos(double arg1): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"AVSHXL5"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(r14) 0x1172 1 push(rbx) 0x1173 2 rsp = rsp - 0x58 0x1177 3 r14 = 0x2020 {"%lf"} 0x117e 4 ebx = 0 0x117e 5 goto 6 @ 0x1180 0x1180 6 rsi = rsp + rbx 0x1184 7 rsi = rsi + 0x30 0x1188 8 rdi = r14 0x118b 9 eax = 0 0x118d 10 call(0x1040) 0x1192 11 rbx = rbx + 8 0x119a 12 if (rbx != 0x28) then 6 @ 0x1180 else 13 @ 0x119c 0x119c 13 xmm0 = zx.o([rsp + 0x30 {var_38}].q) 0x11a2 14 xmm1 = zx.o([rsp + 0x38 {var_30}].q) 0x11a8 15 xmm2 = zx.o([rsp + 0x40 {var_28}].q) 0x11ae 16 xmm6 = xmm1 0x11b2 17 xmm3 = xmm1 0x11b6 18 [rsp + 0x28 {var_40}].q = xmm1.q 0x11bc 19 xmm6.q = xmm6.q f+ xmm2.q 0x11c0 20 [rsp + 0x20 {var_48}].q = xmm2.q 0x11c6 21 xmm1 = zx.o([rsp + 0x48 {var_20}].q) 0x11cc 22 xmm6.q = xmm6.q f+ xmm1.q 0x11d0 23 xmm5 = xmm1 0x11d4 24 [rsp + 0x18 {var_50}].q = xmm1.q 0x11da 25 xmm6.q = xmm6.q f+ xmm0.q 0x11de 26 xmm4 = xmm0 0x11e2 27 [rsp + 0x10 {var_58}].q = xmm0.q 0x11e8 28 xmm0 = zx.o([0x2008].q) 0x11f0 29 xmm6.q = xmm6.q f* xmm0.q 0x11f4 30 xmm7 = xmm0 0x11f8 31 xmm0 = xmm6 0x11fc 32 xmm0.q = xmm0.q f- xmm3.q 0x1200 33 xmm1 = xmm6 0x1204 34 xmm1.q = xmm1.q f- xmm2.q 0x1208 35 xmm1.q = xmm1.q f* xmm0.q 0x120c 36 xmm0 = xmm6 0x1210 37 xmm0.q = xmm0.q f- xmm5.q 0x1214 38 xmm0.q = xmm0.q f* xmm1.q 0x1218 39 xmm6.q = xmm6.q f- xmm4.q 0x121c 40 xmm6.q = xmm6.q f* xmm0.q 0x1220 41 [rsp + 8 {var_60}].q = xmm6.q 0x1226 42 xmm0 = zx.o([rsp + 0x50 {var_18}].q) 0x122c 43 xmm0.q = xmm0.q f* xmm7.q 0x1230 44 xmm0.q = xmm0.q f* fconvert.t([0x2010].q) 0x1238 45 xmm0.q = xmm0.q f/ fconvert.t([0x2018].q) 0x1240 46 call(0x1060) 0x1245 47 [rsp {var_68}].q = xmm0.q 0x124a 48 xmm0 = zx.o([0x2008].q) 0x1252 49 xmm0.q = xmm0.q f* fconvert.t([rsp + 0x50 {var_18}].q) 0x1258 50 xmm0.q = xmm0.q f* fconvert.t([0x2010].q) 0x1260 51 xmm0.q = xmm0.q f/ fconvert.t([0x2018].q) 0x1268 52 call(0x1060) 0x126d 53 xmm1 = zx.o([rsp + 8 {var_60}].q) 0x1273 54 xmm2 = zx.o([rsp + 0x20 {var_48}].q) 0x1279 55 xmm2.q = xmm2.q f* fconvert.t([rsp + 0x28 {var_40}].q) 0x127f 56 xmm2.q = xmm2.q f* fconvert.t([rsp + 0x18 {var_50}].q) 0x1285 57 xmm2.q = xmm2.q f* fconvert.t([rsp + 0x10 {var_58}].q) 0x128b 58 xmm2.q = xmm2.q f* fconvert.t([rsp {var_68}].q) 0x1290 59 xmm2.q = xmm2.q f* xmm0.q 0x1294 60 xmm1.q = xmm1.q f- xmm2.q 0x1298 61 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x129c 62 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x129c 63 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x129c 64 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x129c 65 flag:s = 0 0x129c 66 flag:o = 0 0x129c 67 flag:a = 0 0x12a0 68 if (flag:z \|\| flag:c) then 69 @ 0x12b2 else 76 @ 0x12a2 0x12b2 69 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x12b2 70 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x12b2 71 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x12b2 72 flag:s = 0 0x12b2 73 flag:o = 0 0x12b2 74 flag:a = 0 0x12b6 75 if (flag:c) then 80 @ 0x12c1 else 83 @ 0x12b8 0x12a2 76 rdi = 0x2024 {"Invalid input"} 0x12a9 77 eax = 0 0x12ab 78 call(0x1030) 0x12b0 79 goto 86 @ 0x12d8 0x12c1 80 xmm0 = xmm1 0x12c5 81 call(0x1050) 0x12c5 82 goto 91 @ 0x12ca 0x12b8 83 xmm0 = 0 0x12bb 84 xmm0 = _mm_sqrt_sd(xmm1.q) 0x12bf 85 goto 91 @ 0x12ca 0x12d8 86 eax = 0 0x12da 87 rsp = rsp + 0x58 0x12de 88 rbx = pop 0x12df 89 r14 = pop 0x12e1 90 <return> jump(pop) 0x12ca 91 rdi = 0x2032 {"%.4lf"} 0x12d1 92 al = 1 0x12d3 93 call(0x1030) 0x12d3 94 goto 86 @ 0x12d8 int64_t _fini(): 0x12e8 0 rsp = rsp - 8 0x12ec 1 rsp = rsp + 8 0x12f0 2 <return> jump(pop)	POJ_40
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r12) 0x1157 4 push(rbx) 0x1158 5 rsp = rsp - 0x80 0x115f 6 rdi = 0x2048 {"%d"} 0x1166 7 rsi = rsp + 0xc {var_9c} 0x116b 8 eax = 0 0x116d 9 call(0x1040) 0x1172 10 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x117b 11 if ([rsp + 0xc {var_9c}].d s<= 0) then 12 @ 0x11db else 14 @ 0x117d 0x11db 12 xmm1 = _mm_xor_pd(xmm1, xmm1) 0x11df 13 goto 19 @ 0x12cb 0x117d 14 rbx = rsp + 0x20 {var_88} 0x1182 15 r14 = 0x2048 {"%d"} 0x1189 16 ebp = 0 0x118b 17 r15d = 0 0x118e 18 goto 31 @ 0x1190 0x12cb 19 xmm0.q = xmm0.q f/ xmm1.q 0x12cf 20 rdi = 0x204b {"%.2f"} 0x12d6 21 al = 1 0x12d8 22 call(0x1030) 0x12dd 23 eax = 0 0x12df 24 rsp = rsp + 0x80 0x12e6 25 rbx = pop 0x12e7 26 r12 = pop 0x12e9 27 r14 = pop 0x12eb 28 r15 = pop 0x12ed 29 rbp = pop 0x12ee 30 <return> jump(pop) 0x1190 31 rdi = r14 0x1193 32 rsi = rbx 0x1196 33 eax = 0 0x1198 34 call(0x1040) 0x119d 35 r15d = r15d + [rbx].d 0x11a0 36 rbp = rbp + 1 0x11a4 37 rax = sx.q([rsp + 0xc {var_9c}].d) 0x11a9 38 rbx = rbx + 4 0x11b0 39 if (rbp s< rax) then 31 @ 0x1190 else 40 @ 0x11b2 0x11b2 40 xmm1.q = float.d(r15d) 0x11b9 41 if (eax s<= 0) then 42 @ 0x11e4 else 44 @ 0x11bb 0x11e4 42 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x11e8 43 goto 19 @ 0x12cb 0x11bb 44 [rsp + 0x10 {var_98_1}].q = xmm1.q 0x11c1 45 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x11c5 46 r15 = rsp + 0x20 {var_88} 0x11ca 47 rbx = rsp + 0x50 {var_58} 0x11cf 48 r14 = 0x2048 {"%d"} 0x11d6 49 r12d = 0 0x11d9 50 goto 51 @ 0x1230 0x1230 51 [rsp + 0x18 {var_90_1}].q = xmm0.q 0x1236 52 rdi = r14 0x1239 53 rsi = rbx 0x123c 54 eax = 0 0x123e 55 call(0x1040) 0x1243 56 eax = [rbx].d 0x1245 57 xmm0 = zx.o([0x2008].q) 0x1250 58 if (eax s> 0x59) then 59 @ 0x1200 else 69 @ 0x1252 0x1200 59 xmm1 = 0 0x1203 60 xmm1.q = float.d([r15].d) 0x1208 61 xmm1.q = xmm1.q f* xmm0.q 0x120c 62 xmm0 = zx.o([rsp + 0x18 {var_90_1}].q) 0x1212 63 xmm0.q = xmm0.q f+ xmm1.q 0x1216 64 r12 = r12 + 1 0x121a 65 rax = sx.q([rsp + 0xc {var_9c}].d) 0x121f 66 r15 = r15 + 4 0x1223 67 rbx = rbx + 4 0x122a 68 if (r12 s>= rax) then 71 @ 0x12c5 else 51 @ 0x1230 0x1252 69 xmm0 = zx.o([0x2010].q) 0x125d 70 if (eax s> 0x54) then 59 @ 0x1200 else 73 @ 0x125f 0x12c5 71 xmm1 = zx.o([rsp + 0x10 {var_98_1}].q) 0x12c5 72 goto 19 @ 0x12cb 0x125f 73 xmm0 = zx.o([0x2018].q) 0x126a 74 if (eax s> 0x51) then 59 @ 0x1200 else 75 @ 0x126c 0x126c 75 xmm0 = zx.o([0x2020].q) 0x1277 76 if (eax s> 0x4d) then 59 @ 0x1200 else 77 @ 0x1279 0x1279 77 ecx = (rax - 0x48).d 0x127c 78 xmm0 = zx.o([0x2028].q) 0x1287 79 if (ecx u< 3) then 59 @ 0x1200 else 80 @ 0x128d 0x128d 80 eax = eax & 0xfffffffc 0x1293 81 if (eax == 0x3c) then 82 @ 0x11ed else 84 @ 0x129c 0x11ed 82 xmm0 = zx.o([0x2038].q) 0x11ff 83 goto 59 @ 0x1200 0x129c 84 if (eax == 0x40) then 85 @ 0x12b8 else 87 @ 0x129e 0x12b8 85 xmm0 = zx.o([0x2040].q) 0x12c0 86 goto 59 @ 0x1200 0x129e 87 xmm0 = zx.o([0x2030].q) 0x12a9 88 if (eax == 0x44) then 59 @ 0x1200 else 89 @ 0x12af 0x12af 89 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12b3 90 goto 59 @ 0x1200 int64_t _fini(): 0x12f4 0 rsp = rsp - 8 0x12f8 1 rsp = rsp + 8 0x12fc 2 <return> jump(pop)	POJ_83
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSH "} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x20e8 0x1161 7 rdi = 0x2004 {"%d"} 0x1168 8 rsi = rsp + 0xc {var_210c} 0x116d 9 eax = 0 0x116f 10 call(0x1040) 0x1179 11 if ([rsp + 0xc {var_210c}].d s<= 0) then 12 @ 0x12a2 else 21 @ 0x117f 0x12a2 12 eax = 0 0x12a4 13 rsp = rsp + 0x20e8 0x12ab 14 rbx = pop 0x12ac 15 r12 = pop 0x12ae 16 r13 = pop 0x12b0 17 r14 = pop 0x12b2 18 r15 = pop 0x12b4 19 rbp = pop 0x12b5 20 <return> jump(pop) 0x117f 21 r12 = rsp + 0x1a0 {var_1f78} 0x1187 22 r14 = 0x2004 {"%d"} 0x118e 23 r13d = 0 0x1191 24 goto 25 @ 0x11b2 0x11b2 25 r15 = rsp + (r13 << 2) 0x11b6 26 r15 = r15 + 0x10 0x11ba 27 rdi = r14 0x11bd 28 rsi = r15 0x11c0 29 eax = 0 0x11c2 30 call(0x1040) 0x11cd 31 if ([rsp + (r13 << 2) + 0x10].d s<= 0) then 32 @ 0x11a0 else 36 @ 0x11cf 0x11a0 32 r13 = r13 + 1 0x11a4 33 rax = sx.q([rsp + 0xc {var_210c}].d) 0x11a9 34 r12 = r12 + 0x50 0x11b0 35 if (r13 s>= rax) then 39 @ 0x1201 else 25 @ 0x11b2 0x11cf 36 rbx = r12 0x11d2 37 ebp = 0 0x11de 38 goto 40 @ 0x11e0 0x1201 39 if (eax s<= 0) then 12 @ 0x12a2 else 48 @ 0x1207 0x11e0 40 rdi = r14 0x11e3 41 rsi = rbx 0x11e6 42 eax = 0 0x11e8 43 call(0x1040) 0x11ed 44 rbp = rbp + 1 0x11f1 45 rax = sx.q([r15].d) 0x11f4 46 rbx = rbx + 4 0x11fb 47 if (rbp s< rax) then 40 @ 0x11e0 else 52 @ 0x11fd 0x1207 48 r12 = rsp + 0x1a0 {var_1f78} 0x120f 49 r14 = 0x2007 {"%d\n"} 0x1216 50 r15d = 0 0x1219 51 goto 53 @ 0x123e 0x11fd 52 goto 32 @ 0x11a0 0x123e 53 r8d = [rsp + (r15 << 2) + 0x10].d 0x1246 54 if (r8d s<= 0) then 55 @ 0x1293 else 56 @ 0x1248 0x1293 55 if (ebp s>= 0x39) then 61 @ 0x122c else 65 @ 0x1295 0x1248 56 esi = 0x3c {""} 0x124d 57 ecx = 3 0x1252 58 edx = 0 0x1254 59 edi = 0 0x1256 60 goto 69 @ 0x1260 0x122c 61 r15 = r15 + 1 0x1230 62 rax = sx.q([rsp + 0xc {var_210c}].d) 0x1235 63 r12 = r12 + 0x50 0x123c 64 if (r15 s>= rax) then 12 @ 0x12a2 else 53 @ 0x123e 0x1295 65 eax = (r8 + (r8 << 1)).d 0x1299 66 esi = 0x3c {""} 0x129e 67 esi = esi - eax 0x12a0 68 goto 74 @ 0x1222 0x1260 69 ebx = [r12 + (rdi << 2)].d 0x1264 70 ebp = (rdx + rbx).d 0x1267 71 eax = (rdx + rbx).d 0x126a 72 eax = eax - 0x39 0x1270 73 if (eax u< 4) then 78 @ 0x1220 else 80 @ 0x1275 0x1222 74 rdi = r14 0x1225 75 eax = 0 0x1227 76 call(0x1030) 0x1227 77 goto 61 @ 0x122c 0x1220 78 esi = ebx 0x1220 79 goto 74 @ 0x1222 0x1275 80 if (ebp s>= 0x3d) then 74 @ 0x1222 else 81 @ 0x1277 0x1277 81 rdi = rdi + 1 0x127b 82 esi = esi - 3 0x127e 83 ecx = ecx - 3 0x1281 84 edx = edx + 3 0x1287 85 if (r8 != rdi) then 69 @ 0x1260 else 86 @ 0x1289 0x1289 86 ebx = ebx - ecx 0x128b 87 ebp = ebx 0x128d 88 goto 65 @ 0x1295 int64_t _fini(): 0x12bc 0 rsp = rsp - 8 0x12c0 1 rsp = rsp + 8 0x12c4 2 <return> jump(pop)	POJ_86
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r12) 0x1167 4 push(rbx) 0x1168 5 rsp = rsp - 0x10 0x116c 6 rdi = 0x2010 {"%d"} 0x1173 7 rsi = rsp + 0xc {var_2c} 0x1178 8 eax = 0 0x117a 9 call(0x1040) 0x117f 10 r12d = [rsp + 0xc {var_2c}].d 0x1188 11 if (r12d s>= 6) then 12 @ 0x1199 else 16 @ 0x118a 0x1199 12 r12d = r12d u>> 1 0x119c 13 r15d = 6 0x11a2 14 r14 = 0x2013 {"%d=%d+%d\n"} 0x11a9 15 goto 24 @ 0x11cc 0x118a 16 eax = 0 0x118c 17 rsp = rsp + 0x10 0x1190 18 rbx = pop 0x1191 19 r12 = pop 0x1193 20 r14 = pop 0x1195 21 r15 = pop 0x1197 22 rbp = pop 0x1198 23 <return> jump(pop) 0x11cc 24 ebx = 3 0x11d1 25 goto 26 @ 0x11ed 0x11ed 26 if ((bl & 1) == 0) then 27 @ 0x11e0 else 31 @ 0x11ef 0x11e0 27 eax = (rbx + 1).d 0x11e3 28 cond:0 = ebx == r12d 0x11e6 29 ebx = eax 0x11e8 30 if (cond:0) then 40 @ 0x11c1 else 26 @ 0x11ed 0x11ef 31 xmm0 = 0 0x11f2 32 xmm0.q = float.d(ebx) 0x11f6 33 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 34 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 35 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 36 flag:s = 0 0x11f6 37 flag:o = 0 0x11f6 38 flag:a = 0 0x11fe 39 if (flag:c) then 42 @ 0x1210 else 44 @ 0x1200 0x11c1 40 r15d = r15d + 2 0x11ca 41 if (r15d s> [rsp + 0xc {var_2c}].d) then 16 @ 0x118a else 24 @ 0x11cc 0x1210 42 call(0x1050) 0x1210 43 goto 46 @ 0x1215 0x1200 44 xmm0 = _mm_sqrt_sd(xmm0.q) 0x1204 45 goto 46 @ 0x1215 0x1215 46 ecx = int.d(ftrunc(xmm0.q)) 0x121c 47 if (ecx s< 3) then 48 @ 0x124c else 59 @ 0x121e 0x124c 48 ebp = r15d 0x124f 49 ebp = ebp - ebx 0x1251 50 xmm0 = 0 0x1254 51 xmm0.q = float.d(ebp) 0x1258 52 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1258 53 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1258 54 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1258 55 flag:s = 0 0x1258 56 flag:o = 0 0x1258 57 flag:a = 0 0x1260 58 if (flag:c) then 62 @ 0x1272 else 64 @ 0x1262 0x121e 59 ecx = neg.d(ecx) 0x1220 60 esi = 3 0x122f 61 goto 66 @ 0x1230 0x1272 62 call(0x1050) 0x127b 63 if ((bpl & 1) == 0) then 27 @ 0x11e0 else 78 @ 0x1281 0x1262 64 xmm0 = _mm_sqrt_sd(xmm0.q) 0x126a 65 if ((bpl & 1) == 0) then 27 @ 0x11e0 else 80 @ 0x1270 0x1230 66 eax = ebx 0x1232 67 edx = 0 0x1234 68 temp2.d = esi 0x1234 69 temp3.d = edx 0x1234 70 temp4.d = eax 0x1234 71 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x1234 72 temp5.d = edx 0x1234 73 temp6.d = eax 0x1234 74 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x1234 75 eax = temp0.d 0x1234 76 edx = temp1.d 0x1238 77 if (edx == 0) then 27 @ 0x11e0 else 81 @ 0x123a 0x1281 78 ecx = int.d(ftrunc(xmm0.q)) 0x1288 79 if (ecx s< 3) then 87 @ 0x11b0 else 94 @ 0x128e 0x1270 80 goto 78 @ 0x1281 0x123a 81 eax = (rcx + rsi).d 0x123d 82 eax = eax + 1 0x1240 83 edx = esi 0x1242 84 edx = edx + 1 0x1245 85 esi = edx 0x124a 86 if (eax != 1) then 66 @ 0x1230 else 48 @ 0x124c 0x11b0 87 rdi = r14 0x11b3 88 esi = r15d 0x11b6 89 edx = ebx 0x11b8 90 ecx = ebp 0x11ba 91 eax = 0 0x11bc 92 call(0x1030) 0x11bc 93 goto 40 @ 0x11c1 0x128e 94 ecx = neg.d(ecx) 0x1290 95 esi = 3 0x129f 96 goto 97 @ 0x12a0 0x12a0 97 eax = ebp 0x12a2 98 temp7.d:temp8.d = sx.q(eax) 0x12a2 99 edx = temp7.d 0x12a2 100 eax = temp8.d 0x12a3 101 temp9.d = edx 0x12a3 102 temp10.d = eax 0x12a3 103 temp0.d = divs.dp.d(temp9.d:temp10.d, esi) 0x12a3 104 temp11.d = edx 0x12a3 105 temp12.d = eax 0x12a3 106 temp1.d = mods.dp.d(temp11.d:temp12.d, esi) 0x12a3 107 eax = temp0.d 0x12a3 108 edx = temp1.d 0x12a7 109 if (edx == 0) then 27 @ 0x11e0 else 110 @ 0x12ad 0x12ad 110 eax = (rcx + rsi).d 0x12b0 111 eax = eax + 1 0x12b3 112 edx = esi 0x12b5 113 edx = edx + 1 0x12b8 114 esi = edx 0x12bd 115 if (eax != 1) then 97 @ 0x12a0 else 116 @ 0x12bf 0x12bf 116 goto 87 @ 0x11b0 int64_t _fini(): 0x12c8 0 rsp = rsp - 8 0x12cc 1 rsp = rsp + 8 0x12d0 2 <return> jump(pop)	POJ_68
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double fmod(int64_t arg1, int64_t arg2, double x, double y): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"SHH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbx) 0x1161 1 rsp = rsp - 0x10 0x1165 2 rbx = 0x2038 {"%d"} 0x116c 3 rsi = rsp + 0xc {var_c} 0x1171 4 rdi = rbx 0x1174 5 eax = 0 0x1176 6 call(0x1040) 0x117b 7 edi = [rsp + 0xc {var_c}].d 0x117f 8 call(0x11a0) 0x1184 9 rdi = rbx 0x1187 10 esi = eax 0x1189 11 eax = 0 0x118b 12 call(0x1030) 0x1190 13 rsp = rsp + 0x10 0x1194 14 rbx = pop 0x1195 15 <return> jump(pop) uint64_t v(int64_t arg1, int64_t arg2, double arg3, double arg4): 0x11a0 0 push(rbx) 0x11a1 1 ebx = edi 0x11a6 2 if (edi s< 0xa) then 3 @ 0x1251 else 6 @ 0x11b2 0x1251 3 eax = ebx 0x1253 4 rbx = pop 0x1254 5 <return> jump(pop) 0x11b2 6 if (ebx u<= 0x270f) then 7 @ 0x11c4 else 8 @ 0x11b4 0x11c4 7 if (ebx u<= 0x3e7) then 10 @ 0x11d0 else 15 @ 0x11c6 0x11b4 8 xmm1 = zx.o([0x2008].q) 0x11bc 9 goto 17 @ 0x11e4 0x11d0 10 eax = 0 0x11d5 11 al = ebx u>= 0x64 0x11d8 12 rcx = 0x2028 {""} 0x11df 13 xmm1 = zx.o([rcx + (rax << 3)].q) 0x11df 14 goto 17 @ 0x11e4 0x11c6 15 xmm1 = zx.o([0x2010].q) 0x11ce 16 goto 17 @ 0x11e4 0x11e4 17 xmm0.q = float.d(ebx) 0x11e8 18 call(0x1050) 0x11ed 19 edi = int.d(ftrunc(xmm0.q)) 0x11f1 20 call(0x11a0) 0x11f6 21 eax = eax + eax 0x11f8 22 eax = (rax + (rax << 2)).d 0x1201 23 if (ebx u< 0x2710) then 24 @ 0x121a else 25 @ 0x1203 0x121a 24 if (ebx u< 0x3e8) then 30 @ 0x1230 else 31 @ 0x121c 0x1203 25 ecx = ebx 0x1205 26 ebx = 0xd1b71759 {""} 0x120a 27 rbx = rbx * rcx 0x120e 28 rbx = rbx u>> 0x2d 0x1212 29 goto 36 @ 0x124f 0x1230 30 if (ebx u< 0x64) then 38 @ 0x1243 else 42 @ 0x1232 0x121c 31 ecx = zx.d(bx) 0x121f 32 ecx = ecx u>> 3 0x1222 33 ebx = ecx * 0x20c5 0x1228 34 ebx = ebx u>> 0x14 0x122b 35 goto 36 @ 0x124f 0x124f 36 ebx = ebx + eax 0x124f 37 goto 3 @ 0x1251 0x1243 38 ecx = zx.d(bl) 0x1246 39 ebx = ecx * 0xcd 0x124c 40 ebx = ebx u>> 0xb 0x124c 41 goto 36 @ 0x124f 0x1232 42 ecx = zx.d(bx) 0x1235 43 ecx = ecx u>> 2 0x1238 44 ebx = ecx * 0x147b 0x123e 45 ebx = ebx u>> 0x11 0x1241 46 goto 36 @ 0x124f uint64_t s(int32_t arg1): 0x1260 0 eax = edi 0x1268 1 if (edi s< 0x2710) then 2 @ 0x127f else 3 @ 0x126a 0x127f 2 if (eax s< 0x3e8) then 8 @ 0x1294 else 9 @ 0x1281 0x126a 3 ecx = eax 0x126c 4 eax = 0xd1b71759 {""} 0x1271 5 rax = rax * rcx 0x1275 6 rax = rax u>> 0x2d 0x1279 7 <return> jump(pop) 0x1294 8 if (eax s< 0x64) then 14 @ 0x12a9 else 15 @ 0x1296 0x1281 9 eax = zx.d(ax) 0x1284 10 eax = eax u>> 3 0x1287 11 eax = eax * 0x20c5 0x128d 12 eax = eax u>> 0x14 0x1290 13 <return> jump(pop) 0x12a9 14 if (eax s< 0xa) then 20 @ 0x12b7 else 21 @ 0x12ab 0x1296 15 eax = zx.d(ax) 0x1299 16 eax = eax u>> 2 0x129c 17 eax = eax * 0x147b 0x12a2 18 eax = eax u>> 0x11 0x12a5 19 <return> jump(pop) 0x12b7 20 <return> jump(pop) 0x12ab 21 eax = zx.d(al) 0x12ae 22 eax = eax * 0xcd 0x12b4 23 eax = eax u>> 0xb 0x12b4 24 goto 20 @ 0x12b7 uint64_t h(int64_t arg1, int64_t arg2, double arg3, double arg4): 0x12c0 0 push(rax) 0x12c7 1 if (edi s<= 0x270f) then 2 @ 0x12d9 else 3 @ 0x12c9 0x12d9 2 if (edi s<= 0x3e7) then 5 @ 0x12e8 else 6 @ 0x12db 0x12c9 3 xmm1 = zx.o([0x2008].q) 0x12d1 4 goto 8 @ 0x1303 0x12e8 5 if (edi s<= 0x63) then 12 @ 0x12f4 else 14 @ 0x12ea 0x12db 6 xmm1 = zx.o([0x2010].q) 0x12e3 7 goto 8 @ 0x1303 0x1303 8 xmm0.q = float.d(edi) 0x1307 9 call(0x1050) 0x130c 10 eax = int.d(ftrunc(xmm0.q)) 0x130c 11 goto 16 @ 0x1310 0x12f4 12 eax = 0 0x12f9 13 if (edi s< 0xa) then 16 @ 0x1310 else 18 @ 0x12fb 0x12ea 14 xmm1 = zx.o([0x2018].q) 0x12f2 15 goto 8 @ 0x1303 0x1310 16 rcx = pop 0x1311 17 <return> jump(pop) 0x12fb 18 xmm1 = zx.o([0x2020].q) 0x12fb 19 goto 8 @ 0x1303 int64_t _fini(): 0x1318 0 rsp = rsp - 8 0x131c 1 rsp = rsp + 8 0x1320 2 <return> jump(pop)	POJ_56
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAVSHH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r14) 0x1153 2 push(rbx) 0x1154 3 rsp = rsp - 0x10 0x1158 4 rdi = 0x2004 {"%d"} 0x115f 5 rsi = rsp + 0xc {var_1c} 0x1164 6 eax = 0 0x1166 7 call(0x1040) 0x116b 8 esi = [rsp + 0xc {var_1c}].d 0x1172 9 if (esi != 1) then 10 @ 0x118d else 13 @ 0x1174 0x118d 10 r14 = 0x2012 {"%d/2=%d\n"} 0x1194 11 rbx = 0x2007 {"%d*3+1=%d\n"} 0x119b 12 goto 22 @ 0x11c0 0x1174 13 rdi = 0x201b {"End"} 0x117b 14 eax = 0 0x117d 15 call(0x1030) 0x1182 16 eax = 0 0x1184 17 rsp = rsp + 0x10 0x1188 18 rbx = pop 0x1189 19 r14 = pop 0x118b 20 rbp = pop 0x118c 21 <return> jump(pop) 0x11c0 22 if ((sil & 1) == 0) then 23 @ 0x11a0 else 29 @ 0x11c2 0x11a0 23 ebp = esi 0x11a2 24 ebp = ebp u>> 0x1f 0x11a5 25 ebp = ebp + esi 0x11a7 26 ebp = ebp s>> 1 0x11a9 27 rdi = r14 0x11a9 28 goto 33 @ 0x11ac 0x11c2 29 ebp = (rsi + (rsi << 1)).d 0x11c5 30 ebp = ebp + 1 0x11c8 31 rdi = rbx 0x11cb 32 goto 33 @ 0x11ac 0x11ac 33 edx = ebp 0x11ae 34 eax = 0 0x11b0 35 call(0x1030) 0x11b5 36 esi = ebp 0x11ba 37 if (ebp == 1) then 13 @ 0x1174 else 22 @ 0x11c0 int64_t _fini(): 0x11d4 0 rsp = rsp - 8 0x11d8 1 rsp = rsp + 8 0x11dc 2 <return> jump(pop)	POJ_34
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x18 0x116e 7 rdi = 0x2007 {"%d"} 0x1175 8 ebp = 0 0x1177 9 rsi = rsp + 0xc {var_3c} 0x117c 10 eax = 0 0x117e 11 call(0x1040) 0x1183 12 eax = [rsp + 0xc {var_3c}].d 0x118a 13 if (eax != 1) then 14 @ 0x11dd else 16 @ 0x118c 0x11dd 14 ebx = 0 0x11e4 15 if (eax s<= 0) then 35 @ 0x125c else 36 @ 0x11e6 0x118c 16 rdi = 0x2004 {"%d %d"} 0x1193 17 rsi = rsp + 0x14 {var_34} 0x1198 18 rdx = rsp + 0x10 {var_38} 0x119d 19 eax = 0 0x119f 20 call(0x1040) 0x11a4 21 eax = [rsp + 0x14 {var_34}].d 0x11a8 22 eax = eax - 0x5a 0x11ab 23 flag:c = eax u< 0x33 0x11ae 24 al = flag:c 0x11b1 25 ecx = [rsp + 0x10 {var_38}].d 0x11b8 26 dl = ecx s>= 0x3c 0x11be 27 cl = ecx s< 0x5b 0x11c1 28 cl = cl & dl 0x11c3 29 cl = cl & al 0x11c5 30 edi = zx.d(cl) 0x11c8 31 edi = edi \| 0x30 0x11cb 32 call(0x1050) 0x11d0 33 eax = [rsp + 0xc {var_3c}].d 0x11d7 34 if (eax == 1) then 42 @ 0x126f else 14 @ 0x11dd 0x125c 35 if (ebp s> ebx) then 51 else 53 @ 0x125f 0x11e6 36 r15 = rsp + 0x14 {var_34} 0x11eb 37 r12 = rsp + 0x10 {var_38} 0x11f0 38 ebx = 0 0x11f2 39 r14d = 0 0x11f5 40 r13d = 0 0x11f8 41 goto 58 @ 0x1200 0x126f 42 eax = 0 0x1271 43 rsp = rsp + 0x18 0x1275 44 rbx = pop 0x1276 45 r12 = pop 0x1278 46 r13 = pop 0x127a 47 r14 = pop 0x127c 48 r15 = pop 0x127e 49 rbp = pop 0x127f 50 <return> jump(pop) 0x125c 51 ebx = ebp 0x125c 52 goto 53 @ 0x125f 0x125f 53 rdi = 0x2007 {"%d"} 0x1266 54 esi = ebx 0x1268 55 eax = 0 0x126a 56 call(0x1030) 0x126a 57 goto 42 @ 0x126f 0x1200 58 rdi = 0x2004 {"%d %d"} 0x1207 59 rsi = r15 {var_34} 0x120a 60 rdx = r12 {var_38} 0x120d 61 eax = 0 0x120f 62 call(0x1040) 0x1214 63 eax = [rsp + 0x14 {var_34}].d 0x1218 64 eax = eax - 0x5a 0x121b 65 flag:c = eax u< 0x33 0x121e 66 al = flag:c 0x1221 67 ecx = [rsp + 0x10 {var_38}].d 0x1228 68 dl = ecx s>= 0x3c 0x122b 69 dl = dl & al 0x1230 70 al = ecx s< 0x5b 0x1233 71 ebp = (r14 + 1).d 0x123a 72 if (r14d s<= ebx) then 73 else 75 @ 0x123e 0x123a 73 r14d = ebx 0x123a 74 goto 75 @ 0x123e 0x123e 75 temp0.b = dl & al 0x123e 76 cond:0 = temp0.b == 0 0x123e 77 cond:1 = temp0.b == 0 0x1240 78 eax = 0 0x1245 79 if (cond:0) then 80 else 82 @ 0x1248 0x1245 80 ebp = eax 0x1245 81 goto 82 @ 0x1248 0x1248 82 if (cond:1) then 83 else 85 @ 0x124c 0x1248 83 ebx = r14d 0x1248 84 goto 85 @ 0x124c 0x124c 85 r13d = r13d + 1 0x1250 86 r14d = ebp 0x1258 87 if (r13d s< [rsp + 0xc {var_3c}].d) then 58 @ 0x1200 else 35 @ 0x125c int64_t _fini(): 0x1284 0 rsp = rsp - 8 0x1288 1 rsp = rsp + 8 0x128c 2 <return> jump(pop)	POJ_82
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) char* gets(char* buf): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVSH1"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(rbx) 0x1165 3 rsp = rsp - 0x3110 0x116c 4 r15d = 0 0x116f 5 r14 = rsp + 0xa00 {var_2728} 0x1177 6 rdi = r14 {var_2728} 0x117a 7 eax = 0 0x117c 8 call(0x1050) 0x1181 9 rdi = r14 {var_2728} 0x1184 10 call(0x1040) 0x1189 11 [rsp + 0x500 {var_2c28}].d = 0 0x1196 12 if (eax s<= 0) then 13 @ 0x11de else 14 @ 0x1198 0x11de 13 if (eax s<= 0) then 18 @ 0x121a else 26 @ 0x11e0 0x1198 14 ecx = eax 0x119a 15 edx = 1 0x119f 16 esi = 0 0x11a1 17 goto 30 @ 0x11c1 0x121a 18 rbx = sx.q(r15d) 0x121d 19 [rsp + (rbx << 2)].d = eax 0x1220 20 esi = [rsp {var_3128}].d 0x1223 21 esi = esi - [rsp + 0x500 {var_2c28}].d 0x122a 22 rdi = 0x2005 {"%d"} 0x1231 23 eax = 0 0x1233 24 call(0x1030) 0x123a 25 if (ebx s<= 0) then 31 @ 0x126d else 36 @ 0x123c 0x11e0 26 ecx = eax 0x11e2 27 edx = 0 0x11e4 28 r15d = 0 0x11e7 29 goto 40 @ 0x1201 0x11c1 30 if ([rsp + rsi + 0x9ff].b != 0x20) then 41 @ 0x11b0 else 43 @ 0x11cb 0x126d 31 rsp = rsp + 0x3110 0x1274 32 rbx = pop 0x1275 33 r14 = pop 0x1277 34 r15 = pop 0x1279 35 <return> jump(pop) 0x123c 36 r15d = r15d + 1 0x1240 37 ebx = 1 0x1245 38 r14 = 0x2004 {",%d"} 0x124c 39 goto 44 @ 0x1250 0x1201 40 if ([rsp + rdx + 0x9ff].b == 0x20) then 51 @ 0x11f0 else 53 @ 0x120b 0x11b0 41 rsi = rsi + 1 0x11b7 42 if (rcx == rsi) then 13 @ 0x11de else 30 @ 0x11c1 0x11cb 43 if ([rsp + rsi + 0xa00].b == 0x20) then 41 @ 0x11b0 else 54 @ 0x11cd 0x1250 44 esi = [rsp + (rbx << 2)].d 0x1253 45 esi = esi - [rsp + (rbx << 2) + 0x500].d 0x125a 46 rdi = r14 0x125d 47 eax = 0 0x125f 48 call(0x1030) 0x1264 49 rbx = rbx + 1 0x126b 50 if (r15 != rbx) then 44 @ 0x1250 else 31 @ 0x126d 0x11f0 51 rdx = rdx + 1 0x11f7 52 if (rcx == rdx) then 18 @ 0x121a else 40 @ 0x1201 0x120b 53 if ([rsp + rdx + 0xa00].b != 0x20) then 51 @ 0x11f0 else 58 @ 0x120d 0x11cd 54 rdx = sx.q(edx) 0x11d0 55 [rsp + (rdx << 2) + 0x500].d = esi 0x11d7 56 edx = edx + 1 0x11da 57 goto 41 @ 0x11b0 0x120d 58 r15 = sx.q(r15d) 0x1210 59 [rsp + (r15 << 2)].d = edx 0x1214 60 r15d = r15d + 1 0x1218 61 goto 51 @ 0x11f0 int64_t _fini(): 0x1280 0 rsp = rsp - 8 0x1284 1 rsp = rsp + 8 0x1288 2 <return> jump(pop)	POJ_28
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSHpH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0x70 0x1159 4 rdi = 0x2034 {"%d"} 0x1160 5 rsi = rsp + 0xc {var_7c} 0x1165 6 eax = 0 0x1167 7 call(0x1040) 0x116c 8 xmm0 = zx.o([0x2008].q) 0x1179 9 if ([rsp + 0xc {var_7c}].d s<= 0) then 10 @ 0x132e else 18 @ 0x117f 0x132e 10 rdi = 0x2037 {"%.2f"} 0x1335 11 al = 1 0x1337 12 call(0x1030) 0x133c 13 rsp = rsp + 0x70 0x1340 14 rbx = pop 0x1341 15 r14 = pop 0x1343 16 r15 = pop 0x1345 17 <return> jump(pop) 0x117f 18 r15 = rsp + 0x40 {var_48} 0x1184 19 r14 = 0x2034 {"%d"} 0x118b 20 ebx = 0 0x118d 21 goto 22 @ 0x1190 0x1190 22 rdi = r14 0x1193 23 rsi = r15 0x1196 24 eax = 0 0x1198 25 call(0x1040) 0x119d 26 rbx = rbx + 1 0x11a1 27 rax = sx.q([rsp + 0xc {var_7c}].d) 0x11a6 28 r15 = r15 + 4 0x11ad 29 if (rbx s< rax) then 22 @ 0x1190 else 30 @ 0x11b1 0x11b1 30 if (eax s<= 0) then 31 @ 0x1315 else 33 @ 0x11b7 0x1315 31 xmm0 = zx.o([0x2008].q) 0x131d 32 goto 10 @ 0x132e 0x11b7 33 r15 = rsp + 0x10 {var_78} 0x11bc 34 r14 = 0x2034 {"%d"} 0x11c3 35 ebx = 0 0x11cf 36 goto 37 @ 0x11d0 0x11d0 37 rdi = r14 0x11d3 38 rsi = r15 0x11d6 39 eax = 0 0x11d8 40 call(0x1040) 0x11dd 41 rbx = rbx + 1 0x11e1 42 rax = sx.q([rsp + 0xc {var_7c}].d) 0x11e6 43 r15 = r15 + 4 0x11ed 44 if (rbx s< rax) then 37 @ 0x11d0 else 45 @ 0x11ef 0x11ef 45 eax = eax 0x11f1 46 cond:0 = eax s<= 0 0x11f3 47 xmm0 = zx.o([0x2008].q) 0x11fb 48 if (cond:0) then 10 @ 0x132e else 49 @ 0x1201 0x1201 49 ecx = 0 0x1203 50 xmm0 = 0 0x1206 51 xmm8 = [0x2010].d 0x120f 52 xmm9 = [0x2014].d 0x1218 53 xmm10 = [0x2018].d 0x1221 54 xmm11 = [0x201c].d 0x122a 55 xmm5 = [0x2020].d 0x1232 56 xmm6 = [0x2024].d 0x123a 57 xmm7 = [0x2028].d 0x1242 58 xmm1 = [0x202c].d 0x124a 59 xmm2 = [0x2030].d 0x1252 60 edx = 0 0x1254 61 goto 62 @ 0x1282 0x1282 62 esi = [rsp + (rcx << 2) + 0x10].d 0x1286 63 xmm3 = xmm8 0x128d 64 if (esi s>= 0x5a) then 65 @ 0x1292 else 68 @ 0x128f 0x1292 65 edi = (rsi - 0x55).d 0x1295 66 xmm4 = xmm9 0x129c 67 if (edi u< 5) then 70 @ 0x12a1 else 73 @ 0x129e 0x128f 68 xmm3 = xmm4 0x128f 69 goto 65 @ 0x1292 0x12a1 70 edi = (rsi - 0x52).d 0x12a4 71 xmm3 = xmm10 0x12ab 72 if (edi u< 3) then 75 @ 0x12b0 else 78 @ 0x12ad 0x129e 73 xmm4 = xmm3 0x129e 74 goto 70 @ 0x12a1 0x12b0 75 edi = (rsi - 0x4e).d 0x12b3 76 xmm4 = xmm11 0x12ba 77 if (edi u< 4) then 80 @ 0x12bf else 83 @ 0x12bc 0x12ad 78 xmm3 = xmm4 0x12ad 79 goto 75 @ 0x12b0 0x12bf 80 edi = (rsi - 0x4b).d 0x12c2 81 xmm3 = xmm5 0x12c8 82 if (edi u< 3) then 85 @ 0x12cd else 88 @ 0x12ca 0x12bc 83 xmm4 = xmm3 0x12bc 84 goto 80 @ 0x12bf 0x12cd 85 edi = (rsi - 0x48).d 0x12d0 86 xmm4 = xmm6 0x12d6 87 if (edi u< 3) then 90 @ 0x12db else 94 @ 0x12d8 0x12ca 88 xmm3 = xmm4 0x12ca 89 goto 85 @ 0x12cd 0x12db 90 edi = esi 0x12dd 91 edi = edi & 0xfffffffc 0x12e0 92 xmm3 = xmm7 0x12e6 93 if (edi == 0x44) then 96 @ 0x12eb else 98 @ 0x12e8 0x12d8 94 xmm4 = xmm3 0x12d8 95 goto 90 @ 0x12db 0x12eb 96 xmm4 = xmm1 0x12f1 97 if (edi == 0x40) then 100 @ 0x12f6 else 102 @ 0x12f3 0x12e8 98 xmm3 = xmm4 0x12e8 99 goto 96 @ 0x12eb 0x12f6 100 xmm3 = xmm2 0x12fc 101 if (edi == 0x3c) then 104 @ 0x1301 else 106 @ 0x12fe 0x12f3 102 xmm4 = xmm3 0x12f3 103 goto 100 @ 0x12f6 0x1301 104 xmm4 = 0 0x1307 105 if (esi s< 0x3c) then 108 @ 0x1260 else 116 @ 0x130d 0x12fe 106 xmm3 = xmm4 0x12fe 107 goto 104 @ 0x1301 0x1260 108 esi = [rsp + (rcx << 2) + 0x40].d 0x1264 109 xmm3 = 0 0x1267 110 xmm3.d = float.s(esi) 0x126b 111 xmm3.d = xmm3.d f* xmm4.d 0x126f 112 xmm0.d = xmm0.d f+ xmm3.d 0x1273 113 edx = edx + esi 0x1275 114 rcx = rcx + 1 0x127c 115 if (rax == rcx) then 118 @ 0x131f else 62 @ 0x1282 0x130d 116 xmm4 = xmm3 0x1310 117 goto 108 @ 0x1260 0x131f 118 xmm1 = 0 0x1322 119 xmm1.d = float.s(edx) 0x1326 120 xmm0.d = xmm0.d f/ xmm1.d 0x132a 121 xmm0.q = fconvert.d(xmm0.d) 0x132a 122 goto 10 @ 0x132e int64_t _fini(): 0x134c 0 rsp = rsp - 8 0x1350 1 rsp = rsp + 8 0x1354 2 <return> jump(pop)	POJ_83
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t scanf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t puts(char const* str): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSHD$"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x18 0x115e 7 [rsp + 0xc {var_3c}].d = 0 0x1166 8 [rsp + 0x14 {var_34}].d = 0 0x116e 9 [rsp + 0x10 {var_38}].d = 0 0x1176 10 [rsp + 8 {var_40}].d = 0 0x117e 11 [rsp + 4 {var_44}].d = 0 0x1186 12 rdi = 0x2010 {"%d"} 0x118d 13 rsi = rsp + 0xc {var_3c} 0x1192 14 eax = 0 0x1194 15 call(0x1030) 0x1199 16 rdi = 0x2013 {"%f%f"} 0x11a0 17 rsi = rsp + 0x14 {var_34} 0x11a5 18 rdx = rsp + 0x10 {var_38} 0x11aa 19 eax = 0 0x11ac 20 call(0x1030) 0x11b6 21 if ([rsp + 0xc {var_3c}].d s< 2) then 22 @ 0x128d else 30 @ 0x11bc 0x128d 22 rsp = rsp + 0x18 0x1291 23 rbx = pop 0x1292 24 r12 = pop 0x1294 25 r13 = pop 0x1296 26 r14 = pop 0x1298 27 r15 = pop 0x129a 28 rbp = pop 0x129b 29 <return> jump(pop) 0x11bc 30 ebp = 1 0x11c1 31 r14 = 0x2013 {"%f%f"} 0x11c8 32 r15 = rsp + 8 {var_40} 0x11cd 33 r12 = rsp + 4 {var_44} 0x11d2 34 rbx = 0x201f {"same"} 0x11d9 35 r13 = 0x2024 {"worse"} 0x11e0 36 goto 37 @ 0x120e 0x120e 37 rdi = r14 0x1211 38 rsi = r15 {var_40} 0x1214 39 rdx = r12 {var_44} 0x1217 40 eax = 0 0x1219 41 call(0x1030) 0x121e 42 xmm1 = [rsp + 0x10 {var_38}].d 0x1224 43 xmm0 = [rsp + 4 {var_44}].d 0x122a 44 xmm0 = _mm_unpacklo_ps(xmm0, xmm1.q) 0x122d 45 xmm1 = [rsp + 0x14 {var_34}].d 0x1233 46 xmm2 = [rsp + 8 {var_40}].d 0x1239 47 xmm2 = _mm_unpacklo_ps(xmm2, xmm1.q) 0x123c 48 xmm0 = _mm_div_ps(xmm0, xmm2) 0x123f 49 xmm1 = xmm0 0x1242 50 xmm1 = _mm_shuffle_ps(xmm1, xmm0, 0x55) 0x1246 51 xmm2 = xmm0 0x1249 52 xmm2.d = xmm2.d f- xmm1.d 0x124d 53 xmm2.q = fconvert.d(xmm2.d) 0x1251 54 xmm3 = zx.o([0x2008].q) 0x1259 55 flag:p = is_unordered.q(xmm3.q, xmm2.q) 0x1259 56 flag:c = xmm3.q f< xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x1259 57 flag:z = xmm3.q f== xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x1259 58 flag:s = 0 0x1259 59 flag:o = 0 0x1259 60 flag:a = 0 0x125d 61 xmm2 = xmm3 0x1261 62 rax = rbx 0x1264 63 if (not(flag:z) && not(flag:c)) then 64 @ 0x126d else 75 @ 0x1266 0x126d 64 xmm1.d = xmm1.d f- xmm0.d 0x1271 65 xmm0 = 0 0x1274 66 xmm0.q = fconvert.d(xmm1.d) 0x1278 67 flag:p = is_unordered.q(xmm0.q, xmm2.q) 0x1278 68 flag:c = xmm0.q f< xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1278 69 flag:z = xmm0.q f== xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1278 70 flag:s = 0 0x1278 71 flag:o = 0 0x1278 72 flag:a = 0 0x127c 73 rdi = r13 0x127f 74 if (not(flag:z) && not(flag:c)) then 77 @ 0x11f0 else 82 @ 0x1285 0x1266 75 rax = 0x2018 {"better"} 0x1266 76 goto 64 @ 0x126d 0x11f0 77 call(0x1040) 0x11f5 78 [rsp + 4 {var_44}].d = 0 0x11fd 79 [rsp + 8 {var_40}].d = 0 0x1205 80 ebp = ebp + 1 0x120c 81 if (ebp s>= [rsp + 0xc {var_3c}].d) then 22 @ 0x128d else 37 @ 0x120e 0x1285 82 rdi = rax 0x1288 83 goto 77 @ 0x11f0 int64_t _fini(): 0x12a0 0 rsp = rsp - 8 0x12a4 1 rsp = rsp + 8 0x12a8 2 <return> jump(pop)	POJ_67
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHHP"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x350 0x116b 3 [rbp - 4 {var_c}].d = 0 0x1172 4 rdi = rbp - 0x1a0 {var_1a8} 0x1179 5 esi = 0 0x117b 6 edx = 0x190 {""} 0x1180 7 call(0x1040) 0x1185 8 [rbp - 0x1a4 {var_1ac}].d = 0 0x118f 9 [rbp - 0x1a8 {var_1b0}].d = 0 0x1199 10 rdi = rbp - 0x340 {var_348} 0x11a0 11 esi = 0 0x11a2 12 edx = 0x190 {""} 0x11a7 13 call(0x1040) 0x11ac 14 [rbp - 0x344 {var_34c}].d = 0 0x11b6 15 [rbp - 0x348 {var_350}].d = 1 0x11c0 16 rdi = 0x2004 {"%d"} 0x11c7 17 rsi = rbp - 8 {var_10} 0x11cb 18 al = 0 0x11cd 19 call(0x1050) 0x11d2 20 [rbp - 0x1a4 {var_1ac_1}].d = 0 0x11d2 21 goto 22 @ 0x11dc 0x11dc 22 eax = [rbp - 0x1a4 {var_1ac_1}].d 0x11e2 23 ecx = [rbp - 8 {var_10}].d 0x11e5 24 ecx = ecx - 1 0x11ea 25 if (eax s> ecx) then 26 @ 0x1227 else 34 @ 0x11f0 0x1227 26 eax = [rbp - 8 {var_10}].d 0x122a 27 eax = eax - 1 0x122d 28 rax = sx.q(eax) 0x122f 29 [rbp + (rax << 2) - 0x340].d = 1 0x123a 30 eax = [rbp - 8 {var_10}].d 0x123d 31 eax = eax - 2 0x1240 32 [rbp - 0x1a4 {var_1ac_2}].d = eax 0x1240 33 goto 45 @ 0x124d 0x11f0 34 rax = sx.q([rbp - 0x1a4 {var_1ac_1}].d) 0x11f7 35 rsi = rbp - 0x1a0 {var_1a8} 0x11fe 36 rax = rax << 2 0x1202 37 rsi = rsi + rax 0x1205 38 rdi = 0x2004 {"%d"} 0x120c 39 al = 0 0x120e 40 call(0x1050) 0x1213 41 eax = [rbp - 0x1a4 {var_1ac_1}].d 0x1219 42 eax = eax + 1 0x121c 43 [rbp - 0x1a4 {var_1ac_1}].d = eax 0x1222 44 goto 22 @ 0x11dc 0x124d 45 if ([rbp - 0x1a4 {var_1ac_2}].d s< 0) then 46 @ 0x130f else 48 @ 0x1253 0x130f 46 [rbp - 0x1a4 {var_1ac_3}].d = 0 0x130f 47 goto 52 @ 0x1319 0x1253 48 eax = [rbp - 8 {var_10}].d 0x1256 49 eax = eax - 1 0x1259 50 [rbp - 0x1a8 {var_1b0_1}].d = eax 0x1259 51 goto 56 @ 0x125f 0x1319 52 eax = [rbp - 0x1a4 {var_1ac_3}].d 0x131f 53 ecx = [rbp - 8 {var_10}].d 0x1322 54 ecx = ecx - 1 0x1327 55 if (eax s> ecx) then 58 @ 0x1374 else 66 @ 0x132d 0x125f 56 eax = [rbp - 0x1a8 {var_1b0_1}].d 0x126b 57 if (eax s<= [rbp - 0x1a4 {var_1ac_2}].d) then 69 @ 0x12da else 78 @ 0x1271 0x1374 58 esi = [rbp - 0x348 {var_350}].d 0x137a 59 rdi = 0x2004 {"%d"} 0x1381 60 al = 0 0x1383 61 call(0x1030) 0x1388 62 eax = [rbp - 4 {var_c}].d 0x138b 63 rsp = rsp + 0x350 0x1392 64 rbp = pop 0x1393 65 <return> jump(pop) 0x132d 66 rax = sx.q([rbp - 0x1a4 {var_1ac_3}].d) 0x1334 67 eax = [rbp + (rax << 2) - 0x340].d 0x1341 68 if (eax s<= [rbp - 0x348 {var_350}].d) then 81 @ 0x135b else 82 @ 0x1347 0x12da 69 ecx = [rbp - 0x344 {var_34c}].d 0x12e0 70 ecx = ecx + 1 0x12e3 71 rax = sx.q([rbp - 0x1a4 {var_1ac_2}].d) 0x12ea 72 [rbp + (rax << 2) - 0x340].d = ecx 0x12f1 73 [rbp - 0x344 {var_34c}].d = 0 0x12fb 74 eax = [rbp - 0x1a4 {var_1ac_2}].d 0x1301 75 eax = eax - 1 0x1304 76 [rbp - 0x1a4 {var_1ac_2}].d = eax 0x130a 77 goto 45 @ 0x124d 0x1271 78 rax = sx.q([rbp - 0x1a8 {var_1b0_1}].d) 0x1278 79 eax = [rbp + (rax << 2) - 0x340].d 0x1285 80 if (eax s<= [rbp - 0x344 {var_34c}].d) then 86 @ 0x12c1 else 87 @ 0x128b 0x135b 81 goto 91 @ 0x1360 0x1347 82 rax = sx.q([rbp - 0x1a4 {var_1ac_3}].d) 0x134e 83 eax = [rbp + (rax << 2) - 0x340].d 0x1355 84 [rbp - 0x348 {var_350}].d = eax 0x1355 85 goto 81 @ 0x135b 0x12c1 86 goto 95 @ 0x12c6 0x128b 87 rax = sx.q([rbp - 0x1a8 {var_1b0_1}].d) 0x1292 88 eax = [rbp + (rax << 2) - 0x1a0].d 0x1299 89 rcx = sx.q([rbp - 0x1a4 {var_1ac_2}].d) 0x12a7 90 if (eax s> [rbp + (rcx << 2) - 0x1a0].d) then 86 @ 0x12c1 else 99 @ 0x12ad 0x1360 91 eax = [rbp - 0x1a4 {var_1ac_3}].d 0x1366 92 eax = eax + 1 0x1369 93 [rbp - 0x1a4 {var_1ac_3}].d = eax 0x136f 94 goto 52 @ 0x1319 0x12c6 95 eax = [rbp - 0x1a8 {var_1b0_1}].d 0x12cc 96 eax = eax - 1 0x12cf 97 [rbp - 0x1a8 {var_1b0_1}].d = eax 0x12d5 98 goto 56 @ 0x125f 0x12ad 99 rax = sx.q([rbp - 0x1a8 {var_1b0_1}].d) 0x12b4 100 eax = [rbp + (rax << 2) - 0x340].d 0x12bb 101 [rbp - 0x344 {var_34c}].d = eax 0x12bb 102 goto 86 @ 0x12c1 int64_t _fini(): 0x1398 0 rsp = rsp - 8 0x139c 1 rsp = rsp + 8 0x13a0 2 <return> jump(pop)	POJ_10
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH "} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x20e0 0x115b 3 rdi = 0x2004 {"%d"} 0x1162 4 rsi = rbp - 4 {var_c} 0x1166 5 al = 0 0x1168 6 call(0x1040) 0x116d 7 [rbp - 8 {var_10}].d = 1 0x116d 8 goto 9 @ 0x1174 0x1174 9 eax = [rbp - 8 {var_10}].d 0x117a 10 if (eax s> [rbp - 4 {var_c}].d) then 11 @ 0x121e else 13 @ 0x1180 0x121e 11 [rbp - 8 {var_10_1}].d = 1 0x121e 12 goto 22 @ 0x1225 0x1180 13 rax = sx.q([rbp - 8 {var_10}].d) 0x1184 14 rsi = rbp - 0x1a0 {var_1a8} 0x118b 15 rax = rax << 2 0x118f 16 rsi = rsi + rax 0x1192 17 rdi = 0x2004 {"%d"} 0x1199 18 al = 0 0x119b 19 call(0x1040) 0x11a0 20 rax = sx.q([rbp - 8 {var_10}].d) 0x11ac 21 if ([rbp + (rax << 2) - 0x1a0].d == 0) then 24 @ 0x120b else 25 @ 0x11b2 0x1225 22 eax = [rbp - 8 {var_10_1}].d 0x122b 23 if (eax s> [rbp - 4 {var_c}].d) then 27 @ 0x13e7 else 30 @ 0x1231 0x120b 24 goto 32 @ 0x1210 0x11b2 25 [rbp - 0xc {var_14_1}].d = 1 0x11b2 26 goto 36 @ 0x11b9 0x13e7 27 rsp = rsp + 0x20e0 0x13ee 28 rbp = pop 0x13ef 29 <return> jump(pop) 0x1231 30 rax = sx.q([rbp - 8 {var_10_1}].d) 0x123d 31 if ([rbp + (rax << 2) - 0x1a0].d != 0) then 39 @ 0x1256 else 50 @ 0x1243 0x1210 32 eax = [rbp - 8 {var_10}].d 0x1213 33 eax = eax + 1 0x1216 34 [rbp - 8 {var_10}].d = eax 0x1219 35 goto 9 @ 0x1174 0x11b9 36 eax = [rbp - 0xc {var_14_1}].d 0x11bc 37 rcx = sx.q([rbp - 8 {var_10}].d) 0x11c7 38 if (eax s> [rbp + (rcx << 2) - 0x1a0].d) then 54 @ 0x1206 else 55 @ 0x11cd 0x1256 39 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x125a 40 rax = rbp - 0x20e0 {var_20e8} 0x1261 41 rcx = rcx * 0x50 0x1265 42 rax = rax + rcx 0x1268 43 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x126c 44 rcx = sx.q([rbp + (rcx << 2) - 0x1a0].d) 0x1274 45 eax = [rax + (rcx << 2)].d 0x1277 46 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x127b 47 ecx = [rbp + (rcx << 2) - 0x1a0].d * 3 0x1283 48 eax = eax + ecx 0x1288 49 if (eax s> 0x3c) then 69 @ 0x12af else 71 @ 0x128e 0x1243 50 rdi = 0x2007 {"60\n"} 0x124a 51 al = 0 0x124c 52 call(0x1030) 0x1251 53 goto 79 @ 0x13d4 0x1206 54 goto 24 @ 0x120b 0x11cd 55 rax = sx.q([rbp - 8 {var_10}].d) 0x11d1 56 rsi = rbp - 0x20e0 {var_20e8} 0x11d8 57 rax = rax * 0x50 0x11dc 58 rsi = rsi + rax 0x11df 59 rax = sx.q([rbp - 0xc {var_14_1}].d) 0x11e3 60 rax = rax << 2 0x11e7 61 rsi = rsi + rax 0x11ea 62 rdi = 0x2004 {"%d"} 0x11f1 63 al = 0 0x11f3 64 call(0x1040) 0x11f8 65 eax = [rbp - 0xc {var_14_1}].d 0x11fb 66 eax = eax + 1 0x11fe 67 [rbp - 0xc {var_14_1}].d = eax 0x1201 68 goto 36 @ 0x11b9 0x12af 69 [rbp - 0xc {var_14_2}].d = 1 0x12af 70 goto 80 @ 0x12b6 0x128e 71 rax = sx.q([rbp - 8 {var_10_1}].d) 0x1292 72 eax = [rbp + (rax << 2) - 0x1a0].d * 3 0x129a 73 esi = 0x3c {""} 0x129f 74 esi = esi - eax 0x12a1 75 rdi = 0x200b {"%d\n"} 0x12a8 76 al = 0 0x12aa 77 call(0x1030) 0x12aa 78 goto 69 @ 0x12af 0x13d4 79 goto 83 @ 0x13d9 0x12b6 80 eax = [rbp - 0xc {var_14_2}].d 0x12b9 81 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x12c4 82 if (eax s> [rbp + (rcx << 2) - 0x1a0].d) then 87 @ 0x13cf else 88 @ 0x12ca 0x13d9 83 eax = [rbp - 8 {var_10_1}].d 0x13dc 84 eax = eax + 1 0x13df 85 [rbp - 8 {var_10_1}].d = eax 0x13e2 86 goto 22 @ 0x1225 0x13cf 87 goto 79 @ 0x13d4 0x12ca 88 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x12ce 89 rax = rbp - 0x20e0 {var_20e8} 0x12d5 90 rcx = rcx * 0x50 0x12d9 91 rax = rax + rcx 0x12dc 92 rcx = sx.q([rbp - 0xc {var_14_2}].d) 0x12e0 93 eax = [rax + (rcx << 2)].d 0x12e3 94 ecx = [rbp - 0xc {var_14_2}].d * 3 0x12e7 95 eax = eax + ecx 0x12ec 96 if (eax s> 0x3c) then 97 @ 0x1340 else 106 @ 0x12f2 0x1340 97 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x1344 98 rax = rbp - 0x20e0 {var_20e8} 0x134b 99 rcx = rcx * 0x50 0x134f 100 rax = rax + rcx 0x1352 101 rcx = sx.q([rbp - 0xc {var_14_2}].d) 0x1356 102 eax = [rax + (rcx << 2)].d 0x1359 103 ecx = [rbp - 0xc {var_14_2}].d * 3 0x135d 104 eax = eax + ecx 0x1362 105 if (eax s< 0x3c) then 118 @ 0x13b7 else 119 @ 0x1368 0x12f2 106 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x12f6 107 rax = rbp - 0x20e0 {var_20e8} 0x12fd 108 rcx = rcx * 0x50 0x1301 109 rax = rax + rcx 0x1304 110 ecx = [rbp - 0xc {var_14_2}].d 0x1307 111 ecx = ecx + 1 0x130a 112 rcx = sx.q(ecx) 0x130d 113 eax = [rax + (rcx << 2)].d 0x1310 114 ecx = [rbp - 0xc {var_14_2}].d * 3 0x1314 115 eax = eax + ecx 0x1316 116 eax = eax + 3 0x131c 117 if (eax s< 0x3f) then 97 @ 0x1340 else 128 @ 0x1322 0x13b7 118 goto 135 @ 0x13bc 0x1368 119 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x136c 120 rax = rbp - 0x20e0 {var_20e8} 0x1373 121 rcx = rcx * 0x50 0x1377 122 rax = rax + rcx 0x137a 123 rcx = sx.q([rbp - 0xc {var_14_2}].d) 0x137e 124 eax = [rax + (rcx << 2)].d 0x1381 125 ecx = [rbp - 0xc {var_14_2}].d * 3 0x1385 126 eax = eax + ecx 0x138a 127 if (eax s>= 0x3f) then 118 @ 0x13b7 else 136 @ 0x1390 0x1322 128 eax = [rbp - 0xc {var_14_2}].d * 3 0x1326 129 esi = 0x3c {""} 0x132b 130 esi = esi - eax 0x132d 131 rdi = 0x200b {"%d\n"} 0x1334 132 al = 0 0x1336 133 call(0x1030) 0x133b 134 goto 135 @ 0x13bc 0x13bc 135 goto 146 @ 0x13c1 0x1390 136 rcx = sx.q([rbp - 8 {var_10_1}].d) 0x1394 137 rax = rbp - 0x20e0 {var_20e8} 0x139b 138 rcx = rcx * 0x50 0x139f 139 rax = rax + rcx 0x13a2 140 rcx = sx.q([rbp - 0xc {var_14_2}].d) 0x13a6 141 esi = [rax + (rcx << 2)].d 0x13a9 142 rdi = 0x200b {"%d\n"} 0x13b0 143 al = 0 0x13b2 144 call(0x1030) 0x13b2 145 goto 118 @ 0x13b7 0x13c1 146 eax = [rbp - 0xc {var_14_2}].d 0x13c4 147 eax = eax + 1 0x13c7 148 [rbp - 0xc {var_14_2}].d = eax 0x13ca 149 goto 80 @ 0x12b6 int64_t _fini(): 0x13f4 0 rsp = rsp - 8 0x13f8 1 rsp = rsp + 8 0x13fc 2 <return> jump(pop)	POJ_86
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memcpy(void* arg1, void const* arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVATSH8"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(r12) 0x1166 3 push(rbx) 0x1167 4 rsp = rsp - 0x338 0x116e 5 rdi = 0x2004 {"%d%d"} 0x1175 6 rsi = rsp + 8 {var_350} 0x117a 7 rdx = rsp + 0xc {var_34c} 0x117f 8 eax = 0 0x1181 9 call(0x1050) 0x1186 10 r15d = [rsp + 8 {var_350}].d 0x118e 11 if (r15d s<= 0) then 12 @ 0x129b else 14 @ 0x1194 0x129b 12 r15d = [rsp + 0xc {var_34c}].d 0x12a3 13 if (r15d s<= 0) then 18 @ 0x1408 else 20 @ 0x12a9 0x1194 14 rbx = rsp + 0x10 {var_348} 0x1199 15 r14 = 0x200a {"%d"} 0x11a0 16 r12 = r15 0x11ad 17 goto 24 @ 0x11b0 0x1408 18 ebx = [rsp + 8 {var_350}].d 0x1408 19 goto 32 @ 0x140c 0x12a9 20 rbx = rsp + 0x1a0 {var_1b8} 0x12b1 21 r14 = 0x200a {"%d"} 0x12b8 22 r12 = r15 0x12bb 23 goto 38 @ 0x12c0 0x11b0 24 rdi = r14 0x11b3 25 rsi = rbx 0x11b6 26 eax = 0 0x11b8 27 call(0x1050) 0x11bd 28 rbx = rbx + 4 0x11c1 29 temp0.q = r12 0x11c1 30 r12 = r12 - 1 0x11c5 31 if (temp0.q != 1) then 24 @ 0x11b0 else 46 @ 0x11cb 0x140c 32 ebx = ebx + r15d 0x140f 33 esi = [rsp + 0x10 {var_348}].d 0x1413 34 rdi = 0x200a {"%d"} 0x141a 35 eax = 0 0x141c 36 call(0x1030) 0x1424 37 if (ebx s< 2) then 47 @ 0x1457 else 53 @ 0x1426 0x12c0 38 rdi = r14 0x12c3 39 rsi = rbx 0x12c6 40 eax = 0 0x12c8 41 call(0x1050) 0x12cd 42 rbx = rbx + 4 0x12d1 43 temp1.q = r12 0x12d1 44 r12 = r12 - 1 0x12d5 45 if (temp1.q != 1) then 38 @ 0x12c0 else 57 @ 0x12db 0x11cb 46 if (r15d s< 2) then 12 @ 0x129b else 58 @ 0x11d1 0x1457 47 rsp = rsp + 0x338 0x145e 48 rbx = pop 0x145f 49 r12 = pop 0x1461 50 r14 = pop 0x1463 51 r15 = pop 0x1465 52 <return> jump(pop) 0x1426 53 r15d = ebx 0x1429 54 ebx = 1 0x142e 55 r14 = 0x2009 {" %d"} 0x143f 56 goto 62 @ 0x1440 0x12db 57 if (r15d s< 2) then 68 @ 0x13c7 else 71 @ 0x12e1 0x11d1 58 r8d = (r15 - 1).d 0x11d5 59 ecx = 1 0x11da 60 r10d = 0 0x11dd 61 goto 75 @ 0x11f4 0x1440 62 esi = [rsp + (rbx << 2) + 0x10].d 0x1444 63 rdi = r14 0x1447 64 eax = 0 0x1449 65 call(0x1030) 0x144e 66 rbx = rbx + 1 0x1455 67 if (r15 != rbx) then 62 @ 0x1440 else 47 @ 0x1457 0x13c7 68 r15d = [rsp + 0xc {var_34c}].d 0x13cc 69 ebx = [rsp + 8 {var_350}].d 0x13d3 70 if (r15d s<= 0) then 32 @ 0x140c else 80 @ 0x13d5 0x12e1 71 r8d = (r15 - 1).d 0x12e5 72 ecx = 1 0x12ea 73 r10d = 0 0x12ed 74 goto 87 @ 0x1304 0x11f4 75 eax = ecx 0x11f6 76 eax = not.d(eax) 0x11f8 77 temp2.d = eax 0x11f8 78 eax = eax + r15d 0x11fb 79 if (temp2.d + r15d s< 0) then 92 @ 0x11e0 else 96 @ 0x11fd 0x13d5 80 rax = sx.q(ebx) 0x13d8 81 ecx = (rax + r15).d 0x13dc 82 rdx = sx.q(ecx) 0x13df 83 rdi = rsp + (rax << 2) 0x13e3 84 rdi = rdi + 0x10 0x13e7 85 rcx = rax + 1 0x13ee 86 if (rcx s> rdx) then 101 else 103 @ 0x13f2 0x1304 87 eax = ecx 0x1306 88 eax = not.d(eax) 0x1308 89 temp3.d = eax 0x1308 90 eax = eax + r15d 0x130b 91 if (temp3.d + r15d s< 0) then 108 @ 0x12f0 else 112 @ 0x130d 0x11e0 92 ecx = ecx + 1 0x11e3 93 r10d = r10d + 1 0x11e7 94 r8d = r8d - 1 0x11ee 95 if (ecx == r15d) then 12 @ 0x129b else 75 @ 0x11f4 0x11fd 96 r9d = r10d 0x1200 97 r9d = not.d(r9d) 0x1203 98 r9d = r9d + r15d 0x1206 99 edx = [rsp + 0x10 {var_348}].d 0x120e 100 if (r9d != 1) then 117 @ 0x1220 else 121 @ 0x1210 0x13ee 101 rdx = rcx 0x13ee 102 goto 103 @ 0x13f2 0x13f2 103 rdx = rdx - rax 0x13f5 104 rdx = rdx << 2 0x13f9 105 rsi = rsp + 0x1a0 {var_1b8} 0x1401 106 call(0x1040) 0x1406 107 goto 32 @ 0x140c 0x12f0 108 ecx = ecx + 1 0x12f3 109 r10d = r10d + 1 0x12f7 110 r8d = r8d - 1 0x12fe 111 if (ecx == r15d) then 68 @ 0x13c7 else 87 @ 0x1304 0x130d 112 r9d = r10d 0x1310 113 r9d = not.d(r9d) 0x1313 114 r9d = r9d + r15d 0x1316 115 edx = [rsp + 0x1a0 {var_1b8}].d 0x1321 116 if (r9d != 1) then 123 @ 0x1330 else 127 @ 0x1323 0x1220 117 eax = r8d 0x1223 118 eax = eax & 0xfffffffe 0x1226 119 ebx = 0 0x1228 120 goto 129 @ 0x1240 0x1210 121 edi = 0 0x1212 122 goto 131 @ 0x127c 0x1330 123 eax = r8d 0x1333 124 eax = eax & 0xfffffffe 0x1336 125 ebx = 0 0x1338 126 goto 132 @ 0x1356 0x1323 127 edi = 0 0x1325 128 goto 134 @ 0x139f 0x1240 129 edi = [rsp + (rbx << 2) + 0x14].d 0x1246 130 if (edx s<= edi) then 135 @ 0x1260 else 139 @ 0x1248 0x127c 131 if ((r9b & 1) == 0) then 92 @ 0x11e0 else 144 @ 0x1282 0x1356 132 edi = [rsp + (rbx << 2) + 0x1a4].d 0x135f 133 if (edx s<= edi) then 146 @ 0x1380 else 150 @ 0x1361 0x139f 134 if ((r9b & 1) == 0) then 108 @ 0x12f0 else 155 @ 0x13a5 0x1260 135 edx = edi 0x1262 136 rdi = rbx + 2 0x1266 137 esi = [rsp + (rbx << 2) + 0x18].d 0x126c 138 if (edx s> esi) then 157 @ 0x1230 else 161 @ 0x126e 0x1248 139 [rsp + (rbx << 2) + 0x10].d = edi 0x124c 140 [rsp + (rbx << 2) + 0x14].d = edx 0x1250 141 rdi = rbx + 2 0x1254 142 esi = [rsp + (rbx << 2) + 0x18].d 0x125a 143 if (edx s> esi) then 157 @ 0x1230 else 164 @ 0x125c 0x1282 144 eax = [rsp + (rdi << 2) + 0x14].d 0x1288 145 if (edx s<= eax) then 92 @ 0x11e0 else 165 @ 0x128e 0x1380 146 edx = edi 0x1382 147 rdi = rbx + 2 0x1386 148 esi = [rsp + (rbx << 2) + 0x1a8].d 0x138f 149 if (edx s> esi) then 168 @ 0x1340 else 172 @ 0x1391 0x1361 150 [rsp + (rbx << 2) + 0x1a0].d = edi 0x1368 151 [rsp + (rbx << 2) + 0x1a4].d = edx 0x136f 152 rdi = rbx + 2 0x1373 153 esi = [rsp + (rbx << 2) + 0x1a8].d 0x137c 154 if (edx s> esi) then 168 @ 0x1340 else 175 @ 0x137e 0x13a5 155 eax = [rsp + (rdi << 2) + 0x1a4].d 0x13ae 156 if (edx s<= eax) then 108 @ 0x12f0 else 176 @ 0x13b4 0x1230 157 [rsp + (rbx << 2) + 0x14].d = esi 0x1234 158 [rsp + (rbx << 2) + 0x18].d = edx 0x1238 159 rbx = rdi 0x123e 160 if (rax == rdi) then 131 @ 0x127c else 129 @ 0x1240 0x126e 161 edx = esi 0x1270 162 rbx = rdi 0x1276 163 if (rax != rdi) then 129 @ 0x1240 else 131 @ 0x127c 0x125c 164 goto 161 @ 0x126e 0x128e 165 [rsp + (rdi << 2) + 0x10].d = eax 0x1292 166 [rsp + (rdi << 2) + 0x14].d = edx 0x1296 167 goto 92 @ 0x11e0 0x1340 168 [rsp + (rbx << 2) + 0x1a4].d = esi 0x1347 169 [rsp + (rbx << 2) + 0x1a8].d = edx 0x134e 170 rbx = rdi 0x1354 171 if (rax == rdi) then 134 @ 0x139f else 132 @ 0x1356 0x1391 172 edx = esi 0x1393 173 rbx = rdi 0x1399 174 if (rax != rdi) then 132 @ 0x1356 else 134 @ 0x139f 0x137e 175 goto 172 @ 0x1391 0x13b4 176 [rsp + (rdi << 2) + 0x1a0].d = eax 0x13bb 177 [rsp + (rdi << 2) + 0x1a4].d = edx 0x13c2 178 goto 108 @ 0x12f0 void paixu(int32_t* arg1, int32_t arg2): 0x1470 0 push(r15) 0x1472 1 push(r14) 0x1474 2 push(r13) 0x1476 3 push(r12) 0x1478 4 push(rbx) 0x147b 5 if (esi s<= 0) then 6 @ 0x159f else 12 @ 0x1481 0x159f 6 rbx = pop 0x15a0 7 r12 = pop 0x15a2 8 r13 = pop 0x15a4 9 r14 = pop 0x15a6 10 r15 = pop 0x15a8 11 <return> jump(pop) 0x1481 12 r14d = esi 0x1484 13 r13 = rdi 0x1487 14 r12d = esi 0x148a 15 r12 = r12 << 2 0x148e 16 r15 = 0x200a {"%d"} 0x1495 17 ebx = 0 0x1497 18 goto 19 @ 0x14a0 0x14a0 19 rsi = rbx + r13 0x14a4 20 rdi = r15 0x14a7 21 eax = 0 0x14a9 22 call(0x1050) 0x14ae 23 rbx = rbx + 4 0x14b5 24 if (r12 != rbx) then 19 @ 0x14a0 else 25 @ 0x14bb 0x14bb 25 if (r14d s< 2) then 6 @ 0x159f else 26 @ 0x14c1 0x14c1 26 r8d = (r14 - 1).d 0x14c5 27 ecx = 1 0x14ca 28 r10d = 0 0x14cd 29 goto 30 @ 0x14e4 0x14e4 30 eax = ecx 0x14e6 31 eax = not.d(eax) 0x14e8 32 temp0.d = eax 0x14e8 33 eax = eax + r14d 0x14eb 34 if (temp0.d + r14d s< 0) then 35 @ 0x14d0 else 39 @ 0x14ed 0x14d0 35 ecx = ecx + 1 0x14d3 36 r10d = r10d + 1 0x14d7 37 r8d = r8d - 1 0x14de 38 if (ecx == r14d) then 6 @ 0x159f else 30 @ 0x14e4 0x14ed 39 r9d = r10d 0x14f0 40 r9d = not.d(r9d) 0x14f3 41 r9d = r9d + r14d 0x14f6 42 ebx = [r13].d 0x14fe 43 if (r9d != 1) then 44 @ 0x1510 else 48 @ 0x1500 0x1510 44 eax = r8d 0x1513 45 eax = eax & 0xfffffffe 0x1516 46 edi = 0 0x1518 47 goto 50 @ 0x1532 0x1500 48 edx = 0 0x1502 49 goto 52 @ 0x157d 0x1532 50 edx = [r13 + (rdi << 2) + 4].d 0x1539 51 if (ebx s<= edx) then 53 @ 0x1560 else 57 @ 0x153b 0x157d 52 if ((r9b & 1) == 0) then 35 @ 0x14d0 else 62 @ 0x1583 0x1560 53 ebx = edx 0x1562 54 rdx = rdi + 2 0x1566 55 esi = [r13 + (rdi << 2) + 8].d 0x156d 56 if (ebx s> esi) then 64 @ 0x1520 else 68 @ 0x156f 0x153b 57 [r13 + (rdi << 2)].d = edx 0x1540 58 [r13 + (rdi << 2) + 4].d = ebx 0x1545 59 rdx = rdi + 2 0x1549 60 esi = [r13 + (rdi << 2) + 8].d 0x1550 61 if (ebx s> esi) then 64 @ 0x1520 else 71 @ 0x1552 0x1583 62 eax = [r13 + (rdx << 2) + 4].d 0x158a 63 if (ebx s<= eax) then 35 @ 0x14d0 else 72 @ 0x1590 0x1520 64 [r13 + (rdi << 2) + 4].d = esi 0x1525 65 [r13 + (rdi << 2) + 8].d = ebx 0x152a 66 rdi = rdx 0x1530 67 if (rax == rdx) then 52 @ 0x157d else 50 @ 0x1532 0x156f 68 ebx = esi 0x1571 69 rdi = rdx 0x1577 70 if (rax != rdx) then 50 @ 0x1532 else 52 @ 0x157d 0x1552 71 goto 68 @ 0x156f 0x1590 72 [r13 + (rdx << 2)].d = eax 0x1595 73 [r13 + (rdx << 2) + 4].d = ebx 0x159a 74 goto 35 @ 0x14d0 void hebing(int64_t arg1, int64_t arg2, int32_t arg3, int32_t arg4): 0x15b0 0 push(rbx) 0x15b3 1 if (ecx s<= 0) then 2 @ 0x16ff else 4 @ 0x15b9 0x16ff 2 rbx = pop 0x1700 3 <return> jump(pop) 0x15b9 4 ecx = ecx + edx 0x15bb 5 r9 = sx.q(edx) 0x15be 6 r11 = sx.q(ecx) 0x15c1 7 rax = r9 + 1 0x15c5 8 cond:0 = rax s> r11 0x15c8 9 r8 = r11 0x15cb 10 if (cond:0) then 11 else 13 @ 0x15cf 0x15cb 11 r8 = rax 0x15cb 12 goto 13 @ 0x15cf 0x15cf 13 r8 = r8 - r9 0x15d2 14 rcx = r9 0x15d9 15 if (r8 u< 8) then 16 @ 0x16e3 else 19 @ 0x15e2 0x16e3 16 r9 = r9 << 2 0x16e7 17 rsi = rsi - r9 0x16ea 18 goto 20 @ 0x16f0 0x15e2 19 if (rax s<= r11) then 24 else 26 @ 0x15e6 0x16f0 20 eax = [rsi + (rcx << 2)].d 0x16f3 21 [rdi + (rcx << 2)].d = eax 0x16f6 22 rcx = rcx + 1 0x16fd 23 if (rcx s< r11) then 20 @ 0x16f0 else 2 @ 0x16ff 0x15e2 24 rax = r11 0x15e2 25 goto 26 @ 0x15e6 0x15e6 26 rcx = rdi + (r9 << 2) 0x15ea 27 rdx = rax 0x15ed 28 rdx = rdx - r9 0x15f0 29 rdx = rsi + (rdx << 2) 0x15f7 30 if (rcx u>= rdx) then 31 @ 0x1609 else 40 @ 0x15f9 0x1609 31 rcx = r8 0x160c 32 rcx = rcx & 0xfffffffffffffff8 0x1610 33 rax = rcx - 8 0x1614 34 rdx = rax 0x1617 35 rdx = rdx u>> 3 0x161b 36 rdx = rdx + 1 0x161f 37 r10d = edx 0x1622 38 r10d = r10d & 3 0x162a 39 if (rax u>= 0x18) then 43 @ 0x1630 else 48 @ 0x162c 0x15f9 40 rax = rdi + (rax << 2) 0x15fd 41 rcx = r9 0x1603 42 if (rax u> rsi) then 16 @ 0x16e3 else 31 @ 0x1609 0x1630 43 rdx = rdx & 0xfffffffffffffffc 0x1634 44 rbx = rdi + (r9 << 2) 0x1638 45 rbx = rbx + 0x70 0x163c 46 eax = 0 0x163e 47 goto 50 @ 0x1640 0x162c 48 eax = 0 0x162e 49 goto 70 @ 0x169b 0x1640 50 xmm0 = [rsi + (rax << 2)].o 0x1644 51 xmm1 = [rsi + (rax << 2) + 0x10].o 0x1649 52 [rbx + (rax << 2) - 0x70].o = xmm0 0x164e 53 [rbx + (rax << 2) - 0x60].o = xmm1 0x1653 54 xmm0 = [rsi + (rax << 2) + 0x20].o 0x1658 55 xmm1 = [rsi + (rax << 2) + 0x30].o 0x165d 56 [rbx + (rax << 2) - 0x50].o = xmm0 0x1662 57 [rbx + (rax << 2) - 0x40].o = xmm1 0x1667 58 xmm0 = [rsi + (rax << 2) + 0x40].o 0x166c 59 xmm1 = [rsi + (rax << 2) + 0x50].o 0x1671 60 [rbx + (rax << 2) - 0x30].o = xmm0 0x1676 61 [rbx + (rax << 2) - 0x20].o = xmm1 0x167b 62 xmm0 = [rsi + (rax << 2) + 0x60].o 0x1680 63 xmm1 = [rsi + (rax << 2) + 0x70].o 0x1685 64 [rbx + (rax << 2) - 0x10].o = xmm0 0x168a 65 [rbx + (rax << 2)].o = xmm1 0x168e 66 rax = rax + 0x20 0x1692 67 temp0.q = rdx 0x1692 68 rdx = rdx - 4 0x1696 69 if (temp0.q != 4) then 50 @ 0x1640 else 70 @ 0x169b 0x169b 70 if (r10 == 0) then 71 @ 0x16de else 72 @ 0x169d 0x16de 71 if (r8 == rcx) then 2 @ 0x16ff else 80 @ 0x16e0 0x169d 72 rdx = rsi + (rax << 2) 0x16a1 73 rdx = rdx + 0x10 0x16a5 74 rax = rax + r9 0x16a8 75 rax = rdi + (rax << 2) 0x16ac 76 rax = rax + 0x10 0x16b0 77 r10 = r10 << 5 0x16b4 78 ebx = 0 0x16b6 79 goto 82 @ 0x16c0 0x16e0 80 rcx = rcx + r9 0x16e0 81 goto 16 @ 0x16e3 0x16c0 82 xmm0 = [rdx + rbx - 0x10].o 0x16c5 83 xmm1 = [rdx + rbx].o 0x16c9 84 [rax + rbx - 0x10].o = xmm0 0x16ce 85 [rax + rbx].o = xmm1 0x16d2 86 rbx = rbx + 0x20 0x16d9 87 if (r10 != rbx) then 82 @ 0x16c0 else 71 @ 0x16de int64_t shuchu(int32_t* arg1, int32_t arg2): 0x1710 0 push(rbp) 0x1711 1 push(r15) 0x1713 2 push(r14) 0x1715 3 push(rbx) 0x1716 4 push(rax) 0x1717 5 ebp = esi 0x1719 6 r15 = rdi 0x171c 7 esi = [rdi].d 0x171e 8 rdi = 0x200a {"%d"} 0x1725 9 eax = 0 0x1727 10 call(0x1030) 0x172f 11 if (ebp s< 2) then 12 @ 0x1757 else 18 @ 0x1731 0x1757 12 rsp = rsp + 8 0x175b 13 rbx = pop 0x175c 14 r14 = pop 0x175e 15 r15 = pop 0x1760 16 rbp = pop 0x1761 17 <return> jump(pop) 0x1731 18 ebp = ebp 0x1733 19 ebx = 1 0x1738 20 r14 = 0x2009 {" %d"} 0x173f 21 goto 22 @ 0x1740 0x1740 22 esi = [r15 + (rbx << 2)].d 0x1744 23 rdi = r14 0x1747 24 eax = 0 0x1749 25 call(0x1030) 0x174e 26 rbx = rbx + 1 0x1755 27 if (rbp != rbx) then 22 @ 0x1740 else 12 @ 0x1757 int64_t _fini(): 0x1768 0 rsp = rsp - 8 0x176c 1 rsp = rsp + 8 0x1770 2 <return> jump(pop)	POJ_8
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x18 0x116e 7 rdi = 0x2018 {"%d"} 0x1175 8 rsi = rsp + 0x14 {var_34} 0x117a 9 eax = 0 0x117c 10 call(0x1040) 0x1186 11 if ([rsp + 0x14 {var_34}].d s>= 6) then 12 @ 0x1199 else 14 @ 0x1188 0x1199 12 r15d = 6 0x119f 13 goto 23 @ 0x11d1 0x1188 14 eax = 0 0x118a 15 rsp = rsp + 0x18 0x118e 16 rbx = pop 0x118f 17 r12 = pop 0x1191 18 r13 = pop 0x1193 19 r14 = pop 0x1195 20 r15 = pop 0x1197 21 rbp = pop 0x1198 22 <return> jump(pop) 0x11d1 23 r13d = r15d 0x11d4 24 r13d = r13d u>> 1 0x11d7 25 ebx = 3 0x11dc 26 goto 27 @ 0x11e0 0x11e0 27 xmm2 = 0 0x11e3 28 xmm2.q = float.d(ebx) 0x11e7 29 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11e7 30 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11e7 31 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11e7 32 flag:s = 0 0x11e7 33 flag:o = 0 0x11e7 34 flag:a = 0 0x11ef 35 [rsp + 8 {var_40_1}].q = xmm2.q 0x11f5 36 if (flag:c) then 37 @ 0x1200 else 41 @ 0x11f7 0x1200 37 xmm0 = xmm2 0x1204 38 call(0x1050) 0x1209 39 xmm2 = zx.o([rsp + 8 {var_40_1}].q) 0x1209 40 goto 44 @ 0x120f 0x11f7 41 xmm0 = 0 0x11fa 42 xmm0 = _mm_sqrt_sd(xmm2.q) 0x11fe 43 goto 44 @ 0x120f 0x120f 44 xmm1 = zx.o([0x2008].q) 0x1217 45 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1217 46 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1217 47 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1217 48 flag:s = 0 0x1217 49 flag:o = 0 0x1217 50 flag:a = 0 0x121b 51 if (flag:c) then 52 @ 0x129c else 59 @ 0x121d 0x129c 52 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129c 53 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129c 54 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129c 55 flag:s = 0 0x129c 56 flag:o = 0 0x129c 57 flag:a = 0 0x12a4 58 if (flag:c) then 69 @ 0x12b0 else 74 @ 0x12a6 0x121d 59 eax = ebx 0x121f 60 ecx = 0xaaaaaaab {""} 0x1224 61 rax = rax * rcx 0x1228 62 rax = rax u>> 0x21 0x122c 63 eax = (rax + (rax << 1)).d 0x122f 64 ecx = ebx 0x1231 65 xmm1 = zx.o([0x2008].q) 0x1239 66 temp3.d = ecx 0x1239 67 ecx = ecx - eax 0x123b 68 if (temp3.d == eax) then 52 @ 0x129c else 77 @ 0x123d 0x12b0 69 xmm0 = xmm2 0x12b4 70 [rsp + 8 {var_40_2}].q = xmm1.q 0x12ba 71 call(0x1050) 0x12bf 72 xmm1 = zx.o([rsp + 8 {var_40_2}].q) 0x12bf 73 goto 79 @ 0x12c5 0x12a6 74 xmm0 = 0 0x12a9 75 xmm0 = _mm_sqrt_sd(xmm2.q) 0x12ad 76 goto 79 @ 0x12c5 0x123d 77 r14d = 5 0x124d 78 goto 88 @ 0x1250 0x12c5 79 eax = r15d 0x12c8 80 eax = eax - ebx 0x12ca 81 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x12ca 82 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x12ca 83 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x12ca 84 flag:s = 0 0x12ca 85 flag:o = 0 0x12ca 86 flag:a = 0 0x12ce 87 if (not(flag:z) && not(flag:c)) then 95 else 97 @ 0x12d2 0x1250 88 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1250 89 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1250 90 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1250 91 flag:s = 0 0x1250 92 flag:o = 0 0x1250 93 flag:a = 0 0x1258 94 if (flag:c) then 107 @ 0x1270 else 111 @ 0x125a 0x12ce 95 r12d = eax 0x12ce 96 goto 97 @ 0x12d2 0x12d2 97 xmm2 = 0 0x12d5 98 xmm2.q = float.d(r12d) 0x12da 99 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x12da 100 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x12da 101 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x12da 102 flag:s = 0 0x12da 103 flag:o = 0 0x12da 104 flag:a = 0 0x12e2 105 [rsp + 8 {var_40_3}].q = xmm2.q 0x12e8 106 if (flag:c) then 114 @ 0x1300 else 118 @ 0x12ea 0x1270 107 xmm0 = xmm2 0x1274 108 call(0x1050) 0x1279 109 xmm2 = zx.o([rsp + 8 {var_40_1}].q) 0x1279 110 goto 121 @ 0x127f 0x125a 111 xmm0 = 0 0x125d 112 xmm0 = _mm_sqrt_sd(xmm2.q) 0x1261 113 goto 121 @ 0x127f 0x1300 114 xmm0 = xmm2 0x1304 115 call(0x1050) 0x1309 116 xmm2 = zx.o([rsp + 8 {var_40_3}].q) 0x1309 117 goto 130 @ 0x130f 0x12ea 118 xmm0 = 0 0x12ed 119 xmm0 = _mm_sqrt_sd(xmm2.q) 0x12f1 120 goto 130 @ 0x130f 0x127f 121 xmm1 = 0 0x1282 122 xmm1.q = float.d(r14d) 0x1287 123 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1287 124 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1287 125 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1287 126 flag:s = 0 0x1287 127 flag:o = 0 0x1287 128 flag:a = 0 0x128b 129 if (flag:c) then 52 @ 0x129c else 138 @ 0x128d 0x130f 130 xmm1 = zx.o([0x2008].q) 0x1317 131 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1317 132 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1317 133 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1317 134 flag:s = 0 0x1317 135 flag:o = 0 0x1317 136 flag:a = 0 0x131b 137 if (flag:c) then 151 @ 0x1399 else 158 @ 0x131d 0x128d 138 eax = ebx 0x128f 139 edx = 0 0x1291 140 temp2.d = r14d 0x1291 141 temp4.d = edx 0x1291 142 temp5.d = eax 0x1291 143 temp0.d = divu.dp.d(temp4.d:temp5.d, temp2.d) 0x1291 144 temp6.d = edx 0x1291 145 temp7.d = eax 0x1291 146 temp1.d = modu.dp.d(temp6.d:temp7.d, temp2.d) 0x1291 147 eax = temp0.d 0x1291 148 edx = temp1.d 0x1294 149 r14d = r14d + 2 0x129a 150 if (edx != 0) then 88 @ 0x1250 else 52 @ 0x129c 0x1399 151 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1399 152 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1399 153 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1399 154 flag:s = 0 0x1399 155 flag:o = 0 0x1399 156 flag:a = 0 0x13a1 157 if (flag:c) then 170 @ 0x13c0 else 181 @ 0x13a3 0x131d 158 rax = sx.q(r12d) 0x1320 159 rax = rax * 0x55555556 0x1327 160 rcx = rax 0x132a 161 rcx = rcx u>> 0x3f 0x132e 162 rax = rax u>> 0x20 0x1332 163 eax = eax + ecx 0x1334 164 eax = (rax + (rax << 1)).d 0x1337 165 ecx = r12d 0x133a 166 xmm1 = zx.o([0x2008].q) 0x1342 167 temp8.d = ecx 0x1342 168 ecx = ecx - eax 0x1344 169 if (temp8.d == eax) then 151 @ 0x1399 else 190 @ 0x1346 0x13c0 170 xmm0 = xmm2 0x13c4 171 [rsp + 8 {var_40_4}].q = xmm1.q 0x13ca 172 call(0x1050) 0x13cf 173 xmm1 = zx.o([rsp + 8 {var_40_4}].q) 0x13d5 174 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x13d5 175 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x13d5 176 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x13d5 177 flag:s = 0 0x13d5 178 flag:o = 0 0x13d5 179 flag:a = 0 0x13d9 180 if (not(flag:z) && not(flag:c)) then 192 @ 0x11b0 else 199 @ 0x13df 0x13a3 181 xmm0 = 0 0x13a6 182 xmm0 = _mm_sqrt_sd(xmm2.q) 0x13aa 183 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x13aa 184 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x13aa 185 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x13aa 186 flag:s = 0 0x13aa 187 flag:o = 0 0x13aa 188 flag:a = 0 0x13ae 189 if (flag:z \|\| flag:c) then 199 @ 0x13df else 201 @ 0x13b0 0x1346 190 ebp = 5 0x134b 191 goto 202 @ 0x1350 0x11b0 192 rdi = 0x201b {"%d=%d+%d\n"} 0x11b7 193 esi = r15d 0x11ba 194 edx = ebx 0x11bc 195 ecx = r12d 0x11bf 196 eax = 0 0x11c1 197 call(0x1030) 0x11c1 198 goto 209 @ 0x11c6 0x13df 199 ebx = ebx + 2 0x13e5 200 if (ebx u<= r13d) then 27 @ 0x11e0 else 211 @ 0x13eb 0x13b0 201 goto 192 @ 0x11b0 0x1350 202 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1350 203 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1350 204 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1350 205 flag:s = 0 0x1350 206 flag:o = 0 0x1350 207 flag:a = 0 0x1358 208 if (flag:c) then 212 @ 0x1370 else 216 @ 0x135a 0x11c6 209 r15d = r15d + 2 0x11cf 210 if (r15d s> [rsp + 0x14 {var_34}].d) then 14 @ 0x1188 else 23 @ 0x11d1 0x13eb 211 goto 209 @ 0x11c6 0x1370 212 xmm0 = xmm2 0x1374 213 call(0x1050) 0x1379 214 xmm2 = zx.o([rsp + 8 {var_40_3}].q) 0x1379 215 goto 219 @ 0x137f 0x135a 216 xmm0 = 0 0x135d 217 xmm0 = _mm_sqrt_sd(xmm2.q) 0x1361 218 goto 219 @ 0x137f 0x137f 219 xmm1 = 0 0x1382 220 xmm1.q = float.d(ebp) 0x1386 221 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1386 222 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1386 223 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1386 224 flag:s = 0 0x1386 225 flag:o = 0 0x1386 226 flag:a = 0 0x138a 227 if (flag:c) then 151 @ 0x1399 else 228 @ 0x138c 0x138c 228 eax = r12d 0x138f 229 temp9.d:temp10.d = sx.q(eax) 0x138f 230 edx = temp9.d 0x138f 231 eax = temp10.d 0x1390 232 temp11.d = edx 0x1390 233 temp12.d = eax 0x1390 234 temp0.d = divs.dp.d(temp11.d:temp12.d, ebp) 0x1390 235 temp13.d = edx 0x1390 236 temp14.d = eax 0x1390 237 temp1.d = mods.dp.d(temp13.d:temp14.d, ebp) 0x1390 238 eax = temp0.d 0x1390 239 edx = temp1.d 0x1392 240 ebp = ebp + 2 0x1397 241 if (edx != 0) then 202 @ 0x1350 else 151 @ 0x1399 int64_t _fini(): 0x13f4 0 rsp = rsp - 8 0x13f8 1 rsp = rsp + 8 0x13fc 2 <return> jump(pop)	POJ_68
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVATSHX "} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(r12) 0x1166 3 push(rbx) 0x1167 4 rsp = rsp - 0x30d58 0x116e 5 rdi = 0x2010 {"%d"} 0x1175 6 rsi = rsp + 4 {var_30d74} 0x117a 7 eax = 0 0x117c 8 call(0x1040) 0x1181 9 r14d = 3 0x1187 10 xmm2 = _mm_xor_pd(xmm2, xmm2) 0x118b 11 goto 12 @ 0x11a7 0x11a7 12 xmm3 = 0 0x11aa 13 xmm3.q = float.d(r14d) 0x11af 14 flag:p = is_unordered.q(xmm3.q, xmm2.q) 0x11af 15 flag:c = xmm3.q f< xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x11af 16 flag:z = xmm3.q f== xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x11af 17 flag:s = 0 0x11af 18 flag:o = 0 0x11af 19 flag:a = 0 0x11b3 20 [rsp + 8 {var_30d70_1}].q = xmm3.q 0x11b9 21 if (flag:c) then 22 @ 0x11d0 else 33 @ 0x11bb 0x11d0 22 xmm0 = xmm3 0x11d4 23 call(0x1050) 0x11d9 24 xmm3 = zx.o([rsp + 8 {var_30d70_1}].q) 0x11df 25 xmm2 = _mm_xor_pd(xmm2, xmm2) 0x11e3 26 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e3 27 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e3 28 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e3 29 flag:s = 0 0x11e3 30 flag:o = 0 0x11e3 31 flag:a = 0 0x11eb 32 if (flag:c) then 42 @ 0x1190 else 44 @ 0x11ed 0x11bb 33 xmm0 = 0 0x11be 34 xmm0 = _mm_sqrt_sd(xmm3.q) 0x11c2 35 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11c2 36 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11c2 37 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11c2 38 flag:s = 0 0x11c2 39 flag:o = 0 0x11c2 40 flag:a = 0 0x11ca 41 if (flag:c) then 42 @ 0x1190 else 46 @ 0x11cc 0x1190 42 [rsp + (r14 << 2) + 0x10].d = r14d 0x1190 43 goto 47 @ 0x1195 0x11ed 44 ebx = 3 0x11f2 45 goto 50 @ 0x1251 0x11cc 46 goto 44 @ 0x11ed 0x1195 47 r14 = r14 + 1 0x1199 48 rax = sx.q([rsp + 4 {var_30d74}].d) 0x11a1 49 if (r14 s>= rax) then 63 @ 0x1267 else 12 @ 0x11a7 0x1251 50 ecx = (rbx - 1).d 0x1254 51 eax = r14d 0x1257 52 edx = 0 0x1259 53 temp2.d = ecx 0x1259 54 temp3.d = edx 0x1259 55 temp4.d = eax 0x1259 56 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x1259 57 temp5.d = edx 0x1259 58 temp6.d = eax 0x1259 59 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x1259 60 eax = temp0.d 0x1259 61 edx = temp1.d 0x125d 62 if (edx != 0) then 64 @ 0x1230 else 71 @ 0x125f 0x1267 63 if (eax s>= 6) then 72 @ 0x127a else 76 @ 0x1269 0x1230 64 flag:p = is_unordered.q(xmm3.q, xmm2.q) 0x1230 65 flag:c = xmm3.q f< xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x1230 66 flag:z = xmm3.q f== xmm2.q \| is_unordered.q(xmm3.q, xmm2.q) 0x1230 67 flag:s = 0 0x1230 68 flag:o = 0 0x1230 69 flag:a = 0 0x1234 70 if (flag:c) then 83 @ 0x1200 else 97 @ 0x1236 0x125f 71 goto 47 @ 0x1195 0x127a 72 r12d = 6 0x1280 73 r15d = 3 0x1286 74 r14 = 0x2013 {"%d=%d+%d\n"} 0x128d 75 goto 109 @ 0x12a0 0x1269 76 eax = 0 0x126b 77 rsp = rsp + 0x30d58 0x1272 78 rbx = pop 0x1273 79 r12 = pop 0x1275 80 r14 = pop 0x1277 81 r15 = pop 0x1279 82 <return> jump(pop) 0x1200 83 xmm0 = xmm3 0x1204 84 call(0x1050) 0x1209 85 xmm3 = zx.o([rsp + 8 {var_30d70_1}].q) 0x120f 86 xmm2 = _mm_xor_pd(xmm2, xmm2) 0x1213 87 xmm1 = 0 0x1216 88 xmm1.q = float.d(ebx) 0x121a 89 ebx = ebx + 1 0x121d 90 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x121d 91 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x121d 92 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x121d 93 flag:s = 0 0x121d 94 flag:o = 0 0x121d 95 flag:a = 0 0x1221 96 if (not(flag:c)) then 50 @ 0x1251 else 114 @ 0x1223 0x1236 97 xmm0 = 0 0x1239 98 xmm0 = _mm_sqrt_sd(xmm3.q) 0x123d 99 xmm1 = 0 0x1240 100 xmm1.q = float.d(ebx) 0x1244 101 ebx = ebx + 1 0x1247 102 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1247 103 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1247 104 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1247 105 flag:s = 0 0x1247 106 flag:o = 0 0x1247 107 flag:a = 0 0x124b 108 if (flag:c) then 42 @ 0x1190 else 50 @ 0x1251 0x12a0 109 esi = r12d 0x12a3 110 esi = esi u>> 1 0x12a5 111 rdi = r15 0x12a8 112 ebx = 3 0x12ad 113 goto 115 @ 0x12bd 0x1223 114 goto 42 @ 0x1190 0x12bd 115 edx = [rsp + (rbx << 2) + 0x10].d 0x12c4 116 if (rbx != rdx) then 117 @ 0x12b0 else 120 @ 0x12c9 0x12b0 117 rbx = rbx + 2 0x12b4 118 rdi = rdi - 2 0x12bb 119 if (rbx u> rsi) then 121 @ 0x1290 else 115 @ 0x12bd 0x12c9 120 if (rdi s< rsi) then 117 @ 0x12b0 else 125 @ 0x12cb 0x1290 121 r12 = r12 + 2 0x1294 122 rcx = sx.q(eax) 0x1297 123 r15 = r15 + 2 0x129e 124 if (r12 s> rcx) then 76 @ 0x1269 else 109 @ 0x12a0 0x12cb 125 ecx = [rsp + (rdi << 2) + 0x10].d 0x12d1 126 if (edi != ecx) then 117 @ 0x12b0 else 127 @ 0x12d3 0x12d3 127 rdi = r14 0x12d6 128 esi = r12d 0x12d9 129 eax = 0 0x12db 130 call(0x1030) 0x12e0 131 eax = [rsp + 4 {var_30d74}].d 0x12e4 132 goto 121 @ 0x1290 int64_t _fini(): 0x12ec 0 rsp = rsp - 8 0x12f0 1 rsp = rsp + 8 0x12f4 2 <return> jump(pop)	POJ_68
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 char* gets(char* buf): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t strcmp(char const* arg1, char const* arg2): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"SH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbx) 0x1161 1 rsp = rsp - 0xc0 0x1168 2 xmm0 = 0 0x116b 3 [rsp + 0xa0 {var_28}].o = xmm0 0x1173 4 [rsp + 0x90 {var_38}].o = xmm0 0x117b 5 [rsp + 0x80 {var_48}].o = xmm0 0x1183 6 [rsp + 0x70 {var_58}].o = xmm0 0x1188 7 [rsp + 0x60 {var_68}].o = xmm0 0x118d 8 [rsp + 0xb0 {var_18}].b = 0 0x1195 9 [rsp + 0x40 {var_88}].o = xmm0 0x119a 10 [rsp + 0x30 {var_98}].o = xmm0 0x119f 11 [rsp + 0x20 {var_a8}].o = xmm0 0x11a4 12 [rsp + 0x10 {var_b8}].o = xmm0 0x11a9 13 [rsp {var_c8}].o = xmm0 0x11ad 14 [rsp + 0x50 {var_78}].b = 0 0x11b2 15 ebx = 0 0x11b4 16 rdi = rsp + 0x60 {var_68} 0x11b9 17 eax = 0 0x11bb 18 call(0x1030) 0x11c0 19 rdi = rsp {var_c8} 0x11c3 20 eax = 0 0x11c5 21 call(0x1030) 0x11ca 22 goto 23 @ 0x11da 0x11da 23 eax = zx.d([rsp + rbx + 0x60].b) 0x11df 24 ecx = (rax - 0x61).d 0x11e5 25 if (cl u> 0x18) then 26 @ 0x11ed else 29 @ 0x11e7 0x11ed 26 eax = zx.d([rsp + rbx].b) 0x11f1 27 ecx = (rax - 0x61).d 0x11f7 28 if (cl u> 0x18) then 32 @ 0x11d0 else 34 @ 0x11f9 0x11e7 29 al = al - 0x20 0x11e9 30 [rsp + rbx + 0x60].b = al 0x11e9 31 goto 26 @ 0x11ed 0x11d0 32 rbx = rbx + 1 0x11d8 33 if (rbx == 0x50) then 37 @ 0x1200 else 23 @ 0x11da 0x11f9 34 al = al - 0x20 0x11fb 35 [rsp + rbx].b = al 0x11fe 36 goto 32 @ 0x11d0 0x1200 37 rdi = rsp + 0x60 {var_68} 0x1205 38 rsi = rsp {var_c8} 0x1208 39 call(0x1040) 0x120f 40 if (eax s>= 0) then 41 @ 0x121b else 45 @ 0x1211 0x121b 41 rdi = rsp + 0x60 {var_68} 0x1220 42 rsi = rsp {var_c8} 0x1223 43 call(0x1040) 0x122a 44 if (eax != 0) then 48 @ 0x1236 else 52 @ 0x122c 0x1211 45 edi = 0x3c {""} 0x1216 46 call(0x1050) 0x1216 47 goto 41 @ 0x121b 0x1236 48 rdi = rsp + 0x60 {var_68} 0x123b 49 rsi = rsp {var_c8} 0x123e 50 call(0x1040) 0x1245 51 if (eax s<= 0) then 55 @ 0x1251 else 59 @ 0x1247 0x122c 52 edi = 0x3d {""} 0x1231 53 call(0x1050) 0x1231 54 goto 48 @ 0x1236 0x1251 55 eax = 0 0x1253 56 rsp = rsp + 0xc0 0x125a 57 rbx = pop 0x125b 58 <return> jump(pop) 0x1247 59 edi = 0x3e {""} 0x124c 60 call(0x1050) 0x124c 61 goto 55 @ 0x1251 int64_t _fini(): 0x1260 0 rsp = rsp - 8 0x1264 1 rsp = rsp + 8 0x1268 2 <return> jump(pop)	POJ_95
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 uint64_t strlen(char const* arg1): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) char* strcpy(char* arg1, char const* arg2): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) int32_t puts(char const* str): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1440 {"UAWAVAUATSH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) char* zhengli(char* arg1): 0x1170 0 push(rbp) 0x1171 1 push(r15) 0x1173 2 push(r14) 0x1175 3 push(r13) 0x1177 4 push(r12) 0x1179 5 push(rbx) 0x117a 6 rsp = rsp - 0x88 0x1181 7 r12 = rdi 0x1184 8 call(0x1030) 0x1189 9 r14 = rax 0x118f 10 if (r14d s<= 0) then 11 @ 0x12e1 else 14 @ 0x1195 0x12e1 11 r15d = 0 0x12e4 12 r14 = rsp + 0x10 {var_a8} 0x12e9 13 goto 20 @ 0x1309 0x1195 14 r13d = r14d 0x1198 15 r14d = r14d & 1 0x119c 16 [rsp + 8 {var_b0_1}].q = r13 0x11a1 17 r13 = r13 - r14 0x11a4 18 r15d = 0 0x11a7 19 goto 25 @ 0x11d0 0x1309 20 rdi = r12 0x130c 21 call(0x1030) 0x1311 22 rcx = sx.q(eax) 0x1314 23 [rsp + rcx + 0x10].b = 0 0x131b 24 if (ecx s<= 0) then 26 @ 0x12f0 else 31 @ 0x131d 0x11d0 25 if ([rsp + 8 {var_b0_1}].d != 1) then 35 @ 0x11f0 else 37 @ 0x11d2 0x12f0 26 rdi = r12 0x12f3 27 rsi = r14 {var_a8} 0x12f6 28 call(0x1040) 0x12fb 29 r15d = r15d + 1 0x1303 30 if (r15d == 0x32) then 39 @ 0x138d else 20 @ 0x1309 0x131d 31 r8d = eax 0x1320 32 ecx = 0 0x1322 33 ebp = 0 0x1324 34 goto 47 @ 0x1359 0x11f0 35 eax = 0 0x11f2 36 goto 52 @ 0x1210 0x11d2 37 eax = 0 0x11d2 38 goto 54 @ 0x11d7 0x138d 39 rsp = rsp + 0x88 0x1394 40 rbx = pop 0x1395 41 r12 = pop 0x1397 42 r13 = pop 0x1399 43 r14 = pop 0x139b 44 r15 = pop 0x139d 45 rbp = pop 0x139e 46 <return> jump(pop) 0x1359 47 ebx = zx.d([r12 + rcx].b) 0x135e 48 edx = ebx 0x1360 49 dl = dl & 0xfe 0x1363 50 al = 0x20 {"@"} 0x1368 51 if (dl != 0x28) then 55 @ 0x134c else 58 @ 0x136d 0x1210 52 ecx = zx.d([r12 + rax].b) 0x1218 53 if (cl == 0x3f) then 59 @ 0x1230 else 61 @ 0x121d 0x11d7 54 if (r14 == 0) then 62 @ 0x1250 else 67 @ 0x11d9 0x134c 55 [rsp + rcx + 0x10].b = al 0x1350 56 rcx = rcx + 1 0x1357 57 if (r8 == rcx) then 26 @ 0x12f0 else 47 @ 0x1359 0x136d 58 if (bl == 0x28) then 69 @ 0x1333 else 70 @ 0x136f 0x1230 59 cl = 0x29 {"7"} 0x1230 60 goto 75 @ 0x1232 0x121d 61 if (cl != 0x24) then 77 @ 0x1236 else 79 @ 0x121f 0x1250 62 rdi = r12 0x1253 63 call(0x1030) 0x1258 64 rcx = sx.q(eax) 0x125b 65 [rsp + rcx + 0x10].b = 0 0x1262 66 if (ecx s<= 0) then 81 @ 0x11b0 else 86 @ 0x1268 0x11d9 67 cl = [r12 + rax].b 0x11e0 68 if (cl == 0x3f) then 90 @ 0x124a else 92 @ 0x11e5 0x1333 69 if (ebp != 1) then 93 @ 0x1381 else 97 @ 0x1335 0x136f 70 al = 0x3f {""} 0x1371 71 esi = 0 0x1373 72 dl = 0x20 {"@"} 0x1375 73 edi = r9d 0x137b 74 if (ebp == 1) then 101 @ 0x133e else 107 @ 0x137d 0x1232 75 [r12 + rax].b = cl 0x1232 76 goto 77 @ 0x1236 0x1236 77 ecx = zx.d([r12 + rax + 1].b) 0x123f 78 if (cl == 0x3f) then 109 @ 0x1200 else 111 @ 0x1244 0x121f 79 cl = 0x28 {"7"} 0x1221 80 goto 75 @ 0x1232 0x11b0 81 rdi = r12 0x11b3 82 rsi = rsp + 0x10 {var_a8} 0x11b8 83 call(0x1040) 0x11bd 84 r15d = r15d + 1 0x11c5 85 if (r15d == 0x32) then 39 @ 0x138d else 25 @ 0x11d0 0x1268 86 r8d = eax 0x126b 87 ecx = 0 0x126d 88 ebp = 0 0x126f 89 goto 112 @ 0x12ad 0x124a 90 cl = 0x29 {"7"} 0x124a 91 goto 117 @ 0x124c 0x11e5 92 if (cl != 0x24) then 62 @ 0x1250 else 119 @ 0x11e7 0x1381 93 ebp = 1 0x1386 94 al = 0x24 {""} 0x1388 95 r9d = ecx 0x138b 96 goto 55 @ 0x134c 0x1335 97 esi = 1 0x133a 98 dl = 0x24 {""} 0x133c 99 edi = ecx 0x133c 100 goto 101 @ 0x133e 0x133e 101 rax = sx.q(r9d) 0x1341 102 [rsp + rax + 0x10].b = dl 0x1345 103 eax = edx 0x1347 104 ebp = esi 0x1349 105 r9d = edi 0x1349 106 goto 55 @ 0x134c 0x137d 107 ebp = 0 0x137f 108 goto 55 @ 0x134c 0x1200 109 cl = 0x29 {"7"} 0x1200 110 goto 121 @ 0x1202 0x1244 111 if (cl != 0x24) then 123 @ 0x1207 else 125 @ 0x1246 0x12ad 112 ebx = zx.d([r12 + rcx].b) 0x12b2 113 edx = ebx 0x12b4 114 dl = dl & 0xfe 0x12b7 115 al = 0x20 {"@"} 0x12bc 116 if (dl != 0x28) then 127 @ 0x129c else 130 @ 0x12c1 0x124c 117 [r12 + rax].b = cl 0x124c 118 goto 62 @ 0x1250 0x11e7 119 cl = 0x28 {"7"} 0x11e9 120 goto 117 @ 0x124c 0x1202 121 [r12 + rax + 1].b = cl 0x1202 122 goto 123 @ 0x1207 0x1207 123 rax = rax + 2 0x120e 124 if (r13 == rax) then 54 @ 0x11d7 else 52 @ 0x1210 0x1246 125 cl = 0x28 {"7"} 0x1248 126 goto 121 @ 0x1202 0x129c 127 [rsp + rcx + 0x10].b = al 0x12a0 128 rcx = rcx + 1 0x12a7 129 if (r8 == rcx) then 81 @ 0x11b0 else 112 @ 0x12ad 0x12c1 130 if (bl == 0x28) then 131 @ 0x1283 else 132 @ 0x12c3 0x1283 131 if (ebp != 1) then 137 @ 0x12d5 else 141 @ 0x1285 0x12c3 132 al = 0x3f {""} 0x12c5 133 esi = 0 0x12c7 134 dl = 0x20 {"@"} 0x12c9 135 edi = r9d 0x12cf 136 if (ebp == 1) then 145 @ 0x128e else 151 @ 0x12d1 0x12d5 137 ebp = 1 0x12da 138 al = 0x24 {""} 0x12dc 139 r9d = ecx 0x12df 140 goto 127 @ 0x129c 0x1285 141 esi = 1 0x128a 142 dl = 0x24 {""} 0x128c 143 edi = ecx 0x128c 144 goto 145 @ 0x128e 0x128e 145 rax = sx.q(r9d) 0x1291 146 [rsp + rax + 0x10].b = dl 0x1295 147 eax = edx 0x1297 148 ebp = esi 0x1299 149 r9d = edi 0x1299 150 goto 127 @ 0x129c 0x12d1 151 ebp = 0 0x12d3 152 goto 127 @ 0x129c char* panduan(char* arg1): 0x13a0 0 push(r14) 0x13a2 1 push(rbx) 0x13a3 2 rsp = rsp - 0x78 0x13a7 3 r14 = rdi 0x13aa 4 call(0x1030) 0x13af 5 rcx = sx.q(eax) 0x13b2 6 [rsp + rcx].b = 0 0x13b8 7 if (ecx s<= 0) then 8 @ 0x142a else 15 @ 0x13ba 0x142a 8 rsi = rsp {var_88} 0x142d 9 rdi = r14 0x1430 10 call(0x1040) 0x1435 11 rsp = rsp + 0x78 0x1439 12 rbx = pop 0x143a 13 r14 = pop 0x143c 14 <return> jump(pop) 0x13ba 15 r8d = eax 0x13bd 16 ecx = 0 0x13bf 17 esi = 0 0x13c1 18 goto 19 @ 0x13f7 0x13f7 19 eax = zx.d([r14 + rcx].b) 0x13fc 20 edx = eax 0x13fe 21 dl = dl & 0xfe 0x1401 22 bl = 0x20 {"@"} 0x1406 23 if (dl != 0x28) then 24 @ 0x13eb else 27 @ 0x140a 0x13eb 24 [rsp + rcx].b = bl 0x13ee 25 rcx = rcx + 1 0x13f5 26 if (r8 == rcx) then 8 @ 0x142a else 19 @ 0x13f7 0x140a 27 if (al == 0x28) then 28 @ 0x13d3 else 29 @ 0x140c 0x13d3 28 if (esi != 1) then 34 @ 0x141e else 38 @ 0x13d5 0x140c 29 bl = 0x3f {""} 0x140e 30 edi = 0 0x1410 31 al = 0x20 {"@"} 0x1412 32 edx = r9d 0x1418 33 if (esi == 1) then 42 @ 0x13de else 48 @ 0x141a 0x141e 34 esi = 1 0x1423 35 bl = 0x24 {""} 0x1425 36 r9d = ecx 0x1428 37 goto 24 @ 0x13eb 0x13d5 38 edi = 1 0x13da 39 al = 0x24 {""} 0x13dc 40 edx = ecx 0x13dc 41 goto 42 @ 0x13de 0x13de 42 rsi = sx.q(r9d) 0x13e1 43 [rsp + rsi].b = al 0x13e4 44 ebx = eax 0x13e6 45 esi = edi 0x13e8 46 r9d = edx 0x13e8 47 goto 24 @ 0x13eb 0x141a 48 esi = 0 0x141c 49 goto 24 @ 0x13eb int32_t main(int32_t argc, char argv, char envp): 0x1440 0 push(rbp) 0x1441 1 push(r15) 0x1443 2 push(r14) 0x1445 3 push(r13) 0x1447 4 push(r12) 0x1449 5 push(rbx) 0x144a 6 rsp = rsp - 0xf8 0x1451 7 rdi = 0x2004 {"%d"} 0x1458 8 rsi = rsp + 0xc {var_11c} 0x145d 9 eax = 0 0x145f 10 call(0x1050) 0x1469 11 if ([rsp + 0xc {var_11c}].d s<= 0) then 12 @ 0x1550 else 20 @ 0x146f 0x1550 12 rsp = rsp + 0xf8 0x1557 13 rbx = pop 0x1558 14 r12 = pop 0x155a 15 r13 = pop 0x155c 16 r14 = pop 0x155e 17 r15 = pop 0x1560 18 rbp = pop 0x1561 19 <return> jump(pop) 0x146f 20 r14 = 0x2007 {"%s"} 0x1476 21 r12 = rsp + 0x80 {var_a8} 0x147e 22 r15 = rsp + 0x10 {var_118} 0x1483 23 r13d = 0 0x1486 24 goto 25 @ 0x14ba 0x14ba 25 rdi = r14 0x14bd 26 rsi = r12 {var_a8} 0x14c0 27 eax = 0 0x14c2 28 call(0x1050) 0x14c7 29 rdi = r12 {var_a8} 0x14ca 30 call(0x1060) 0x14cf 31 rdi = r12 {var_a8} 0x14d2 32 call(0x1030) 0x14d7 33 rcx = sx.q(eax) 0x14da 34 [rsp + rcx + 0x10].b = 0 0x14e1 35 if (ecx s<= 0) then 36 @ 0x1490 else 45 @ 0x14e3 0x1490 36 rdi = r12 {var_a8} 0x1493 37 rsi = r15 {var_118} 0x1496 38 call(0x1040) 0x149b 39 rdi = r12 {var_a8} 0x149e 40 call(0x1170) 0x14a3 41 rdi = r12 {var_a8} 0x14a6 42 call(0x1060) 0x14ab 43 r13d = r13d + 1 0x14b4 44 if (r13d s>= [rsp + 0xc {var_11c}].d) then 12 @ 0x1550 else 25 @ 0x14ba 0x14e3 45 r8d = eax 0x14e6 46 ecx = 0 0x14e8 47 esi = 0 0x14ea 48 goto 49 @ 0x151c 0x151c 49 eax = zx.d([rsp + rcx + 0x80].b) 0x1524 50 edx = eax 0x1526 51 dl = dl & 0xfe 0x1529 52 bl = 0x20 {"@"} 0x152e 53 if (dl != 0x28) then 54 @ 0x150b else 57 @ 0x1532 0x150b 54 [rsp + rcx + 0x10].b = bl 0x150f 55 rcx = rcx + 1 0x1516 56 if (r8 == rcx) then 36 @ 0x1490 else 49 @ 0x151c 0x1532 57 if (al == 0x28) then 58 @ 0x14f3 else 59 @ 0x1534 0x14f3 58 if (esi != 1) then 64 @ 0x1545 else 68 @ 0x14f5 0x1534 59 bl = 0x3f {""} 0x1536 60 edi = 0 0x1538 61 al = 0x20 {"@"} 0x153a 62 edx = ebp 0x153f 63 if (esi == 1) then 72 @ 0x14fe else 78 @ 0x1541 0x1545 64 esi = 1 0x154a 65 bl = 0x24 {""} 0x154c 66 ebp = ecx 0x154e 67 goto 54 @ 0x150b 0x14f5 68 edi = 1 0x14fa 69 al = 0x24 {""} 0x14fc 70 edx = ecx 0x14fc 71 goto 72 @ 0x14fe 0x14fe 72 rsi = sx.q(ebp) 0x1501 73 [rsp + rsi + 0x10].b = al 0x1505 74 ebx = eax 0x1507 75 esi = edi 0x1509 76 ebp = edx 0x1509 77 goto 54 @ 0x150b 0x1541 78 esi = 0 0x1543 79 goto 54 @ 0x150b int64_t _fini(): 0x1568 0 rsp = rsp - 8 0x156c 1 rsp = rsp + 8 0x1570 2 <return> jump(pop)	POJ_17
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x400 0x116b 3 [rbp - 4 {var_c}].d = 0 0x1172 4 [rbp - 0x3fc {var_404}].d = 0 0x117c 5 rsi = rbp - 0x3f0 {var_3f8} 0x1183 6 rdi = 0x2004 {"%s"} 0x118a 7 al = 0 0x118c 8 call(0x1050) 0x1191 9 rdi = rbp - 0x3f0 {var_3f8} 0x1198 10 call(0x1040) 0x119d 11 [rbp - 0x3f8 {var_400}].d = eax 0x11a3 12 [rbp - 0x3f4 {var_3fc}].d = 0 0x11a3 13 goto 14 @ 0x11ad 0x11ad 14 eax = [rbp - 0x3f4 {var_3fc}].d 0x11b9 15 if (eax s>= [rbp - 0x3f8 {var_400}].d) then 16 @ 0x1228 else 17 @ 0x11bf 0x1228 16 if ([rbp - 0x3f8 {var_400}].d != 1) then 20 @ 0x1248 else 22 @ 0x122e 0x11bf 17 rax = sx.q([rbp - 0x3f4 {var_3fc}].d) 0x11c6 18 eax = sx.d([rbp + rax - 0x3f0].b) 0x11d1 19 if (eax s< 0x61) then 28 @ 0x1208 else 29 @ 0x11d7 0x1248 20 [rbp - 0x3f4 {var_3fc_1}].d = 0 0x1248 21 goto 32 @ 0x1252 0x122e 22 esi = sx.d([rbp - 0x3f0 {var_3f8}].b) 0x1235 23 rdi = 0x2007 {"(%c,%d)"} 0x123c 24 edx = 1 0x1241 25 al = 0 0x1243 26 call(0x1030) 0x1243 27 goto 20 @ 0x1248 0x1208 28 goto 36 @ 0x120d 0x11d7 29 rax = sx.q([rbp - 0x3f4 {var_3fc}].d) 0x11de 30 eax = sx.d([rbp + rax - 0x3f0].b) 0x11e9 31 if (eax s> 0x7a) then 28 @ 0x1208 else 40 @ 0x11ef 0x1252 32 eax = [rbp - 0x3f4 {var_3fc_1}].d 0x1258 33 ecx = [rbp - 0x3f8 {var_400}].d 0x125e 34 ecx = ecx - 1 0x1263 35 if (eax s>= ecx) then 45 @ 0x13f3 else 52 @ 0x1269 0x120d 36 eax = [rbp - 0x3f4 {var_3fc}].d 0x1213 37 eax = eax + 1 0x1216 38 [rbp - 0x3f4 {var_3fc}].d = eax 0x121c 39 goto 14 @ 0x11ad 0x11ef 40 rax = sx.q([rbp - 0x3f4 {var_3fc}].d) 0x11f6 41 ecx = sx.d([rbp + rax - 0x3f0].b) 0x11fe 42 ecx = ecx - 0x20 0x1201 43 [rbp + rax - 0x3f0].b = cl 0x1201 44 goto 28 @ 0x1208 0x13f3 45 rdi = 0x200f {"\n"} 0x13fa 46 al = 0 0x13fc 47 call(0x1030) 0x1401 48 eax = 0 0x1403 49 rsp = rsp + 0x400 0x140a 50 rbp = pop 0x140b 51 <return> jump(pop) 0x1269 52 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x1270 53 eax = sx.d([rbp + rax - 0x3f0].b) 0x1278 54 ecx = [rbp - 0x3f4 {var_3fc_1}].d 0x127e 55 ecx = ecx + 1 0x1281 56 rcx = sx.q(ecx) 0x1284 57 ecx = sx.d([rbp + rcx - 0x3f0].b) 0x128e 58 if (eax != ecx) then 59 @ 0x12a3 else 66 @ 0x1294 0x12a3 59 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x12aa 60 eax = sx.d([rbp + rax - 0x3f0].b) 0x12b2 61 ecx = [rbp - 0x3f4 {var_3fc_1}].d 0x12b8 62 ecx = ecx + 1 0x12bb 63 rcx = sx.q(ecx) 0x12be 64 ecx = sx.d([rbp + rcx - 0x3f0].b) 0x12c8 65 if (eax == ecx) then 70 @ 0x1304 else 77 @ 0x12ce 0x1294 66 eax = [rbp - 0x3fc {var_404}].d 0x129a 67 eax = eax + 1 0x129d 68 [rbp - 0x3fc {var_404}].d = eax 0x129d 69 goto 59 @ 0x12a3 0x1304 70 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x130b 71 eax = sx.d([rbp + rax - 0x3f0].b) 0x1313 72 ecx = [rbp - 0x3f4 {var_3fc_1}].d 0x1319 73 ecx = ecx + 1 0x131c 74 rcx = sx.q(ecx) 0x131f 75 ecx = sx.d([rbp + rcx - 0x3f0].b) 0x1329 76 if (eax != ecx) then 87 @ 0x1372 else 94 @ 0x132f 0x12ce 77 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x12d5 78 esi = sx.d([rbp + rax - 0x3f0].b) 0x12dd 79 edx = [rbp - 0x3fc {var_404}].d 0x12e3 80 edx = edx + 1 0x12e6 81 [rbp - 0x3fc {var_404_1}].d = edx 0x12ec 82 rdi = 0x2007 {"(%c,%d)"} 0x12f3 83 al = 0 0x12f5 84 call(0x1030) 0x12fa 85 [rbp - 0x3fc {var_404}].d = 0 0x12fa 86 goto 70 @ 0x1304 0x1372 87 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x1379 88 eax = sx.d([rbp + rax - 0x3f0].b) 0x1381 89 ecx = [rbp - 0x3f4 {var_3fc_1}].d 0x1387 90 ecx = ecx + 1 0x138a 91 rcx = sx.q(ecx) 0x138d 92 ecx = sx.d([rbp + rcx - 0x3f0].b) 0x1397 93 if (eax == ecx) then 98 @ 0x13da else 99 @ 0x139d 0x132f 94 eax = [rbp - 0x3f4 {var_3fc_1}].d 0x1335 95 ecx = [rbp - 0x3f8 {var_400}].d 0x133b 96 ecx = ecx - 2 0x1340 97 if (eax != ecx) then 87 @ 0x1372 else 103 @ 0x1346 0x13da 98 goto 112 @ 0x13df 0x139d 99 eax = [rbp - 0x3f4 {var_3fc_1}].d 0x13a3 100 ecx = [rbp - 0x3f8 {var_400}].d 0x13a9 101 ecx = ecx - 2 0x13ae 102 if (eax != ecx) then 98 @ 0x13da else 116 @ 0x13b4 0x1346 103 rax = sx.q([rbp - 0x3f4 {var_3fc_1}].d) 0x134d 104 esi = sx.d([rbp + rax - 0x3f0].b) 0x1355 105 edx = [rbp - 0x3fc {var_404}].d 0x135b 106 edx = edx + 1 0x135e 107 [rbp - 0x3fc {var_404}].d = edx 0x1364 108 rdi = 0x2007 {"(%c,%d)"} 0x136b 109 al = 0 0x136d 110 call(0x1030) 0x136d 111 goto 87 @ 0x1372 0x13df 112 eax = [rbp - 0x3f4 {var_3fc_1}].d 0x13e5 113 eax = eax + 1 0x13e8 114 [rbp - 0x3f4 {var_3fc_1}].d = eax 0x13ee 115 goto 32 @ 0x1252 0x13b4 116 eax = [rbp - 0x3f4 {var_3fc_1}].d 0x13ba 117 eax = eax + 1 0x13bd 118 rax = sx.q(eax) 0x13bf 119 esi = sx.d([rbp + rax - 0x3f0].b) 0x13c7 120 rdi = 0x2007 {"(%c,%d)"} 0x13ce 121 edx = 1 0x13d3 122 al = 0 0x13d5 123 call(0x1030) 0x13d5 124 goto 98 @ 0x13da int64_t _fini(): 0x1410 0 rsp = rsp - 8 0x1414 1 rsp = rsp + 8 0x1418 2 <return> jump(pop)	POJ_103
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(rbx) 0x1156 4 rsp = rsp - 0x1a8 0x115d 5 r14 = 0x2005 {"%d"} 0x1164 6 rsi = rsp + 8 {var_1c0} 0x1169 7 rdi = r14 0x116c 8 eax = 0 0x116e 9 call(0x1040) 0x1173 10 ebx = 0xffffffff {""} 0x1178 11 r15 = rsp + 0xc {var_1bc} 0x117d 12 ebp = 0 0x117f 13 goto 14 @ 0x1180 0x1180 14 rdi = r14 0x1183 15 rsi = r15 {var_1bc} 0x1186 16 eax = 0 0x1188 17 call(0x1040) 0x118d 18 eax = [rsp + 0xc {var_1bc}].d 0x1191 19 ecx = [rsp + 8 {var_1c0}].d 0x1195 20 edx = (rbx + rcx).d 0x1198 21 rdx = sx.q(edx) 0x119b 22 [rsp + (rdx << 2) + 0x10].d = eax 0x119f 23 ebp = ebp + 1 0x11a2 24 ebx = ebx - 1 0x11a7 25 if (ebp s< ecx) then 14 @ 0x1180 else 26 @ 0x11a9 0x11a9 26 esi = [rsp + 0x10 {var_1b8}].d 0x11ad 27 rdi = 0x2005 {"%d"} 0x11b4 28 eax = 0 0x11b6 29 call(0x1030) 0x11c0 30 if ([rsp + 8 {var_1c0}].d s< 2) then 31 @ 0x11ec else 38 @ 0x11c2 0x11ec 31 eax = 0 0x11ee 32 rsp = rsp + 0x1a8 0x11f5 33 rbx = pop 0x11f6 34 r14 = pop 0x11f8 35 r15 = pop 0x11fa 36 rbp = pop 0x11fb 37 <return> jump(pop) 0x11c2 38 ebp = 1 0x11c7 39 rbx = 0x2004 {" %d"} 0x11ce 40 goto 41 @ 0x11d0 0x11d0 41 esi = [rsp + (rbp << 2) + 0x10].d 0x11d4 42 rdi = rbx 0x11d7 43 eax = 0 0x11d9 44 call(0x1030) 0x11de 45 rbp = rbp + 1 0x11e2 46 rax = sx.q([rsp + 8 {var_1c0}].d) 0x11ea 47 if (rbp s< rax) then 41 @ 0x11d0 else 31 @ 0x11ec int64_t _fini(): 0x1200 0 rsp = rsp - 8 0x1204 1 rsp = rsp + 8 0x1208 2 <return> jump(pop)	POJ_47
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r12) 0x1157 4 push(rbx) 0x1158 5 rsp = rsp - 0x1a0 0x115f 6 rdi = 0x2004 {"%d"} 0x1166 7 r12d = 0 0x1169 8 rsi = rsp + 0xc {var_1bc} 0x116e 9 eax = 0 0x1170 10 call(0x1040) 0x1175 11 eax = [rsp + 0xc {var_1bc}].d 0x117b 12 if (eax s<= 0) then 13 @ 0x11af else 17 @ 0x117d 0x11af 13 ebx = 0 0x11b4 14 r15d = 0 0x11ba 15 r14d = 0 0x11c2 16 if (eax s<= 0) then 21 @ 0x1211 else 76 @ 0x11c4 0x117d 17 rbx = rsp + 0x10 {var_1b8} 0x1182 18 r14 = 0x2004 {"%d"} 0x1189 19 ebp = 0 0x118b 20 goto 83 @ 0x1190 0x1211 21 ecx = r12d * 0x64 0x1215 22 xmm0.q = float.d(ecx) 0x1219 23 xmm1.q = float.d(eax) 0x121d 24 xmm0.q = xmm0.q f/ xmm1.q 0x1221 25 rdi = 0x2007 {"1-18: %.2f"} 0x1228 26 al = 1 0x122a 27 call(0x1030) 0x122f 28 rbp = 0x2012 {"%%\n"} 0x1236 29 rdi = rbp 0x1239 30 eax = 0 0x123b 31 call(0x1030) 0x1240 32 eax = ebx * 0x64 0x1243 33 xmm0 = 0 0x1246 34 xmm0.q = float.d(eax) 0x124a 35 xmm1 = 0 0x124d 36 xmm1.q = float.d([rsp + 0xc {var_1bc}].d) 0x1253 37 xmm0.q = xmm0.q f/ xmm1.q 0x1257 38 rdi = 0x2016 {"19-35: %.2f"} 0x125e 39 al = 1 0x1260 40 call(0x1030) 0x1265 41 rdi = rbp 0x1268 42 eax = 0 0x126a 43 call(0x1030) 0x126f 44 eax = r15d * 0x64 0x1273 45 xmm0 = 0 0x1276 46 xmm0.q = float.d(eax) 0x127a 47 xmm1 = 0 0x127d 48 xmm1.q = float.d([rsp + 0xc {var_1bc}].d) 0x1283 49 xmm0.q = xmm0.q f/ xmm1.q 0x1287 50 rdi = 0x2022 {"36-60: %.2f"} 0x128e 51 al = 1 0x1290 52 call(0x1030) 0x1295 53 rdi = rbp 0x1298 54 eax = 0 0x129a 55 call(0x1030) 0x129f 56 eax = r14d * 0x64 0x12a3 57 xmm0 = 0 0x12a6 58 xmm0.q = float.d(eax) 0x12aa 59 xmm1 = 0 0x12ad 60 xmm1.q = float.d([rsp + 0xc {var_1bc}].d) 0x12b3 61 xmm0.q = xmm0.q f/ xmm1.q 0x12b7 62 rdi = 0x202e {"60??: %.2f"} 0x12be 63 al = 1 0x12c0 64 call(0x1030) 0x12c5 65 rdi = rbp 0x12c8 66 eax = 0 0x12ca 67 call(0x1030) 0x12cf 68 eax = 0 0x12d1 69 rsp = rsp + 0x1a0 0x12d8 70 rbx = pop 0x12d9 71 r12 = pop 0x12db 72 r14 = pop 0x12dd 73 r15 = pop 0x12df 74 rbp = pop 0x12e0 75 <return> jump(pop) 0x11c4 76 ecx = eax 0x11c6 77 edx = 0 0x11c8 78 r14d = 0 0x11cb 79 r15d = 0 0x11ce 80 ebx = 0 0x11d0 81 r12d = 0 0x11d3 82 goto 91 @ 0x11ed 0x1190 83 rdi = r14 0x1193 84 rsi = rbx 0x1196 85 eax = 0 0x1198 86 call(0x1040) 0x119d 87 rbp = rbp + 1 0x11a1 88 rax = sx.q([rsp + 0xc {var_1bc}].d) 0x11a6 89 rbx = rbx + 4 0x11ad 90 if (rbp s< rax) then 83 @ 0x1190 else 13 @ 0x11af 0x11ed 91 esi = [rsp + (rdx << 2) + 0x10].d 0x11f4 92 if (esi s<= 0x12) then 93 @ 0x11e0 else 95 @ 0x11f9 0x11e0 93 r12d = r12d + 1 0x11e0 94 goto 96 @ 0x11e4 0x11f9 95 if (esi s> 0x23) then 98 @ 0x1203 else 99 @ 0x11fb 0x11e4 96 rdx = rdx + 1 0x11eb 97 if (rcx == rdx) then 21 @ 0x1211 else 91 @ 0x11ed 0x1203 98 if (esi s> 0x3c) then 101 @ 0x120b else 103 @ 0x1205 0x11fb 99 ebx = ebx + 1 0x11fe 100 goto 96 @ 0x11e4 0x120b 101 r14d = r14d + 1 0x120f 102 goto 96 @ 0x11e4 0x1205 103 r15d = r15d + 1 0x1209 104 goto 96 @ 0x11e4 int64_t _fini(): 0x12e8 0 rsp = rsp - 8 0x12ec 1 rsp = rsp + 8 0x12f0 2 <return> jump(pop)	POJ_99
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 char* gets(char* buf): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t strcmp(char const* arg1, char const* arg2): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"SH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbx) 0x1161 1 rsp = rsp - 0x180 0x1168 2 ebx = 0 0x116a 3 rdi = rsp + 0x120 {var_68} 0x1172 4 eax = 0 0x1174 5 call(0x1030) 0x1179 6 rdi = rsp + 0xc0 {var_c8} 0x1181 7 eax = 0 0x1183 8 call(0x1030) 0x1188 9 goto 10 @ 0x1190 0x1190 10 eax = zx.d([rsp + rbx + 0x120].b) 0x1198 11 ecx = (rax - 0x41).d 0x119b 12 edx = (rax + 0x20).d 0x119e 13 cond:0 = cl u>= 0x1a 0x11a1 14 ecx = zx.d(dl) 0x11a4 15 if (cond:0) then 16 else 18 @ 0x11a7 0x11a4 16 ecx = eax 0x11a4 17 goto 18 @ 0x11a7 0x11a7 18 [rsp + rbx + 0x60].b = cl 0x11ab 19 rbx = rbx + 1 0x11b3 20 if (rbx != 0x51) then 10 @ 0x1190 else 21 @ 0x11b5 0x11b5 21 eax = 0 0x11b7 22 goto 23 @ 0x11c0 0x11c0 23 ecx = zx.d([rsp + rax + 0xc0].b) 0x11c8 24 edx = (rcx - 0x41).d 0x11cb 25 esi = (rcx + 0x20).d 0x11ce 26 cond:1 = dl u>= 0x1a 0x11d1 27 edx = zx.d(sil) 0x11d5 28 if (cond:1) then 29 else 31 @ 0x11d8 0x11d5 29 edx = ecx 0x11d5 30 goto 31 @ 0x11d8 0x11d8 31 [rsp + rax].b = dl 0x11db 32 rax = rax + 1 0x11e3 33 if (rax != 0x51) then 23 @ 0x11c0 else 34 @ 0x11e5 0x11e5 34 rdi = rsp + 0x60 {var_128} 0x11ea 35 rsi = rsp {var_188} 0x11ed 36 call(0x1040) 0x11f2 37 ecx = 0 0x11f6 38 cl = eax == 0 0x11f9 39 edx = 0x3e {""} 0x11fe 40 edx = edx - ecx 0x1200 41 cond:2 = eax s>= 0 0x1202 42 edi = 0x3c {""} 0x1207 43 if (cond:2) then 44 else 46 @ 0x120a 0x1207 44 edi = edx 0x1207 45 goto 46 @ 0x120a 0x120a 46 call(0x1050) 0x120f 47 rsp = rsp + 0x180 0x1216 48 rbx = pop 0x1217 49 <return> jump(pop) int64_t _fini(): 0x121c 0 rsp = rsp - 8 0x1220 1 rsp = rsp + 8 0x1224 2 <return> jump(pop)	POJ_95
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x1d510 0x116b 3 [rbp - 4 {var_c}].d = 0 0x1172 4 rdi = rbp - 0x1d4d0 {var_1d4d8} 0x1179 5 esi = 0 0x117b 6 edx = 0x9c40 {""} 0x1180 7 call(0x1040) 0x1185 8 rdi = 0x2004 {"%d %d"} 0x118c 9 rsi = rbp - 0x1d4d4 {var_1d4dc} 0x1193 10 rdx = rbp - 0x1d4d8 {var_1d4e0} 0x119a 11 al = 0 0x119c 12 call(0x1050) 0x11a1 13 [rbp - 0x1d4e4 {var_1d4ec}].d = 0 0x11a1 14 goto 15 @ 0x11ab 0x11ab 15 eax = [rbp - 0x1d4e4 {var_1d4ec}].d 0x11b1 16 ecx = [rbp - 0x1d4d4 {var_1d4dc}].d 0x11b7 17 ecx = ecx - 1 0x11bc 18 if (eax s> ecx) then 19 @ 0x1244 else 26 @ 0x11c2 0x1244 19 rdi = 0x2004 {"%d %d"} 0x124b 20 rsi = rbp - 0x1d4dc {var_1d4e4} 0x1252 21 rdx = rbp - 0x1d4e0 {var_1d4e8} 0x1259 22 al = 0 0x125b 23 call(0x1050) 0x1260 24 [rbp - 0x1d4ec {var_1d4f4}].d = 0 0x1260 25 goto 28 @ 0x126a 0x11c2 26 [rbp - 0x1d4e8 {var_1d4f0_1}].d = 0 0x11c2 27 goto 32 @ 0x11cc 0x126a 28 eax = [rbp - 0x1d4ec {var_1d4f4}].d 0x1270 29 ecx = [rbp - 0x1d4dc {var_1d4e4}].d 0x1276 30 ecx = ecx - 1 0x127b 31 if (eax s> ecx) then 36 @ 0x1303 else 38 @ 0x1281 0x11cc 32 eax = [rbp - 0x1d4e8 {var_1d4f0_1}].d 0x11d2 33 ecx = [rbp - 0x1d4d8 {var_1d4e0}].d 0x11d8 34 ecx = ecx - 1 0x11dd 35 if (eax s> ecx) then 40 @ 0x122b else 41 @ 0x11e3 0x1303 36 [rbp - 0x1d4f4 {var_1d4fc}].d = 0 0x1303 37 goto 55 @ 0x130d 0x1281 38 [rbp - 0x1d4f0 {var_1d4f8_1}].d = 0 0x1281 39 goto 59 @ 0x128b 0x122b 40 goto 63 @ 0x1230 0x11e3 41 rax = sx.q([rbp - 0x1d4e4 {var_1d4ec}].d) 0x11ea 42 rsi = rbp - 0x9c50 {var_9c58} 0x11f1 43 rax = rax * 0x190 0x11f8 44 rsi = rsi + rax 0x11fb 45 rax = sx.q([rbp - 0x1d4e8 {var_1d4f0_1}].d) 0x1202 46 rax = rax << 2 0x1206 47 rsi = rsi + rax 0x1209 48 rdi = 0x2007 {"%d"} 0x1210 49 al = 0 0x1212 50 call(0x1050) 0x1217 51 eax = [rbp - 0x1d4e8 {var_1d4f0_1}].d 0x121d 52 eax = eax + 1 0x1220 53 [rbp - 0x1d4e8 {var_1d4f0_1}].d = eax 0x1226 54 goto 32 @ 0x11cc 0x130d 55 eax = [rbp - 0x1d4f4 {var_1d4fc}].d 0x1313 56 ecx = [rbp - 0x1d4d4 {var_1d4dc}].d 0x1319 57 ecx = ecx - 1 0x131e 58 if (eax s> ecx) then 67 @ 0x14b5 else 69 @ 0x1324 0x128b 59 eax = [rbp - 0x1d4f0 {var_1d4f8_1}].d 0x1291 60 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x1297 61 ecx = ecx - 1 0x129c 62 if (eax s> ecx) then 71 @ 0x12ea else 72 @ 0x12a2 0x1230 63 eax = [rbp - 0x1d4e4 {var_1d4ec}].d 0x1236 64 eax = eax + 1 0x1239 65 [rbp - 0x1d4e4 {var_1d4ec}].d = eax 0x123f 66 goto 15 @ 0x11ab 0x14b5 67 [rbp - 0x1d500 {var_1d508}].d = 0 0x14b5 68 goto 86 @ 0x14bf 0x1324 69 [rbp - 0x1d4f8 {var_1d500_1}].d = 0 0x1324 70 goto 90 @ 0x132e 0x12ea 71 goto 94 @ 0x12ef 0x12a2 72 rax = sx.q([rbp - 0x1d4ec {var_1d4f4}].d) 0x12a9 73 rsi = rbp - 0x13890 {var_13898} 0x12b0 74 rax = rax * 0x190 0x12b7 75 rsi = rsi + rax 0x12ba 76 rax = sx.q([rbp - 0x1d4f0 {var_1d4f8_1}].d) 0x12c1 77 rax = rax << 2 0x12c5 78 rsi = rsi + rax 0x12c8 79 rdi = 0x2007 {"%d"} 0x12cf 80 al = 0 0x12d1 81 call(0x1050) 0x12d6 82 eax = [rbp - 0x1d4f0 {var_1d4f8_1}].d 0x12dc 83 eax = eax + 1 0x12df 84 [rbp - 0x1d4f0 {var_1d4f8_1}].d = eax 0x12e5 85 goto 59 @ 0x128b 0x14bf 86 eax = [rbp - 0x1d500 {var_1d508}].d 0x14c5 87 ecx = [rbp - 0x1d4d4 {var_1d4dc}].d 0x14cb 88 ecx = ecx - 1 0x14d0 89 if (eax s> ecx) then 98 @ 0x1640 else 102 @ 0x14d6 0x132e 90 eax = [rbp - 0x1d4f8 {var_1d500_1}].d 0x1334 91 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x133a 92 ecx = ecx - 1 0x133f 93 if (eax s> ecx) then 104 @ 0x149c else 105 @ 0x1345 0x12ef 94 eax = [rbp - 0x1d4ec {var_1d4f4}].d 0x12f5 95 eax = eax + 1 0x12f8 96 [rbp - 0x1d4ec {var_1d4f4}].d = eax 0x12fe 97 goto 28 @ 0x126a 0x1640 98 eax = [rbp - 4 {var_c}].d 0x1643 99 rsp = rsp + 0x1d510 0x164a 100 rbp = pop 0x164b 101 <return> jump(pop) 0x14d6 102 [rbp - 0x1d504 {var_1d50c_1}].d = 0 0x14d6 103 goto 107 @ 0x14e0 0x149c 104 goto 111 @ 0x14a1 0x1345 105 [rbp - 0x1d4fc {var_1d504_1}].d = 0 0x1345 106 goto 115 @ 0x134f 0x14e0 107 eax = [rbp - 0x1d504 {var_1d50c_1}].d 0x14e6 108 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x14ec 109 ecx = ecx - 1 0x14f1 110 if (eax s> ecx) then 119 @ 0x1627 else 120 @ 0x14f7 0x14a1 111 eax = [rbp - 0x1d4f4 {var_1d4fc}].d 0x14a7 112 eax = eax + 1 0x14aa 113 [rbp - 0x1d4f4 {var_1d4fc}].d = eax 0x14b0 114 goto 55 @ 0x130d 0x134f 115 eax = [rbp - 0x1d4fc {var_1d504_1}].d 0x1355 116 ecx = [rbp - 0x1d4d8 {var_1d4e0}].d 0x135b 117 ecx = ecx - 1 0x1360 118 if (eax s> ecx) then 124 @ 0x1483 else 125 @ 0x136d 0x1627 119 goto 126 @ 0x162c 0x14f7 120 eax = [rbp - 0x1d504 {var_1d50c_1}].d 0x14fd 121 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x1503 122 ecx = ecx - 1 0x1508 123 if (eax == ecx) then 130 @ 0x1543 else 134 @ 0x150e 0x1483 124 goto 144 @ 0x1488 0x136d 125 if ([rbp - 0x1d4fc {var_1d504_1}].d != 0) then 148 @ 0x13df else 174 @ 0x1373 0x162c 126 eax = [rbp - 0x1d500 {var_1d508}].d 0x1632 127 eax = eax + 1 0x1635 128 [rbp - 0x1d500 {var_1d508}].d = eax 0x163b 129 goto 86 @ 0x14bf 0x1543 130 eax = [rbp - 0x1d504 {var_1d50c_1}].d 0x1549 131 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x154f 132 ecx = ecx - 1 0x1554 133 if (eax != ecx) then 193 @ 0x15a6 else 197 @ 0x155a 0x150e 134 rcx = sx.q([rbp - 0x1d500 {var_1d508}].d) 0x1515 135 rax = rbp - 0x1d4d0 {var_1d4d8} 0x151c 136 rcx = rcx * 0x190 0x1523 137 rax = rax + rcx 0x1526 138 rcx = sx.q([rbp - 0x1d504 {var_1d50c_1}].d) 0x152d 139 esi = [rax + (rcx << 2)].d 0x1530 140 rdi = 0x200a {"%d "} 0x1537 141 al = 0 0x1539 142 call(0x1030) 0x153e 143 goto 201 @ 0x160e 0x1488 144 eax = [rbp - 0x1d4f8 {var_1d500_1}].d 0x148e 145 eax = eax + 1 0x1491 146 [rbp - 0x1d4f8 {var_1d500_1}].d = eax 0x1497 147 goto 90 @ 0x132e 0x13df 148 rcx = sx.q([rbp - 0x1d4f4 {var_1d4fc}].d) 0x13e6 149 rax = rbp - 0x1d4d0 {var_1d4d8} 0x13ed 150 rcx = rcx * 0x190 0x13f4 151 rax = rax + rcx 0x13f7 152 rcx = sx.q([rbp - 0x1d4f8 {var_1d500_1}].d) 0x13fe 153 edx = [rax + (rcx << 2)].d 0x1401 154 rcx = sx.q([rbp - 0x1d4f4 {var_1d4fc}].d) 0x1408 155 rax = rbp - 0x9c50 {var_9c58} 0x140f 156 rcx = rcx * 0x190 0x1416 157 rax = rax + rcx 0x1419 158 rcx = sx.q([rbp - 0x1d4fc {var_1d504_1}].d) 0x1420 159 eax = [rax + (rcx << 2)].d 0x1423 160 rsi = sx.q([rbp - 0x1d4fc {var_1d504_1}].d) 0x142a 161 rcx = rbp - 0x13890 {var_13898} 0x1431 162 rsi = rsi * 0x190 0x1438 163 rcx = rcx + rsi 0x143b 164 rsi = sx.q([rbp - 0x1d4f8 {var_1d500_1}].d) 0x1442 165 eax = eax * [rcx + (rsi << 2)].d 0x1446 166 edx = edx + eax 0x1448 167 rcx = sx.q([rbp - 0x1d4f4 {var_1d4fc}].d) 0x144f 168 rax = rbp - 0x1d4d0 {var_1d4d8} 0x1456 169 rcx = rcx * 0x190 0x145d 170 rax = rax + rcx 0x1460 171 rcx = sx.q([rbp - 0x1d4f8 {var_1d500_1}].d) 0x1467 172 [rax + (rcx << 2)].d = edx 0x1467 173 goto 202 @ 0x146a 0x1373 174 rcx = sx.q([rbp - 0x1d4f4 {var_1d4fc}].d) 0x137a 175 rax = rbp - 0x9c50 {var_9c58} 0x1381 176 rcx = rcx * 0x190 0x1388 177 rax = rax + rcx 0x138b 178 rcx = sx.q([rbp - 0x1d4fc {var_1d504_1}].d) 0x1392 179 edx = [rax + (rcx << 2)].d 0x1395 180 rcx = sx.q([rbp - 0x1d4fc {var_1d504_1}].d) 0x139c 181 rax = rbp - 0x13890 {var_13898} 0x13a3 182 rcx = rcx * 0x190 0x13aa 183 rax = rax + rcx 0x13ad 184 rcx = sx.q([rbp - 0x1d4f8 {var_1d500_1}].d) 0x13b4 185 edx = edx * [rax + (rcx << 2)].d 0x13b8 186 rcx = sx.q([rbp - 0x1d4f4 {var_1d4fc}].d) 0x13bf 187 rax = rbp - 0x1d4d0 {var_1d4d8} 0x13c6 188 rcx = rcx * 0x190 0x13cd 189 rax = rax + rcx 0x13d0 190 rcx = sx.q([rbp - 0x1d4f8 {var_1d500_1}].d) 0x13d7 191 [rax + (rcx << 2)].d = edx 0x13da 192 goto 202 @ 0x146a 0x15a6 193 eax = [rbp - 0x1d504 {var_1d50c_1}].d 0x15ac 194 ecx = [rbp - 0x1d4e0 {var_1d4e8}].d 0x15b2 195 ecx = ecx - 1 0x15b7 196 if (eax != ecx) then 203 @ 0x1604 else 204 @ 0x15bd 0x155a 197 eax = [rbp - 0x1d500 {var_1d508}].d 0x1560 198 ecx = [rbp - 0x1d4d4 {var_1d4dc}].d 0x1566 199 ecx = ecx - 1 0x156b 200 if (eax == ecx) then 193 @ 0x15a6 else 208 @ 0x1571 0x160e 201 goto 218 @ 0x1613 0x146a 202 goto 222 @ 0x146f 0x1604 203 goto 226 @ 0x1609 0x15bd 204 eax = [rbp - 0x1d500 {var_1d508}].d 0x15c3 205 ecx = [rbp - 0x1d4d4 {var_1d4dc}].d 0x15c9 206 ecx = ecx - 1 0x15ce 207 if (eax != ecx) then 203 @ 0x1604 else 227 @ 0x15d4 0x1571 208 rcx = sx.q([rbp - 0x1d500 {var_1d508}].d) 0x1578 209 rax = rbp - 0x1d4d0 {var_1d4d8} 0x157f 210 rcx = rcx * 0x190 0x1586 211 rax = rax + rcx 0x1589 212 rcx = sx.q([rbp - 0x1d504 {var_1d50c_1}].d) 0x1590 213 esi = [rax + (rcx << 2)].d 0x1593 214 rdi = 0x200e {"%d\n"} 0x159a 215 al = 0 0x159c 216 call(0x1030) 0x15a1 217 goto 226 @ 0x1609 0x1613 218 eax = [rbp - 0x1d504 {var_1d50c_1}].d 0x1619 219 eax = eax + 1 0x161c 220 [rbp - 0x1d504 {var_1d50c_1}].d = eax 0x1622 221 goto 107 @ 0x14e0 0x146f 222 eax = [rbp - 0x1d4fc {var_1d504_1}].d 0x1475 223 eax = eax + 1 0x1478 224 [rbp - 0x1d4fc {var_1d504_1}].d = eax 0x147e 225 goto 115 @ 0x134f 0x1609 226 goto 201 @ 0x160e 0x15d4 227 rcx = sx.q([rbp - 0x1d500 {var_1d508}].d) 0x15db 228 rax = rbp - 0x1d4d0 {var_1d4d8} 0x15e2 229 rcx = rcx * 0x190 0x15e9 230 rax = rax + rcx 0x15ec 231 rcx = sx.q([rbp - 0x1d504 {var_1d50c_1}].d) 0x15f3 232 esi = [rax + (rcx << 2)].d 0x15f6 233 rdi = 0x2007 {"%d"} 0x15fd 234 al = 0 0x15ff 235 call(0x1030) 0x15ff 236 goto 203 @ 0x1604 int64_t _fini(): 0x1650 0 rsp = rsp - 8 0x1654 1 rsp = rsp + 8 0x1658 2 <return> jump(pop)	POJ_63
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AVSPH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r14) 0x1162 1 push(rbx) 0x1163 2 push(rax) 0x1164 3 rdi = 0x2004 {"%s"} 0x116b 4 rbx = rsp + 2 {var_18+0x2} 0x1170 5 rsi = rbx {var_18+0x2} 0x1173 6 eax = 0 0x1175 7 call(0x1050) 0x117a 8 rdi = rbx {var_18+0x2} 0x117d 9 call(0x1040) 0x1184 10 if (eax s<= 0) then 11 @ 0x11bf else 16 @ 0x1186 0x11bf 11 eax = 0 0x11c1 12 rsp = rsp + 8 0x11c5 13 rbx = pop 0x11c6 14 r14 = pop 0x11c8 15 <return> jump(pop) 0x1186 16 ebx = eax 0x1188 17 rbx = rbx + 1 0x118c 18 r14 = 0x2007 {"%d"} 0x119d 19 goto 20 @ 0x11a0 0x11a0 20 eax = (rbx - 2).d 0x11a3 21 esi = sx.d([rsp + rax + 2].b) 0x11a8 22 esi = esi - 0x30 0x11ab 23 rdi = r14 0x11ae 24 eax = 0 0x11b0 25 call(0x1030) 0x11b5 26 rbx = rbx - 1 0x11bd 27 if (rbx u> 1) then 20 @ 0x11a0 else 11 @ 0x11bf int64_t _fini(): 0x11d0 0 rsp = rsp - 8 0x11d4 1 rsp = rsp + 8 0x11d8 2 <return> jump(pop)	POJ_16
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0x6b6d0 0x115c 4 rdi = 0x2004 {"%d %d"} 0x1163 5 ebx = 0 0x1165 6 rsi = rsp + 0xc {var_6b6dc} 0x116a 7 rdx = rsp + 8 {var_6b6e0} 0x116f 8 eax = 0 0x1171 9 call(0x1040) 0x1176 10 ecx = [rsp + 0xc {var_6b6dc}].d 0x117a 11 esi = [rsp + 8 {var_6b6e0}].d 0x1180 12 if (ecx s<= esi) then 13 @ 0x12a0 else 15 @ 0x1186 0x12a0 13 ebx = 0 0x12a2 14 goto 17 @ 0x12db 0x1186 15 r8d = ebx 0x118b 16 if (ebx s<= 0) then 18 @ 0x11d8 else 19 @ 0x118d 0x12db 17 if (ecx s< 3) then 21 @ 0x12b0 else 27 @ 0x12dd 0x11d8 18 if (ebx s<= 0) then 29 @ 0x1302 else 31 @ 0x11de 0x118d 19 ecx = 0 0x118f 20 goto 35 @ 0x1190 0x12b0 21 rbx = sx.q(ebx) 0x12b3 22 [rsp + (rbx << 2) + 0x13890].d = ecx 0x12ba 23 [rsp + (rbx << 2) + 0x9c50].d = ecx 0x12c1 24 [rsp + (rbx << 2) + 0x1d4d0].d = ecx 0x12c8 25 ebx = ebx + 1 0x12c8 26 goto 38 @ 0x12cb 0x12dd 27 edi = 2 0x12ec 28 goto 42 @ 0x12f0 0x1302 29 r14d = 0 0x1302 30 goto 55 @ 0x1308 0x11de 31 r9d = 0 0x11e1 32 r10 = rsp + 0x30d50 {var_3a998} 0x11e9 33 r14d = 0 0x11ec 34 goto 56 @ 0x1215 0x1190 35 eax = [rsp + (rcx << 2) + 0x9c50].d 0x1197 36 edx = 0 0x1199 37 goto 58 @ 0x11a0 0x12cb 38 eax = (rcx + 1).d 0x12ce 39 cond:0 = ecx == esi 0x12d0 40 ecx = eax 0x12d2 41 if (cond:0) then 15 @ 0x1186 else 17 @ 0x12db 0x12f0 42 eax = ecx 0x12f2 43 temp2.d:temp3.d = sx.q(eax) 0x12f2 44 edx = temp2.d 0x12f2 45 eax = temp3.d 0x12f3 46 temp4.d = edx 0x12f3 47 temp5.d = eax 0x12f3 48 temp0.d = divs.dp.d(temp4.d:temp5.d, edi) 0x12f3 49 temp6.d = edx 0x12f3 50 temp7.d = eax 0x12f3 51 temp1.d = mods.dp.d(temp6.d:temp7.d, edi) 0x12f3 52 eax = temp0.d 0x12f3 53 edx = temp1.d 0x12f7 54 if (edx == 0) then 38 @ 0x12cb else 66 @ 0x12f9 0x1308 55 if (r14d == 0) then 68 @ 0x1359 else 72 @ 0x130a 0x1215 56 esi = [rsp + (r9 << 2) + 0x27110].d 0x121f 57 if (esi s<= 0) then 77 @ 0x1266 else 78 @ 0x1221 0x11a0 58 rsi = sx.q(eax) 0x11a3 59 rax = rsi * 0x66666667 0x11aa 60 rdi = rax 0x11ad 61 rdi = rdi u>> 0x3f 0x11b1 62 rax = rax s>> 0x22 0x11b5 63 eax = eax + edi 0x11b7 64 edx = edx + 1 0x11bd 65 if (esi s> 9) then 58 @ 0x11a0 else 81 @ 0x11bf 0x12f9 66 edi = edi + 1 0x12fe 67 if (ecx != edi) then 42 @ 0x12f0 else 85 @ 0x1300 0x1359 68 rdi = 0x200a {"no"} 0x1360 69 eax = 0 0x1362 70 call(0x1030) 0x1362 71 goto 86 @ 0x1367 0x130a 72 esi = [rsp + 0x10 {var_6b6d8}].d 0x130e 73 rdi = 0x2007 {"%d"} 0x1315 74 eax = 0 0x1317 75 call(0x1030) 0x1320 76 if (r14d s< 2) then 86 @ 0x1367 else 91 @ 0x1322 0x1266 77 if (esi s<= 0) then 95 @ 0x11f0 else 100 @ 0x1268 0x1221 78 edi = [rsp + (r9 << 2) + 0x13890].d 0x1229 79 eax = 0 0x122b 80 goto 103 @ 0x1230 0x11bf 81 [rsp + (rcx << 2) + 0x27110].d = edx 0x11c6 82 [rsp + (rcx << 2) + 0x9c50].d = eax 0x11cd 83 rcx = rcx + 1 0x11d4 84 if (rcx != r8) then 35 @ 0x1190 else 18 @ 0x11d8 0x1300 85 goto 21 @ 0x12b0 0x1367 86 rsp = rsp + 0x6b6d0 0x136e 87 rbx = pop 0x136f 88 r14 = pop 0x1371 89 r15 = pop 0x1373 90 <return> jump(pop) 0x1322 91 r15d = r14d 0x1325 92 ebx = 1 0x132a 93 r14 = 0x200d {",%d"} 0x133b 94 goto 115 @ 0x1340 0x11f0 95 eax = [rsp + (r9 << 2) + 0x1d4d0].d 0x11f8 96 r14 = sx.q(r14d) 0x11fb 97 [rsp + (r14 << 2) + 0x10].d = eax 0x1200 98 r14d = r14d + 1 0x1200 99 goto 121 @ 0x1204 0x1268 100 eax = (rsi - 1).d 0x126b 101 edi = 0 0x126d 102 goto 124 @ 0x1270 0x1230 103 rbx = sx.q(edi) 0x1233 104 rdi = rbx * 0x66666667 0x123a 105 rcx = rdi 0x123d 106 rcx = rcx u>> 0x3f 0x1241 107 rdi = rdi s>> 0x22 0x1245 108 edi = edi + ecx 0x1247 109 ecx = (rdi + rdi).d 0x124a 110 ecx = (rcx + (rcx << 2)).d 0x124d 111 ebx = ebx - ecx 0x124f 112 [r10 + (rax << 2)].d = ebx 0x1253 113 rax = rax + 1 0x125a 114 if (rsi != rax) then 103 @ 0x1230 else 130 @ 0x125c 0x1340 115 esi = [rsp + (rbx << 2) + 0x10].d 0x1344 116 rdi = r14 0x1347 117 eax = 0 0x1349 118 call(0x1030) 0x134e 119 rbx = rbx + 1 0x1355 120 if (r15 != rbx) then 115 @ 0x1340 else 132 @ 0x1357 0x1204 121 r9 = r9 + 1 0x1208 122 r10 = r10 + 0x18 0x120f 123 if (r9 == r8) then 55 @ 0x1308 else 56 @ 0x1215 0x1270 124 ecx = [r10 + (rdi << 2)].d 0x1274 125 rbx = sx.q(eax) 0x1277 126 rdx = r9 + (r9 << 1) 0x127b 127 rdx = rsp + (rdx << 3) 0x127f 128 rdx = rdx + 0x30d50 0x1289 129 if (ecx != [rdx + (rbx << 2)].d) then 121 @ 0x1204 else 133 @ 0x128f 0x125c 130 [rsp + (r9 << 2) + 0x13890].d = edi 0x125c 131 goto 77 @ 0x1266 0x1357 132 goto 86 @ 0x1367 0x128f 133 rdi = rdi + 1 0x1293 134 eax = eax - 1 0x1299 135 if (rsi != rdi) then 124 @ 0x1270 else 136 @ 0x129b 0x129b 136 goto 95 @ 0x11f0 int64_t _fini(): 0x1378 0 rsp = rsp - 8 0x137c 1 rsp = rsp + 8 0x1380 2 <return> jump(pop)	POJ_74
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x18 0x116e 7 rdi = 0x2010 {"%d"} 0x1175 8 rsi = rsp + 0xc {var_3c} 0x117a 9 eax = 0 0x117c 10 call(0x1040) 0x1186 11 if ([rsp + 0xc {var_3c}].d s<= 0) then 12 @ 0x128f else 21 @ 0x118c 0x128f 12 eax = 0 0x1291 13 rsp = rsp + 0x18 0x1295 14 rbx = pop 0x1296 15 r12 = pop 0x1298 16 r13 = pop 0x129a 17 r14 = pop 0x129c 18 r15 = pop 0x129e 19 rbp = pop 0x129f 20 <return> jump(pop) 0x118c 21 rbp = 0x4050 {""} 0x1193 22 r13 = 0x2013 {"%lf"} 0x119a 23 r12 = 0x2017 {"%.5lf\n"} 0x11a1 24 r14d = 0 0x11a4 25 goto 26 @ 0x11ce 0x11ce 26 rdi = 0x2010 {"%d"} 0x11d5 27 rsi = rsp + 8 {var_40} 0x11da 28 eax = 0 0x11dc 29 call(0x1040) 0x11e1 30 eax = [rsp + 8 {var_40}].d 0x11e5 31 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x11eb 32 if (eax s<= 0) then 33 @ 0x122f else 36 @ 0x11ed 0x122f 33 xmm1 = 0 0x1232 34 xmm1.q = float.d(eax) 0x1238 35 if (eax s<= 0) then 40 @ 0x1270 else 42 @ 0x123a 0x11ed 36 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x11f1 37 rbx = rbp 0x11f4 38 r15d = 0 0x11f7 39 goto 48 @ 0x1200 0x1270 40 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1270 41 goto 59 @ 0x1274 0x123a 42 xmm3.q = xmm3.q f/ xmm1.q 0x123e 43 eax = eax 0x1240 44 rax = rax << 3 0x1244 45 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1248 46 ecx = 0 0x124a 47 goto 67 @ 0x1250 0x1200 48 [rsp + 0x10 {var_38_1}].q = xmm3.q 0x1206 49 rdi = r13 0x1209 50 rsi = rbx 0x120c 51 eax = 0 0x120e 52 call(0x1040) 0x1213 53 xmm3 = zx.o([rsp + 0x10 {var_38_1}].q) 0x1219 54 xmm3.q = xmm3.q f+ fconvert.t([rbx].q) 0x121d 55 r15 = r15 + 1 0x1221 56 rax = sx.q([rsp + 8 {var_40}].d) 0x1226 57 rbx = rbx + 8 0x122d 58 if (r15 s< rax) then 48 @ 0x1200 else 33 @ 0x122f 0x1274 59 xmm0.q = xmm0.q f/ xmm1.q 0x1278 60 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1278 61 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1278 62 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1278 63 flag:s = 0 0x1278 64 flag:o = 0 0x1278 65 flag:a = 0 0x1280 66 if (flag:c) then 73 @ 0x11b0 else 75 @ 0x1286 0x1250 67 xmm2 = zx.o([rcx + rbp].q) 0x1255 68 xmm2.q = xmm2.q f- xmm3.q 0x1259 69 xmm2.q = xmm2.q f* xmm2.q 0x125d 70 xmm0.q = xmm0.q f+ xmm2.q 0x1261 71 rcx = rcx + 8 0x1268 72 if (rax != rcx) then 67 @ 0x1250 else 77 @ 0x126a 0x11b0 73 call(0x1050) 0x11b0 74 goto 78 @ 0x11b5 0x1286 75 xmm0 = _mm_sqrt_sd(xmm0.q) 0x128a 76 goto 78 @ 0x11b5 0x126a 77 goto 59 @ 0x1274 0x11b5 78 rdi = r12 0x11b8 79 al = 1 0x11ba 80 call(0x1030) 0x11bf 81 r14d = r14d + 1 0x11c8 82 if (r14d s>= [rsp + 0xc {var_3c}].d) then 12 @ 0x128f else 26 @ 0x11ce int64_t _fini(): 0x12a4 0 rsp = rsp - 8 0x12a8 1 rsp = rsp + 8 0x12ac 2 <return> jump(pop)	POJ_38
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1300 {"UAWAVAUATSHx"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) void big_small(int64_t arg1, int32_t arg2): 0x1160 0 push(rbx) 0x1163 1 if (esi s< 0) then 2 @ 0x1227 else 4 @ 0x1169 0x1227 2 rbx = pop 0x1228 3 <return> jump(pop) 0x1169 4 eax = (rsi + 1).d 0x116c 5 r9d = esi 0x116f 6 r8d = esi 0x1172 7 r8d = neg.d(r8d) 0x1175 8 r11d = 1 0x117b 9 r10d = 0 0x117e 10 goto 11 @ 0x118d 0x118d 11 rcx = r10 0x1190 12 r10 = r10 + 1 0x1197 13 if (rcx u>= r9) then 14 @ 0x1180 else 16 @ 0x1199 0x1180 14 r11 = r11 + 1 0x1187 15 if (r10 == rax) then 2 @ 0x1227 else 11 @ 0x118d 0x1199 16 ebx = esi 0x119b 17 ebx = ebx - ecx 0x119d 18 rdx = r11 0x11a3 19 if ((bl & 1) == 0) then 20 @ 0x11c4 else 23 @ 0x11a5 0x11c4 20 ebx = ecx 0x11c6 21 ebx = not.d(ebx) 0x11cb 22 if (ebx != r8d) then 32 @ 0x11d8 else 41 @ 0x11cd 0x11a5 23 xmm0 = [rdi + (rcx << 2)].d 0x11aa 24 xmm1 = [rdi + (r11 << 2)].d 0x11b0 25 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x11b0 26 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11b0 27 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11b0 28 flag:s = 0 0x11b0 29 flag:o = 0 0x11b0 30 flag:a = 0 0x11b3 31 if (flag:z \|\| flag:c) then 42 @ 0x11c0 else 44 @ 0x11b5 0x11d8 32 xmm0 = [rdi + (rcx << 2)].d 0x11dd 33 xmm1 = [rdi + (rdx << 2)].d 0x11e2 34 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x11e2 35 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11e2 36 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11e2 37 flag:s = 0 0x11e2 38 flag:o = 0 0x11e2 39 flag:a = 0 0x11e5 40 if (not(flag:z) && not(flag:c)) then 47 @ 0x1200 else 58 @ 0x11e7 0x11cd 41 goto 14 @ 0x1180 0x11c0 42 rdx = r11 + 1 0x11c0 43 goto 20 @ 0x11c4 0x11b5 44 [rdi + (rcx << 2)].d = xmm1.d 0x11ba 45 [rdi + (r11 << 2)].d = xmm0.d 0x11ba 46 goto 42 @ 0x11c0 0x1200 47 [rdi + (rcx << 2)].d = xmm1.d 0x1205 48 [rdi + (rdx << 2)].d = xmm0.d 0x120a 49 xmm0 = [rdi + (rcx << 2)].d 0x120f 50 xmm1 = [rdi + (rdx << 2) + 4].d 0x1215 51 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x1215 52 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1215 53 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1215 54 flag:s = 0 0x1215 55 flag:o = 0 0x1215 56 flag:a = 0 0x1218 57 if (flag:z \|\| flag:c) then 67 @ 0x11d0 else 69 @ 0x121a 0x11e7 58 xmm0 = [rdi + (rcx << 2)].d 0x11ec 59 xmm1 = [rdi + (rdx << 2) + 4].d 0x11f2 60 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x11f2 61 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11f2 62 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x11f2 63 flag:s = 0 0x11f2 64 flag:o = 0 0x11f2 65 flag:a = 0 0x11f5 66 if (flag:z \|\| flag:c) then 67 @ 0x11d0 else 72 @ 0x11f7 0x11d0 67 rdx = rdx + 2 0x11d6 68 if (eax == edx) then 14 @ 0x1180 else 32 @ 0x11d8 0x121a 69 [rdi + (rcx << 2)].d = xmm1.d 0x121f 70 [rdi + (rdx << 2) + 4].d = xmm0.d 0x1225 71 goto 67 @ 0x11d0 0x11f7 72 goto 69 @ 0x121a void small_big(int64_t arg1, int32_t arg2): 0x1230 0 push(rbx) 0x1233 1 if (esi s< 0) then 2 @ 0x12f7 else 4 @ 0x1239 0x12f7 2 rbx = pop 0x12f8 3 <return> jump(pop) 0x1239 4 eax = (rsi + 1).d 0x123c 5 r9d = esi 0x123f 6 r8d = esi 0x1242 7 r8d = neg.d(r8d) 0x1245 8 r11d = 1 0x124b 9 r10d = 0 0x124e 10 goto 11 @ 0x125d 0x125d 11 rcx = r10 0x1260 12 r10 = r10 + 1 0x1267 13 if (rcx u>= r9) then 14 @ 0x1250 else 16 @ 0x1269 0x1250 14 r11 = r11 + 1 0x1257 15 if (r10 == rax) then 2 @ 0x12f7 else 11 @ 0x125d 0x1269 16 ebx = esi 0x126b 17 ebx = ebx - ecx 0x126d 18 rdx = r11 0x1273 19 if ((bl & 1) == 0) then 20 @ 0x1294 else 23 @ 0x1275 0x1294 20 ebx = ecx 0x1296 21 ebx = not.d(ebx) 0x129b 22 if (ebx != r8d) then 32 @ 0x12a8 else 41 @ 0x129d 0x1275 23 xmm0 = [rdi + (rcx << 2)].d 0x127a 24 xmm1 = [rdi + (r11 << 2)].d 0x1280 25 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x1280 26 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1280 27 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1280 28 flag:s = 0 0x1280 29 flag:o = 0 0x1280 30 flag:a = 0 0x1283 31 if (flag:z \|\| flag:c) then 42 @ 0x1290 else 44 @ 0x1285 0x12a8 32 xmm0 = [rdi + (rcx << 2)].d 0x12ad 33 xmm1 = [rdi + (rdx << 2)].d 0x12b2 34 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x12b2 35 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12b2 36 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12b2 37 flag:s = 0 0x12b2 38 flag:o = 0 0x12b2 39 flag:a = 0 0x12b5 40 if (not(flag:z) && not(flag:c)) then 47 @ 0x12d0 else 58 @ 0x12b7 0x129d 41 goto 14 @ 0x1250 0x1290 42 rdx = r11 + 1 0x1290 43 goto 20 @ 0x1294 0x1285 44 [rdi + (rcx << 2)].d = xmm1.d 0x128a 45 [rdi + (r11 << 2)].d = xmm0.d 0x128a 46 goto 42 @ 0x1290 0x12d0 47 [rdi + (rcx << 2)].d = xmm1.d 0x12d5 48 [rdi + (rdx << 2)].d = xmm0.d 0x12da 49 xmm0 = [rdi + (rcx << 2)].d 0x12df 50 xmm1 = [rdi + (rdx << 2) + 4].d 0x12e5 51 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x12e5 52 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12e5 53 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12e5 54 flag:s = 0 0x12e5 55 flag:o = 0 0x12e5 56 flag:a = 0 0x12e8 57 if (flag:z \|\| flag:c) then 67 @ 0x12a0 else 69 @ 0x12ea 0x12b7 58 xmm0 = [rdi + (rcx << 2)].d 0x12bc 59 xmm1 = [rdi + (rdx << 2) + 4].d 0x12c2 60 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x12c2 61 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12c2 62 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x12c2 63 flag:s = 0 0x12c2 64 flag:o = 0 0x12c2 65 flag:a = 0 0x12c5 66 if (flag:z \|\| flag:c) then 67 @ 0x12a0 else 72 @ 0x12c7 0x12a0 67 rdx = rdx + 2 0x12a6 68 if (eax == edx) then 14 @ 0x1250 else 32 @ 0x12a8 0x12ea 69 [rdi + (rcx << 2)].d = xmm1.d 0x12ef 70 [rdi + (rdx << 2) + 4].d = xmm0.d 0x12f5 71 goto 67 @ 0x12a0 0x12c7 72 goto 69 @ 0x12ea int32_t main(int32_t argc, char argv, char envp): 0x1300 0 push(rbp) 0x1301 1 push(r15) 0x1303 2 push(r14) 0x1305 3 push(r13) 0x1307 4 push(r12) 0x1309 5 push(rbx) 0x130a 6 rsp = rsp - 0x278 0x1311 7 rdi = 0x2004 {"%d"} 0x1318 8 r12d = 0 0x131b 9 rsi = rsp + 0xc {var_29c} 0x1320 10 eax = 0 0x1322 11 call(0x1050) 0x1327 12 cond:0 = [rsp + 0xc {var_29c}].d s<= 0 0x132c 13 r13d = 0 0x1332 14 if (cond:0) then 15 @ 0x13cd else 20 @ 0x1338 0x13cd 15 eax = (r13 + 1).d 0x13d1 16 r8d = r13d 0x13d4 17 ebp = 1 0x13d9 18 esi = 0 0x13db 19 goto 27 @ 0x13ed 0x1338 20 rbx = rsp + 0x150 {var_158} 0x1340 21 r14 = 0x2007 {"%s"} 0x1347 22 r15 = 0x200a {"%f"} 0x134e 23 ebp = 0 0x1350 24 r12d = 0 0x1353 25 r13d = 0 0x1356 26 goto 30 @ 0x138b 0x13ed 27 rdi = rsi 0x13f0 28 rsi = rsi + 1 0x13f7 29 if (rdi u>= r8) then 37 @ 0x13e0 else 39 @ 0x13f9 0x138b 30 rdi = r14 0x138e 31 rsi = rbx 0x1391 32 eax = 0 0x1393 33 call(0x1050) 0x1398 34 rdi = rbx 0x139b 35 call(0x1040) 0x13a4 36 if (rax != 4) then 44 @ 0x1360 else 52 @ 0x13a6 0x13e0 37 rbp = rbp + 1 0x13e7 38 if (rsi == rax) then 60 @ 0x14c0 else 27 @ 0x13ed 0x13f9 39 ecx = r13d 0x13fc 40 ecx = ecx - edi 0x13fe 41 ebx = (rdi + 1).d 0x1401 42 rdx = rbp 0x1407 43 if ((cl & 1) == 0) then 61 @ 0x1439 else 62 @ 0x1409 0x1360 44 r12 = sx.q(r12d) 0x1363 45 rsi = rsp + (r12 << 2) 0x1367 46 rsi = rsi + 0x10 0x136b 47 rdi = r15 0x136e 48 eax = 0 0x1370 49 call(0x1050) 0x1375 50 r12d = r12d + 1 0x1375 51 goto 71 @ 0x1379 0x13a6 52 r13 = sx.q(r13d) 0x13a9 53 rsi = rsp + (r13 << 2) 0x13ad 54 rsi = rsi + 0xb0 0x13b4 55 rdi = r15 0x13b7 56 eax = 0 0x13b9 57 call(0x1050) 0x13be 58 r13d = r13d + 1 0x13c2 59 goto 71 @ 0x1379 0x14c0 60 if (r12d s< 0) then 75 @ 0x159e else 76 @ 0x14c6 0x1439 61 if (r13d != ebx) then 81 @ 0x1448 else 90 @ 0x143b 0x1409 62 xmm0 = [rsp + (rdi << 2) + 0xb0].d 0x1412 63 xmm1 = [rsp + (rbp << 2) + 0xb0].d 0x141b 64 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x141b 65 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x141b 66 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x141b 67 flag:s = 0 0x141b 68 flag:o = 0 0x141b 69 flag:a = 0 0x141e 70 if (flag:z \|\| flag:c) then 91 @ 0x1432 else 93 @ 0x1420 0x1379 71 rbp = rbp + 1 0x137d 72 rax = sx.q([rsp + 0xc {var_29c}].d) 0x1382 73 rbx = rbx + 7 0x1389 74 if (rbp s>= rax) then 96 @ 0x13c7 else 30 @ 0x138b 0x159e 75 if (r13d s<= 0) then 97 @ 0x15d0 else 99 @ 0x15a0 0x14c6 76 eax = (r12 + 1).d 0x14cb 77 r8d = r12d 0x14ce 78 ebp = 1 0x14d3 79 esi = 0 0x14d5 80 goto 103 @ 0x14ed 0x1448 81 xmm0 = [rsp + (rdi << 2) + 0xb0].d 0x1451 82 xmm1 = [rsp + (rdx << 2) + 0xb0].d 0x145a 83 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x145a 84 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x145a 85 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x145a 86 flag:s = 0 0x145a 87 flag:o = 0 0x145a 88 flag:a = 0 0x145d 89 if (not(flag:z) && not(flag:c)) then 106 @ 0x1480 else 117 @ 0x145f 0x143b 90 goto 37 @ 0x13e0 0x1432 91 rdx = rbp + 1 0x1432 92 goto 61 @ 0x1439 0x1420 93 [rsp + (rdi << 2) + 0xb0].d = xmm1.d 0x1429 94 [rsp + (rbp << 2) + 0xb0].d = xmm0.d 0x1429 95 goto 91 @ 0x1432 0x13c7 96 if (r13d s< 0) then 60 @ 0x14c0 else 15 @ 0x13cd 0x15d0 97 r14d = (r12 - 1).d 0x15d9 98 if (r12d s< 2) then 126 @ 0x160d else 141 @ 0x15db 0x15a0 99 r13d = r13d + 1 0x15a4 100 ebp = 1 0x15a9 101 rbx = 0x200d {"%3.2f "} 0x15a9 102 goto 145 @ 0x15b0 0x14ed 103 rdi = rsi 0x14f0 104 rsi = rsi + 1 0x14f7 105 if (rdi u>= r8) then 152 @ 0x14e0 else 154 @ 0x14f9 0x1480 106 [rsp + (rdi << 2) + 0xb0].d = xmm1.d 0x1489 107 [rsp + (rdx << 2) + 0xb0].d = xmm0.d 0x1492 108 xmm0 = [rsp + (rdi << 2) + 0xb0].d 0x149b 109 xmm1 = [rsp + (rdx << 2) + 0xb4].d 0x14a4 110 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x14a4 111 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x14a4 112 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x14a4 113 flag:s = 0 0x14a4 114 flag:o = 0 0x14a4 115 flag:a = 0 0x14a7 116 if (flag:z \|\| flag:c) then 159 @ 0x1440 else 161 @ 0x14a9 0x145f 117 xmm0 = [rsp + (rdi << 2) + 0xb0].d 0x1468 118 xmm1 = [rsp + (rdx << 2) + 0xb4].d 0x1471 119 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x1471 120 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1471 121 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1471 122 flag:s = 0 0x1471 123 flag:o = 0 0x1471 124 flag:a = 0 0x1474 125 if (flag:z \|\| flag:c) then 159 @ 0x1440 else 164 @ 0x1476 0x160d 126 rax = sx.q(r14d) 0x1610 127 xmm0 = [rsp + (rax << 2) + 0x10].d 0x1616 128 xmm0.q = fconvert.d(xmm0.d) 0x161a 129 rdi = 0x2014 {"%3.2f"} 0x1621 130 al = 1 0x1623 131 call(0x1030) 0x1628 132 eax = 0 0x162a 133 rsp = rsp + 0x278 0x1631 134 rbx = pop 0x1632 135 r12 = pop 0x1634 136 r13 = pop 0x1636 137 r14 = pop 0x1638 138 r15 = pop 0x163a 139 rbp = pop 0x163b 140 <return> jump(pop) 0x15db 141 ebp = r14d 0x15de 142 ebx = 0 0x15e0 143 r15 = 0x200d {"%3.2f "} 0x15e7 144 goto 165 @ 0x15f0 0x15b0 145 xmm0 = [rsp + (rbp << 2) + 0xb0].d 0x15b9 146 xmm0.q = fconvert.d(xmm0.d) 0x15bd 147 rdi = rbx 0x15c0 148 al = 1 0x15c2 149 call(0x1030) 0x15c7 150 rbp = rbp + 1 0x15ce 151 if (r13 != rbp) then 145 @ 0x15b0 else 97 @ 0x15d0 0x14e0 152 rbp = rbp + 1 0x14e7 153 if (rsi == rax) then 75 @ 0x159e else 103 @ 0x14ed 0x14f9 154 ecx = r12d 0x14fc 155 ecx = ecx - edi 0x14fe 156 ebx = (rdi + 1).d 0x1501 157 rdx = rbp 0x1507 158 if ((cl & 1) == 0) then 172 @ 0x152d else 173 @ 0x1509 0x1440 159 rdx = rdx + 2 0x1446 160 if (eax == edx) then 37 @ 0x13e0 else 81 @ 0x1448 0x14a9 161 [rsp + (rdi << 2) + 0xb0].d = xmm1.d 0x14b2 162 [rsp + (rdx << 2) + 0xb4].d = xmm0.d 0x14bb 163 goto 159 @ 0x1440 0x1476 164 goto 161 @ 0x14a9 0x15f0 165 xmm0 = [rsp + (rbx << 2) + 0x10].d 0x15f6 166 xmm0.q = fconvert.d(xmm0.d) 0x15fa 167 rdi = r15 0x15fd 168 al = 1 0x15ff 169 call(0x1030) 0x1604 170 rbx = rbx + 1 0x160b 171 if (rbp != rbx) then 165 @ 0x15f0 else 126 @ 0x160d 0x152d 172 if (r12d != ebx) then 182 @ 0x1548 else 191 @ 0x152f 0x1509 173 xmm0 = [rsp + (rdi << 2) + 0x10].d 0x150f 174 xmm1 = [rsp + (rbp << 2) + 0x10].d 0x1515 175 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x1515 176 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1515 177 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1515 178 flag:s = 0 0x1515 179 flag:o = 0 0x1515 180 flag:a = 0 0x1518 181 if (flag:z \|\| flag:c) then 192 @ 0x1526 else 194 @ 0x151a 0x1548 182 xmm0 = [rsp + (rdi << 2) + 0x10].d 0x154e 183 xmm1 = [rsp + (rdx << 2) + 0x10].d 0x1554 184 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x1554 185 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1554 186 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1554 187 flag:s = 0 0x1554 188 flag:o = 0 0x1554 189 flag:a = 0 0x1557 190 if (not(flag:z) && not(flag:c)) then 197 @ 0x1570 else 208 @ 0x1559 0x152f 191 goto 152 @ 0x14e0 0x1526 192 rdx = rbp + 1 0x1526 193 goto 172 @ 0x152d 0x151a 194 [rsp + (rdi << 2) + 0x10].d = xmm1.d 0x1520 195 [rsp + (rbp << 2) + 0x10].d = xmm0.d 0x1520 196 goto 192 @ 0x1526 0x1570 197 [rsp + (rdi << 2) + 0x10].d = xmm1.d 0x1576 198 [rsp + (rdx << 2) + 0x10].d = xmm0.d 0x157c 199 xmm0 = [rsp + (rdi << 2) + 0x10].d 0x1582 200 xmm1 = [rsp + (rdx << 2) + 0x14].d 0x1588 201 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x1588 202 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1588 203 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1588 204 flag:s = 0 0x1588 205 flag:o = 0 0x1588 206 flag:a = 0 0x158b 207 if (flag:z \|\| flag:c) then 217 @ 0x1540 else 219 @ 0x158d 0x1559 208 xmm0 = [rsp + (rdi << 2) + 0x10].d 0x155f 209 xmm1 = [rsp + (rdx << 2) + 0x14].d 0x1565 210 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x1565 211 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1565 212 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x1565 213 flag:s = 0 0x1565 214 flag:o = 0 0x1565 215 flag:a = 0 0x1568 216 if (flag:z \|\| flag:c) then 217 @ 0x1540 else 222 @ 0x156a 0x1540 217 rdx = rdx + 2 0x1546 218 if (eax == edx) then 152 @ 0x14e0 else 182 @ 0x1548 0x158d 219 [rsp + (rdi << 2) + 0x10].d = xmm1.d 0x1593 220 [rsp + (rdx << 2) + 0x14].d = xmm0.d 0x1599 221 goto 217 @ 0x1540 0x156a 222 goto 219 @ 0x158d int64_t _fini(): 0x1640 0 rsp = rsp - 8 0x1644 1 rsp = rsp + 8 0x1648 2 <return> jump(pop)	POJ_102
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) int32_t puts(char const* str): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"UHH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(rbp) 0x1171 1 rbp = rsp {__saved_rbp} 0x1174 2 rsp = rsp - 0xa0 0x117b 3 [rbp - 4 {var_c}].d = 0 0x1182 4 [rbp - 0x14 {var_1c}].d = 0 0x1189 5 rdx = rbp - 0x50 {var_58} 0x118d 6 rdi = 0x2004 {"%d %s %d"} 0x1194 7 rsi = rbp - 8 {var_10} 0x1198 8 rcx = rbp - 0xc {var_14} 0x119c 9 al = 0 0x119e 10 call(0x1050) 0x11a3 11 rdi = rbp - 0x50 {var_58} 0x11a7 12 call(0x1040) 0x11ac 13 [rbp - 0x18 {var_20}].d = eax 0x11af 14 [rbp - 0x10 {var_18}].d = 0 0x11af 15 goto 16 @ 0x11b6 0x11b6 16 eax = [rbp - 0x10 {var_18}].d 0x11bc 17 if (eax s>= [rbp - 0x18 {var_20}].d) then 18 @ 0x1261 else 26 @ 0x11c2 0x1261 18 rdi = rbp - 0x80 {var_88} 0x1265 19 esi = 0 0x1267 20 edx = 0x28 {"x7"} 0x126c 21 call(0x1030) 0x1271 22 eax = [rbp - 0x14 {var_1c}].d 0x1274 23 [rbp - 0x20 {var_28}].d = eax 0x1277 24 [rbp - 0x10 {var_18_1}].d = 0 0x1277 25 goto 29 @ 0x127e 0x11c2 26 rax = sx.q([rbp - 0x10 {var_18}].d) 0x11c6 27 eax = sx.d([rbp + rax - 0x50].b) 0x11ce 28 if (eax s< 0x61) then 56 @ 0x11ed else 59 @ 0x11d4 0x127e 29 eax = [rbp - 0x20 {var_28}].d 0x1281 30 temp2.d:temp3.d = sx.q(eax) 0x1281 31 edx = temp2.d 0x1281 32 eax = temp3.d 0x1282 33 temp4.d = edx 0x1282 34 temp5.d = eax 0x1282 35 temp0.d = divs.dp.d(temp4.d:temp5.d, [rbp - 0xc {var_14}].d) 0x1282 36 temp6.d = edx 0x1282 37 temp7.d = eax 0x1282 38 temp1.d = mods.dp.d(temp6.d:temp7.d, [rbp - 0xc {var_14}].d) 0x1282 39 eax = temp0.d 0x1282 40 edx = temp1.d 0x1285 41 [rbp - 0x1c {var_24_1}].d = edx 0x1288 42 eax = [rbp - 0x20 {var_28}].d 0x128b 43 temp8.d:temp9.d = sx.q(eax) 0x128b 44 edx = temp8.d 0x128b 45 eax = temp9.d 0x128c 46 temp10.d = edx 0x128c 47 temp11.d = eax 0x128c 48 temp0.d = divs.dp.d(temp10.d:temp11.d, [rbp - 0xc {var_14}].d) 0x128c 49 temp12.d = edx 0x128c 50 temp13.d = eax 0x128c 51 temp1.d = mods.dp.d(temp12.d:temp13.d, [rbp - 0xc {var_14}].d) 0x128c 52 eax = temp0.d 0x128c 53 edx = temp1.d 0x128f 54 [rbp - 0x20 {var_28}].d = eax 0x1296 55 if ([rbp - 0x1c {var_24_1}].d s> 9) then 67 @ 0x12b1 else 74 @ 0x129c 0x11ed 56 rax = sx.q([rbp - 0x10 {var_18}].d) 0x11f1 57 eax = sx.d([rbp + rax - 0x50].b) 0x11f9 58 if (eax s< 0x41) then 80 @ 0x121f else 83 @ 0x11ff 0x11d4 59 rax = sx.q([rbp - 0x10 {var_18}].d) 0x11d8 60 eax = sx.d([rbp + rax - 0x50].b) 0x11dd 61 eax = eax + 0x41 0x11e0 62 eax = eax - 0x61 0x11e3 63 cl = al 0x11e5 64 rax = sx.q([rbp - 0x10 {var_18}].d) 0x11e9 65 [rbp + rax - 0x50].b = cl 0x11e9 66 goto 56 @ 0x11ed 0x12b1 67 eax = [rbp - 0x1c {var_24_1}].d 0x12b4 68 eax = eax - 0xa 0x12b7 69 eax = eax + 0x41 0x12ba 70 cl = al 0x12bc 71 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x12c0 72 [rbp + rax - 0x80].b = cl 0x12c0 73 goto 92 @ 0x12c4 0x129c 74 eax = [rbp - 0x1c {var_24_1}].d 0x129f 75 eax = eax + 0x30 0x12a2 76 cl = al 0x12a4 77 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x12a8 78 [rbp + rax - 0x80].b = cl 0x12ac 79 goto 92 @ 0x12c4 0x121f 80 rax = sx.q([rbp - 0x10 {var_18}].d) 0x1223 81 eax = sx.d([rbp + rax - 0x50].b) 0x122b 82 if (eax s> 0x39) then 96 @ 0x1249 else 97 @ 0x1231 0x11ff 83 rax = sx.q([rbp - 0x10 {var_18}].d) 0x1203 84 eax = sx.d([rbp + rax - 0x50].b) 0x1208 85 eax = eax + 0xa 0x120b 86 eax = eax - 0x41 0x120e 87 ecx = [rbp - 0x14 {var_1c}].d 0x1211 88 ecx = ecx * [rbp - 8 {var_10}].d 0x1215 89 eax = eax + ecx 0x1217 90 [rbp - 0x14 {var_1c}].d = eax 0x121a 91 goto 105 @ 0x124e 0x12c4 92 eax = [rbp - 0x10 {var_18_1}].d 0x12c7 93 eax = eax + 1 0x12ca 94 [rbp - 0x18 {var_20_1}].d = eax 0x12d1 95 if ([rbp - 0x20 {var_28}].d != 0) then 106 @ 0x12dc else 107 @ 0x12d7 0x1249 96 goto 105 @ 0x124e 0x1231 97 rax = sx.q([rbp - 0x10 {var_18}].d) 0x1235 98 eax = sx.d([rbp + rax - 0x50].b) 0x123a 99 eax = eax - 0x30 0x123d 100 ecx = [rbp - 0x14 {var_1c}].d 0x1240 101 ecx = ecx * [rbp - 8 {var_10}].d 0x1244 102 eax = eax + ecx 0x1246 103 [rbp - 0x14 {var_1c}].d = eax 0x1246 104 goto 96 @ 0x1249 0x124e 105 goto 108 @ 0x1253 0x12dc 106 goto 112 @ 0x12e1 0x12d7 107 goto 116 @ 0x12ef 0x1253 108 eax = [rbp - 0x10 {var_18}].d 0x1256 109 eax = eax + 1 0x1259 110 [rbp - 0x10 {var_18}].d = eax 0x125c 111 goto 16 @ 0x11b6 0x12e1 112 eax = [rbp - 0x10 {var_18_1}].d 0x12e4 113 eax = eax + 1 0x12e7 114 [rbp - 0x10 {var_18_1}].d = eax 0x12ea 115 goto 29 @ 0x127e 0x12ef 116 eax = [rbp - 0x18 {var_20_1}].d 0x12f2 117 rcx = rsp {var_a8} 0x12f5 118 [rbp - 0x88 {var_90}].q = rcx {var_a8} 0x12fc 119 rdx = rax 0x12ff 120 rdx = rdx + 0xf 0x1303 121 rdx = rdx & 0xfffffffffffffff0 0x1307 122 rcx = rsp {var_a8} 0x130a 123 rcx = rcx - rdx 0x130d 124 [rbp - 0x98 {var_a0}].q = rcx 0x1314 125 rsp = rcx 0x1317 126 [rbp - 0x90 {var_98}].q = rax 0x131e 127 [rbp - 0x10 {var_18_2}].d = 0 0x131e 128 goto 129 @ 0x1325 0x1325 129 eax = [rbp - 0x10 {var_18_2}].d 0x1328 130 ecx = [rbp - 0x18 {var_20_1}].d 0x132b 131 ecx = ecx - 1 0x1330 132 if (eax s> ecx) then 133 @ 0x1362 else 144 @ 0x1336 0x1362 133 rdi = [rbp - 0x98 {var_a0}].q 0x1369 134 rax = sx.q([rbp - 0x18 {var_20_1}].d) 0x136d 135 [rdi + rax].b = 0 0x1371 136 al = 0 0x1373 137 call(0x1060) 0x1378 138 rax = [rbp - 0x88].q {var_a8} 0x137f 139 rsp = rax 0x1382 140 eax = [rbp - 4 {var_c}].d 0x1385 141 rsp = rbp 0x1388 142 rbp = pop 0x1389 143 <return> jump(pop) 0x1336 144 rax = [rbp - 0x98 {var_a0}].q 0x133d 145 rcx = sx.q([rbp - 0x10 {var_18_2}].d) 0x1341 146 dl = [rbp + rcx - 0x80].b 0x1345 147 ecx = [rbp - 0x18 {var_20_1}].d 0x1348 148 ecx = ecx - 1 0x134b 149 ecx = ecx - [rbp - 0x10 {var_18_2}].d 0x134e 150 rcx = sx.q(ecx) 0x1351 151 [rax + rcx].b = dl 0x1354 152 eax = [rbp - 0x10 {var_18_2}].d 0x1357 153 eax = eax + 1 0x135a 154 [rbp - 0x10 {var_18_2}].d = eax 0x135d 155 goto 129 @ 0x1325 int64_t _fini(): 0x1390 0 rsp = rsp - 8 0x1394 1 rsp = rsp + 8 0x1398 2 <return> jump(pop)	POJ_55
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSH8H="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x38 0x116e 7 rdi = 0x2028 {"%f"} 0x1175 8 rsi = rsp + 0x14 {var_54} 0x117a 9 eax = 0 0x117c 10 call(0x1040) 0x1181 11 xmm0 = [rsp + 0x14 {var_54}].d 0x1187 12 flag:p = is_unordered.d(xmm0.d, fconvert.t([0x2004].d)) 0x1187 13 flag:c = xmm0.d f< fconvert.t([0x2004].d) \| is_unordered.d(xmm0.d, fconvert.t([0x2004].d)) 0x1187 14 flag:z = xmm0.d f== fconvert.t([0x2004].d) \| is_unordered.d(xmm0.d, fconvert.t([0x2004].d)) 0x1187 15 flag:s = 0 0x1187 16 flag:o = 0 0x1187 17 flag:a = 0 0x118e 18 if (not(flag:c)) then 19 @ 0x11a1 else 27 @ 0x1190 0x11a1 19 xmm1 = [0x2004].d 0x11a9 20 r14 = 0x202b {"%f %f %f\n"} 0x11b0 21 r15 = rsp + 0x10 {var_58} 0x11b5 22 r12 = rsp + 0x1c {var_4c} 0x11ba 23 rbx = rsp + 0x18 {var_50} 0x11bf 24 r13 = 0x2035 {"x1=%.5f+%.5fi;x2=%.5f-%.5fi\n"} 0x11c6 25 rbp = 0x2052 {"x1=x2=%.5f\n"} 0x11cd 26 goto 36 @ 0x1230 0x1190 27 eax = 0 0x1192 28 rsp = rsp + 0x38 0x1196 29 rbx = pop 0x1197 30 r12 = pop 0x1199 31 r13 = pop 0x119b 32 r14 = pop 0x119d 33 r15 = pop 0x119f 34 rbp = pop 0x11a0 35 <return> jump(pop) 0x1230 36 [rsp + 0xc {var_5c_1}].d = xmm1.d 0x1236 37 rdi = r14 0x1239 38 rsi = r15 {var_58} 0x123c 39 rdx = r12 {var_4c} 0x123f 40 rcx = rbx {var_50} 0x1242 41 eax = 0 0x1244 42 call(0x1040) 0x1249 43 xmm1 = [rsp + 0x10 {var_58}].d 0x124f 44 xmm2 = xmm1 0x1252 45 xmm2.d = xmm2.d f* fconvert.t([0x2008].d) 0x125a 46 xmm2.d = xmm2.d f* fconvert.t([rsp + 0x18 {var_50}].d) 0x1260 47 xmm0 = [rsp + 0x1c {var_4c}].d 0x1266 48 xmm3 = xmm0 0x1269 49 xmm4 = [0x2010].o 0x1270 50 xmm3 = xmm3 ^ xmm4 0x1273 51 xmm6 = xmm0 0x1276 52 xmm5 = 0 0x1279 53 xmm6 = _mm_cmpeq_ss(xmm6.d, xmm5.d, 4) 0x127e 54 xmm3 = _mm_and_ps(xmm3, xmm6) 0x1281 55 xmm6 = _mm_andnot_ps(xmm6, xmm0) 0x1284 56 xmm0.d = xmm0.d f* xmm0.d 0x1288 57 xmm0.d = xmm0.d f+ xmm2.d 0x128c 58 xmm6 = _mm_or_ps(xmm6, xmm3) 0x128f 59 xmm1.d = xmm1.d f+ xmm1.d 0x1293 60 xmm6.d = xmm6.d f/ xmm1.d 0x1297 61 flag:p = is_unordered.d(xmm5.d, xmm0.d) 0x1297 62 flag:c = xmm5.d f< xmm0.d \| is_unordered.d(xmm5.d, xmm0.d) 0x1297 63 flag:z = xmm5.d f== xmm0.d \| is_unordered.d(xmm5.d, xmm0.d) 0x1297 64 flag:s = 0 0x1297 65 flag:o = 0 0x1297 66 flag:a = 0 0x129a 67 if (flag:z \|\| flag:c) then 68 @ 0x12c0 else 76 @ 0x129c 0x12c0 68 xmm0.q = fconvert.d(xmm0.d) 0x12c4 69 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12c4 70 flag:c = xmm0.q f< fconvert.t([0x2020].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12c4 71 flag:z = xmm0.q f== fconvert.t([0x2020].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12c4 72 flag:s = 0 0x12c4 73 flag:o = 0 0x12c4 74 flag:a = 0 0x12cc 75 if (flag:c) then 85 @ 0x12e0 else 89 @ 0x12ce 0x129c 76 xmm0 = xmm0 ^ xmm4 0x129f 77 xmm0.q = fconvert.d(xmm0.d) 0x12a3 78 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12a3 79 flag:c = xmm0.q f< fconvert.t([0x2020].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12a3 80 flag:z = xmm0.q f== fconvert.t([0x2020].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2020].q)) 0x12a3 81 flag:s = 0 0x12a3 82 flag:o = 0 0x12a3 83 flag:a = 0 0x12ab 84 if (flag:c) then 91 @ 0x11d0 else 95 @ 0x12b1 0x12e0 85 [rsp + 0x20 {var_48_2}].o = xmm6 0x12e5 86 call(0x1050) 0x12ea 87 xmm6 = [rsp + 0x20 {var_48_2}].o 0x12ea 88 goto 97 @ 0x12ef 0x12ce 89 xmm0 = _mm_sqrt_sd(xmm0.q) 0x12d2 90 goto 97 @ 0x12ef 0x11d0 91 [rsp + 0x20 {var_48_1}].o = xmm6 0x11d5 92 call(0x1050) 0x11da 93 xmm6 = [rsp + 0x20 {var_48_1}].o 0x11da 94 goto 114 @ 0x11df 0x12b1 95 xmm0 = _mm_sqrt_sd(xmm0.q) 0x12b5 96 goto 114 @ 0x11df 0x12ef 97 xmm1 = [rsp + 0x10 {var_58}].d 0x12f5 98 xmm1.d = xmm1.d f+ xmm1.d 0x12f9 99 xmm1.q = fconvert.d(xmm1.d) 0x12fd 100 xmm0.q = xmm0.q f/ xmm1.q 0x1301 101 xmm2 = 0 0x1304 102 xmm2.d = fconvert.s(xmm0.q) 0x1308 103 xmm0 = xmm6 0x130b 104 xmm0.d = xmm0.d f+ xmm2.d 0x130f 105 xmm1 = xmm6 0x1312 106 xmm1.d = xmm1.d f- xmm2.d 0x1316 107 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x1316 108 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1316 109 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1316 110 flag:s = 0 0x1316 111 flag:o = 0 0x1316 112 flag:a = 0 0x1319 113 if (not(flag:z)) then 129 @ 0x1333 else 135 @ 0x131b 0x11df 114 xmm1 = [rsp + 0x10 {var_58}].d 0x11e5 115 xmm1.d = xmm1.d f+ xmm1.d 0x11e9 116 xmm1.q = fconvert.d(xmm1.d) 0x11ed 117 xmm0.q = xmm0.q f/ xmm1.q 0x11f1 118 xmm1 = 0 0x11f4 119 xmm1.d = fconvert.s(xmm0.q) 0x11f8 120 xmm0 = 0 0x11fb 121 xmm0.q = fconvert.d(xmm6.d) 0x11ff 122 xmm1.q = fconvert.d(xmm1.d) 0x1203 123 rdi = r13 0x1206 124 xmm2 = xmm0 0x1209 125 xmm3 = xmm1 0x120c 126 al = 4 0x120e 127 call(0x1030) 0x120e 128 goto 136 @ 0x1213 0x1333 129 xmm0.q = fconvert.d(xmm0.d) 0x1337 130 xmm1.q = fconvert.d(xmm1.d) 0x133b 131 rdi = 0x205e {"x1=%.5f;x2=%.5f\n"} 0x1342 132 al = 2 0x1344 133 call(0x1030) 0x1349 134 goto 136 @ 0x1213 0x131b 135 if (flag:p) then 129 @ 0x1333 else 146 @ 0x131d 0x1213 136 xmm1 = [rsp + 0xc {var_5c_1}].d 0x1219 137 xmm1.d = xmm1.d f+ fconvert.t([0x2004].d) 0x1221 138 xmm0 = [rsp + 0x14 {var_54}].d 0x1227 139 flag:p = is_unordered.d(xmm0.d, xmm1.d) 0x1227 140 flag:c = xmm0.d f< xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1227 141 flag:z = xmm0.d f== xmm1.d \| is_unordered.d(xmm0.d, xmm1.d) 0x1227 142 flag:s = 0 0x1227 143 flag:o = 0 0x1227 144 flag:a = 0 0x122a 145 if (flag:c) then 27 @ 0x1190 else 36 @ 0x1230 0x131d 146 xmm0 = 0 0x1320 147 xmm0.q = fconvert.d(xmm6.d) 0x1324 148 rdi = rbp 0x1327 149 al = 1 0x1329 150 call(0x1030) 0x132e 151 goto 136 @ 0x1213 int64_t _fini(): 0x1354 0 rsp = rsp - 8 0x1358 1 rsp = rsp + 8 0x135c 2 <return> jump(pop)	POJ_27
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1250 {"UAVSHpH= "} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) uint64_t gpa(int32_t arg1, int32_t arg2): 0x1160 0 eax = (rdi - 0x5a).d 0x1166 1 if (eax u> 0xa) then 2 @ 0x117d else 4 @ 0x1168 0x117d 2 eax = (rdi - 0x55).d 0x1183 3 if (eax u> 4) then 8 @ 0x119a else 10 @ 0x1185 0x1168 4 xmm0.q = float.d(esi) 0x116c 5 xmm0.q = xmm0.q f* fconvert.t([0x2038].q) 0x1174 6 xmm0.d = fconvert.s(xmm0.q) 0x1178 7 goto 14 @ 0x1247 0x119a 8 eax = (rdi - 0x52).d 0x11a0 9 if (eax u> 2) then 16 @ 0x11b7 else 18 @ 0x11a2 0x1185 10 xmm0.q = float.d(esi) 0x1189 11 xmm0.q = xmm0.q f* fconvert.t([0x2030].q) 0x1191 12 xmm0.d = fconvert.s(xmm0.q) 0x1195 13 goto 14 @ 0x1247 0x1247 14 [0x4044].d = xmm0.d 0x1247 15 goto 22 @ 0x124f 0x11b7 16 eax = (rdi - 0x4e).d 0x11bd 17 if (eax u> 3) then 23 @ 0x11d1 else 25 @ 0x11bf 0x11a2 18 xmm0.q = float.d(esi) 0x11a6 19 xmm0.q = xmm0.q f* fconvert.t([0x2028].q) 0x11ae 20 xmm0.d = fconvert.s(xmm0.q) 0x11b2 21 goto 14 @ 0x1247 0x124f 22 <return> jump(pop) 0x11d1 23 eax = (rdi - 0x4b).d 0x11d7 24 if (eax u> 2) then 29 @ 0x11eb else 31 @ 0x11d9 0x11bf 25 xmm0.q = float.d(esi) 0x11c3 26 xmm0.q = xmm0.q f* fconvert.t([0x2020].q) 0x11cb 27 xmm0.d = fconvert.s(xmm0.q) 0x11cf 28 goto 14 @ 0x1247 0x11eb 29 eax = (rdi - 0x48).d 0x11f1 30 if (eax u> 2) then 35 @ 0x1205 else 38 @ 0x11f3 0x11d9 31 xmm0.q = float.d(esi) 0x11dd 32 xmm0.q = xmm0.q f* fconvert.t([0x2018].q) 0x11e5 33 xmm0.d = fconvert.s(xmm0.q) 0x11e9 34 goto 14 @ 0x1247 0x1205 35 eax = edi 0x1207 36 eax = eax & 0xfffffffc 0x120d 37 if (eax == 0x3c) then 42 @ 0x1227 else 44 @ 0x1212 0x11f3 38 xmm0.q = float.d(esi) 0x11f7 39 xmm0.q = xmm0.q f* fconvert.t([0x2010].q) 0x11ff 40 xmm0.d = fconvert.s(xmm0.q) 0x1203 41 goto 14 @ 0x1247 0x1227 42 xmm0.d = float.s(esi) 0x122b 43 goto 14 @ 0x1247 0x1212 44 if (eax == 0x40) then 45 @ 0x122d else 49 @ 0x1217 0x122d 45 xmm0.q = float.d(esi) 0x1231 46 xmm0.q = xmm0.q f* fconvert.t([0x2008].q) 0x1239 47 xmm0.d = fconvert.s(xmm0.q) 0x123d 48 goto 14 @ 0x1247 0x1217 49 if (eax != 0x44) then 50 @ 0x123f else 52 @ 0x1219 0x123f 50 xmm0 = 0 0x1245 51 if (edi s> 0x3b) then 22 @ 0x124f else 14 @ 0x1247 0x1219 52 xmm0.q = float.d(esi) 0x121d 53 xmm0.q = xmm0.q f+ xmm0.q 0x1221 54 xmm0.d = fconvert.s(xmm0.q) 0x1225 55 goto 14 @ 0x1247 int32_t main(int32_t argc, char argv, char envp): 0x1250 0 push(rbp) 0x1251 1 push(r14) 0x1253 2 push(rbx) 0x1254 3 rsp = rsp - 0x70 0x1258 4 rdi = 0x2044 {"%d"} 0x125f 5 rsi = rsp + 8 {var_80} 0x1264 6 eax = 0 0x1266 7 call(0x1040) 0x126b 8 edi = 0xa {""} 0x1270 9 call(0x1050) 0x127a 10 if ([rsp + 8 {var_80}].d s<= 0) then 11 @ 0x12af else 14 @ 0x127c 0x12af 11 edi = 0xa {""} 0x12b4 12 call(0x1050) 0x12be 13 if ([rsp + 8 {var_80}].d s<= 0) then 18 @ 0x12ef else 21 @ 0x12c0 0x127c 14 rbx = rsp + 0x10 {var_78} 0x1281 15 r14 = 0x2044 {"%d"} 0x1288 16 ebp = 0 0x128a 17 goto 25 @ 0x1290 0x12ef 18 edi = 0xa {""} 0x12f4 19 call(0x1050) 0x12fe 20 if ([rsp + 8 {var_80}].d s<= 0) then 33 @ 0x134d else 35 @ 0x1300 0x12c0 21 rbx = rsp + 0x40 {var_48} 0x12c5 22 r14 = 0x2044 {"%d"} 0x12cc 23 ebp = 0 0x12ce 24 goto 39 @ 0x12d0 0x1290 25 rdi = r14 0x1293 26 rsi = rbx 0x1296 27 eax = 0 0x1298 28 call(0x1040) 0x129d 29 rbp = rbp + 1 0x12a1 30 rax = sx.q([rsp + 8 {var_80}].d) 0x12a6 31 rbx = rbx + 4 0x12ad 32 if (rbp s< rax) then 25 @ 0x1290 else 11 @ 0x12af 0x134d 33 xmm1 = [0x2040].d 0x134d 34 goto 47 @ 0x1355 0x1300 35 xmm1 = 0 0x1303 36 ebx = 0 0x1305 37 ebp = 0 0x1307 38 goto 59 @ 0x1310 0x12d0 39 rdi = r14 0x12d3 40 rsi = rbx 0x12d6 41 eax = 0 0x12d8 42 call(0x1040) 0x12dd 43 rbp = rbp + 1 0x12e1 44 rax = sx.q([rsp + 8 {var_80}].d) 0x12e6 45 rbx = rbx + 4 0x12ed 46 if (rbp s< rax) then 39 @ 0x12d0 else 18 @ 0x12ef 0x1355 47 [0x4044].d = xmm1.d 0x135d 48 xmm0 = 0 0x1360 49 xmm0.q = fconvert.d(xmm1.d) 0x1364 50 rdi = 0x2047 {"%.2f"} 0x136b 51 al = 1 0x136d 52 call(0x1030) 0x1372 53 eax = 0 0x1374 54 rsp = rsp + 0x70 0x1378 55 rbx = pop 0x1379 56 r14 = pop 0x137b 57 rbp = pop 0x137c 58 <return> jump(pop) 0x1310 59 [rsp + 0xc {var_7c_1}].d = xmm1.d 0x1316 60 edi = [rsp + (rbx << 2) + 0x40].d 0x131a 61 esi = [rsp + (rbx << 2) + 0x10].d 0x131e 62 call(0x1160) 0x1323 63 xmm1 = [rsp + 0xc {var_7c_1}].d 0x1329 64 xmm1.d = xmm1.d f+ fconvert.t([0x4044].d) 0x1331 65 ebp = ebp + [rsp + (rbx << 2) + 0x10].d 0x1335 66 rbx = rbx + 1 0x1339 67 rax = sx.q([rsp + 8 {var_80}].d) 0x1341 68 if (rbx s< rax) then 59 @ 0x1310 else 69 @ 0x1343 0x1343 69 xmm0.d = float.s(ebp) 0x1347 70 xmm1.d = xmm1.d f/ xmm0.d 0x134b 71 goto 47 @ 0x1355 int64_t _fini(): 0x1384 0 rsp = rsp - 8 0x1388 1 rsp = rsp + 8 0x138c 2 <return> jump(pop)	POJ_83
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHXH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x58 0x116e 7 rdi = 0x2030 {"%d\n"} 0x1175 8 rsi = rsp + 0x1c {var_6c} 0x117a 9 eax = 0 0x117c 10 call(0x1040) 0x1186 11 if ([rsp + 0x1c {var_6c}].d == 0) then 12 @ 0x1428 else 20 @ 0x118c 0x1428 12 rsp = rsp + 0x58 0x142c 13 rbx = pop 0x142d 14 r12 = pop 0x142f 15 r13 = pop 0x1431 16 r14 = pop 0x1433 17 r15 = pop 0x1435 18 rbp = pop 0x1436 19 <return> jump(pop) 0x118c 20 r14 = 0x2034 {"%lf %lf %lf"} 0x1193 21 r15 = rsp + 0x10 {var_78} 0x1198 22 r12 = rsp + 0x38 {var_50} 0x119d 23 rbx = rsp + 0x30 {var_58} 0x11a2 24 r13 = 0x2040 {"x1=%.5lf;x2=%.5lf\n"} 0x11a9 25 rbp = 0x2053 {"x1=x2=%.5lf\n"} 0x11b0 26 goto 27 @ 0x122e 0x122e 27 rdi = r14 0x1231 28 rsi = r15 {var_78} 0x1234 29 rdx = r12 {var_50} 0x1237 30 rcx = rbx {var_58} 0x123a 31 eax = 0 0x123c 32 call(0x1040) 0x1241 33 xmm4 = zx.o([rsp + 0x38 {var_50}].q) 0x1247 34 xmm5 = zx.o([rsp + 0x10 {var_78}].q) 0x124d 35 xmm0 = xmm5 0x1251 36 xmm0.q = xmm0.q f* fconvert.t([0x2008].q) 0x1259 37 xmm0.q = xmm0.q f* fconvert.t([rsp + 0x30 {var_58}].q) 0x125f 38 xmm2 = xmm4 0x1263 39 xmm2.q = xmm2.q f* xmm4.q 0x1267 40 xmm1 = xmm2 0x126b 41 xmm1.q = xmm1.q f- xmm0.q 0x126f 42 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x126f 43 flag:c = xmm1.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x126f 44 flag:z = xmm1.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x126f 45 flag:s = 0 0x126f 46 flag:o = 0 0x126f 47 flag:a = 0 0x1277 48 if (flag:z \|\| flag:c) then 49 @ 0x1290 else 50 @ 0x1279 0x1290 49 if (not(flag:z)) then 52 @ 0x12fe else 60 @ 0x1292 0x1279 50 [rsp + 0x20 {var_68_1}].o = xmm4 0x127f 51 if (flag:c) then 61 @ 0x12b0 else 65 @ 0x1281 0x12fe 52 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x1302 53 flag:p = is_unordered.q(xmm3.q, xmm1.q) 0x1302 54 flag:c = xmm3.q f< xmm1.q \| is_unordered.q(xmm3.q, xmm1.q) 0x1302 55 flag:z = xmm3.q f== xmm1.q \| is_unordered.q(xmm3.q, xmm1.q) 0x1302 56 flag:s = 0 0x1302 57 flag:o = 0 0x1302 58 flag:a = 0 0x1306 59 if (flag:z \|\| flag:c) then 68 @ 0x1223 else 71 @ 0x130c 0x1292 60 if (flag:p) then 52 @ 0x12fe else 79 @ 0x1294 0x12b0 61 xmm0 = xmm1 0x12b4 62 call(0x1050) 0x12b9 63 xmm2 = xmm0 0x12b9 64 goto 86 @ 0x12bd 0x1281 65 xmm2 = 0 0x1284 66 xmm2 = _mm_sqrt_sd(xmm1.q) 0x1288 67 goto 86 @ 0x12bd 0x1223 68 temp0.d = [rsp + 0x1c {var_6c}].d 0x1223 69 [rsp + 0x1c {var_6c}].d = [rsp + 0x1c {var_6c}].d - 1 0x1228 70 if (temp0.d == 1) then 12 @ 0x1428 else 27 @ 0x122e 0x130c 71 xmm0.q = xmm0.q f- xmm2.q 0x1310 72 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1310 73 flag:c = xmm0.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1310 74 flag:z = xmm0.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1310 75 flag:s = 0 0x1310 76 flag:o = 0 0x1310 77 flag:a = 0 0x1318 78 if (flag:c) then 101 @ 0x138e else 108 @ 0x131a 0x1294 79 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x1294 80 flag:c = xmm1.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x1294 81 flag:z = xmm1.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2018].q)) 0x1294 82 flag:s = 0 0x1294 83 flag:o = 0 0x1294 84 flag:a = 0 0x129c 85 if (flag:c) then 111 @ 0x1326 else 117 @ 0x12a2 0x12bd 86 xmm4 = zx.o([rsp + 0x10 {var_78}].q) 0x12c3 87 xmm1 = zx.o([rsp + 0x38 {var_50}].q) 0x12c9 88 xmm3 = xmm4 0x12cd 89 xmm3.q = xmm3.q f* fconvert.t([0x2010].q) 0x12d5 90 xmm3.q = xmm3.q f* fconvert.t([rsp + 0x30 {var_58}].q) 0x12db 91 xmm0 = xmm1 0x12df 92 xmm0.q = xmm0.q f* xmm1.q 0x12e3 93 xmm0.q = xmm0.q f+ xmm3.q 0x12e7 94 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x12e7 95 flag:c = xmm0.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x12e7 96 flag:z = xmm0.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x12e7 97 flag:s = 0 0x12e7 98 flag:o = 0 0x12e7 99 flag:a = 0 0x12ef 100 if (flag:c) then 120 @ 0x11c0 else 128 @ 0x12f5 0x138e 101 [rsp + 0x20 {var_68_3}].o = xmm4 0x1394 102 [rsp + 8 {var_80_2}].q = xmm5.q 0x139a 103 call(0x1050) 0x139f 104 xmm5 = zx.o([rsp + 8 {var_80_2}].q) 0x13a5 105 xmm4 = [rsp + 0x20 {var_68_3}].o 0x13ab 106 xmm1 = xmm0 0x13ab 107 goto 130 @ 0x13af 0x131a 108 xmm1 = 0 0x131d 109 xmm1 = _mm_sqrt_sd(xmm0.q) 0x1321 110 goto 130 @ 0x13af 0x1326 111 xmm0 = xmm1 0x132a 112 [rsp + 0x20 {var_68_2}].o = xmm4 0x1330 113 call(0x1050) 0x1335 114 xmm4 = [rsp + 0x20 {var_68_2}].o 0x133b 115 xmm2 = xmm0 0x133b 116 goto 143 @ 0x133f 0x12a2 117 xmm2 = 0 0x12a5 118 xmm2 = _mm_sqrt_sd(xmm1.q) 0x12a9 119 goto 143 @ 0x133f 0x11c0 120 [rsp + 8 {var_80_1}].q = xmm2.q 0x11c6 121 [rsp + 0x40 {var_48}].o = xmm1 0x11cc 122 [rsp + 0x50 {var_38_1}].q = xmm4.q 0x11d2 123 call(0x1050) 0x11d7 124 xmm4 = zx.o([rsp + 0x50 {var_38_1}].q) 0x11dd 125 xmm1 = [rsp + 0x40 {var_48}].o 0x11e3 126 xmm2 = zx.o([rsp + 8 {var_80_1}].q) 0x11e3 127 goto 158 @ 0x11e9 0x12f5 128 xmm0 = _mm_sqrt_sd(xmm0.q) 0x12f9 129 goto 158 @ 0x11e9 0x13af 130 xmm4 = __xorpd_xmmxuq_memxuq(xmm4, [0x2020].o) 0x13b7 131 xmm5.q = xmm5.q f+ xmm5.q 0x13bb 132 xmm4.q = xmm4.q f/ xmm5.q 0x13bf 133 xmm0 = zx.o([rsp + 0x10 {var_78}].q) 0x13c5 134 xmm0.q = xmm0.q f+ xmm0.q 0x13c9 135 xmm1.q = xmm1.q f/ xmm0.q 0x13cd 136 rdi = 0x2060 {"x1=%.5lf+%.5lfi;x2=%.5lf-%.5lfi\n"} 0x13d4 137 xmm0 = xmm4 0x13d8 138 xmm2 = xmm4 0x13dc 139 xmm3 = xmm1 0x13e0 140 al = 4 0x13e2 141 call(0x1030) 0x13e7 142 goto 68 @ 0x1223 0x133f 143 xmm3 = zx.o([rsp + 0x10 {var_78}].q) 0x1345 144 xmm0 = zx.o([rsp + 0x38 {var_50}].q) 0x134b 145 xmm1 = xmm3 0x134f 146 xmm1.q = xmm1.q f* fconvert.t([0x2010].q) 0x1357 147 xmm1.q = xmm1.q f* fconvert.t([rsp + 0x30 {var_58}].q) 0x135d 148 xmm0.q = xmm0.q f* xmm0.q 0x1361 149 xmm0.q = xmm0.q f+ xmm1.q 0x1365 150 xmm1 = _mm_xor_pd(xmm1, xmm1) 0x1369 151 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1369 152 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1369 153 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1369 154 flag:s = 0 0x1369 155 flag:o = 0 0x1369 156 flag:a = 0 0x136d 157 if (not(flag:z) && not(flag:c)) then 172 @ 0x13ec else 179 @ 0x136f 0x11e9 158 xmm3 = [rsp + 0x20 {var_68_1}].o 0x11ef 159 xmm2.q = xmm2.q f- xmm3.q 0x11f3 160 xmm4.q = xmm4.q f+ xmm4.q 0x11f7 161 xmm2.q = xmm2.q f/ xmm4.q 0x11fb 162 xmm1 = __xorpd_xmmxuq_memxuq(xmm1, [0x2020].o) 0x1203 163 xmm1.q = xmm1.q f- xmm0.q 0x1207 164 xmm0 = zx.o([rsp + 0x10 {var_78}].q) 0x120d 165 xmm0.q = xmm0.q f+ xmm0.q 0x1211 166 xmm1.q = xmm1.q f/ xmm0.q 0x1215 167 rdi = r13 0x1218 168 xmm0 = xmm2 0x121c 169 al = 2 0x121e 170 call(0x1030) 0x121e 171 goto 68 @ 0x1223 0x13ec 172 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13ec 173 flag:c = xmm0.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13ec 174 flag:z = xmm0.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13ec 175 flag:s = 0 0x13ec 176 flag:o = 0 0x13ec 177 flag:a = 0 0x13f4 178 if (not(flag:c)) then 179 @ 0x136f else 187 @ 0x13fa 0x136f 179 xmm2.q = xmm2.q f- xmm4.q 0x1373 180 xmm3.q = xmm3.q f+ xmm3.q 0x1377 181 xmm2.q = xmm2.q f/ xmm3.q 0x137b 182 rdi = rbp 0x137e 183 xmm0 = xmm2 0x1382 184 al = 1 0x1384 185 call(0x1030) 0x1389 186 goto 68 @ 0x1223 0x13fa 187 [rsp + 0x20 {var_68_4}].o = xmm4 0x1400 188 [rsp + 8 {var_80_3}].q = xmm2.q 0x1406 189 [rsp + 0x40 {var_48}].q = xmm3.q 0x140c 190 call(0x1050) 0x1411 191 xmm3 = zx.o([rsp + 0x40 {var_48}].q) 0x1417 192 xmm2 = zx.o([rsp + 8 {var_80_3}].q) 0x141d 193 xmm4 = [rsp + 0x20 {var_68_4}].o 0x1423 194 goto 179 @ 0x136f int64_t _fini(): 0x143c 0 rsp = rsp - 8 0x1440 1 rsp = rsp + 8 0x1444 2 <return> jump(pop)	POJ_27
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t puts(char const* str): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSPH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 push(rax) 0x116b 7 rdi = 0x2004 {"%d"} 0x1172 8 rsi = rsp + 4 {var_38+0x4} 0x1177 9 eax = 0 0x1179 10 call(0x1040) 0x117e 11 r8d = [rsp + 4 {var_38+0x4}].d 0x1187 12 if (r8d s< 4) then 13 @ 0x12fd else 16 @ 0x118d 0x12fd 13 rdi = 0x200e {"empty"} 0x1304 14 call(0x1050) 0x1304 15 goto 21 @ 0x1309 0x118d 16 r15d = 2 0x1193 17 r13d = 4 0x1199 18 r12d = 0 0x119c 19 r14d = 2 0x11a2 20 goto 30 @ 0x11c9 0x1309 21 eax = 0 0x130b 22 rsp = rsp + 8 0x130f 23 rbx = pop 0x1310 24 r12 = pop 0x1312 25 r13 = pop 0x1314 26 r14 = pop 0x1316 27 r15 = pop 0x1318 28 rbp = pop 0x1319 29 <return> jump(pop) 0x11c9 30 r9d = r14d 0x11cc 31 r9d = r9d u>> 1 0x11d3 32 if (r9d u< 3) then 33 else 35 @ 0x11db 0x11d3 33 r9d = r15d 0x11d3 34 goto 35 @ 0x11db 0x11db 35 if (r14d u< 4) then 36 @ 0x127a else 41 @ 0x11e1 0x127a 36 eax = r13d 0x127d 37 eax = eax u>> 1 0x127f 38 r9d = (rax - 1).d 0x1283 39 ecx = (r14 + 2).d 0x128a 40 if (eax != 2) then 43 @ 0x12a0 else 49 @ 0x128c 0x11e1 41 r9d = r9d - 1 0x11e9 42 if (r14d u>= 6) then 52 @ 0x1220 else 58 @ 0x11eb 0x12a0 43 esi = r9d 0x12a3 44 esi = esi & 0xfffffffe 0x12a6 45 esi = neg.d(esi) 0x12a8 46 ebp = 2 0x12ad 47 edi = 0 0x12af 48 goto 61 @ 0x12b0 0x128c 49 ebx = 2 0x1291 50 edi = 0 0x1293 51 goto 94 @ 0x12e1 0x1220 52 esi = r9d 0x1223 53 esi = esi & 0xfffffffe 0x1226 54 esi = neg.d(esi) 0x1228 55 ebp = 2 0x122d 56 edi = 0 0x122f 57 goto 95 @ 0x1230 0x11eb 58 ecx = 2 0x11f0 59 edi = 0 0x11f2 60 goto 128 @ 0x1263 0x12b0 61 eax = ecx 0x12b2 62 edx = 0 0x12b4 63 temp2.d = ebp 0x12b4 64 temp3.d = edx 0x12b4 65 temp4.d = eax 0x12b4 66 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x12b4 67 temp5.d = edx 0x12b4 68 temp6.d = eax 0x12b4 69 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x12b4 70 eax = temp0.d 0x12b4 71 edx = temp1.d 0x12b6 72 flag:c = edx u< 1 0x12b9 73 edi = adc.d(edi, 0, flag:c) 0x12bc 74 ebx = (rbp + 1).d 0x12bf 75 eax = ecx 0x12c1 76 edx = 0 0x12c3 77 temp2.d = ebx 0x12c3 78 temp7.d = edx 0x12c3 79 temp8.d = eax 0x12c3 80 temp0.d = divu.dp.d(temp7.d:temp8.d, temp2.d) 0x12c3 81 temp9.d = edx 0x12c3 82 temp10.d = eax 0x12c3 83 temp1.d = modu.dp.d(temp9.d:temp10.d, temp2.d) 0x12c3 84 eax = temp0.d 0x12c3 85 edx = temp1.d 0x12c5 86 flag:c = edx u< 1 0x12c8 87 edi = adc.d(edi, 0, flag:c) 0x12cb 88 ebx = ebp 0x12cd 89 ebx = ebx + 2 0x12d0 90 eax = (rsi + rbp).d 0x12d3 91 eax = eax + 2 0x12d6 92 ebp = ebx 0x12db 93 if (eax != 2) then 61 @ 0x12b0 else 94 @ 0x12e1 0x12e1 94 if ((r9b & 1) == 0) then 129 @ 0x11b2 else 130 @ 0x12e7 0x1230 95 eax = r14d 0x1233 96 edx = 0 0x1235 97 temp2.d = ebp 0x1235 98 temp11.d = edx 0x1235 99 temp12.d = eax 0x1235 100 temp0.d = divu.dp.d(temp11.d:temp12.d, temp2.d) 0x1235 101 temp13.d = edx 0x1235 102 temp14.d = eax 0x1235 103 temp1.d = modu.dp.d(temp13.d:temp14.d, temp2.d) 0x1235 104 eax = temp0.d 0x1235 105 edx = temp1.d 0x1237 106 flag:c = edx u< 1 0x123a 107 edi = adc.d(edi, 0, flag:c) 0x123d 108 ecx = (rbp + 1).d 0x1240 109 eax = r14d 0x1243 110 edx = 0 0x1245 111 temp2.d = ecx 0x1245 112 temp15.d = edx 0x1245 113 temp16.d = eax 0x1245 114 temp0.d = divu.dp.d(temp15.d:temp16.d, temp2.d) 0x1245 115 temp17.d = edx 0x1245 116 temp18.d = eax 0x1245 117 temp1.d = modu.dp.d(temp17.d:temp18.d, temp2.d) 0x1245 118 eax = temp0.d 0x1245 119 edx = temp1.d 0x1247 120 flag:c = edx u< 1 0x124a 121 edi = adc.d(edi, 0, flag:c) 0x124d 122 ecx = ebp 0x124f 123 ecx = ecx + 2 0x1252 124 eax = (rsi + rbp).d 0x1255 125 eax = eax + 2 0x1258 126 ebp = ecx 0x125d 127 if (eax != 2) then 95 @ 0x1230 else 128 @ 0x1263 0x1263 128 if ((r9b & 1) == 0) then 144 @ 0x1274 else 145 @ 0x1265 0x11b2 129 if (edi == 0) then 159 @ 0x1200 else 167 @ 0x11b4 0x12e7 130 eax = ecx 0x12e9 131 edx = 0 0x12eb 132 temp2.d = ebx 0x12eb 133 temp19.d = edx 0x12eb 134 temp20.d = eax 0x12eb 135 temp0.d = divu.dp.d(temp19.d:temp20.d, temp2.d) 0x12eb 136 temp21.d = edx 0x12eb 137 temp22.d = eax 0x12eb 138 temp1.d = modu.dp.d(temp21.d:temp22.d, temp2.d) 0x12eb 139 eax = temp0.d 0x12eb 140 edx = temp1.d 0x12ed 141 flag:c = edx u< 1 0x12f0 142 edi = adc.d(edi, 0, flag:c) 0x12f3 143 goto 129 @ 0x11b2 0x1274 144 if (edi != 0) then 167 @ 0x11b4 else 36 @ 0x127a 0x1265 145 eax = r14d 0x1268 146 edx = 0 0x126a 147 temp2.d = ecx 0x126a 148 temp23.d = edx 0x126a 149 temp24.d = eax 0x126a 150 temp0.d = divu.dp.d(temp23.d:temp24.d, temp2.d) 0x126a 151 temp25.d = edx 0x126a 152 temp26.d = eax 0x126a 153 temp1.d = modu.dp.d(temp25.d:temp26.d, temp2.d) 0x126a 154 eax = temp0.d 0x126a 155 edx = temp1.d 0x126c 156 flag:c = edx u< 1 0x126f 157 edi = adc.d(edi, 0, flag:c) 0x126f 158 goto 144 @ 0x1274 0x1200 159 rdi = 0x2007 {"%d %d\n"} 0x1207 160 esi = r14d 0x120a 161 edx = ecx 0x120c 162 eax = 0 0x120e 163 call(0x1030) 0x1213 164 r12d = r12d + 1 0x1217 165 r8d = [rsp + 4 {var_38+0x4}].d 0x121c 166 goto 167 @ 0x11b4 0x11b4 167 r14d = r14d + 1 0x11b8 168 eax = (r8 - 1).d 0x11bc 169 r13d = r13d + 1 0x11c3 170 if (r14d s>= eax) then 171 @ 0x12fb else 30 @ 0x11c9 0x12fb 171 if (r12d != 0) then 21 @ 0x1309 else 13 @ 0x12fd int64_t _fini(): 0x1320 0 rsp = rsp - 8 0x1324 1 rsp = rsp + 8 0x1328 2 <return> jump(pop)	POJ_60
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x4c8 0x1171 7 rdi = 0x2004 {"%d %d"} 0x1178 8 rsi = rsp + 0xc {var_4ec} 0x117d 9 rdx = rsp + 8 {var_4f0} 0x1182 10 eax = 0 0x1184 11 call(0x1050) 0x1189 12 r14d = [rsp + 0xc {var_4ec}].d 0x118e 13 r15d = [rsp + 8 {var_4f0}].d 0x1193 14 eax = r14d 0x1196 15 eax = eax \| r15d 0x1199 16 if (eax != 0) then 17 @ 0x11af else 21 @ 0x119b 0x11af 17 r12 = 0x2004 {"%d %d"} 0x11b6 18 r13 = rsp + 0xc {var_4ec} 0x11bb 19 rbx = rsp + 8 {var_4f0} 0x11c0 20 goto 30 @ 0x1208 0x119b 21 eax = 0 0x119d 22 rsp = rsp + 0x4c8 0x11a4 23 rbx = pop 0x11a5 24 r12 = pop 0x11a7 25 r13 = pop 0x11a9 26 r14 = pop 0x11ab 27 r15 = pop 0x11ad 28 rbp = pop 0x11ae 29 <return> jump(pop) 0x1208 30 if (r14d s<= 0) then 31 @ 0x11e3 else 41 @ 0x120a 0x11e3 31 rdi = r12 0x11e6 32 rsi = r13 {var_4ec} 0x11e9 33 rdx = rbx {var_4f0} 0x11ec 34 eax = 0 0x11ee 35 call(0x1050) 0x11f3 36 r14d = [rsp + 0xc {var_4ec}].d 0x11f8 37 r15d = [rsp + 8 {var_4f0}].d 0x11fd 38 eax = r14d 0x1200 39 eax = eax \| r15d 0x1203 40 if (eax == 0) then 21 @ 0x119b else 30 @ 0x1208 0x120a 41 edx = r14d 0x120d 42 rdx = rdx << 2 0x1211 43 ebp = 0 0x1213 44 rdi = rsp + 0x10 {var_4e8} 0x1218 45 esi = 0 0x121a 46 call(0x1040) 0x121f 47 esi = 1 0x1224 48 ecx = r14d 0x1227 49 goto 50 @ 0x1240 0x1240 50 rax = sx.q(ebp) 0x1248 51 if ([rsp + (rax << 2) + 0x10].d != 0) then 52 @ 0x1260 else 67 @ 0x124d 0x1260 52 ebp = ebp + 1 0x1263 53 eax = ebp 0x1265 54 temp2.d:temp3.d = sx.q(eax) 0x1265 55 edx = temp2.d 0x1265 56 eax = temp3.d 0x1266 57 temp4.d = edx 0x1266 58 temp5.d = eax 0x1266 59 temp0.d = divs.dp.d(temp4.d:temp5.d, r14d) 0x1266 60 temp6.d = edx 0x1266 61 temp7.d = eax 0x1266 62 temp1.d = mods.dp.d(temp6.d:temp7.d, r14d) 0x1266 63 eax = temp0.d 0x1266 64 edx = temp1.d 0x1269 65 ebp = edx 0x126b 66 goto 50 @ 0x1240 0x124d 67 if (esi == r15d) then 68 @ 0x1229 else 72 @ 0x124f 0x1229 68 [rsp + (rax << 2) + 0x10].d = 1 0x1231 69 ecx = ecx - 1 0x1234 70 esi = 1 0x123b 71 if (ecx != 0) then 52 @ 0x1260 else 74 @ 0x123d 0x124f 72 esi = esi + 1 0x1254 73 if (ecx == 0) then 75 @ 0x11d0 else 81 @ 0x125a 0x123d 74 goto 75 @ 0x11d0 0x11d0 75 ebp = ebp + 1 0x11d3 76 rdi = 0x200a {"%d\n"} 0x11da 77 esi = ebp 0x11dc 78 eax = 0 0x11de 79 call(0x1030) 0x11de 80 goto 31 @ 0x11e3 0x125a 81 goto 52 @ 0x1260 int64_t _fini(): 0x1274 0 rsp = rsp - 8 0x1278 1 rsp = rsp + 8 0x127c 2 <return> jump(pop)	POJ_79
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 uint64_t strlen(char const* arg1): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) char* gets(char* buf): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x218 0x1171 7 eax = 0 0x1173 8 [rsp + 8 {var_240}].q = rax 0x1178 9 r12 = rsp + 0x20 {var_228} 0x117d 10 rdi = r12 {var_228} 0x1180 11 eax = 0 0x1182 12 call(0x1040) 0x1187 13 rdi = r12 {var_228} 0x118a 14 call(0x1030) 0x1193 15 if (rax u>= 2) then 16 @ 0x11a9 else 18 @ 0x1195 0x11a9 16 r13d = 2 0x11af 17 goto 27 @ 0x11e1 0x1195 18 eax = 0 0x1197 19 rsp = rsp + 0x218 0x119e 20 rbx = pop 0x119f 21 r12 = pop 0x11a1 22 r13 = pop 0x11a3 23 r14 = pop 0x11a5 24 r15 = pop 0x11a7 25 rbp = pop 0x11a8 26 <return> jump(pop) 0x11e1 27 ebx = 1 0x11e6 28 rbx = rbx - r13 0x11e9 29 rdi = r12 {var_228} 0x11ec 30 call(0x1030) 0x11f1 31 [rsp + 0x18 {var_230_1}].q = rbx 0x11f6 32 temp0.q = rax 0x11f6 33 rax = rax + rbx 0x11f9 34 if (temp0.q == neg.q(rbx)) then 35 @ 0x11c0 else 44 @ 0x11fb 0x11c0 35 rbx = r13 + 1 0x11c4 36 rdi = r12 {var_228} 0x11c7 37 call(0x1030) 0x11cc 38 rcx = [rsp + 8 {var_240}].q 0x11d1 39 ecx = ecx + 1 0x11d4 40 [rsp + 8 {var_240}].q = rcx 0x11d9 41 cond:0 = rax u<= r13 0x11dc 42 r13 = rbx 0x11df 43 if (cond:0) then 18 @ 0x1195 else 27 @ 0x11e1 0x11fb 44 eax = 1 0x1200 45 [rsp + 0x10 {var_238_1}].q = rax 0x1205 46 rbp = r12 {var_228} 0x1208 47 rax = [rsp + 8 {var_240}].q 0x120d 48 r14d = eax 0x1210 49 r15d = 0 0x1213 50 goto 51 @ 0x124b 0x124b 51 eax = r15d 0x124e 52 al = [rsp + rax + 0x20].b 0x1252 53 ecx = (r15 + r13).d 0x1256 54 ecx = ecx - 1 0x1259 55 rcx = sx.q(ecx) 0x1260 56 if (al != [rsp + rcx + 0x20].b) then 57 @ 0x1220 else 66 @ 0x1262 0x1220 57 r15 = r15 + 1 0x1224 58 ebx = r15d 0x1227 59 rdi = r12 {var_228} 0x122a 60 call(0x1030) 0x122f 61 rax = rax + [rsp + 0x18 {var_230_1}].q 0x1234 62 r14d = r14d + 1 0x1238 63 [rsp + 0x10 {var_238_1}].q = [rsp + 0x10 {var_238_1}].q + 1 0x123e 64 rbp = rbp + 1 0x1245 65 if (rax u<= rbx) then 35 @ 0x11c0 else 51 @ 0x124b 0x1262 66 rsi = [rsp + 0x10 {var_238_1}].q 0x1267 67 edx = r14d 0x126a 68 goto 69 @ 0x1270 0x1270 69 rcx = sx.q(edx) 0x1276 70 if (rsi s> rcx) then 71 @ 0x1294 else 74 @ 0x1278 0x1294 71 rbx = r12 {var_228} 0x1297 72 r12d = 0 0x129a 73 goto 80 @ 0x12a0 0x1278 74 rax = rsi 0x127b 75 edx = eax 0x127d 76 ebx = zx.d([rsp + rdx + 0x20].b) 0x1282 77 edx = (rcx - 1).d 0x1285 78 rsi = rsi + 1 0x128d 79 if (bl == [rsp + rcx + 0x20].b) then 69 @ 0x1270 else 84 @ 0x1292 0x12a0 80 edi = sx.d([rbp + r12].b) 0x12a6 81 call(0x1050) 0x12ab 82 r12 = r12 + 1 0x12b2 83 if (r13 != r12) then 80 @ 0x12a0 else 85 @ 0x12b4 0x1292 84 if (rax s<= rcx) then 57 @ 0x1220 else 71 @ 0x1294 0x12b4 85 edi = 0xa {""} 0x12b9 86 call(0x1050) 0x12be 87 r12 = rbx {var_228} 0x12c1 88 goto 57 @ 0x1220 int64_t _fini(): 0x12cc 0 rsp = rsp - 8 0x12d0 1 rsp = rsp + 8 0x12d4 2 <return> jump(pop)	POJ_49
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x90 0x115b 3 rax = rbp - 0x80 {var_88} 0x115f 4 [rbp - 0x88 {var_90}].q = rax {var_88} 0x1166 5 [rbp - 4 {var_c}].d = 0 0x1166 6 goto 7 @ 0x1171 0x1171 7 if ([rbp - 4 {var_c}].d s>= 5) then 8 @ 0x11d1 else 14 @ 0x1177 0x11d1 8 rdi = 0x2004 {"%d%d"} 0x11d8 9 rsi = rbp - 0x14 {var_1c} 0x11dc 10 rdx = rbp - 0x10 {var_18} 0x11e0 11 al = 0 0x11e2 12 call(0x1040) 0x11eb 13 if ([rbp - 0x10 {var_18}].d s> 4) then 16 @ 0x11fb else 20 @ 0x11f5 0x1177 14 [rbp - 8 {var_10_1}].d = 0 0x1177 15 goto 21 @ 0x1182 0x11fb 16 rdi = 0x2009 {"error"} 0x1202 17 al = 0 0x1204 18 call(0x1030) 0x1209 19 goto 22 @ 0x1312 0x11f5 20 if ([rbp - 0x14 {var_1c}].d s<= 4) then 25 @ 0x120e else 16 @ 0x11fb 0x1182 21 if ([rbp - 8 {var_10_1}].d s>= 5) then 27 @ 0x11be else 28 @ 0x1188 0x1312 22 rsp = rsp + 0x90 0x1319 23 rbp = pop 0x131a 24 <return> jump(pop) 0x120e 25 [rbp - 4 {var_c_1}].d = 0 0x120e 26 goto 42 @ 0x1219 0x11be 27 goto 43 @ 0x11c3 0x1188 28 rax = sx.q([rbp - 4 {var_c}].d) 0x118c 29 rsi = rbp - 0x80 {var_88} 0x1190 30 rax = rax * 0x14 0x1194 31 rsi = rsi + rax 0x1197 32 rax = sx.q([rbp - 8 {var_10_1}].d) 0x119b 33 rax = rax << 2 0x119f 34 rsi = rsi + rax 0x11a2 35 rdi = 0x2006 {"%d"} 0x11a9 36 al = 0 0x11ab 37 call(0x1040) 0x11b0 38 eax = [rbp - 8 {var_10_1}].d 0x11b3 39 eax = eax + 1 0x11b6 40 [rbp - 8 {var_10_1}].d = eax 0x11b9 41 goto 21 @ 0x1182 0x1219 42 if ([rbp - 4 {var_c_1}].d s> 4) then 47 @ 0x128b else 49 @ 0x121f 0x11c3 43 eax = [rbp - 4 {var_c}].d 0x11c6 44 eax = eax + 1 0x11c9 45 [rbp - 4 {var_c}].d = eax 0x11cc 46 goto 7 @ 0x1171 0x128b 47 [rbp - 4 {var_c_2}].d = 0 0x128b 48 goto 79 @ 0x1296 0x121f 49 rcx = sx.q([rbp - 0x10 {var_18}].d) 0x1223 50 rax = rbp - 0x80 {var_88} 0x1227 51 rcx = rcx * 0x14 0x122b 52 rax = rax + rcx 0x122e 53 rcx = sx.q([rbp - 4 {var_c_1}].d) 0x1232 54 eax = [rax + (rcx << 2)].d 0x1235 55 [rbp - 0xc {var_14_1}].d = eax 0x1238 56 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x123c 57 rax = rbp - 0x80 {var_88} 0x1240 58 rcx = rcx * 0x14 0x1244 59 rax = rax + rcx 0x1247 60 rcx = sx.q([rbp - 4 {var_c_1}].d) 0x124b 61 edx = [rax + (rcx << 2)].d 0x124e 62 rcx = sx.q([rbp - 0x10 {var_18}].d) 0x1252 63 rax = rbp - 0x80 {var_88} 0x1256 64 rcx = rcx * 0x14 0x125a 65 rax = rax + rcx 0x125d 66 rcx = sx.q([rbp - 4 {var_c_1}].d) 0x1261 67 [rax + (rcx << 2)].d = edx 0x1264 68 edx = [rbp - 0xc {var_14_1}].d 0x1267 69 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x126b 70 rax = rbp - 0x80 {var_88} 0x126f 71 rcx = rcx * 0x14 0x1273 72 rax = rax + rcx 0x1276 73 rcx = sx.q([rbp - 4 {var_c_1}].d) 0x127a 74 [rax + (rcx << 2)].d = edx 0x127d 75 eax = [rbp - 4 {var_c_1}].d 0x1280 76 eax = eax + 1 0x1283 77 [rbp - 4 {var_c_1}].d = eax 0x1286 78 goto 42 @ 0x1219 0x1296 79 if ([rbp - 4 {var_c_2}].d s>= 5) then 80 @ 0x130d else 81 @ 0x129c 0x130d 80 goto 22 @ 0x1312 0x129c 81 [rbp - 8 {var_10_2}].d = 0 0x129c 82 goto 83 @ 0x12a7 0x12a7 83 if ([rbp - 8 {var_10_2}].d s>= 4) then 84 @ 0x12df else 96 @ 0x12ad 0x12df 84 rcx = sx.q([rbp - 4 {var_c_2}].d) 0x12e3 85 rax = rbp - 0x80 {var_88} 0x12e7 86 rcx = rcx * 0x14 0x12eb 87 rax = rax + rcx 0x12ee 88 esi = [rax + 0x10].d 0x12f1 89 rdi = 0x2013 {"%d\n"} 0x12f8 90 al = 0 0x12fa 91 call(0x1030) 0x12ff 92 eax = [rbp - 4 {var_c_2}].d 0x1302 93 eax = eax + 1 0x1305 94 [rbp - 4 {var_c_2}].d = eax 0x1308 95 goto 79 @ 0x1296 0x12ad 96 rcx = sx.q([rbp - 4 {var_c_2}].d) 0x12b1 97 rax = rbp - 0x80 {var_88} 0x12b5 98 rcx = rcx * 0x14 0x12b9 99 rax = rax + rcx 0x12bc 100 rcx = sx.q([rbp - 8 {var_10_2}].d) 0x12c0 101 esi = [rax + (rcx << 2)].d 0x12c3 102 rdi = 0x200f {"%d "} 0x12ca 103 al = 0 0x12cc 104 call(0x1030) 0x12d1 105 eax = [rbp - 8 {var_10_2}].d 0x12d4 106 eax = eax + 1 0x12d7 107 [rbp - 8 {var_10_2}].d = eax 0x12da 108 goto 83 @ 0x12a7 int64_t _fini(): 0x1320 0 rsp = rsp - 8 0x1324 1 rsp = rsp + 8 0x1328 2 <return> jump(pop)	POJ_81
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAVSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r14) 0x1163 2 push(rbx) 0x1164 3 rsp = rsp - 0xc0 0x116b 4 rdi = 0x2010 {"%d\n"} 0x1172 5 rsi = rsp + 0xc {var_cc} 0x1177 6 eax = 0 0x1179 7 call(0x1040) 0x1183 8 if ([rsp + 0xc {var_cc}].d s<= 0) then 9 @ 0x11bf else 13 @ 0x1185 0x11bf 9 edi = 0xa {""} 0x11c4 10 call(0x1050) 0x11c9 11 xmm0 = zx.o([0x2008].q) 0x11d6 12 if ([rsp + 0xc {var_cc}].d s<= 0) then 17 @ 0x139d else 26 @ 0x11dc 0x1185 13 rbx = rsp + 0x60 {var_78} 0x118a 14 r14 = 0x2014 {"%d"} 0x1191 15 ebp = 0 0x119d 16 goto 30 @ 0x11a0 0x139d 17 rdi = 0x2017 {"%.2lf"} 0x13a4 18 al = 1 0x13a6 19 call(0x1030) 0x13ab 20 eax = 0 0x13ad 21 rsp = rsp + 0xc0 0x13b4 22 rbx = pop 0x13b5 23 r14 = pop 0x13b7 24 rbp = pop 0x13b8 25 <return> jump(pop) 0x11dc 26 rbx = rsp + 0x90 {var_48} 0x11e4 27 r14 = 0x2014 {"%d"} 0x11eb 28 ebp = 0 0x11ed 29 goto 38 @ 0x11f0 0x11a0 30 rdi = r14 0x11a3 31 rsi = rbx 0x11a6 32 eax = 0 0x11a8 33 call(0x1040) 0x11ad 34 rbp = rbp + 1 0x11b1 35 rax = sx.q([rsp + 0xc {var_cc}].d) 0x11b6 36 rbx = rbx + 4 0x11bd 37 if (rbp s< rax) then 30 @ 0x11a0 else 9 @ 0x11bf 0x11f0 38 rdi = r14 0x11f3 39 rsi = rbx 0x11f6 40 eax = 0 0x11f8 41 call(0x1040) 0x11fd 42 rbp = rbp + 1 0x1201 43 rax = sx.q([rsp + 0xc {var_cc}].d) 0x1206 44 rbx = rbx + 4 0x120d 45 if (rbp s< rax) then 38 @ 0x11f0 else 46 @ 0x120f 0x120f 46 eax = eax 0x1213 47 if (eax s<= 0) then 48 @ 0x1329 else 50 @ 0x1219 0x1329 48 xmm0 = zx.o([0x2008].q) 0x1331 49 goto 17 @ 0x139d 0x1219 50 ecx = 0 0x121b 51 rdx = 0x4010000000000000 {""} 0x1225 52 rsi = 0x400d99999999999a {""} 0x122f 53 rdi = 0x400a666666666666 {""} 0x1239 54 rbx = 0x4008000000000000 {""} 0x1243 55 r8 = 0x400599999999999a {""} 0x124d 56 r9 = 0x4002666666666666 {""} 0x1257 57 r10 = 0x4000000000000000 {""} 0x1261 58 r11 = 0x3ff8000000000000 {""} 0x126b 59 r14 = 0x3ff0000000000000 {""} 0x1275 60 xmm0 = zx.o([0x2008].q) 0x127d 61 goto 62 @ 0x1292 0x1292 62 ebp = [rsp + (rcx << 2) + 0x90].d 0x129c 63 if (ebp s>= 0x5a) then 64 @ 0x1280 else 66 @ 0x12a1 0x1280 64 [rsp + (rcx << 3) + 0x10].q = rdx 0x1280 65 goto 67 @ 0x1285 0x12a1 66 if (ebp s< 0x55) then 69 @ 0x12b3 else 70 @ 0x12a3 0x1285 67 rcx = rcx + 1 0x128c 68 if (rax == rcx) then 72 @ 0x1314 else 62 @ 0x1292 0x12b3 69 if (ebp s< 0x52) then 73 @ 0x12bf else 74 @ 0x12b5 0x12a3 70 [rsp + (rcx << 3) + 0x10].q = rsi 0x12a8 71 goto 67 @ 0x1285 0x1314 72 if (eax s<= 0) then 17 @ 0x139d else 76 @ 0x131d 0x12bf 73 if (ebp s< 0x4e) then 77 @ 0x12cb else 78 @ 0x12c1 0x12b5 74 [rsp + (rcx << 3) + 0x10].q = rdi 0x12ba 75 goto 67 @ 0x1285 0x131d 76 if (eax != 1) then 80 @ 0x1333 else 86 @ 0x131f 0x12cb 77 if (ebp s< 0x4b) then 90 @ 0x12d7 else 91 @ 0x12cd 0x12c1 78 [rsp + (rcx << 3) + 0x10].q = rbx 0x12c6 79 goto 67 @ 0x1285 0x1333 80 esi = eax 0x1335 81 esi = esi & 0xfffffffe 0x1338 82 ecx = 0 0x133a 83 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x133e 84 edx = 0 0x133e 85 goto 93 @ 0x1340 0x131f 86 ecx = 0 0x1321 87 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1325 88 edx = 0 0x1327 89 goto 107 @ 0x1379 0x12d7 90 if (ebp s< 0x48) then 108 @ 0x12e3 else 109 @ 0x12d9 0x12cd 91 [rsp + (rcx << 3) + 0x10].q = r8 0x12d2 92 goto 67 @ 0x1285 0x1340 93 edi = [rsp + (rcx << 2) + 0x60].d 0x1344 94 ebp = [rsp + (rcx << 2) + 0x64].d 0x1348 95 xmm1 = 0 0x134b 96 xmm1.q = float.d(edi) 0x134f 97 xmm1.q = xmm1.q f* fconvert.t([rsp + (rcx << 3) + 0x10].q) 0x1355 98 xmm1.q = xmm1.q f+ xmm0.q 0x1359 99 edx = edx + edi 0x135b 100 xmm0 = 0 0x135e 101 xmm0.q = float.d(ebp) 0x1362 102 xmm0.q = xmm0.q f* fconvert.t([rsp + (rcx << 3) + 0x18].q) 0x1368 103 xmm0.q = xmm0.q f+ xmm1.q 0x136c 104 edx = edx + ebp 0x136e 105 rcx = rcx + 2 0x1375 106 if (rsi != rcx) then 93 @ 0x1340 else 107 @ 0x1379 0x1379 107 if ((al & 1) == 0) then 111 @ 0x1392 else 115 @ 0x137b 0x12e3 108 if (ebp s< 0x44) then 122 @ 0x12ef else 123 @ 0x12e5 0x12d9 109 [rsp + (rcx << 3) + 0x10].q = r9 0x12de 110 goto 67 @ 0x1285 0x1392 111 xmm1 = 0 0x1395 112 xmm1.q = float.d(edx) 0x1399 113 xmm0.q = xmm0.q f/ xmm1.q 0x1399 114 goto 17 @ 0x139d 0x137b 115 eax = [rsp + (rcx << 2) + 0x60].d 0x137f 116 xmm1 = 0 0x1382 117 xmm1.q = float.d(eax) 0x1386 118 xmm1.q = xmm1.q f* fconvert.t([rsp + (rcx << 3) + 0x10].q) 0x138c 119 xmm0.q = xmm0.q f+ xmm1.q 0x1390 120 edx = edx + eax 0x1390 121 goto 111 @ 0x1392 0x12ef 122 if (ebp s< 0x40) then 125 @ 0x12fb else 126 @ 0x12f1 0x12e5 123 [rsp + (rcx << 3) + 0x10].q = r10 0x12ea 124 goto 67 @ 0x1285 0x12fb 125 if (ebp s< 0x3c) then 128 @ 0x1304 else 130 @ 0x12fd 0x12f1 126 [rsp + (rcx << 3) + 0x10].q = r11 0x12f6 127 goto 67 @ 0x1285 0x1304 128 [rsp + (rcx << 3) + 0x10].q = 0 0x130d 129 goto 67 @ 0x1285 0x12fd 130 [rsp + (rcx << 3) + 0x10].q = r14 0x1302 131 goto 67 @ 0x1285 int64_t _fini(): 0x13c0 0 rsp = rsp - 8 0x13c4 1 rsp = rsp + 8 0x13c8 2 <return> jump(pop)	POJ_83
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) char* gets(char* buf): 0x1050 0 <return> tailcall([0x4028].q) int32_t putchar(int32_t c): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"UAWAVAUATSH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(rbp) 0x1171 1 push(r15) 0x1173 2 push(r14) 0x1175 3 push(r13) 0x1177 4 push(r12) 0x1179 5 push(rbx) 0x117a 6 rsp = rsp - 0x208 0x1181 7 r15d = 0 0x1184 8 r14 = rsp {var_238} 0x1187 9 rdi = r14 {var_238} 0x118a 10 eax = 0 0x118c 11 call(0x1050) 0x1191 12 rdi = r14 {var_238} 0x1194 13 call(0x1040) 0x119b 14 if (eax s<= 0) then 15 @ 0x12b5 else 20 @ 0x11a1 0x12b5 15 rdi = 0x2004 {"%s"} 0x12bc 16 rsi = rsp {var_238} 0x12bf 17 eax = 0 0x12c1 18 call(0x1030) 0x12c1 19 goto 24 @ 0x12c6 0x11a1 20 esi = eax 0x11a3 21 edx = eax 0x11a5 22 edx = edx & 1 0x11ac 23 if (rsi != 1) then 33 @ 0x12da else 37 @ 0x11b2 0x12c6 24 eax = 0 0x12c8 25 rsp = rsp + 0x208 0x12cf 26 rbx = pop 0x12d0 27 r12 = pop 0x12d2 28 r13 = pop 0x12d4 29 r14 = pop 0x12d6 30 r15 = pop 0x12d8 31 rbp = pop 0x12d9 32 <return> jump(pop) 0x12da 33 rsi = rsi - rdx 0x12dd 34 ecx = 0 0x12df 35 r15d = 0 0x12e2 36 goto 39 @ 0x12fd 0x11b2 37 ecx = 0 0x11b2 38 goto 42 @ 0x11b7 0x12fd 39 ebx = zx.d([rsp + rcx].b) 0x1301 40 bl = bl - 0x7b 0x1307 41 if (bl u<= -0x3b) then 43 @ 0x1320 else 50 @ 0x1309 0x11b7 42 if (rdx == 0) then 53 @ 0x11d6 else 54 @ 0x11b9 0x1320 43 [rsp + rcx].b = 0x64 {""} 0x1324 44 rdi = sx.q(r15d) 0x1327 45 r15d = r15d + 1 0x132b 46 [rsp + (rdi << 2) + 0x74].d = ecx 0x132f 47 ebx = zx.d([rsp + rcx + 1].b) 0x1334 48 bl = bl - 0x7b 0x133a 49 if (bl u> -0x3b) then 57 @ 0x12f0 else 59 @ 0x133c 0x1309 50 ebx = zx.d([rsp + rcx + 1].b) 0x130e 51 bl = bl - 0x7b 0x1314 52 if (bl u> -0x3b) then 57 @ 0x12f0 else 65 @ 0x1316 0x11d6 53 if (r15d == 0) then 15 @ 0x12b5 else 66 @ 0x11dc 0x11b9 54 dl = [rsp + rcx].b 0x11bc 55 dl = dl - 0x7b 0x11c2 56 if (dl u> -0x3b) then 53 @ 0x11d6 else 70 @ 0x11c4 0x12f0 57 rcx = rcx + 2 0x12f7 58 if (rsi == rcx) then 42 @ 0x11b7 else 39 @ 0x12fd 0x133c 59 [rsp + rcx + 1].b = 0x64 {""} 0x1341 60 rdi = sx.q(r15d) 0x1344 61 r15d = r15d + 1 0x1348 62 ebp = (rcx + 1).d 0x134b 63 [rsp + (rdi << 2) + 0x74].d = ebp 0x134f 64 goto 57 @ 0x12f0 0x1316 65 goto 59 @ 0x133c 0x11dc 66 r12 = sx.q(r15d) 0x11df 67 r14d = [rsp + (r12 << 2) + 0x70].d 0x11e4 68 ecx = (r14 + 1).d 0x11ea 69 if (ecx s>= eax) then 75 @ 0x1213 else 78 @ 0x11ec 0x11c4 70 [rsp + rcx].b = 0x64 {""} 0x11c8 71 rdx = sx.q(r15d) 0x11cb 72 r15d = r15d + 1 0x11cf 73 [rsp + (rdx << 2) + 0x74].d = ecx 0x11cf 74 goto 53 @ 0x11d6 0x1213 75 edi = 0x20 {"@"} 0x1218 76 call(0x1060) 0x1221 77 if (r15d s>= 2) then 85 @ 0x127b else 88 @ 0x1223 0x11ec 78 rcx = sx.q(ecx) 0x11ef 79 r13 = rsp + rcx 0x11f3 80 ebx = r14d 0x11f6 81 ebx = not.d(ebx) 0x11f8 82 ebx = ebx + eax 0x11fa 83 ebp = 0 0x11fc 84 goto 90 @ 0x1200 0x127b 85 r15d = [rsp + (r12 << 2) + 0x6c].d 0x1280 86 eax = (r15 + 1).d 0x1287 87 if (eax s>= r14d) then 94 @ 0x1260 else 101 @ 0x1289 0x1223 88 ebx = [rsp + 0x74 {var_1c4}].d 0x1229 89 if (ebx s<= 0) then 24 @ 0x12c6 else 108 @ 0x122f 0x1200 90 edi = sx.d([r13 + rbp].b) 0x1206 91 call(0x1060) 0x120b 92 rbp = rbp + 1 0x1211 93 if (ebx != ebp) then 90 @ 0x1200 else 75 @ 0x1213 0x1260 94 rbx = r12 - 1 0x1265 95 edi = 0x20 {"@"} 0x126a 96 call(0x1060) 0x126f 97 r14d = r15d 0x1272 98 cond:0 = r12 s<= 2 0x1276 99 r12 = rbx 0x1279 100 if (cond:0) then 88 @ 0x1223 else 85 @ 0x127b 0x1289 101 rax = sx.q(eax) 0x128b 102 r13 = rsp + rax 0x128f 103 ebx = r15d 0x1292 104 ebx = not.d(ebx) 0x1294 105 ebx = ebx + r14d 0x1297 106 ebp = 0 0x1299 107 goto 110 @ 0x12a0 0x122f 108 ebp = 0 0x123b 109 goto 114 @ 0x1240 0x12a0 110 edi = sx.d([r13 + rbp].b) 0x12a6 111 call(0x1060) 0x12ab 112 rbp = rbp + 1 0x12b1 113 if (ebx != ebp) then 110 @ 0x12a0 else 118 @ 0x12b3 0x1240 114 edi = sx.d([rsp + rbp].b) 0x1244 115 call(0x1060) 0x1249 116 rbp = rbp + 1 0x1250 117 if (rbx != rbp) then 114 @ 0x1240 else 119 @ 0x1252 0x12b3 118 goto 94 @ 0x1260 0x1252 119 goto 24 @ 0x12c6 int64_t _fini(): 0x1358 0 rsp = rsp - 8 0x135c 1 rsp = rsp + 8 0x1360 2 <return> jump(pop)	POJ_23
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSHX"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x1f58 0x1161 7 rdi = 0x2004 {"%d"} 0x1168 8 rsi = rsp + 8 {var_1f80} 0x116d 9 eax = 0 0x116f 10 call(0x1040) 0x1174 11 eax = [rsp + 8 {var_1f80}].d 0x117a 12 if (eax == 0) then 13 @ 0x1566 else 22 @ 0x1180 0x1566 13 eax = 0 0x1568 14 rsp = rsp + 0x1f58 0x156f 15 rbx = pop 0x1570 16 r12 = pop 0x1572 17 r13 = pop 0x1574 18 r14 = pop 0x1576 19 r15 = pop 0x1578 20 rbp = pop 0x1579 21 <return> jump(pop) 0x1180 22 r12 = 0x2004 {"%d"} 0x1187 23 goto 24 @ 0x11c0 0x11c0 24 r15d = 0 0x11c8 25 if (eax s<= 0) then 26 @ 0x1190 else 36 @ 0x11ca 0x1190 26 esi = r15d * 0xc8 0x1197 27 rdi = 0x2007 {"%d\n"} 0x119e 28 eax = 0 0x11a0 29 call(0x1030) 0x11a5 30 rdi = r12 0x11a8 31 rsi = rsp + 8 {var_1f80} 0x11ad 32 eax = 0 0x11af 33 call(0x1040) 0x11b4 34 eax = [rsp + 8 {var_1f80}].d 0x11ba 35 if (eax == 0) then 13 @ 0x1566 else 24 @ 0x11c0 0x11ca 36 rbx = rsp + 0xfb0 {var_fd8} 0x11d2 37 ebp = 0 0x11de 38 goto 39 @ 0x11e0 0x11e0 39 rdi = r12 0x11e3 40 rsi = rbx 0x11e6 41 eax = 0 0x11e8 42 call(0x1040) 0x11ed 43 rbp = rbp + 1 0x11f1 44 rax = sx.q([rsp + 8 {var_1f80}].d) 0x11f6 45 rbx = rbx + 4 0x11fd 46 if (rbp s< rax) then 39 @ 0x11e0 else 47 @ 0x11ff 0x11ff 47 r15d = 0 0x1207 48 if (eax s<= 0) then 26 @ 0x1190 else 49 @ 0x1209 0x1209 49 rbx = rsp + 0x10 {var_1f78} 0x120e 50 ebp = 0 0x120e 51 goto 52 @ 0x1210 0x1210 52 rdi = r12 0x1213 53 rsi = rbx 0x1216 54 eax = 0 0x1218 55 call(0x1040) 0x121d 56 rbp = rbp + 1 0x1221 57 r10 = sx.q([rsp + 8 {var_1f80}].d) 0x1226 58 rbx = rbx + 4 0x122d 59 if (rbp s< r10) then 52 @ 0x1210 else 60 @ 0x122f 0x122f 60 r8d = (r10 - 1).d 0x1237 61 if (r10d s< 2) then 62 @ 0x13f0 else 64 @ 0x123d 0x13f0 62 r15d = 0 0x13f9 63 if (r10d s<= 0) then 26 @ 0x1190 else 67 @ 0x13ff 0x123d 64 ecx = 0 0x123f 65 edx = r8d 0x1242 66 goto 73 @ 0x125f 0x13ff 67 ebx = 0 0x1401 68 ebp = 0 0x1403 69 edi = 0 0x1405 70 r9d = r8d 0x1408 71 edx = 0 0x140a 72 goto 77 @ 0x1410 0x125f 73 eax = ecx 0x1261 74 eax = not.d(eax) 0x1263 75 eax = eax + r10d 0x1268 76 if (eax s<= 0) then 82 @ 0x1250 else 85 @ 0x126a 0x1410 77 esi = r9d 0x1413 78 rcx = sx.q(r9d) 0x1416 79 temp0.d = esi 0x1416 80 esi = esi - edx 0x1418 81 if (temp0.d s< edx) then 89 @ 0x1495 else 90 @ 0x141a 0x1250 82 ecx = ecx + 1 0x1253 83 edx = edx - 1 0x1259 84 if (ecx == r8d) then 107 @ 0x132b else 73 @ 0x125f 0x126a 85 r9d = r8d 0x126d 86 r9d = r9d - ecx 0x1270 87 esi = [rsp + 0xfb0 {var_fd8}].d 0x127b 88 if (r9d != 1) then 108 @ 0x1290 else 112 @ 0x127d 0x1495 89 if (ebp == r10d) then 114 @ 0x1189 else 116 @ 0x149e 0x141a 90 r15 = sx.q(edi) 0x141d 91 rax = sx.q(edx) 0x1420 92 edi = (r9 + 1).d 0x1424 93 [rsp + 0xc {var_1f7c}].d = edi 0x1428 94 r11d = (r9 + rbx).d 0x142c 95 r11d = r11d + 1 0x1430 96 r11d = r11d - edx 0x1433 97 r13d = (r9 + rbp).d 0x1437 98 r13d = r13d + 1 0x143b 99 r13d = r13d - edx 0x143e 100 edi = (r15 + 1).d 0x1442 101 r14d = (r15 + rsi).d 0x1446 102 r14d = r14d + 1 0x144a 103 rax = rax - 1 0x144e 104 r15 = rsp + (r15 << 2) 0x1452 105 r15 = r15 + 0x10 0x1456 106 goto 117 @ 0x1460 0x132b 107 if (r10d s< 2) then 62 @ 0x13f0 else 119 @ 0x1331 0x1290 108 edi = edx 0x1292 109 edi = edi & 0xfffffffe 0x1295 110 ebp = 0 0x1297 111 goto 122 @ 0x12b6 0x127d 112 ebx = 0 0x127f 113 goto 124 @ 0x12ff 0x1189 114 r15d = ebx 0x118c 115 goto 26 @ 0x1190 0x149e 116 if (r8d s< 0) then 125 @ 0x1500 else 128 @ 0x14a0 0x1460 117 esi = [rsp + (rax << 2) + 0xfb4].d 0x146a 118 if (esi s<= [r15].d) then 89 @ 0x1495 else 140 @ 0x146c 0x1331 119 ecx = 0 0x1333 120 edx = r8d 0x1336 121 goto 147 @ 0x134f 0x12b6 122 eax = [rsp + (rbp << 2) + 0xfb4].d 0x12bf 123 if (esi s>= eax) then 151 @ 0x12e0 else 155 @ 0x12c1 0x12ff 124 if ((r9b & 1) == 0) then 82 @ 0x1250 else 160 @ 0x1305 0x1500 125 r14d = ebp 0x1503 126 r15d = ebx 0x1509 127 if (r14d != r10d) then 162 @ 0x1534 else 172 @ 0x150b 0x14a0 128 r15d = (rbx + r8).d 0x14a4 129 r15d = r15d + 1 0x14a8 130 r14d = (r8 + rbp).d 0x14ac 131 r14d = r14d + 1 0x14b0 132 r11d = r8d 0x14b3 133 r11d = not.d(r11d) 0x14b6 134 r11d = r11d + r9d 0x14b9 135 r13 = rsp + (rcx << 2) 0x14bd 136 r13 = r13 + 0xfb0 0x14c4 137 esi = r8d 0x14c7 138 ecx = 0 0x14c9 139 goto 173 @ 0x14d0 0x146c 140 ebx = ebx + 1 0x146f 141 ebp = ebp + 1 0x1472 142 edx = edx + 1 0x1475 143 rax = rax + 1 0x1479 144 edi = edi + 1 0x147c 145 r15 = r15 + 4 0x1483 146 if (rax s< rcx) then 117 @ 0x1460 else 176 @ 0x1485 0x134f 147 eax = ecx 0x1351 148 eax = not.d(eax) 0x1353 149 eax = eax + r10d 0x1358 150 if (eax s<= 0) then 181 @ 0x1340 else 184 @ 0x135a 0x12e0 151 esi = eax 0x12e2 152 rbx = rbp + 2 0x12e6 153 eax = [rsp + (rbp << 2) + 0xfb8].d 0x12ef 154 if (esi s< eax) then 188 @ 0x12a0 else 192 @ 0x12f1 0x12c1 155 [rsp + (rbp << 2) + 0xfb0].d = eax 0x12c8 156 [rsp + (rbp << 2) + 0xfb4].d = esi 0x12cf 157 rbx = rbp + 2 0x12d3 158 eax = [rsp + (rbp << 2) + 0xfb8].d 0x12dc 159 if (esi s< eax) then 188 @ 0x12a0 else 195 @ 0x12de 0x1305 160 eax = [rsp + (rbx << 2) + 0xfb4].d 0x130e 161 if (esi s>= eax) then 82 @ 0x1250 else 196 @ 0x1314 0x1534 162 rax = sx.q(r9d) 0x1537 163 eax = [rsp + (rax << 2) + 0xfb4].d 0x153e 164 rcx = sx.q(edi) 0x1541 165 esi = 0 0x1547 166 sil = eax s< [rsp + (rcx << 2) + 0xc].d 0x154b 167 r15d = r15d - esi 0x154e 168 r14d = r14d + 1 0x1552 169 ebx = r15d 0x1555 170 ebp = r14d 0x155b 171 if (r14d s< r10d) then 77 @ 0x1410 else 199 @ 0x1561 0x150b 172 goto 26 @ 0x1190 0x14d0 173 eax = (rsi + rcx).d 0x14d3 174 r12d = [r13 + (rcx << 2)].d 0x14dd 175 if (r12d s<= [rsp + (rax << 2) + 0x10].d) then 200 @ 0x1510 else 208 @ 0x14df 0x1485 176 edx = [rsp + 0xc {var_1f7c}].d 0x1489 177 ebp = r13d 0x148c 178 ebx = r11d 0x148f 179 edi = r14d 0x148f 180 goto 89 @ 0x1495 0x1340 181 ecx = ecx + 1 0x1343 182 edx = edx - 1 0x1349 183 if (ecx == r8d) then 62 @ 0x13f0 else 147 @ 0x134f 0x135a 184 r9d = r8d 0x135d 185 r9d = r9d - ecx 0x1360 186 esi = [rsp + 0x10 {var_1f78}].d 0x1368 187 if (r9d != 1) then 212 @ 0x1370 else 216 @ 0x136a 0x12a0 188 [rsp + (rbp << 2) + 0xfb4].d = eax 0x12a7 189 [rsp + (rbp << 2) + 0xfb8].d = esi 0x12ae 190 rbp = rbx 0x12b4 191 if (rdi == rbx) then 124 @ 0x12ff else 122 @ 0x12b6 0x12f1 192 esi = eax 0x12f3 193 rbp = rbx 0x12f9 194 if (rdi != rbx) then 122 @ 0x12b6 else 124 @ 0x12ff 0x12de 195 goto 192 @ 0x12f1 0x1314 196 [rsp + (rbx << 2) + 0xfb0].d = eax 0x131b 197 [rsp + (rbx << 2) + 0xfb4].d = esi 0x1322 198 goto 82 @ 0x1250 0x1561 199 goto 26 @ 0x1190 0x1510 200 r9d = r9d + ecx 0x1513 201 r9d = r9d - 1 0x1517 202 ebx = ebx - ecx 0x1519 203 ebp = ebp - ecx 0x151b 204 r8d = r8d + ecx 0x151e 205 r14d = ebp 0x1521 206 r15d = ebx 0x1521 207 goto 218 @ 0x1524 0x14df 208 rcx = rcx - 1 0x14e3 209 eax = (rsi + rcx).d 0x14e6 210 eax = eax + 1 0x14eb 211 if (eax s> 0) then 173 @ 0x14d0 else 220 @ 0x14ed 0x1370 212 edi = edx 0x1372 213 edi = edi & 0xfffffffe 0x1375 214 ebp = 0 0x1377 215 goto 223 @ 0x1390 0x136a 216 ebx = 0 0x136c 217 goto 225 @ 0x13cc 0x1524 218 r12 = 0x2004 {"%d"} 0x152e 219 if (r14d == r10d) then 26 @ 0x1190 else 162 @ 0x1534 0x14ed 220 r8d = 0xffffffff {""} 0x14f3 221 r9d = r11d 0x14f6 222 goto 218 @ 0x1524 0x1390 223 eax = [rsp + (rbp << 2) + 0x14].d 0x1396 224 if (esi s>= eax) then 226 @ 0x13b0 else 230 @ 0x1398 0x13cc 225 if ((r9b & 1) == 0) then 181 @ 0x1340 else 235 @ 0x13d2 0x13b0 226 esi = eax 0x13b2 227 rbx = rbp + 2 0x13b6 228 eax = [rsp + (rbp << 2) + 0x18].d 0x13bc 229 if (esi s< eax) then 237 @ 0x1380 else 241 @ 0x13be 0x1398 230 [rsp + (rbp << 2) + 0x10].d = eax 0x139c 231 [rsp + (rbp << 2) + 0x14].d = esi 0x13a0 232 rbx = rbp + 2 0x13a4 233 eax = [rsp + (rbp << 2) + 0x18].d 0x13aa 234 if (esi s< eax) then 237 @ 0x1380 else 244 @ 0x13ac 0x13d2 235 eax = [rsp + (rbx << 2) + 0x14].d 0x13d8 236 if (esi s>= eax) then 181 @ 0x1340 else 245 @ 0x13de 0x1380 237 [rsp + (rbp << 2) + 0x14].d = eax 0x1384 238 [rsp + (rbp << 2) + 0x18].d = esi 0x1388 239 rbp = rbx 0x138e 240 if (rdi == rbx) then 225 @ 0x13cc else 223 @ 0x1390 0x13be 241 esi = eax 0x13c0 242 rbp = rbx 0x13c6 243 if (rdi != rbx) then 223 @ 0x1390 else 225 @ 0x13cc 0x13ac 244 goto 241 @ 0x13be 0x13de 245 [rsp + (rbx << 2) + 0x10].d = eax 0x13e2 246 [rsp + (rbx << 2) + 0x14].d = esi 0x13e6 247 goto 181 @ 0x1340 int64_t _fini(): 0x1580 0 rsp = rsp - 8 0x1584 1 rsp = rsp + 8 0x1588 2 <return> jump(pop)	POJ_92
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(r12) 0x1156 3 push(rbx) 0x1157 4 rsp = rsp - 0xfb8 0x115e 5 rdi = 0x2040 {"%d"} 0x1165 6 rsi = rsp + 4 {var_fd4} 0x116a 7 eax = 0 0x116c 8 call(0x1040) 0x1176 9 if ([rsp + 4 {var_fd4}].d s<= 0) then 10 @ 0x12e2 else 17 @ 0x117c 0x12e2 10 eax = 0 0x12e4 11 rsp = rsp + 0xfb8 0x12eb 12 rbx = pop 0x12ec 13 r12 = pop 0x12ee 14 r14 = pop 0x12f0 15 r15 = pop 0x12f2 16 <return> jump(pop) 0x117c 17 ebx = 1 0x1181 18 r14 = 0x2043 {"%lf"} 0x1188 19 r15 = rsp + 8 {var_fd0} 0x118d 20 r12 = 0x2047 {"%.3lf\n"} 0x1194 21 goto 22 @ 0x11b9 0x11b9 22 rdi = r14 0x11bc 23 rsi = r15 {var_fd0} 0x11bf 24 eax = 0 0x11c1 25 call(0x1040) 0x11c6 26 xmm1 = zx.o([rsp + 8 {var_fd0}].q) 0x11cc 27 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x11d0 28 xmm5 = zx.o([0x2008].q) 0x11d8 29 flag:p = is_unordered.q(xmm1.q, xmm5.q) 0x11d8 30 flag:c = xmm1.q f< xmm5.q \| is_unordered.q(xmm1.q, xmm5.q) 0x11d8 31 flag:z = xmm1.q f== xmm5.q \| is_unordered.q(xmm1.q, xmm5.q) 0x11d8 32 flag:s = 0 0x11d8 33 flag:o = 0 0x11d8 34 flag:a = 0 0x11dc 35 xmm6 = zx.o([0x2010].q) 0x11e4 36 xmm8 = zx.o([0x2018].q) 0x11ed 37 xmm7 = [0x2030].o 0x11f4 38 if (flag:c) then 39 @ 0x11a0 else 46 @ 0x11f6 0x11a0 39 rdi = r12 0x11a3 40 al = 1 0x11a5 41 call(0x1030) 0x11aa 42 eax = (rbx + 1).d 0x11ad 43 cond:0 = ebx s>= [rsp + 4 {var_fd4}].d 0x11b1 44 ebx = eax 0x11b3 45 if (cond:0) then 10 @ 0x12e2 else 22 @ 0x11b9 0x11f6 46 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x11fa 47 eax = 1 0x11ff 48 xmm2 = xmm5 0x1203 49 goto 50 @ 0x1239 0x1239 50 if (rax == 1) then 51 @ 0x1210 else 54 @ 0x123f 0x1210 51 xmm3 = xmm6 0x1214 52 xmm2 = xmm5 0x1214 53 goto 55 @ 0x1218 0x123f 54 if (rax u>= 3) then 67 @ 0x1250 else 70 @ 0x1241 0x1218 55 xmm3.q = xmm3.q f/ xmm2.q 0x121c 56 xmm0.q = xmm0.q f+ xmm3.q 0x1220 57 rax = rax + 1 0x1224 58 xmm2 = 0 0x1227 59 xmm2.q = float.d(eax) 0x122b 60 flag:p = is_unordered.q(xmm1.q, xmm2.q) 0x122b 61 flag:c = xmm1.q f< xmm2.q \| is_unordered.q(xmm1.q, xmm2.q) 0x122b 62 flag:z = xmm1.q f== xmm2.q \| is_unordered.q(xmm1.q, xmm2.q) 0x122b 63 flag:s = 0 0x122b 64 flag:o = 0 0x122b 65 flag:a = 0 0x122f 66 if (flag:c) then 39 @ 0x11a0 else 50 @ 0x1239 0x1250 67 ecx = 3 0x1255 68 xmm4 = [0x2020].o 0x125d 69 goto 73 @ 0x1260 0x1241 70 xmm3 = xmm8 0x1246 71 xmm2 = xmm6 0x124a 72 goto 55 @ 0x1218 0x1260 73 [rsp + 0x18 {var_fc0_1}].o = xmm4 0x1266 74 xmm3 = zx.o([rsp + (rcx << 3) + 8].q) 0x126c 75 xmm3.q = xmm3.q f+ fconvert.t([rsp + (rcx << 3)].q) 0x1271 76 [rsp + (rcx << 3) + 0x10].q = xmm3.q 0x1277 77 rcx = rcx + 1 0x127b 78 xmm3 = 0 0x127e 79 xmm3.q = float.d(ecx) 0x1282 80 flag:p = is_unordered.q(xmm2.q, xmm3.q) 0x1282 81 flag:c = xmm2.q f< xmm3.q \| is_unordered.q(xmm2.q, xmm3.q) 0x1282 82 flag:z = xmm2.q f== xmm3.q \| is_unordered.q(xmm2.q, xmm3.q) 0x1282 83 flag:s = 0 0x1282 84 flag:o = 0 0x1282 85 flag:a = 0 0x1286 86 if (not(flag:c)) then 73 @ 0x1260 else 87 @ 0x1288 0x1288 87 xmm3 = zx.o([rsp + (rax << 3) + 0x10].q) 0x1292 88 if (rax u>= 3) then 89 @ 0x129d else 91 @ 0x1294 0x129d 89 ecx = 3 0x12ac 90 goto 93 @ 0x12b0 0x1294 91 xmm2 = xmm6 0x1298 92 goto 55 @ 0x1218 0x12b0 93 [rsp + 0x18 {var_fc0_2}].o = xmm7 0x12b5 94 xmm4 = zx.o([rsp + (rcx << 3) + 8].q) 0x12bb 95 xmm4.q = xmm4.q f+ fconvert.t([rsp + (rcx << 3)].q) 0x12c0 96 [rsp + (rcx << 3) + 0x10].q = xmm4.q 0x12c6 97 rcx = rcx + 1 0x12ca 98 xmm4 = 0 0x12cd 99 xmm4.q = float.d(ecx) 0x12d1 100 flag:p = is_unordered.q(xmm2.q, xmm4.q) 0x12d1 101 flag:c = xmm2.q f< xmm4.q \| is_unordered.q(xmm2.q, xmm4.q) 0x12d1 102 flag:z = xmm2.q f== xmm4.q \| is_unordered.q(xmm2.q, xmm4.q) 0x12d1 103 flag:s = 0 0x12d1 104 flag:o = 0 0x12d1 105 flag:a = 0 0x12d5 106 if (not(flag:c)) then 93 @ 0x12b0 else 107 @ 0x12d7 0x12d7 107 xmm2 = zx.o([rsp + (rax << 3) + 0x10].q) 0x12dd 108 goto 55 @ 0x1218 void F(double arg1 @ zmm0): 0x1300 0 rsp = rsp - 0xf28 0x1307 1 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1307 2 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1307 3 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1307 4 flag:s = 0 0x1307 5 flag:o = 0 0x1307 6 flag:a = 0 0x130f 7 if (not(flag:z)) then 8 @ 0x131d else 15 @ 0x1311 0x131d 8 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2010].q)) 0x131d 9 flag:c = xmm0.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2010].q)) 0x131d 10 flag:z = xmm0.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2010].q)) 0x131d 11 flag:s = 0 0x131d 12 flag:o = 0 0x131d 13 flag:a = 0 0x1325 14 if (not(flag:z)) then 16 @ 0x1333 else 23 @ 0x1327 0x1311 15 if (flag:p) then 8 @ 0x131d else 24 @ 0x1313 0x1333 16 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1333 17 flag:c = xmm0.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1333 18 flag:z = xmm0.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x1333 19 flag:s = 0 0x1333 20 flag:o = 0 0x1333 21 flag:a = 0 0x133b 22 if (flag:c) then 26 @ 0x138a else 29 @ 0x133d 0x1327 23 if (flag:p) then 16 @ 0x1333 else 32 @ 0x1329 0x1313 24 xmm1 = zx.o([0x2010].q) 0x131b 25 goto 26 @ 0x138a 0x138a 26 xmm0 = xmm1 0x138d 27 rsp = rsp + 0xf28 0x1394 28 <return> jump(pop) 0x133d 29 eax = 3 0x1342 30 xmm1 = [0x2020].o 0x1349 31 goto 34 @ 0x1350 0x1329 32 xmm1 = zx.o([0x2018].q) 0x1331 33 goto 26 @ 0x138a 0x1350 34 [rsp - 0x78 {var_fa0_1}].o = xmm1 0x1355 35 xmm2 = zx.o([rsp + (rax << 3) - 0x88].q) 0x135e 36 xmm2.q = xmm2.q f+ fconvert.t([rsp + (rax << 3) - 0x90].q) 0x1367 37 [rsp + (rax << 3) - 0x80].q = xmm2.q 0x136d 38 rax = rax + 1 0x1371 39 xmm2 = 0 0x1374 40 xmm2.q = float.d(eax) 0x1378 41 flag:p = is_unordered.q(xmm0.q, xmm2.q) 0x1378 42 flag:c = xmm0.q f< xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1378 43 flag:z = xmm0.q f== xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1378 44 flag:s = 0 0x1378 45 flag:o = 0 0x1378 46 flag:a = 0 0x137c 47 if (not(flag:c)) then 34 @ 0x1350 else 48 @ 0x137e 0x137e 48 eax = int.d(ftrunc(xmm0.q)) 0x1382 49 rax = sx.q(eax) 0x1384 50 xmm1 = zx.o([rsp + (rax << 3) - 0x80].q) 0x1384 51 goto 26 @ 0x138a void f(double arg1 @ zmm0): 0x13a0 0 rsp = rsp - 0xf28 0x13a7 1 xmm1 = zx.o([0x2008].q) 0x13af 2 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x13af 3 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x13af 4 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x13af 5 flag:s = 0 0x13af 6 flag:o = 0 0x13af 7 flag:a = 0 0x13b3 8 if (not(flag:z)) then 9 @ 0x13b7 else 17 @ 0x13b5 0x13b7 9 xmm1 = zx.o([0x2010].q) 0x13bf 10 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x13bf 11 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x13bf 12 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x13bf 13 flag:s = 0 0x13bf 14 flag:o = 0 0x13bf 15 flag:a = 0 0x13c3 16 if (not(flag:z)) then 18 @ 0x13c7 else 25 @ 0x13c5 0x13b5 17 if (not(flag:p)) then 26 @ 0x141a else 9 @ 0x13b7 0x13c7 18 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13c7 19 flag:c = xmm0.q f< fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13c7 20 flag:z = xmm0.q f== fconvert.t([0x2018].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2018].q)) 0x13c7 21 flag:s = 0 0x13c7 22 flag:o = 0 0x13c7 23 flag:a = 0 0x13cf 24 if (flag:c) then 26 @ 0x141a else 29 @ 0x13d1 0x13c5 25 if (not(flag:p)) then 26 @ 0x141a else 18 @ 0x13c7 0x141a 26 xmm0 = xmm1 0x141e 27 rsp = rsp + 0xf28 0x1425 28 <return> jump(pop) 0x13d1 29 eax = 3 0x13d6 30 xmm1 = [0x2030].o 0x13dd 31 goto 32 @ 0x13e0 0x13e0 32 [rsp - 0x78 {var_fa0_1}].o = xmm1 0x13e5 33 xmm2 = zx.o([rsp + (rax << 3) - 0x88].q) 0x13ee 34 xmm2.q = xmm2.q f+ fconvert.t([rsp + (rax << 3) - 0x90].q) 0x13f7 35 [rsp + (rax << 3) - 0x80].q = xmm2.q 0x13fd 36 rax = rax + 1 0x1401 37 xmm2 = 0 0x1404 38 xmm2.q = float.d(eax) 0x1408 39 flag:p = is_unordered.q(xmm0.q, xmm2.q) 0x1408 40 flag:c = xmm0.q f< xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1408 41 flag:z = xmm0.q f== xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x1408 42 flag:s = 0 0x1408 43 flag:o = 0 0x1408 44 flag:a = 0 0x140c 45 if (not(flag:c)) then 32 @ 0x13e0 else 46 @ 0x140e 0x140e 46 eax = int.d(ftrunc(xmm0.q)) 0x1412 47 rax = sx.q(eax) 0x1414 48 xmm1 = zx.o([rsp + (rax << 3) - 0x80].q) 0x1414 49 goto 26 @ 0x141a int64_t _fini(): 0x142c 0 rsp = rsp - 8 0x1430 1 rsp = rsp + 8 0x1434 2 <return> jump(pop)	POJ_29
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVSH8"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(rbx) 0x1156 4 rsp = rsp - 0x338 0x115d 5 rdi = 0x2020 {"%d"} 0x1164 6 rsi = rsp + 0xc {var_34c} 0x1169 7 eax = 0 0x116b 8 call(0x1040) 0x1170 9 eax = [rsp + 0xc {var_34c}].d 0x1176 10 if (eax s<= 0) then 11 @ 0x1330 else 23 @ 0x117c 0x1330 11 rax = sx.q(eax) 0x1332 12 edx = [rsp + (rax << 2) + 0x198].d 0x1339 13 esi = [rsp + (rax << 2) + 0x19c].d 0x1340 14 rdi = 0x2023 {"%d\n%d\n"} 0x1347 15 eax = 0 0x1349 16 call(0x1030) 0x134e 17 rsp = rsp + 0x338 0x1355 18 rbx = pop 0x1356 19 r14 = pop 0x1358 20 r15 = pop 0x135a 21 rbp = pop 0x135b 22 <return> jump(pop) 0x117c 23 r15 = rsp + 0x10 {var_348} 0x1181 24 r14 = 0x2020 {"%d"} 0x1188 25 ebx = 0 0x118a 26 goto 27 @ 0x1190 0x1190 27 rdi = r14 0x1193 28 rsi = r15 0x1196 29 eax = 0 0x1198 30 call(0x1040) 0x119d 31 [rsp + (rbx << 2) + 0x1a0].d = 0 0x11a8 32 rbx = rbx + 1 0x11ac 33 rax = sx.q([rsp + 0xc {var_34c}].d) 0x11b1 34 r15 = r15 + 4 0x11b8 35 if (rbx s< rax) then 27 @ 0x1190 else 36 @ 0x11bc 0x11bc 36 if (eax s<= 0) then 11 @ 0x1330 else 37 @ 0x11c2 0x11c2 37 ecx = eax 0x11c4 38 r11d = ecx 0x11c7 39 r11d = r11d & 0xfffffff8 0x11cb 40 r9 = r11 - 8 0x11cf 41 r10 = r9 0x11d2 42 r10 = r10 u>> 3 0x11d6 43 r10 = r10 + 1 0x11da 44 r8 = r10 0x11dd 45 r8 = r8 & 0xfffffffffffffffe 0x11e1 46 ebx = 0 0x11e3 47 xmm8 = _mm_cmpeq_epi32(xmm8, xmm8) 0x11e8 48 xmm1 = [0x2010].o 0x11f0 49 goto 50 @ 0x1217 0x1217 50 esi = [rsp + (rbx << 2) + 0x10].d 0x121e 51 if (eax u>= 8) then 52 @ 0x1230 else 55 @ 0x1220 0x1230 52 xmm2 = esi 0x1234 53 xmm2 = _mm_shuffle_epi32(xmm2, 0) 0x123c 54 if (r9 == 0) then 58 @ 0x131a else 62 @ 0x1242 0x1220 55 edi = 0 0x1222 56 edx = 0 0x1224 57 goto 67 @ 0x1300 0x131a 58 xmm3 = 0 0x131e 59 edi = 0 0x1320 60 xmm4 = 0 0x1328 61 if ((r10b & 1) != 0) then 72 @ 0x12a8 else 81 @ 0x132e 0x1242 62 xmm5 = 0 0x1246 63 rdx = r8 0x1249 64 edi = 0 0x124b 65 xmm6 = 0 0x124f 66 goto 82 @ 0x1250 0x1300 67 ebp = 0 0x1306 68 bpl = esi s>= [rsp + (rdi << 2) + 0x10].d 0x130a 69 edx = edx + ebp 0x130c 70 rdi = rdi + 1 0x1313 71 if (rcx != rdi) then 67 @ 0x1300 else 102 @ 0x1315 0x12a8 72 xmm0 = [rsp + (rdi << 2) + 0x10].o 0x12ae 73 xmm5 = [rsp + (rdi << 2) + 0x20].o 0x12b4 74 xmm0 = _mm_cmpgt_epi32(xmm0, xmm2) 0x12b8 75 xmm3 = _mm_add_epi32(xmm3, xmm0) 0x12bc 76 xmm5 = _mm_cmpgt_epi32(xmm5, xmm2) 0x12c0 77 xmm4 = _mm_add_epi32(xmm4, xmm5) 0x12c4 78 xmm3 = _mm_sub_epi32(xmm3, xmm8) 0x12c9 79 xmm4 = _mm_sub_epi32(xmm4, xmm8) 0x12c9 80 goto 103 @ 0x12ce 0x132e 81 goto 103 @ 0x12ce 0x1250 82 xmm7 = [rsp + (rdi << 2) + 0x10].o 0x1256 83 xmm0 = [rsp + (rdi << 2) + 0x20].o 0x125c 84 xmm3 = [rsp + (rdi << 2) + 0x30].o 0x1262 85 xmm4 = [rsp + (rdi << 2) + 0x40].o 0x1268 86 xmm7 = _mm_cmpgt_epi32(xmm7, xmm2) 0x126c 87 xmm7 = _mm_add_epi32(xmm7, xmm5) 0x1270 88 xmm0 = _mm_cmpgt_epi32(xmm0, xmm2) 0x1274 89 xmm0 = _mm_add_epi32(xmm0, xmm6) 0x1278 90 xmm3 = _mm_cmpgt_epi32(xmm3, xmm2) 0x127c 91 xmm4 = _mm_cmpgt_epi32(xmm4, xmm2) 0x1280 92 xmm3 = _mm_add_epi32(xmm3, xmm1) 0x1284 93 xmm3 = _mm_add_epi32(xmm3, xmm7) 0x1288 94 xmm4 = _mm_add_epi32(xmm4, xmm1) 0x128c 95 xmm4 = _mm_add_epi32(xmm4, xmm0) 0x1290 96 rdi = rdi + 0x10 0x1294 97 xmm5 = xmm3 0x1298 98 xmm6 = xmm4 0x129c 99 temp0.q = rdx 0x129c 100 rdx = rdx - 2 0x12a0 101 if (temp0.q != 2) then 82 @ 0x1250 else 111 @ 0x12a6 0x1315 102 goto 112 @ 0x1200 0x12ce 103 xmm3 = _mm_add_epi32(xmm3, xmm4) 0x12d2 104 xmm0 = _mm_shuffle_epi32(xmm3, 0xee) 0x12d7 105 xmm0 = _mm_add_epi32(xmm0, xmm3) 0x12db 106 xmm2 = _mm_shuffle_epi32(xmm0, 0x55) 0x12e0 107 xmm2 = _mm_add_epi32(xmm2, xmm0) 0x12e4 108 edx = xmm2.d 0x12e8 109 rdi = r11 0x12ee 110 if (r11 == rcx) then 112 @ 0x1200 else 116 @ 0x12fe 0x12a6 111 if ((r10b & 1) == 0) then 103 @ 0x12ce else 72 @ 0x12a8 0x1200 112 rdx = sx.q(edx) 0x1203 113 [rsp + (rdx << 2) + 0x19c].d = esi 0x120a 114 rbx = rbx + 1 0x1211 115 if (rbx == rcx) then 11 @ 0x1330 else 50 @ 0x1217 0x12fe 116 goto 67 @ 0x1300 int64_t _fini(): 0x1360 0 rsp = rsp - 8 0x1364 1 rsp = rsp + 8 0x1368 2 <return> jump(pop)	POJ_84
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHHE"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x10 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 rdi = 0x2004 {"%d"} 0x1166 5 rsi = rbp - 8 {var_10} 0x116a 6 al = 0 0x116c 7 call(0x1040) 0x1175 8 if ([rbp - 8 {var_10}].d != 1) then 9 @ 0x1195 else 11 @ 0x117b 0x1195 9 [rbp - 0xc {var_14_1}].d = 1 0x1195 10 goto 16 @ 0x11a0 0x117b 11 rdi = 0x2007 {"End"} 0x1182 12 al = 0 0x1184 13 call(0x1030) 0x1189 14 [rbp - 4 {var_c_1}].d = 0 0x1190 15 goto 17 @ 0x1248 0x11a0 16 if ([rbp - 8 {var_10}].d != 1) then 21 @ 0x11b9 else 35 @ 0x11a6 0x1248 17 eax = [rbp - 4 {var_c_1}].d 0x124b 18 rsp = rsp + 0x10 0x124f 19 rbp = pop 0x1250 20 <return> jump(pop) 0x11b9 21 eax = [rbp - 8 {var_10}].d 0x11bc 22 ecx = 2 0x11c1 23 temp2.d:temp3.d = sx.q(eax) 0x11c1 24 edx = temp2.d 0x11c1 25 eax = temp3.d 0x11c2 26 temp4.d = edx 0x11c2 27 temp5.d = eax 0x11c2 28 temp0.d = divs.dp.d(temp4.d:temp5.d, ecx) 0x11c2 29 temp6.d = edx 0x11c2 30 temp7.d = eax 0x11c2 31 temp1.d = mods.dp.d(temp6.d:temp7.d, ecx) 0x11c2 32 eax = temp0.d 0x11c2 33 edx = temp1.d 0x11c7 34 if (edx == 0) then 39 @ 0x11fe else 62 @ 0x11cd 0x11a6 35 rdi = 0x2007 {"End"} 0x11ad 36 al = 0 0x11af 37 call(0x1030) 0x11b4 38 goto 74 @ 0x1241 0x11fe 39 esi = [rbp - 8 {var_10}].d 0x1201 40 rdi = 0x2017 {"%d/2="} 0x1208 41 al = 0 0x120a 42 call(0x1030) 0x120f 43 eax = [rbp - 8 {var_10}].d 0x1212 44 ecx = 2 0x1217 45 temp8.d:temp9.d = sx.q(eax) 0x1217 46 edx = temp8.d 0x1217 47 eax = temp9.d 0x1218 48 temp10.d = edx 0x1218 49 temp11.d = eax 0x1218 50 temp0.d = divs.dp.d(temp10.d:temp11.d, ecx) 0x1218 51 temp12.d = edx 0x1218 52 temp13.d = eax 0x1218 53 temp1.d = mods.dp.d(temp12.d:temp13.d, ecx) 0x1218 54 eax = temp0.d 0x1218 55 edx = temp1.d 0x121a 56 [rbp - 8 {var_10}].d = eax 0x121d 57 esi = [rbp - 8 {var_10}].d 0x1220 58 rdi = 0x2013 {"%d\n"} 0x1227 59 al = 0 0x1229 60 call(0x1030) 0x1229 61 goto 76 @ 0x122e 0x11cd 62 esi = [rbp - 8 {var_10}].d 0x11d0 63 rdi = 0x200b {"%d3+1="} 0x11d7 64 al = 0 0x11d9 65 call(0x1030) 0x11de 66 eax = [rbp - 8 {var_10}].d 3 0x11e2 67 eax = eax + 1 0x11e5 68 [rbp - 8 {var_10}].d = eax 0x11e8 69 esi = [rbp - 8 {var_10}].d 0x11eb 70 rdi = 0x2013 {"%d\n"} 0x11f2 71 al = 0 0x11f4 72 call(0x1030) 0x11f9 73 goto 76 @ 0x122e 0x1241 74 [rbp - 4 {var_c_2}].d = 0 0x1241 75 goto 17 @ 0x1248 0x122e 76 goto 77 @ 0x1233 0x1233 77 eax = [rbp - 0xc {var_14_1}].d 0x1236 78 eax = eax + 1 0x1239 79 [rbp - 0xc {var_14_1}].d = eax 0x123c 80 goto 16 @ 0x11a0 int64_t _fini(): 0x1258 0 rsp = rsp - 8 0x125c 1 rsp = rsp + 8 0x1260 2 <return> jump(pop)	POJ_34
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0xa0 0x116b 3 [rbp - 4 {var_c}].d = 0 0x1172 4 rdi = rbp - 0x90 {var_98} 0x1179 5 esi = 0 0x117b 6 edx = 0x80 {""} 0x1180 7 call(0x1040) 0x1185 8 rdi = 0x2004 {"%d"} 0x118c 9 rsi = rbp - 0xc {var_14} 0x1190 10 al = 0 0x1192 11 call(0x1050) 0x1197 12 [rbp - 0x90 {var_98}].d = 1 0x11a1 13 [rbp - 0x94 {var_9c}].d = 0 0x11a1 14 goto 15 @ 0x11ab 0x11ab 15 eax = [rbp - 0x94 {var_9c}].d 0x11b4 16 if (eax s>= [rbp - 0xc {var_14}].d) then 17 @ 0x126b else 19 @ 0x11ba 0x126b 17 [rbp - 8 {var_10_3}].d = 0x1f {""} 0x126b 18 goto 21 @ 0x1276 0x11ba 19 [rbp - 8 {var_10_1}].d = 0 0x11ba 20 goto 22 @ 0x11c5 0x1276 21 if ([rbp - 8 {var_10_3}].d s< 0) then 23 @ 0x12bc else 27 @ 0x127c 0x11c5 22 if ([rbp - 8 {var_10_1}].d s>= 0x1f) then 29 @ 0x11ee else 31 @ 0x11cb 0x12bc 23 eax = [rbp - 8 {var_10_3}].d 0x12bf 24 eax = eax - 1 0x12c2 25 [rbp - 0x94 {var_9c_1}].d = eax 0x12c2 26 goto 39 @ 0x12cf 0x127c 27 rax = sx.q([rbp - 8 {var_10_3}].d) 0x1288 28 if ([rbp + (rax << 2) - 0x90].d != 0) then 40 @ 0x12a9 else 41 @ 0x128e 0x11ee 29 [rbp - 8 {var_10_2}].d = 0 0x11ee 30 goto 45 @ 0x11f9 0x11cb 31 rax = sx.q([rbp - 8 {var_10_1}].d) 0x11cf 32 ecx = [rbp + (rax << 2) - 0x90].d 0x11d6 33 ecx = ecx << 1 0x11d9 34 [rbp + (rax << 2) - 0x90].d = ecx 0x11e0 35 eax = [rbp - 8 {var_10_1}].d 0x11e3 36 eax = eax + 1 0x11e6 37 [rbp - 8 {var_10_1}].d = eax 0x11e9 38 goto 22 @ 0x11c5 0x12cf 39 if ([rbp - 0x94 {var_9c_1}].d s< 0) then 46 @ 0x1305 else 50 @ 0x12d5 0x12a9 40 goto 59 @ 0x12ae 0x128e 41 eax = [rbp - 8 {var_10_3}].d 0x1291 42 eax = eax - 1 0x1294 43 rax = sx.q(eax) 0x129e 44 if ([rbp + (rax << 2) - 0x90].d == 0) then 40 @ 0x12a9 else 63 @ 0x12a4 0x11f9 45 if ([rbp - 8 {var_10_2}].d s>= 0x1f) then 64 @ 0x1252 else 65 @ 0x11ff 0x1305 46 eax = [rbp - 4 {var_c}].d 0x1308 47 rsp = rsp + 0xa0 0x130f 48 rbp = pop 0x1310 49 <return> jump(pop) 0x12d5 50 rax = sx.q([rbp - 0x94 {var_9c_1}].d) 0x12dc 51 esi = [rbp + (rax << 2) - 0x90].d 0x12e3 52 rdi = 0x2004 {"%d"} 0x12ea 53 al = 0 0x12ec 54 call(0x1030) 0x12f1 55 eax = [rbp - 0x94 {var_9c_1}].d 0x12f7 56 eax = eax - 1 0x12fa 57 [rbp - 0x94 {var_9c_1}].d = eax 0x1300 58 goto 39 @ 0x12cf 0x12ae 59 eax = [rbp - 8 {var_10_3}].d 0x12b1 60 eax = eax - 1 0x12b4 61 [rbp - 8 {var_10_3}].d = eax 0x12b7 62 goto 21 @ 0x1276 0x12a4 63 goto 23 @ 0x12bc 0x1252 64 goto 67 @ 0x1257 0x11ff 65 rax = sx.q([rbp - 8 {var_10_2}].d) 0x120b 66 if ([rbp + (rax << 2) - 0x90].d s< 0xa) then 71 @ 0x123f else 72 @ 0x1211 0x1257 67 eax = [rbp - 0x94 {var_9c}].d 0x125d 68 eax = eax + 1 0x1260 69 [rbp - 0x94 {var_9c}].d = eax 0x1266 70 goto 15 @ 0x11ab 0x123f 71 goto 83 @ 0x1244 0x1211 72 rax = sx.q([rbp - 8 {var_10_2}].d) 0x1215 73 ecx = [rbp + (rax << 2) - 0x90].d 0x121c 74 ecx = ecx - 0xa 0x121f 75 [rbp + (rax << 2) - 0x90].d = ecx 0x1226 76 eax = [rbp - 8 {var_10_2}].d 0x1229 77 eax = eax + 1 0x122c 78 rax = sx.q(eax) 0x122e 79 ecx = [rbp + (rax << 2) - 0x90].d 0x1235 80 ecx = ecx + 1 0x1238 81 [rbp + (rax << 2) - 0x90].d = ecx 0x1238 82 goto 71 @ 0x123f 0x1244 83 eax = [rbp - 8 {var_10_2}].d 0x1247 84 eax = eax + 1 0x124a 85 [rbp - 8 {var_10_2}].d = eax 0x124d 86 goto 45 @ 0x11f9 int64_t _fini(): 0x1318 0 rsp = rsp - 8 0x131c 1 rsp = rsp + 8 0x1320 2 <return> jump(pop)	POJ_25
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t scanf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t puts(char const* str): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVATSH\t"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(r12) 0x1156 3 push(rbx) 0x1157 4 rsp = rsp - 0x988 0x115e 5 rdi = 0x2030 {"%d"} 0x1165 6 rsi = rsp + 4 {var_9a4} 0x116a 7 eax = 0 0x116c 8 call(0x1030) 0x1176 9 if ([rsp + 4 {var_9a4}].d s<= 0) then 10 @ 0x138d else 17 @ 0x117c 0x138d 10 eax = 0 0x138f 11 rsp = rsp + 0x988 0x1396 12 rbx = pop 0x1397 13 r12 = pop 0x1399 14 r14 = pop 0x139b 15 r15 = pop 0x139d 16 <return> jump(pop) 0x117c 17 r14 = rsp + 0x340 {var_668} 0x1184 18 r12 = rsp + 0x660 {var_348} 0x118c 19 r15 = 0x2033 {"%lf%lf"} 0x1193 20 ebx = 0 0x119f 21 goto 22 @ 0x11a0 0x11a0 22 rdi = r15 0x11a3 23 rsi = r12 0x11a6 24 rdx = r14 0x11a9 25 eax = 0 0x11ab 26 call(0x1030) 0x11b0 27 rbx = rbx + 1 0x11b4 28 rax = sx.q([rsp + 4 {var_9a4}].d) 0x11b9 29 r14 = r14 + 8 0x11bd 30 r12 = r12 + 8 0x11c4 31 if (rbx s< rax) then 22 @ 0x11a0 else 32 @ 0x11c6 0x11c6 32 eax = eax 0x11ca 33 if (eax s<= 0) then 10 @ 0x138d else 34 @ 0x11d3 0x11d3 34 if (eax != 1) then 35 @ 0x11dc else 42 @ 0x11d5 0x11dc 35 ecx = eax 0x11de 36 ecx = ecx & 0xfffffffe 0x11e1 37 rsi = rcx - 2 0x11e5 38 rdx = rsi 0x11e8 39 rdx = rdx u>> 1 0x11eb 40 rdx = rdx + 1 0x11f2 41 if (rsi == 0) then 44 @ 0x139e else 46 @ 0x11f8 0x11d5 42 ecx = 0 0x11d7 43 goto 51 @ 0x127c 0x139e 44 esi = 0 0x13a3 45 if ((dl & 1) != 0) then 53 @ 0x1257 else 58 @ 0x13a9 0x11f8 46 rdi = rdx 0x11fb 47 rdi = rdi & 0xfffffffffffffffe 0x11ff 48 esi = 0 0x1201 49 xmm0 = [0x2010].o 0x1209 50 goto 59 @ 0x1210 0x127c 51 xmm0 = zx.o([0x2020].q) 0x128e 52 goto 71 @ 0x1290 0x1257 53 xmm0 = [rsp + (rsi << 3) + 0x340].o 0x1260 54 xmm0 = __divpd_xmmpd_mempd(xmm0, [rsp + (rsi << 3) + 0x660].o) 0x1269 55 xmm0 = __mulpd_xmmpd_mempd(xmm0, [0x2010].o) 0x1271 56 [rsp + (rsi << 3) + 0x20].o = xmm0 0x1271 57 goto 77 @ 0x127a 0x13a9 58 goto 77 @ 0x127a 0x1210 59 xmm1 = [rsp + (rsi << 3) + 0x340].o 0x1219 60 xmm2 = [rsp + (rsi << 3) + 0x350].o 0x1222 61 xmm1 = __divpd_xmmpd_mempd(xmm1, [rsp + (rsi << 3) + 0x660].o) 0x122b 62 xmm1 = _mm_mul_pd(xmm1, xmm0) 0x122f 63 [rsp + (rsi << 3) + 0x20].o = xmm1 0x1235 64 xmm2 = __divpd_xmmpd_mempd(xmm2, [rsp + (rsi << 3) + 0x670].o) 0x123e 65 xmm2 = _mm_mul_pd(xmm2, xmm0) 0x1242 66 [rsp + (rsi << 3) + 0x30].o = xmm2 0x1248 67 rsi = rsi + 4 0x124c 68 temp0.q = rdi 0x124c 69 rdi = rdi - 2 0x1250 70 if (temp0.q != 2) then 59 @ 0x1210 else 78 @ 0x1255 0x1290 71 xmm1 = zx.o([rsp + (rcx << 3) + 0x340].q) 0x1299 72 xmm1.q = xmm1.q f/ fconvert.t([rsp + (rcx << 3) + 0x660].q) 0x12a2 73 xmm1.q = xmm1.q f* xmm0.q 0x12a6 74 [rsp + (rcx << 3) + 0x20].q = xmm1.q 0x12ac 75 rcx = rcx + 1 0x12b3 76 if (rax != rcx) then 71 @ 0x1290 else 79 @ 0x12b8 0x127a 77 if (rcx == rax) then 79 @ 0x12b8 else 51 @ 0x127c 0x1255 78 if ((dl & 1) == 0) then 77 @ 0x127a else 53 @ 0x1257 0x12b8 79 if (eax s< 2) then 10 @ 0x138d else 80 @ 0x12be 0x12be 80 ebx = 1 0x12c3 81 xmm0 = zx.o([rsp + 0x20 {var_988}].q) 0x12c9 82 [rsp + 0x10 {var_998_1}].q = xmm0.q 0x12cf 83 xmm0 = zx.o([0x2028].q) 0x12d7 84 r14 = 0x2045 {"better"} 0x12de 85 r15 = 0x203f {"worse"} 0x12e5 86 r12 = 0x203a {"same"} 0x12ec 87 goto 88 @ 0x1302 0x1302 88 xmm2 = zx.o([rsp + (rbx << 3) + 0x20].q) 0x1308 89 xmm1 = xmm2 0x130c 90 xmm1.q = xmm1.q f- fconvert.t([rsp + 0x10 {var_998_1}].q) 0x1312 91 [rsp + 0x18 {var_990_1}].q = xmm1.q 0x1318 92 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1318 93 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1318 94 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1318 95 flag:s = 0 0x1318 96 flag:o = 0 0x1318 97 flag:a = 0 0x131c 98 if (flag:z \|\| flag:c) then 99 @ 0x133a else 108 @ 0x131e 0x133a 99 xmm1 = zx.o([rsp + 0x10 {var_998_1}].q) 0x1340 100 xmm1.q = xmm1.q f- xmm2.q 0x1344 101 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1344 102 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1344 103 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1344 104 flag:s = 0 0x1344 105 flag:o = 0 0x1344 106 flag:a = 0 0x1348 107 if (flag:z \|\| flag:c) then 114 @ 0x1366 else 121 @ 0x134a 0x131e 108 rdi = r14 0x1321 109 [rsp + 8 {var_9a0_1}].q = xmm2.q 0x1327 110 call(0x1040) 0x132c 111 xmm2 = zx.o([rsp + 8 {var_9a0_1}].q) 0x1332 112 xmm0 = zx.o([0x2028].q) 0x1332 113 goto 99 @ 0x133a 0x1366 114 flag:p = is_unordered.q(xmm0.q, fconvert.t([rsp + 0x18 {var_990_1}].q)) 0x1366 115 flag:c = xmm0.q f< fconvert.t([rsp + 0x18 {var_990_1}].q) \| is_unordered.q(xmm0.q, fconvert.t([rsp + 0x18 {var_990_1}].q)) 0x1366 116 flag:z = xmm0.q f== fconvert.t([rsp + 0x18 {var_990_1}].q) \| is_unordered.q(xmm0.q, fconvert.t([rsp + 0x18 {var_990_1}].q)) 0x1366 117 flag:s = 0 0x1366 118 flag:o = 0 0x1366 119 flag:a = 0 0x136c 120 if (flag:c) then 127 @ 0x12f0 else 130 @ 0x136e 0x134a 121 rdi = r15 0x134d 122 [rsp + 8 {var_9a0_2}].q = xmm1.q 0x1353 123 call(0x1040) 0x1358 124 xmm1 = zx.o([rsp + 8 {var_9a0_2}].q) 0x135e 125 xmm0 = zx.o([0x2028].q) 0x135e 126 goto 114 @ 0x1366 0x12f0 127 rbx = rbx + 1 0x12f4 128 rax = sx.q([rsp + 4 {var_9a4}].d) 0x12fc 129 if (rbx s>= rax) then 10 @ 0x138d else 88 @ 0x1302 0x136e 130 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x136e 131 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x136e 132 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x136e 133 flag:s = 0 0x136e 134 flag:o = 0 0x136e 135 flag:a = 0 0x1372 136 if (flag:c) then 127 @ 0x12f0 else 137 @ 0x1378 0x1378 137 rdi = r12 0x137b 138 call(0x1040) 0x1380 139 xmm0 = zx.o([0x2028].q) 0x1388 140 goto 127 @ 0x12f0 int64_t _fini(): 0x13b4 0 rsp = rsp - 8 0x13b8 1 rsp = rsp + 8 0x13bc 2 <return> jump(pop)	POJ_67
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(r12) 0x1156 3 push(rbx) 0x1157 4 rsp = rsp - 0x88 0x115e 5 r12 = rsp + 0x20 {var_88} 0x1163 6 r14 = 0x2004 {"%d"} 0x116a 7 r15d = 0 0x116d 8 goto 9 @ 0x1170 0x1170 9 ebx = 0 0x117c 10 goto 11 @ 0x1180 0x1180 11 rsi = r12 + rbx 0x1184 12 rdi = r14 0x1187 13 eax = 0 0x1189 14 call(0x1040) 0x118e 15 rbx = rbx + 4 0x1196 16 if (rbx != 0x14) then 11 @ 0x1180 else 17 @ 0x1198 0x1198 17 r15 = r15 + 1 0x119c 18 r12 = r12 + 0x14 0x11a4 19 if (r15 != 5) then 9 @ 0x1170 else 20 @ 0x11a6 0x11a6 20 rax = rsp + 0x20 {var_88} 0x11ab 21 ecx = 0 0x11ad 22 goto 23 @ 0x11be 0x11be 23 rdx = rcx + (rcx << 2) 0x11c2 24 esi = [rsp + (rdx << 2) + 0x20].d 0x11c6 25 [rsp + (rcx << 2)].d = 0 0x11cd 26 edx = 1 0x11d2 27 goto 28 @ 0x11ea 0x11ea 28 edi = [rax + (rdx << 2)].d 0x11ef 29 if (edi s<= esi) then 30 @ 0x11e0 else 32 @ 0x11f1 0x11e0 30 rdx = rdx + 1 0x11e8 31 if (rdx == 5) then 35 @ 0x11b0 else 28 @ 0x11ea 0x11f1 32 [rsp + (rcx << 2)].d = edx 0x11f4 33 esi = edi 0x11f6 34 goto 30 @ 0x11e0 0x11b0 35 rcx = rcx + 1 0x11b4 36 rax = rax + 0x14 0x11bc 37 if (rcx == 5) then 38 @ 0x11f8 else 23 @ 0x11be 0x11f8 38 r14 = 0x2007 {"%d %d %d\n"} 0x11ff 39 ebx = 0 0x1201 40 eax = 0 0x1203 41 goto 42 @ 0x121a 0x121a 42 rsi = sx.q([rsp + (rbx << 2)].d) 0x121e 43 rcx = rbx + (rbx << 2) 0x1222 44 rcx = rsp + (rcx << 2) 0x1226 45 rcx = rcx + 0x20 0x122a 46 edx = [rcx + (rsi << 2)].d 0x122d 47 rsi = rsp + (rsi << 2) 0x1231 48 rsi = rsi + 0x20 0x1235 49 rdi = -0x64 0x123c 50 goto 51 @ 0x1244 0x1244 51 if ([rsi + rdi + 0x64].d s< edx) then 52 @ 0x1210 else 54 @ 0x1246 0x1210 52 rbx = rbx + 1 0x1218 53 if (rbx == 5) then 57 @ 0x126c else 42 @ 0x121a 0x1246 54 temp0.q = rdi 0x1246 55 rdi = rdi + 0x14 0x124a 56 if (temp0.q != -0x14) then 51 @ 0x1244 else 58 @ 0x124c 0x126c 57 if (eax != 0) then 67 @ 0x127c else 74 @ 0x126e 0x124c 58 rax = sx.q([rsp + (rbx << 2)].d) 0x1250 59 edx = (rax + 1).d 0x1253 60 ecx = [rcx + (rax << 2)].d 0x1256 61 esi = (rbx + 1).d 0x1259 62 rdi = r14 0x125c 63 eax = 0 0x125e 64 call(0x1030) 0x1263 65 eax = 1 0x1268 66 goto 52 @ 0x1210 0x127c 67 eax = 0 0x127e 68 rsp = rsp + 0x88 0x1285 69 rbx = pop 0x1286 70 r12 = pop 0x1288 71 r14 = pop 0x128a 72 r15 = pop 0x128c 73 <return> jump(pop) 0x126e 74 rdi = 0x2011 {"not found"} 0x1275 75 eax = 0 0x1277 76 call(0x1030) 0x1277 77 goto 67 @ 0x127c int64_t _fini(): 0x1294 0 rsp = rsp - 8 0x1298 1 rsp = rsp + 8 0x129c 2 <return> jump(pop)	POJ_73
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memcpy(void* arg1, void const* arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1050 0 <return> tailcall([0x4028].q) int32_t scanf(char const* format, ...): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"UAWAVAUATSH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(rbp) 0x1171 1 push(r15) 0x1173 2 push(r14) 0x1175 3 push(r13) 0x1177 4 push(r12) 0x1179 5 push(rbx) 0x117a 6 rsp = rsp - 0x2a8 0x1181 7 rdi = 0x2004 {"%d%d"} 0x1188 8 r15d = 0 0x118b 9 rsi = rsp + 0xc {var_2cc} 0x1190 10 rdx = rsp + 8 {var_2d0} 0x1195 11 eax = 0 0x1197 12 call(0x1060) 0x119c 13 r12 = rsp + 0x10 {var_2c8} 0x11a1 14 edx = 0x144 {""} 0x11a6 15 rdi = r12 {var_2c8} 0x11a9 16 esi = 0 0x11ab 17 call(0x1050) 0x11b0 18 eax = [rsp + 0xc {var_2cc}].d 0x11b4 19 [rsp + 0xb0 {var_228}].d = eax 0x11bb 20 r13d = [rsp + 8 {var_2d0}].d 0x11c3 21 if (r13d s<= 0) then 22 @ 0x12aa else 26 @ 0x11c9 0x12aa 22 rbx = 0x2009 {"%d "} 0x12b1 23 r14 = 0x200d {"%d\n"} 0x12b8 24 r15d = 0 0x12bb 25 goto 28 @ 0x12c0 0x11c9 26 r14 = rsp + 0x160 {var_178} 0x11db 27 goto 30 @ 0x11e0 0x12c0 28 ebp = 0 0x12cc 29 goto 37 @ 0x12d0 0x11e0 30 edx = 0x144 {""} 0x11e5 31 rdi = r14 {var_178} 0x11e8 32 esi = 0 0x11ea 33 call(0x1050) 0x11ef 34 eax = 1 0x11f4 35 r8 = r14 {var_178} 0x11f7 36 goto 43 @ 0x1200 0x12d0 37 esi = [r12 + (rbp << 2)].d 0x12d4 38 rdi = rbx 0x12d7 39 eax = 0 0x12d9 40 call(0x1030) 0x12de 41 rbp = rbp + 1 0x12e6 42 if (rbp != 8) then 37 @ 0x12d0 else 46 @ 0x12e8 0x1200 43 rcx = r8 0x1203 44 esi = 1 0x1208 45 goto 54 @ 0x1210 0x12e8 46 rax = r15 + (r15 << 3) 0x12ec 47 esi = [rsp + (rax << 2) + 0x30].d 0x12f0 48 rdi = r14 0x12f3 49 eax = 0 0x12f5 50 call(0x1030) 0x12fa 51 r15 = r15 + 1 0x12fe 52 r12 = r12 + 0x24 0x1306 53 if (r15 != 9) then 28 @ 0x12c0 else 65 @ 0x1308 0x1210 54 rdx = rax << 2 0x1218 55 rdx = rdx + (rdx << 3) 0x121c 56 rdi = rsp + rdx 0x1220 57 rdi = rdi + 0x10 0x1224 58 edi = [rdi + (rsi << 2)].d 0x1227 59 rdx = rdx + rsp 0x122a 60 rdx = rdx + 0x160 0x1231 61 [rdx + (rsi << 2)].d = [rdx + (rsi << 2)].d + edi 0x1234 62 rbp = -1 0x123b 63 rdx = rcx 0x123e 64 goto 74 @ 0x1240 0x1308 65 eax = 0 0x130a 66 rsp = rsp + 0x2a8 0x1311 67 rbx = pop 0x1312 68 r12 = pop 0x1314 69 r13 = pop 0x1316 70 r14 = pop 0x1318 71 r15 = pop 0x131a 72 rbp = pop 0x131b 73 <return> jump(pop) 0x1240 74 ebx = 0 0x124c 75 goto 76 @ 0x1250 0x1250 76 [rdx + (rbx << 2)].d = [rdx + (rbx << 2)].d + edi 0x1253 77 rbx = rbx + 1 0x125b 78 if (rbx != 3) then 76 @ 0x1250 else 79 @ 0x125d 0x125d 79 rbp = rbp + 1 0x1261 80 rdx = rdx + 0x24 0x1269 81 if (rbp != 2) then 74 @ 0x1240 else 82 @ 0x126b 0x126b 82 rsi = rsi + 1 0x126f 83 rcx = rcx + 4 0x1277 84 if (rsi != 8) then 54 @ 0x1210 else 85 @ 0x1279 0x1279 85 rax = rax + 1 0x127d 86 r8 = r8 + 0x24 0x1285 87 if (rax != 8) then 43 @ 0x1200 else 88 @ 0x128b 0x128b 88 edx = 0x144 {""} 0x1290 89 rdi = rsp + 0x10 {var_2c8} 0x1295 90 rsi = r14 {var_178} 0x1298 91 call(0x1040) 0x129d 92 r15d = r15d + 1 0x12a4 93 if (r15d != r13d) then 30 @ 0x11e0 else 22 @ 0x12aa int64_t _fini(): 0x1320 0 rsp = rsp - 8 0x1324 1 rsp = rsp + 8 0x1328 2 <return> jump(pop)	POJ_48
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0xbb90 0x115c 4 rdi = 0x2004 {"%d %d"} 0x1163 5 rsi = rsp + 8 {var_bba0} 0x1168 6 rdx = rsp + 0xc {var_bb9c} 0x116d 7 eax = 0 0x116f 8 call(0x1040) 0x1179 9 if ([rsp + 8 {var_bba0}].d s<= 0) then 10 @ 0x11af else 12 @ 0x117b 0x11af 10 r10d = [rsp + 0xc {var_bb9c}].d 0x11b7 11 if (r10d s<= 0) then 16 @ 0x11ef else 18 @ 0x11b9 0x117b 12 r15 = rsp + 0x10 {var_bb98} 0x1180 13 r14 = 0x2007 {"%d"} 0x1187 14 ebx = 0 0x1189 15 goto 22 @ 0x1190 0x11ef 16 r8 = sx.q([rsp + 8 {var_bba0}].d) 0x11f8 17 if (r8 s< 2) then 30 @ 0x1256 else 31 @ 0x11fa 0x11b9 18 r15 = rsp + 0x1f50 {var_9c58} 0x11c1 19 r14 = 0x2007 {"%d"} 0x11c8 20 ebx = 0 0x11ca 21 goto 35 @ 0x11d0 0x1190 22 rdi = r14 0x1193 23 rsi = r15 0x1196 24 eax = 0 0x1198 25 call(0x1040) 0x119d 26 rbx = rbx + 1 0x11a1 27 rax = sx.q([rsp + 8 {var_bba0}].d) 0x11a6 28 r15 = r15 + 4 0x11ad 29 if (rbx s< rax) then 22 @ 0x1190 else 10 @ 0x11af 0x1256 30 if (r10d s< 2) then 43 @ 0x12be else 45 @ 0x1258 0x11fa 31 r9d = (r8 - 1).d 0x11fe 32 esi = 0 0x1200 33 edi = r9d 0x1203 34 goto 49 @ 0x121b 0x11d0 35 rdi = r14 0x11d3 36 rsi = r15 0x11d6 37 eax = 0 0x11d8 38 call(0x1040) 0x11dd 39 rbx = rbx + 1 0x11e1 40 r10 = sx.q([rsp + 0xc {var_bb9c}].d) 0x11e6 41 r15 = r15 + 4 0x11ed 42 if (rbx s< r10) then 35 @ 0x11d0 else 16 @ 0x11ef 0x12be 43 r10d = r10d + r8d 0x12c4 44 if (r10d s<= 0) then 54 @ 0x1314 else 59 @ 0x12c6 0x1258 45 r9d = (r10 - 1).d 0x125c 46 esi = 0 0x125e 47 edi = r9d 0x1261 48 goto 67 @ 0x127b 0x121b 49 edi = edi 0x121d 50 eax = esi 0x121f 51 eax = not.d(eax) 0x1221 52 eax = eax + r8d 0x1226 53 if (eax s<= 0) then 72 @ 0x1210 else 75 @ 0x1228 0x1314 54 eax = [rsp + 8 {var_bba0}].d 0x1318 55 ecx = [rsp + 0xc {var_bb9c}].d 0x131c 56 eax = eax + ecx 0x131e 57 eax = eax - 1 0x1323 58 if (eax s<= 0) then 77 @ 0x135a else 87 @ 0x1325 0x12c6 59 ecx = r10d 0x12c9 60 rax = r8 << 2 0x12d1 61 rax = neg.q(rax) 0x12d4 62 rdx = rsp + rax 0x12d8 63 rdx = rdx + 0x1f50 0x12df 64 rsi = rsp + 0x10 {var_bb98} 0x12e4 65 edi = 0 0x12e6 66 goto 90 @ 0x12f0 0x127b 67 edi = edi 0x127d 68 eax = esi 0x127f 69 eax = not.d(eax) 0x1281 70 eax = eax + r10d 0x1286 71 if (eax s<= 0) then 93 @ 0x1270 else 96 @ 0x1288 0x1210 72 esi = esi + 1 0x1213 73 edi = edi - 1 0x1219 74 if (esi == r9d) then 30 @ 0x1256 else 49 @ 0x121b 0x1228 75 ebx = 0 0x122a 76 goto 98 @ 0x1238 0x135a 77 rax = sx.q(eax) 0x135c 78 esi = [rsp + (rax << 2) + 0xfb0].d 0x1363 79 rdi = 0x200e {"%d\n"} 0x136a 80 eax = 0 0x136c 81 call(0x1030) 0x1371 82 rsp = rsp + 0xbb90 0x1378 83 rbx = pop 0x1379 84 r14 = pop 0x137b 85 r15 = pop 0x137d 86 <return> jump(pop) 0x1325 87 r14 = 0x200a {"%d "} 0x132c 88 ebx = 0 0x132e 89 goto 102 @ 0x1330 0x12f0 90 cond:0 = rdi s< r8 0x12f3 91 rax = rdx 0x12f6 92 if (cond:0) then 113 else 115 @ 0x12fa 0x1270 93 esi = esi + 1 0x1273 94 edi = edi - 1 0x1279 95 if (esi == r9d) then 43 @ 0x12be else 67 @ 0x127b 0x1288 96 ebx = 0 0x128a 97 goto 121 @ 0x1298 0x1238 98 edx = [rsp + (rbx << 2) + 0x10].d 0x123c 99 ecx = [rsp + (rbx << 2) + 0x14].d 0x1240 100 rax = rbx + 1 0x1246 101 if (edx s<= ecx) then 125 @ 0x1230 else 127 @ 0x1248 0x1330 102 esi = [rsp + (rbx << 2) + 0xfb0].d 0x1337 103 rdi = r14 0x133a 104 eax = 0 0x133c 105 call(0x1030) 0x1341 106 rbx = rbx + 1 0x1345 107 eax = [rsp + 8 {var_bba0}].d 0x1349 108 ecx = [rsp + 0xc {var_bb9c}].d 0x134d 109 eax = eax + ecx 0x134f 110 eax = eax - 1 0x1352 111 rcx = sx.q(eax) 0x1358 112 if (rbx s< rcx) then 102 @ 0x1330 else 77 @ 0x135a 0x12f6 113 rax = rsi 0x12f6 114 goto 115 @ 0x12fa 0x12fa 115 eax = [rax].d 0x12fc 116 [rsp + (rdi << 2) + 0xfb0].d = eax 0x1303 117 rdi = rdi + 1 0x1307 118 rsi = rsi + 4 0x130b 119 rdx = rdx + 4 0x1312 120 if (rcx != rdi) then 90 @ 0x12f0 else 54 @ 0x1314 0x1298 121 edx = [rsp + (rbx << 2) + 0x1f50].d 0x129f 122 ecx = [rsp + (rbx << 2) + 0x1f54].d 0x12a6 123 rax = rbx + 1 0x12ac 124 if (edx s<= ecx) then 130 @ 0x1290 else 132 @ 0x12ae 0x1230 125 rbx = rax 0x1236 126 if (rdi == rax) then 72 @ 0x1210 else 98 @ 0x1238 0x1248 127 [rsp + (rbx << 2) + 0x10].d = ecx 0x124c 128 [rsp + (rbx << 2) + 0x14].d = edx 0x1250 129 goto 125 @ 0x1230 0x1290 130 rbx = rax 0x1296 131 if (rdi == rax) then 93 @ 0x1270 else 121 @ 0x1298 0x12ae 132 [rsp + (rbx << 2) + 0x1f50].d = ecx 0x12b5 133 [rsp + (rbx << 2) + 0x1f54].d = edx 0x12bc 134 goto 130 @ 0x1290 void f(int32_t arg1, int64_t arg2): 0x1383 0 if (edi s< 2) then 1 @ 0x13e3 else 2 @ 0x1385 0x13e3 1 <return> jump(pop) 0x1385 2 r8d = (rdi - 1).d 0x1389 3 r9d = 0 0x138c 4 r10d = r8d 0x138f 5 goto 6 @ 0x13ad 0x13ad 6 r10d = r10d 0x13b0 7 eax = r9d 0x13b3 8 eax = not.d(eax) 0x13b5 9 eax = eax + edi 0x13b9 10 if (eax s<= 0) then 11 @ 0x13a0 else 14 @ 0x13bb 0x13a0 11 r9d = r9d + 1 0x13a4 12 r10d = r10d - 1 0x13ab 13 if (r9d == r8d) then 1 @ 0x13e3 else 6 @ 0x13ad 0x13bb 14 eax = 0 0x13bd 15 goto 16 @ 0x13c8 0x13c8 16 r11d = [rsi + (rax << 2)].d 0x13cc 17 edx = [rsi + (rax << 2) + 4].d 0x13d0 18 rcx = rax + 1 0x13d7 19 if (r11d s<= edx) then 20 @ 0x13c0 else 22 @ 0x13d9 0x13c0 20 rax = rcx 0x13c6 21 if (r10 == rcx) then 11 @ 0x13a0 else 16 @ 0x13c8 0x13d9 22 [rsi + (rax << 2)].d = edx 0x13dc 23 [rsi + (rax << 2) + 4].d = r11d 0x13e1 24 goto 20 @ 0x13c0 void g(int32_t arg1, int32_t arg2, uint64_t arg3, int64_t arg4, int64_t arg5): 0x13f0 0 esi = esi + edi 0x13f4 1 if (esi s<= 0) then 2 @ 0x1431 else 3 @ 0x13f6 0x1431 2 <return> jump(pop) 0x13f6 3 rax = sx.q(edi) 0x13f9 4 r9d = esi 0x13fc 5 rdi = rax << 2 0x1404 6 rcx = rcx - rdi 0x1407 7 edi = 0 0x1409 8 goto 9 @ 0x1410 0x1410 9 cond:0 = rdi s< rax 0x1413 10 rsi = rcx 0x1416 11 if (cond:0) then 12 else 14 @ 0x141a 0x1416 12 rsi = rdx 0x1416 13 goto 14 @ 0x141a 0x141a 14 esi = [rsi].d 0x141c 15 [r8 + (rdi << 2)].d = esi 0x1420 16 rdi = rdi + 1 0x1424 17 rcx = rcx + 4 0x1428 18 rdx = rdx + 4 0x142f 19 if (r9 != rdi) then 9 @ 0x1410 else 2 @ 0x1431 int64_t _fini(): 0x1438 0 rsp = rsp - 8 0x143c 1 rsp = rsp + 8 0x1440 2 <return> jump(pop)	POJ_8
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVATSHX"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(r12) 0x1166 3 push(rbx) 0x1167 4 rsp = rsp - 0x358 0x116e 5 rdi = 0x2012 {"%d"} 0x1175 6 rsi = rsp + 0xc {var_36c} 0x117a 7 eax = 0 0x117c 8 call(0x1040) 0x1186 9 if ([rsp + 0xc {var_36c}].d s<= 0) then 10 @ 0x11df else 11 @ 0x1188 0x11df 10 if ([rsp + 0xc {var_36c}].d s< 2) then 16 @ 0x1309 else 23 @ 0x11e5 0x1188 11 r14 = 0x2010 {"%d%d"} 0x118f 12 r15 = rsp + 0x1c {var_35c} 0x1194 13 r12 = rsp + 0x18 {var_360} 0x1199 14 ebx = 0 0x119b 15 goto 30 @ 0x11a0 0x1309 16 eax = 0 0x130b 17 rsp = rsp + 0x358 0x1312 18 rbx = pop 0x1313 19 r12 = pop 0x1315 20 r14 = pop 0x1317 21 r15 = pop 0x1319 22 <return> jump(pop) 0x11e5 23 ebx = 1 0x11ea 24 xmm0 = zx.o([rsp + 0x30 {var_348}].q) 0x11f0 25 [rsp + 0x20 {var_358_1}].q = xmm0.q 0x11f6 26 r14 = 0x2015 {"better"} 0x11fd 27 r15 = 0x201c {"worse"} 0x1204 28 r12 = 0x2022 {"same"} 0x120b 29 goto 44 @ 0x1222 0x11a0 30 rdi = r14 0x11a3 31 rsi = r15 {var_35c} 0x11a6 32 rdx = r12 {var_360} 0x11a9 33 eax = 0 0x11ab 34 call(0x1040) 0x11b0 35 xmm0 = 0 0x11b3 36 xmm0.q = float.d([rsp + 0x18 {var_360}].d) 0x11b9 37 xmm1 = 0 0x11bc 38 xmm1.q = float.d([rsp + 0x1c {var_35c}].d) 0x11c2 39 xmm0.q = xmm0.q f/ xmm1.q 0x11c6 40 [rsp + (rbx << 3) + 0x30].q = xmm0.q 0x11cc 41 rbx = rbx + 1 0x11d0 42 rax = sx.q([rsp + 0xc {var_36c}].d) 0x11d8 43 if (rbx s< rax) then 30 @ 0x11a0 else 10 @ 0x11df 0x1222 44 xmm2 = zx.o([rsp + (rbx << 3) + 0x30].q) 0x1228 45 xmm0 = xmm2 0x122c 46 xmm0.q = xmm0.q f- fconvert.t([rsp + 0x20 {var_358_1}].q) 0x1232 47 [rsp + 0x28 {var_350_1}].q = xmm0.q 0x1238 48 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1238 49 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1238 50 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x1238 51 flag:s = 0 0x1238 52 flag:o = 0 0x1238 53 flag:a = 0 0x1240 54 if (flag:z \|\| flag:c) then 55 @ 0x1274 else 64 @ 0x1242 0x1274 55 xmm1 = zx.o([rsp + 0x20 {var_358_1}].q) 0x127a 56 xmm1.q = xmm1.q f- xmm2.q 0x127e 57 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x127e 58 flag:c = xmm1.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x127e 59 flag:z = xmm1.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x127e 60 flag:s = 0 0x127e 61 flag:o = 0 0x127e 62 flag:a = 0 0x1286 63 if (flag:z \|\| flag:c) then 72 @ 0x12ba else 80 @ 0x1288 0x1242 64 rdi = r14 0x1245 65 eax = 0 0x1247 66 [rsp + 0x10 {var_368_1}].q = xmm2.q 0x124d 67 call(0x1030) 0x1252 68 xmm2 = zx.o([rsp + 0x10 {var_368_1}].q) 0x1258 69 eax = [rsp + 0xc {var_36c}].d 0x125c 70 eax = eax - 1 0x1262 71 if (rbx == rax) then 55 @ 0x1274 else 88 @ 0x1264 0x12ba 72 xmm0 = zx.o([0x2008].q) 0x12c2 73 flag:p = is_unordered.q(xmm0.q, fconvert.t([rsp + 0x28 {var_350_1}].q)) 0x12c2 74 flag:c = xmm0.q f< fconvert.t([rsp + 0x28 {var_350_1}].q) \| is_unordered.q(xmm0.q, fconvert.t([rsp + 0x28 {var_350_1}].q)) 0x12c2 75 flag:z = xmm0.q f== fconvert.t([rsp + 0x28 {var_350_1}].q) \| is_unordered.q(xmm0.q, fconvert.t([rsp + 0x28 {var_350_1}].q)) 0x12c2 76 flag:s = 0 0x12c2 77 flag:o = 0 0x12c2 78 flag:a = 0 0x12c8 79 if (flag:z \|\| flag:c) then 92 @ 0x1210 else 95 @ 0x12ce 0x1288 80 rdi = r15 0x128b 81 eax = 0 0x128d 82 [rsp + 0x10 {var_368_2}].q = xmm1.q 0x1293 83 call(0x1030) 0x1298 84 xmm1 = zx.o([rsp + 0x10 {var_368_2}].q) 0x129e 85 eax = [rsp + 0xc {var_36c}].d 0x12a2 86 eax = eax - 1 0x12a8 87 if (rbx == rax) then 72 @ 0x12ba else 103 @ 0x12aa 0x1264 88 edi = 0xa {""} 0x1269 89 call(0x1050) 0x126e 90 xmm2 = zx.o([rsp + 0x10 {var_368_1}].q) 0x126e 91 goto 55 @ 0x1274 0x1210 92 rbx = rbx + 1 0x1214 93 rax = sx.q([rsp + 0xc {var_36c}].d) 0x121c 94 if (rbx s>= rax) then 16 @ 0x1309 else 44 @ 0x1222 0x12ce 95 xmm0 = zx.o([0x2008].q) 0x12d6 96 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x12d6 97 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x12d6 98 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x12d6 99 flag:s = 0 0x12d6 100 flag:o = 0 0x12d6 101 flag:a = 0 0x12da 102 if (flag:z \|\| flag:c) then 92 @ 0x1210 else 107 @ 0x12e0 0x12aa 103 edi = 0xa {""} 0x12af 104 call(0x1050) 0x12b4 105 xmm1 = zx.o([rsp + 0x10 {var_368_2}].q) 0x12b4 106 goto 72 @ 0x12ba 0x12e0 107 rdi = r12 0x12e3 108 eax = 0 0x12e5 109 call(0x1030) 0x12ea 110 eax = [rsp + 0xc {var_36c}].d 0x12ee 111 eax = eax - 1 0x12f4 112 if (rbx == rax) then 92 @ 0x1210 else 113 @ 0x12fa 0x12fa 113 edi = 0xa {""} 0x12ff 114 call(0x1050) 0x1304 115 goto 92 @ 0x1210 int64_t _fini(): 0x1320 0 rsp = rsp - 8 0x1324 1 rsp = rsp + 8 0x1328 2 <return> jump(pop)	POJ_67
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r12) 0x1157 4 push(rbx) 0x1158 5 rsp = rsp - 0x90 0x115f 6 xmm0 = 0 0x1162 7 [rsp + 0x80 {var_38}].o = xmm0 0x116a 8 [rsp + 0x70 {var_48}].o = xmm0 0x116f 9 [rsp + 0x60 {var_58}].o = xmm0 0x1174 10 [rsp + 0x50 {var_68}].o = xmm0 0x1179 11 [rsp + 0x40 {var_78}].o = xmm0 0x117e 12 [rsp + 0x30 {var_88}].o = xmm0 0x1183 13 [rsp + 0x20 {var_98}].o = xmm0 0x1188 14 [rsp + 0x10 {var_a8}].o = xmm0 0x118d 15 [rsp {var_b8}].o = xmm0 0x1191 16 rbp = rsp + 0x1c {var_a8+0xc} 0x1196 17 r14d = 1 0x119c 18 r15 = 0x200a {"%d"} 0x11ad 19 goto 20 @ 0x11b0 0x11b0 20 ebx = 0 0x11bc 21 goto 22 @ 0x11c0 0x11c0 22 rsi = rbx + rbp 0x11c4 23 rdi = r15 0x11c7 24 eax = 0 0x11c9 25 call(0x1040) 0x11ce 26 rbx = rbx + 4 0x11d6 27 if (rbx != 0x14) then 22 @ 0x11c0 else 28 @ 0x11d8 0x11d8 28 r14 = r14 + 1 0x11dc 29 rbp = rbp + 0x18 0x11e4 30 if (r14 != 6) then 20 @ 0x11b0 else 31 @ 0x11e6 0x11e6 31 r15 = rsp + 0x1c {var_a8+0xc} 0x11eb 32 r12d = 1 0x11f1 33 r14 = 0x2004 {"%d %d %d"} 0x11f8 34 eax = 0 0x11fa 35 goto 36 @ 0x120e 0x120e 36 ecx = [rsp + (r12 << 2) + 0x18].d 0x1213 37 edx = 1 0x1218 38 esi = 0 0x121a 39 goto 40 @ 0x1220 0x1220 40 edi = [r15 + rsi].d 0x1224 41 cond:0 = edi s<= ecx 0x1226 42 if (edi s<= ecx) then 43 else 45 @ 0x1229 0x1226 43 ebx = edx 0x1226 44 goto 45 @ 0x1229 0x1229 45 if (cond:0) then 46 else 48 @ 0x122c 0x1229 46 ecx = edi 0x1229 47 goto 48 @ 0x122c 0x122c 48 rsi = rsi + 0x18 0x1230 49 edx = edx + 1 0x1237 50 if (rsi != 0x78) then 40 @ 0x1220 else 51 @ 0x1239 0x1239 51 rcx = sx.q(ebx) 0x123c 52 rdx = rcx + (rcx << 1) 0x1240 53 rcx = rsp + (rdx << 3) 0x1244 54 edx = [rsp + (rdx << 3) + 4].d 0x1248 55 esi = 1 0x124d 56 goto 57 @ 0x1250 0x1250 57 edi = [rcx + (rsi << 2)].d 0x1253 58 cond:1 = edi s>= edx 0x1255 59 if (edi s>= edx) then 60 else 62 @ 0x1258 0x1255 60 ebp = esi 0x1255 61 goto 62 @ 0x1258 0x1258 62 if (cond:1) then 63 else 65 @ 0x125b 0x1258 63 edx = edi 0x1258 64 goto 65 @ 0x125b 0x125b 65 rsi = rsi + 1 0x1263 66 if (rsi != 6) then 57 @ 0x1250 else 67 @ 0x1265 0x1265 67 edx = ebp 0x126a 68 if (r12 != rdx) then 69 @ 0x1200 else 72 @ 0x126c 0x1200 69 r12 = r12 + 1 0x1204 70 r15 = r15 + 4 0x120c 71 if (r12 == 6) then 81 @ 0x128c else 36 @ 0x120e 0x126c 72 rax = sx.q(ebp) 0x126f 73 ecx = [rcx + (rax << 2)].d 0x1272 74 rdi = r14 0x1275 75 esi = ebx 0x1277 76 edx = ebp 0x1279 77 eax = 0 0x127b 78 call(0x1030) 0x1280 79 eax = 1 0x1285 80 goto 69 @ 0x1200 0x128c 81 if (eax != 0) then 82 @ 0x129c else 90 @ 0x128e 0x129c 82 eax = 0 0x129e 83 rsp = rsp + 0x90 0x12a5 84 rbx = pop 0x12a6 85 r12 = pop 0x12a8 86 r14 = pop 0x12aa 87 r15 = pop 0x12ac 88 rbp = pop 0x12ad 89 <return> jump(pop) 0x128e 90 rdi = 0x200d {"not found"} 0x1295 91 eax = 0 0x1297 92 call(0x1030) 0x1297 93 goto 82 @ 0x129c int64_t _fini(): 0x12b4 0 rsp = rsp - 8 0x12b8 1 rsp = rsp + 8 0x12bc 2 <return> jump(pop)	POJ_73
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0x4c0 0x115c 4 rdi = 0x2004 {"%d"} 0x1163 5 rsi = rsp + 0xc {var_4cc} 0x1168 6 eax = 0 0x116a 7 call(0x1040) 0x116f 8 ecx = [rsp + 0xc {var_4cc}].d 0x1175 9 if (ecx s<= 0) then 10 @ 0x11af else 12 @ 0x1177 0x11af 10 r8d = ecx 0x11b4 11 if (ecx s<= 0) then 16 @ 0x1222 else 17 @ 0x11b6 0x1177 12 r15 = rsp + 0x330 {var_1a8} 0x117f 13 r14 = 0x2004 {"%d"} 0x1186 14 ebx = 0 0x1188 15 goto 20 @ 0x1190 0x1222 16 if (ecx s<= 0) then 28 @ 0x1284 else 30 @ 0x1224 0x11b6 17 edx = 0 0x11b8 18 rsi = 0x300000002 {""} 0x11c2 19 goto 33 @ 0x11d9 0x1190 20 rdi = r14 0x1193 21 rsi = r15 0x1196 22 eax = 0 0x1198 23 call(0x1040) 0x119d 24 rbx = rbx + 1 0x11a1 25 rcx = sx.q([rsp + 0xc {var_4cc}].d) 0x11a6 26 r15 = r15 + 4 0x11ad 27 if (rbx s< rcx) then 20 @ 0x1190 else 10 @ 0x11af 0x1284 28 eax = [rsp + 0xc {var_4cc}].d 0x128a 29 if (eax s<= 0) then 35 @ 0x1308 else 41 @ 0x128c 0x1224 30 ecx = 0 0x1226 31 rdx = 0x200000001 {""} 0x1230 32 goto 45 @ 0x1249 0x11d9 33 edi = [rsp + (rdx << 2) + 0x330].d 0x11e2 34 if (edi s<= 0) then 47 @ 0x11d0 else 49 @ 0x11e4 0x1308 35 eax = 0 0x130a 36 rsp = rsp + 0x4c0 0x1311 37 rbx = pop 0x1312 38 r14 = pop 0x1314 39 r15 = pop 0x1316 40 <return> jump(pop) 0x128c 41 ebx = 0 0x128e 42 r14 = 0x200e {"%.3lf"} 0x1295 43 r15 = 0x2007 {"%.3lf\n"} 0x129c 44 goto 53 @ 0x12c6 0x1249 45 esi = [rsp + (rcx << 2) + 0x330].d 0x1252 46 if (esi s<= 0) then 55 @ 0x1240 else 57 @ 0x1254 0x11d0 47 rdx = rdx + 1 0x11d7 48 if (rdx == r8) then 16 @ 0x1222 else 33 @ 0x11d9 0x11e4 49 edi = edi + 1 0x11e7 50 rdi = rdi - 1 0x11eb 51 ebx = 0 0x11ed 52 goto 61 @ 0x11f9 0x12c6 53 ecx = [rsp + (rbx << 2) + 0x330].d 0x12cf 54 if (ecx s<= 0) then 64 @ 0x12a0 else 66 @ 0x12d1 0x1240 55 rcx = rcx + 1 0x1247 56 if (rcx == r8) then 28 @ 0x1284 else 45 @ 0x1249 0x1254 57 esi = esi + 1 0x1257 58 rsi = rsi - 1 0x125b 59 edi = 0 0x125d 60 goto 70 @ 0x1269 0x11f9 61 [rsp + 0x1a4 {var_334}].q = rsi 0x1201 62 eax = (rbx - 2).d 0x1207 63 if (eax u> -3) then 73 @ 0x11f0 else 75 @ 0x1209 0x12a0 64 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12a0 65 goto 79 @ 0x12a4 0x12d1 66 ecx = ecx + 1 0x12d4 67 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12d8 68 edx = 1 0x12dd 69 goto 83 @ 0x12e0 0x1269 70 [rsp + 0x14 {var_4c4}].q = rdx 0x126e 71 eax = (rdi - 2).d 0x1274 72 if (eax u> -3) then 91 @ 0x1260 else 93 @ 0x1276 0x11f0 73 rbx = rbx + 1 0x11f7 74 if (rdi == rbx) then 47 @ 0x11d0 else 61 @ 0x11f9 0x1209 75 eax = [rsp + (rbx << 2) + 0x19c].d 0x1210 76 eax = eax + [rsp + (rbx << 2) + 0x1a0].d 0x1217 77 [rsp + (rbx << 2) + 0x1a4].d = eax 0x121e 78 goto 73 @ 0x11f0 0x12a4 79 eax = eax - 1 0x12a7 80 cond:0 = rbx == rax 0x12aa 81 rdi = r15 0x12ad 82 if (cond:0) then 97 else 99 @ 0x12b1 0x12e0 83 xmm1 = 0 0x12e3 84 xmm1.q = float.d([rsp + (rdx << 2) + 0x1a0].d) 0x12ec 85 xmm2 = 0 0x12ef 86 xmm2.q = float.d([rsp + (rdx << 2) + 0x10].d) 0x12f5 87 xmm1.q = xmm1.q f/ xmm2.q 0x12f9 88 xmm0.q = xmm0.q f+ xmm1.q 0x12fd 89 rdx = rdx + 1 0x1304 90 if (rcx != rdx) then 83 @ 0x12e0 else 104 @ 0x1306 0x1260 91 rdi = rdi + 1 0x1267 92 if (rsi == rdi) then 55 @ 0x1240 else 70 @ 0x1269 0x1276 93 eax = [rsp + (rdi << 2) + 0xc].d 0x127a 94 eax = eax + [rsp + (rdi << 2) + 0x10].d 0x127e 95 [rsp + (rdi << 2) + 0x14].d = eax 0x1282 96 goto 91 @ 0x1260 0x12ad 97 rdi = r14 0x12ad 98 goto 99 @ 0x12b1 0x12b1 99 al = 1 0x12b3 100 call(0x1030) 0x12b8 101 rbx = rbx + 1 0x12bc 102 rax = sx.q([rsp + 0xc {var_4cc}].d) 0x12c4 103 if (rbx s>= rax) then 35 @ 0x1308 else 53 @ 0x12c6 0x1306 104 goto 79 @ 0x12a4 int64_t _fini(): 0x131c 0 rsp = rsp - 8 0x1320 1 rsp = rsp + 8 0x1324 2 <return> jump(pop)	POJ_29
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t getchar(): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVSH'"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(rbx) 0x1166 4 rsp = rsp - 0x2718 0x116d 5 rbx = rsp {var_2738} 0x1170 6 r14 = 0x2004 {"%s"} 0x1177 7 r15d = 0 0x117a 8 goto 9 @ 0x1180 0x1180 9 rdi = r14 0x1183 10 rsi = rbx 0x1186 11 eax = 0 0x1188 12 call(0x1050) 0x118d 13 eax = 0 0x118f 14 call(0x1040) 0x1194 15 r15d = r15d - 1 0x1198 16 rbx = rbx + 0x64 0x119e 17 if (al != 0xa) then 9 @ 0x1180 else 18 @ 0x11a4 0x11a4 18 if (r15d == -1) then 19 @ 0x11d9 else 30 @ 0x11a6 0x11d9 19 rdi = 0x2004 {"%s"} 0x11e0 20 rsi = rsp {var_2738} 0x11e3 21 eax = 0 0x11e5 22 call(0x1030) 0x11ea 23 eax = 0 0x11ec 24 rsp = rsp + 0x2718 0x11f3 25 rbx = pop 0x11f4 26 r14 = pop 0x11f6 27 r15 = pop 0x11f8 28 rbp = pop 0x11f9 29 <return> jump(pop) 0x11a6 30 ebp = r15d 0x11a9 31 ebp = neg.d(ebp) 0x11ab 32 r15d = not.d(r15d) 0x11ae 33 rax = r15 * 0x64 0x11b2 34 rbx = rsp + rax 0x11b6 35 r14 = 0x2007 {"%s "} 0x11bd 36 goto 37 @ 0x11c0 0x11c0 37 rdi = r14 0x11c3 38 rsi = rbx 0x11c6 39 eax = 0 0x11c8 40 call(0x1030) 0x11cd 41 ebp = ebp - 1 0x11d0 42 rbx = rbx - 0x64 0x11d7 43 if (ebp s> 1) then 37 @ 0x11c0 else 19 @ 0x11d9 int64_t _fini(): 0x1200 0 rsp = rsp - 8 0x1204 1 rsp = rsp + 8 0x1208 2 <return> jump(pop)	POJ_23
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(rbx) 0x1166 4 rsp = rsp - 0x18 0x116a 5 rdi = 0x2018 {"%d"} 0x1171 6 rsi = rsp + 0x14 {var_24} 0x1176 7 eax = 0 0x1178 8 call(0x1040) 0x117d 9 r15d = [rsp + 0x14 {var_24}].d 0x1186 10 if (r15d s>= 6) then 11 @ 0x1195 else 14 @ 0x1188 0x1195 11 ebx = 3 0x119a 12 r14 = 0x201b {"%d %d\n"} 0x11a1 13 goto 21 @ 0x11d8 0x1188 14 eax = 0 0x118a 15 rsp = rsp + 0x18 0x118e 16 rbx = pop 0x118f 17 r14 = pop 0x1191 18 r15 = pop 0x1193 19 rbp = pop 0x1194 20 <return> jump(pop) 0x11d8 21 xmm2 = 0 0x11db 22 xmm2.q = float.d(ebx) 0x11df 23 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11df 24 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11df 25 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x11df 26 flag:s = 0 0x11df 27 flag:o = 0 0x11df 28 flag:a = 0 0x11e7 29 [rsp + 8 {var_30_1}].q = xmm2.q 0x11ed 30 if (flag:c) then 31 @ 0x1210 else 41 @ 0x11ef 0x1210 31 xmm0 = xmm2 0x1214 32 call(0x1050) 0x1219 33 xmm2 = zx.o([rsp + 8 {var_30_1}].q) 0x121f 34 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x121f 35 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x121f 36 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x121f 37 flag:s = 0 0x121f 38 flag:o = 0 0x121f 39 flag:a = 0 0x1227 40 if (flag:c) then 50 @ 0x1290 else 61 @ 0x1229 0x11ef 41 xmm0 = 0 0x11f2 42 xmm0 = _mm_sqrt_sd(xmm2.q) 0x11f6 43 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 44 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 45 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11f6 46 flag:s = 0 0x11f6 47 flag:o = 0 0x11f6 48 flag:a = 0 0x11fe 49 if (not(flag:c)) then 61 @ 0x1229 else 63 @ 0x1200 0x1290 50 r15d = r15d - ebx 0x1293 51 xmm2 = 0 0x1296 52 xmm2.q = float.d(r15d) 0x129b 53 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129b 54 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129b 55 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x129b 56 flag:s = 0 0x129b 57 flag:o = 0 0x129b 58 flag:a = 0 0x12a3 59 [rsp + 8 {var_30_2}].q = xmm2.q 0x12a9 60 if (flag:c) then 64 @ 0x12d0 else 74 @ 0x12ab 0x1229 61 ebp = 3 0x122e 62 goto 83 @ 0x124f 0x1200 63 goto 50 @ 0x1290 0x12d0 64 xmm0 = xmm2 0x12d4 65 call(0x1050) 0x12d9 66 xmm2 = zx.o([rsp + 8 {var_30_2}].q) 0x12df 67 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12df 68 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12df 69 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12df 70 flag:s = 0 0x12df 71 flag:o = 0 0x12df 72 flag:a = 0 0x12e7 73 if (flag:c) then 96 @ 0x11b0 else 102 @ 0x12ed 0x12ab 74 xmm0 = 0 0x12ae 75 xmm0 = _mm_sqrt_sd(xmm2.q) 0x12b2 76 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12b2 77 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12b2 78 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x12b2 79 flag:s = 0 0x12b2 80 flag:o = 0 0x12b2 81 flag:a = 0 0x12ba 82 if (flag:c) then 96 @ 0x11b0 else 104 @ 0x12c0 0x124f 83 ecx = (rbp - 1).d 0x1252 84 eax = ebx 0x1254 85 edx = 0 0x1256 86 temp2.d = ecx 0x1256 87 temp3.d = edx 0x1256 88 temp4.d = eax 0x1256 89 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x1256 90 temp5.d = edx 0x1256 91 temp6.d = eax 0x1256 92 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x1256 93 eax = temp0.d 0x1256 94 edx = temp1.d 0x125a 95 if (edx == 0) then 105 @ 0x11bf else 114 @ 0x1260 0x11b0 96 rdi = r14 0x11b3 97 esi = ebx 0x11b5 98 edx = r15d 0x11b8 99 eax = 0 0x11ba 100 call(0x1030) 0x11ba 101 goto 105 @ 0x11bf 0x12ed 102 ebp = 2 0x12f2 103 goto 121 @ 0x1355 0x12c0 104 goto 102 @ 0x12ed 0x11bf 105 eax = (rbx + 1).d 0x11c2 106 r15d = [rsp + 0x14 {var_24}].d 0x11c7 107 ecx = r15d 0x11ca 108 ecx = ecx u>> 0x1f 0x11cd 109 ecx = ecx + r15d 0x11d0 110 ecx = ecx s>> 1 0x11d2 111 cond:0 = ebx s>= ecx 0x11d4 112 ebx = eax 0x11d6 113 if (cond:0) then 14 @ 0x1188 else 21 @ 0x11d8 0x1260 114 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1260 115 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1260 116 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1260 117 flag:s = 0 0x1260 118 flag:o = 0 0x1260 119 flag:a = 0 0x1268 120 if (flag:c) then 134 @ 0x1230 else 147 @ 0x126a 0x1355 121 eax = r15d 0x1358 122 temp7.d:temp8.d = sx.q(eax) 0x1358 123 edx = temp7.d 0x1358 124 eax = temp8.d 0x1359 125 temp9.d = edx 0x1359 126 temp10.d = eax 0x1359 127 temp0.d = divs.dp.d(temp9.d:temp10.d, ebp) 0x1359 128 temp11.d = edx 0x1359 129 temp12.d = eax 0x1359 130 temp1.d = mods.dp.d(temp11.d:temp12.d, ebp) 0x1359 131 eax = temp0.d 0x1359 132 edx = temp1.d 0x135d 133 if (edx != 0) then 159 @ 0x1330 else 167 @ 0x135f 0x1230 134 xmm0 = xmm2 0x1234 135 call(0x1050) 0x1239 136 xmm2 = zx.o([rsp + 8 {var_30_1}].q) 0x123f 137 xmm1 = 0 0x1242 138 xmm1.q = float.d(ebp) 0x1246 139 ebp = ebp + 1 0x1249 140 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1249 141 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1249 142 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1249 143 flag:s = 0 0x1249 144 flag:o = 0 0x1249 145 flag:a = 0 0x124d 146 if (flag:c) then 50 @ 0x1290 else 83 @ 0x124f 0x126a 147 xmm0 = 0 0x126d 148 xmm0 = _mm_sqrt_sd(xmm2.q) 0x1271 149 xmm1 = 0 0x1274 150 xmm1.q = float.d(ebp) 0x1278 151 ebp = ebp + 1 0x127b 152 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x127b 153 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x127b 154 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x127b 155 flag:s = 0 0x127b 156 flag:o = 0 0x127b 157 flag:a = 0 0x127f 158 if (not(flag:c)) then 83 @ 0x124f else 168 @ 0x128b 0x1330 159 ebp = ebp + 1 0x1333 160 flag:p = is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1333 161 flag:c = xmm2.q f< fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1333 162 flag:z = xmm2.q f== fconvert.t([0x2010].q) \| is_unordered.q(xmm2.q, fconvert.t([0x2010].q)) 0x1333 163 flag:s = 0 0x1333 164 flag:o = 0 0x1333 165 flag:a = 0 0x133b 166 if (flag:c) then 169 @ 0x1300 else 181 @ 0x133d 0x135f 167 goto 105 @ 0x11bf 0x128b 168 goto 50 @ 0x1290 0x1300 169 xmm0 = xmm2 0x1304 170 call(0x1050) 0x1309 171 xmm2 = zx.o([rsp + 8 {var_30_2}].q) 0x130f 172 xmm1 = 0 0x1312 173 xmm1.q = float.d(ebp) 0x1316 174 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x1316 175 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1316 176 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x1316 177 flag:s = 0 0x1316 178 flag:o = 0 0x1316 179 flag:a = 0 0x131a 180 if (not(flag:c)) then 121 @ 0x1355 else 192 @ 0x131c 0x133d 181 xmm0 = 0 0x1340 182 xmm0 = _mm_sqrt_sd(xmm2.q) 0x1344 183 xmm1 = 0 0x1347 184 xmm1.q = float.d(ebp) 0x134b 185 flag:p = is_unordered.q(xmm0.q, xmm1.q) 0x134b 186 flag:c = xmm0.q f< xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x134b 187 flag:z = xmm0.q f== xmm1.q \| is_unordered.q(xmm0.q, xmm1.q) 0x134b 188 flag:s = 0 0x134b 189 flag:o = 0 0x134b 190 flag:a = 0 0x134f 191 if (flag:c) then 96 @ 0x11b0 else 121 @ 0x1355 0x131c 192 goto 96 @ 0x11b0 int64_t _fini(): 0x1368 0 rsp = rsp - 8 0x136c 1 rsp = rsp + 8 0x1370 2 <return> jump(pop)	POJ_43
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH0E"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x30 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 [rbp - 0x28 {var_30}].d = 0 0x1166 5 rdi = 0x2004 {"%d %d %d %d %d %d"} 0x116d 6 rsi = rbp - 8 {var_10} 0x1171 7 rdx = rbp - 0xc {var_14} 0x1175 8 rcx = rbp - 0x10 {var_18} 0x1179 9 r8 = rbp - 0x14 {var_1c} 0x117d 10 r9 = rbp - 0x18 {var_20} 0x1181 11 rax = rbp - 0x1c {var_24} 0x1185 12 [rsp {var_38}].q = rax {var_24} 0x1189 13 al = 0 0x118b 14 call(0x1040) 0x1190 15 rdi = 0x2016 {"\n"} 0x1197 16 al = 0 0x1199 17 call(0x1040) 0x119e 18 eax = [rbp - 0x18 {var_20}].d 0x11a4 19 if (eax s<= [rbp - 0xc {var_14}].d) then 20 @ 0x11de else 22 @ 0x11aa 0x11de 20 eax = [rbp - 0x1c {var_24}].d 0x11e4 21 if (eax s>= [rbp - 0x10 {var_18}].d) then 24 @ 0x122b else 26 @ 0x11ea 0x11aa 22 eax = [rbp - 0x1c {var_24}].d 0x11b0 23 if (eax s<= [rbp - 0x10 {var_18}].d) then 20 @ 0x11de else 30 @ 0x11b6 0x122b 24 eax = [rbp - 0x1c {var_24}].d 0x1231 25 if (eax s>= [rbp - 0x10 {var_18}].d) then 42 @ 0x127e else 57 @ 0x1237 0x11ea 26 eax = [rbp - 0x18 {var_20}].d 0x11ed 27 ecx = [rbp - 0xc {var_14}].d 0x11f0 28 ecx = ecx + 1 0x11f5 29 if (eax s< ecx) then 24 @ 0x122b else 61 @ 0x11fb 0x11b6 30 eax = [rbp - 0x14 {var_1c}].d 0x11b9 31 eax = eax + 0xc 0x11bc 32 eax = eax - [rbp - 8 {var_10}].d 0x11bf 33 eax = eax * 0xe10 0x11c5 34 ecx = [rbp - 0x18 {var_20}].d 0x11c8 35 ecx = ecx - [rbp - 0xc {var_14}].d 0x11cb 36 ecx = ecx * 0x3c 0x11ce 37 eax = eax + ecx 0x11d0 38 eax = eax + [rbp - 0x1c {var_24}].d 0x11d3 39 eax = eax - [rbp - 0x10 {var_18}].d 0x11d6 40 [rbp - 0x20 {var_28}].d = eax 0x11d9 41 goto 76 @ 0x12b3 0x127e 42 eax = [rbp - 0x1c {var_24}].d 0x1281 43 eax = eax - [rbp - 0x10 {var_18}].d 0x1284 44 ecx = [rbp - 0x18 {var_20}].d 0x1287 45 ecx = ecx + 0x3c 0x128a 46 ecx = ecx - [rbp - 0xc {var_14}].d 0x128d 47 ecx = ecx * 0x3c 0x1290 48 eax = eax + ecx 0x1292 49 ecx = [rbp - 0x14 {var_1c}].d 0x1295 50 ecx = ecx + 0xc 0x1298 51 ecx = ecx - [rbp - 8 {var_10}].d 0x129b 52 ecx = ecx - 1 0x129e 53 ecx = ecx * 0xe10 0x12a4 54 eax = eax + ecx 0x12a6 55 [rbp - 0x20 {var_28}].d = eax 0x12a6 56 goto 82 @ 0x12a9 0x1237 57 eax = [rbp - 0x18 {var_20}].d 0x123a 58 ecx = [rbp - 0xc {var_14}].d 0x123d 59 ecx = ecx + 1 0x1242 60 if (eax s>= ecx) then 42 @ 0x127e else 83 @ 0x1248 0x11fb 61 eax = [rbp - 0x1c {var_24}].d 0x11fe 62 eax = eax + 0x3c 0x1201 63 eax = eax - [rbp - 0x10 {var_18}].d 0x1204 64 ecx = [rbp - 0x18 {var_20}].d 0x1207 65 ecx = ecx - [rbp - 0xc {var_14}].d 0x120a 66 ecx = ecx - 1 0x120d 67 ecx = ecx * 0x3c 0x1210 68 eax = eax + ecx 0x1212 69 ecx = [rbp - 0x14 {var_1c}].d 0x1215 70 ecx = ecx + 0xc 0x1218 71 ecx = ecx - [rbp - 8 {var_10}].d 0x121b 72 ecx = ecx * 0xe10 0x1221 73 eax = eax + ecx 0x1223 74 [rbp - 0x20 {var_28}].d = eax 0x1226 75 goto 100 @ 0x12ae 0x12b3 76 esi = [rbp - 0x20 {var_28}].d 0x12b6 77 rdi = 0x2019 {"%d"} 0x12bd 78 al = 0 0x12bf 79 call(0x1030) 0x12c4 80 [rbp - 0x24 {var_2c}].d = 0 0x12c4 81 goto 101 @ 0x12d2 0x12a9 82 goto 100 @ 0x12ae 0x1248 83 eax = [rbp - 0x1c {var_24}].d 0x124b 84 eax = eax + 0x3c 0x124e 85 eax = eax - [rbp - 0x10 {var_18}].d 0x1251 86 ecx = [rbp - 0x18 {var_20}].d 0x1254 87 ecx = ecx + 0x3c 0x1257 88 ecx = ecx - [rbp - 0xc {var_14}].d 0x125a 89 ecx = ecx - 1 0x125d 90 ecx = ecx * 0x3c 0x1260 91 eax = eax + ecx 0x1262 92 ecx = [rbp - 0x14 {var_1c}].d 0x1265 93 ecx = ecx + 0xc 0x1268 94 ecx = ecx - [rbp - 8 {var_10}].d 0x126b 95 ecx = ecx - 1 0x126e 96 ecx = ecx * 0xe10 0x1274 97 eax = eax + ecx 0x1276 98 [rbp - 0x20 {var_28}].d = eax 0x1279 99 goto 82 @ 0x12a9 0x12ae 100 goto 76 @ 0x12b3 0x12d2 101 if ([rbp - 0x24 {var_2c}].d s>= 0x3e8) then 102 @ 0x1485 else 106 @ 0x12d8 0x1485 102 eax = 0 0x1487 103 rsp = rsp + 0x30 0x148b 104 rbp = pop 0x148c 105 <return> jump(pop) 0x12d8 106 rdi = 0x2004 {"%d %d %d %d %d %d"} 0x12df 107 rsi = rbp - 8 {var_10} 0x12e3 108 rdx = rbp - 0xc {var_14} 0x12e7 109 rcx = rbp - 0x10 {var_18} 0x12eb 110 r8 = rbp - 0x14 {var_1c} 0x12ef 111 r9 = rbp - 0x18 {var_20} 0x12f3 112 rax = rbp - 0x1c {var_24} 0x12f7 113 [rsp {var_38_1}].q = rax {var_24} 0x12fb 114 al = 0 0x12fd 115 call(0x1040) 0x1302 116 rdi = 0x2016 {"\n"} 0x1309 117 al = 0 0x130b 118 call(0x1040) 0x1314 119 if ([rbp - 8 {var_10}].d != 0) then 120 @ 0x1351 else 122 @ 0x131e 0x1351 120 eax = [rbp - 0x18 {var_20}].d 0x1357 121 if (eax s<= [rbp - 0xc {var_14}].d) then 123 @ 0x1391 else 125 @ 0x135d 0x131e 122 if ([rbp - 0xc {var_14}].d != 0) then 120 @ 0x1351 else 127 @ 0x1328 0x1391 123 eax = [rbp - 0x1c {var_24}].d 0x1397 124 if (eax s>= [rbp - 0x10 {var_18}].d) then 128 @ 0x13de else 130 @ 0x139d 0x135d 125 eax = [rbp - 0x1c {var_24}].d 0x1363 126 if (eax s<= [rbp - 0x10 {var_18}].d) then 123 @ 0x1391 else 134 @ 0x1369 0x1328 127 if ([rbp - 0x10 {var_18}].d != 0) then 120 @ 0x1351 else 146 @ 0x1332 0x13de 128 eax = [rbp - 0x1c {var_24}].d 0x13e4 129 if (eax s>= [rbp - 0x10 {var_18}].d) then 147 @ 0x1431 else 162 @ 0x13ea 0x139d 130 eax = [rbp - 0x18 {var_20}].d 0x13a0 131 ecx = [rbp - 0xc {var_14}].d 0x13a3 132 ecx = ecx + 1 0x13a8 133 if (eax s< ecx) then 128 @ 0x13de else 166 @ 0x13ae 0x1369 134 eax = [rbp - 0x14 {var_1c}].d 0x136c 135 eax = eax + 0xc 0x136f 136 eax = eax - [rbp - 8 {var_10}].d 0x1372 137 eax = eax * 0xe10 0x1378 138 ecx = [rbp - 0x18 {var_20}].d 0x137b 139 ecx = ecx - [rbp - 0xc {var_14}].d 0x137e 140 ecx = ecx * 0x3c 0x1381 141 eax = eax + ecx 0x1383 142 eax = eax + [rbp - 0x1c {var_24}].d 0x1386 143 eax = eax - [rbp - 0x10 {var_18}].d 0x1389 144 [rbp - 0x20 {var_28_1}].d = eax 0x138c 145 goto 181 @ 0x1466 0x1332 146 if ([rbp - 0x14 {var_1c}].d != 0) then 120 @ 0x1351 else 189 @ 0x133c 0x1431 147 eax = [rbp - 0x1c {var_24}].d 0x1434 148 eax = eax - [rbp - 0x10 {var_18}].d 0x1437 149 ecx = [rbp - 0x18 {var_20}].d 0x143a 150 ecx = ecx + 0x3c 0x143d 151 ecx = ecx - [rbp - 0xc {var_14}].d 0x1440 152 ecx = ecx * 0x3c 0x1443 153 eax = eax + ecx 0x1445 154 ecx = [rbp - 0x14 {var_1c}].d 0x1448 155 ecx = ecx + 0xc 0x144b 156 ecx = ecx - [rbp - 8 {var_10}].d 0x144e 157 ecx = ecx - 1 0x1451 158 ecx = ecx * 0xe10 0x1457 159 eax = eax + ecx 0x1459 160 [rbp - 0x20 {var_28_1}].d = eax 0x1459 161 goto 190 @ 0x145c 0x13ea 162 eax = [rbp - 0x18 {var_20}].d 0x13ed 163 ecx = [rbp - 0xc {var_14}].d 0x13f0 164 ecx = ecx + 1 0x13f5 165 if (eax s>= ecx) then 147 @ 0x1431 else 191 @ 0x13fb 0x13ae 166 eax = [rbp - 0x1c {var_24}].d 0x13b1 167 eax = eax + 0x3c 0x13b4 168 eax = eax - [rbp - 0x10 {var_18}].d 0x13b7 169 ecx = [rbp - 0x18 {var_20}].d 0x13ba 170 ecx = ecx - [rbp - 0xc {var_14}].d 0x13bd 171 ecx = ecx - 1 0x13c0 172 ecx = ecx * 0x3c 0x13c3 173 eax = eax + ecx 0x13c5 174 ecx = [rbp - 0x14 {var_1c}].d 0x13c8 175 ecx = ecx + 0xc 0x13cb 176 ecx = ecx - [rbp - 8 {var_10}].d 0x13ce 177 ecx = ecx * 0xe10 0x13d4 178 eax = eax + ecx 0x13d6 179 [rbp - 0x20 {var_28_1}].d = eax 0x13d9 180 goto 208 @ 0x1461 0x1466 181 esi = [rbp - 0x20 {var_28_1}].d 0x1469 182 rdi = 0x2018 {"\n%d"} 0x1470 183 al = 0 0x1472 184 call(0x1030) 0x1477 185 eax = [rbp - 0x24 {var_2c}].d 0x147a 186 eax = eax + 1 0x147d 187 [rbp - 0x24 {var_2c}].d = eax 0x1480 188 goto 101 @ 0x12d2 0x133c 189 if ([rbp - 0x18 {var_20}].d != 0) then 120 @ 0x1351 else 209 @ 0x1346 0x145c 190 goto 208 @ 0x1461 0x13fb 191 eax = [rbp - 0x1c {var_24}].d 0x13fe 192 eax = eax + 0x3c 0x1401 193 eax = eax - [rbp - 0x10 {var_18}].d 0x1404 194 ecx = [rbp - 0x18 {var_20}].d 0x1407 195 ecx = ecx + 0x3c 0x140a 196 ecx = ecx - [rbp - 0xc {var_14}].d 0x140d 197 ecx = ecx - 1 0x1410 198 ecx = ecx * 0x3c 0x1413 199 eax = eax + ecx 0x1415 200 ecx = [rbp - 0x14 {var_1c}].d 0x1418 201 ecx = ecx + 0xc 0x141b 202 ecx = ecx - [rbp - 8 {var_10}].d 0x141e 203 ecx = ecx - 1 0x1421 204 ecx = ecx * 0xe10 0x1427 205 eax = eax + ecx 0x1429 206 [rbp - 0x20 {var_28_1}].d = eax 0x142c 207 goto 190 @ 0x145c 0x1461 208 goto 181 @ 0x1466 0x1346 209 if ([rbp - 0x1c {var_24}].d != 0) then 120 @ 0x1351 else 210 @ 0x134c 0x134c 210 goto 102 @ 0x1485 int64_t _fini(): 0x1494 0 rsp = rsp - 8 0x1498 1 rsp = rsp + 8 0x149c 2 <return> jump(pop)	POJ_87
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHHPE"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x50 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 rdi = 0x2034 {"%d"} 0x1166 5 rsi = rbp - 8 {var_10} 0x116a 6 al = 0 0x116c 7 call(0x1040) 0x1171 8 [rbp - 0x44 {var_4c}].d = 0 0x1171 9 goto 10 @ 0x117c 0x117c 10 if ([rbp - 0x44 {var_4c}].d s>= 0xc) then 11 @ 0x128a else 15 @ 0x1182 0x128a 11 eax = 0 0x128c 12 rsp = rsp + 0x50 0x1290 13 rbp = pop 0x1291 14 <return> jump(pop) 0x1182 15 [rbp - 0x48 {var_50_1}].d = 0 0x1189 16 eax = [rbp - 0x44 {var_4c}].d 0x118c 17 [rbp - 0x50 {var_58_1}].q = rax 0x1190 18 temp2.q = rax 0x1190 19 rax = rax - 0xb 0x1194 20 if (temp2.q u> 0xb) then 21 @ 0x1239 else 38 @ 0x119a 0x1239 21 rax = sx.q([rbp - 0x44 {var_4c}].d) 0x123d 22 eax = [rbp + (rax << 2) - 0x40].d 0x1241 23 ecx = 7 0x1246 24 temp3.d:temp4.d = sx.q(eax) 0x1246 25 edx = temp3.d 0x1246 26 eax = temp4.d 0x1247 27 temp5.d = edx 0x1247 28 temp6.d = eax 0x1247 29 temp0.d = divs.dp.d(temp5.d:temp6.d, ecx) 0x1247 30 temp7.d = edx 0x1247 31 temp8.d = eax 0x1247 32 temp1.d = mods.dp.d(temp7.d:temp8.d, ecx) 0x1247 33 eax = temp0.d 0x1247 34 edx = temp1.d 0x1249 35 edx = edx + [rbp - 8 {var_10}].d 0x124c 36 [rbp - 0x48 {var_50_2}].d = edx 0x1253 37 if ([rbp - 0x48 {var_50_2}].d == 6) then 43 @ 0x1263 else 49 @ 0x125d 0x119a 38 rax = [rbp - 0x50 {var_58_1}].q 0x119e 39 rcx = 0x2004 {"\n".%d"} 0x11a5 40 rax = sx.q([rcx + (rax << 2)].d) 0x11a9 41 rax = rax + rcx 0x11ac 42 jump(rax => 50 @ 0x11ae, 52 @ 0x11ba, 54 @ 0x11c6, 56 @ 0x11d2, 58 @ 0x11de, 60 @ 0x11ea, 62 @ 0x11f6, 64 @ 0x1202, 66 @ 0x120e, 68 @ 0x121a, 70 @ 0x1226, 72 @ 0x1232) 0x1263 43 esi = [rbp - 0x44 {var_4c}].d 0x1266 44 esi = esi + 1 0x1269 45 rdi = 0x2037 {"%d\n"} 0x1270 46 al = 0 0x1272 47 call(0x1030) 0x1272 48 goto 74 @ 0x1277 0x125d 49 if ([rbp - 0x48 {var_50_2}].d != 0xd) then 74 @ 0x1277 else 43 @ 0x1263 0x11ae 50 [rbp - 0x40 {var_48}].d = 0xd {""} 0x11b5 51 goto 21 @ 0x1239 0x11ba 52 [rbp - 0x3c {var_44_1}].d = 0x2c {""} 0x11c1 53 goto 21 @ 0x1239 0x11c6 54 [rbp - 0x38 {var_40_1}].d = 0x48 {"@"} 0x11cd 55 goto 21 @ 0x1239 0x11d2 56 [rbp - 0x34 {var_3c_1}].d = 0x67 {""} 0x11d9 57 goto 21 @ 0x1239 0x11de 58 [rbp - 0x30 {var_38_1}].d = 0x85 {""} 0x11e5 59 goto 21 @ 0x1239 0x11ea 60 [rbp - 0x2c {var_34_1}].d = 0xa4 {""} 0x11f1 61 goto 21 @ 0x1239 0x11f6 62 [rbp - 0x28 {var_30_1}].d = 0xc2 {""} 0x11fd 63 goto 21 @ 0x1239 0x1202 64 [rbp - 0x24 {var_2c_1}].d = 0xe1 {""} 0x1209 65 goto 21 @ 0x1239 0x120e 66 [rbp - 0x20 {var_28_1}].d = 0x100 {""} 0x1215 67 goto 21 @ 0x1239 0x121a 68 [rbp - 0x1c {var_24_1}].d = 0x11e {""} 0x1221 69 goto 21 @ 0x1239 0x1226 70 [rbp - 0x18 {var_20_1}].d = 0x13d {""} 0x122d 71 goto 21 @ 0x1239 0x1232 72 [rbp - 0x14 {var_1c_1}].d = 0x15b {""} 0x1232 73 goto 21 @ 0x1239 0x1277 74 goto 75 @ 0x127c 0x127c 75 eax = [rbp - 0x44 {var_4c}].d 0x127f 76 eax = eax + 1 0x1282 77 [rbp - 0x44 {var_4c}].d = eax 0x1285 78 goto 10 @ 0x117c int64_t _fini(): 0x1298 0 rsp = rsp - 8 0x129c 1 rsp = rsp + 8 0x12a0 2 <return> jump(pop)	POJ_50
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1220 {"UAWAVAUATSHH= "} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int64_t veget(double arg1, uint64_t arg2[0x2] @ zmm0, uint64_t arg3[0x2] @ zmm3): 0x1160 0 push(rbp) 0x1161 1 push(rbx) 0x1162 2 rsp = rsp - 0x18 0x1166 3 ebx = edi 0x1168 4 xmm1.q = float.d(edi) 0x116c 5 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1170 6 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1170 7 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1170 8 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1170 9 flag:s = 0 0x1170 10 flag:o = 0 0x1170 11 flag:a = 0 0x1174 12 [rsp + 8 {var_20}].q = xmm1.q 0x117a 13 if (flag:c) then 14 @ 0x1198 else 20 @ 0x117c 0x1198 14 xmm0 = xmm1 0x119c 15 call(0x1050) 0x11a1 16 xmm1 = zx.o([rsp + 8 {var_20}].q) 0x11a7 17 ecx = int.d(ftrunc(xmm0.q)) 0x11ab 18 eax = 1 0x11b3 19 if (ecx s< 2) then 25 @ 0x1191 else 29 @ 0x11b5 0x117c 20 xmm0 = 0 0x117f 21 xmm0 = _mm_sqrt_sd(xmm1.q) 0x1183 22 ecx = int.d(ftrunc(xmm0.q)) 0x1187 23 eax = 1 0x118f 24 if (ecx s>= 2) then 29 @ 0x11b5 else 25 @ 0x1191 0x1191 25 rsp = rsp + 0x18 0x1195 26 rbx = pop 0x1196 27 rbp = pop 0x1197 28 <return> jump(pop) 0x11b5 29 ebp = 1 0x11ba 30 xmm2 = _mm_sqrt_sd(xmm1.q) 0x11be 31 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x11c2 32 [rsp + 0x10 {var_18}].q = xmm2.q 0x11c8 33 goto 34 @ 0x11d8 0x11d8 34 ebp = ebp + 1 0x11db 35 eax = ebx 0x11dd 36 temp2.d:temp3.d = sx.q(eax) 0x11dd 37 edx = temp2.d 0x11dd 38 eax = temp3.d 0x11de 39 temp4.d = edx 0x11de 40 temp5.d = eax 0x11de 41 temp0.d = divs.dp.d(temp4.d:temp5.d, ebp) 0x11de 42 temp6.d = edx 0x11de 43 temp7.d = eax 0x11de 44 temp1.d = mods.dp.d(temp6.d:temp7.d, ebp) 0x11de 45 eax = temp0.d 0x11de 46 edx = temp1.d 0x11e2 47 if (edx == 0) then 48 @ 0x1215 else 53 @ 0x11e4 0x1215 48 eax = 0 0x1217 49 rsp = rsp + 0x18 0x121b 50 rbx = pop 0x121c 51 rbp = pop 0x121d 52 <return> jump(pop) 0x11e4 53 flag:p = is_unordered.q(xmm1.q, xmm3.q) 0x11e4 54 flag:c = xmm1.q f< xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x11e4 55 flag:z = xmm1.q f== xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x11e4 56 flag:s = 0 0x11e4 57 flag:o = 0 0x11e4 58 flag:a = 0 0x11e8 59 xmm0 = xmm2 0x11ec 60 if (not(flag:c)) then 61 @ 0x11d0 else 63 @ 0x11ee 0x11d0 61 eax = int.d(ftrunc(xmm0.q)) 0x11d6 62 if (ebp s>= eax) then 69 @ 0x1209 else 34 @ 0x11d8 0x11ee 63 xmm0 = xmm1 0x11f2 64 call(0x1050) 0x11f7 65 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x11fb 66 xmm2 = zx.o([rsp + 0x10 {var_18}].q) 0x1201 67 xmm1 = zx.o([rsp + 8 {var_20}].q) 0x1207 68 goto 61 @ 0x11d0 0x1209 69 eax = 1 0x120e 70 rsp = rsp + 0x18 0x1212 71 rbx = pop 0x1213 72 rbp = pop 0x1214 73 <return> jump(pop) int32_t main(int32_t argc, char argv, char envp): 0x1220 0 push(rbp) 0x1221 1 push(r15) 0x1223 2 push(r14) 0x1225 3 push(r13) 0x1227 4 push(r12) 0x1229 5 push(rbx) 0x122a 6 rsp = rsp - 0x18 0x122e 7 rdi = 0x2010 {"%d"} 0x1235 8 rsi = rsp + 0x10 {var_38} 0x123a 9 eax = 0 0x123c 10 call(0x1040) 0x1246 11 if ([rsp + 0x10 {var_38}].d s>= 6) then 12 @ 0x1259 else 15 @ 0x1248 0x1259 12 r15d = 6 0x125f 13 r12d = 3 0x1265 14 goto 24 @ 0x1297 0x1248 15 eax = 0 0x124a 16 rsp = rsp + 0x18 0x124e 17 rbx = pop 0x124f 18 r12 = pop 0x1251 19 r13 = pop 0x1253 20 r14 = pop 0x1255 21 r15 = pop 0x1257 22 rbp = pop 0x1258 23 <return> jump(pop) 0x1297 24 cond:0 = r12d u>= 4 0x129b 25 r13d = 3 0x12a1 26 if (cond:0) then 27 else 29 @ 0x12a5 0x12a1 27 r13d = r12d 0x12a1 28 goto 29 @ 0x12a5 0x12a5 29 eax = (r13 + 1).d 0x12a9 30 [rsp + 0x14 {var_34_1}].d = eax 0x12ad 31 ebx = 3 0x12ad 32 goto 33 @ 0x12b2 0x12b2 33 xmm1 = 0 0x12b5 34 xmm1.q = float.d(ebx) 0x12b9 35 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x12b9 36 flag:c = xmm1.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x12b9 37 flag:z = xmm1.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x12b9 38 flag:s = 0 0x12b9 39 flag:o = 0 0x12b9 40 flag:a = 0 0x12c1 41 [rsp + 8 {var_40_1}].q = xmm1.q 0x12c7 42 if (flag:c) then 43 @ 0x12e0 else 48 @ 0x12c9 0x12e0 43 xmm0 = xmm1 0x12e4 44 call(0x1050) 0x12e9 45 xmm1 = zx.o([rsp + 8 {var_40_1}].q) 0x12ef 46 eax = int.d(ftrunc(xmm0.q)) 0x12f6 47 if (eax s>= 2) then 52 @ 0x1330 else 54 @ 0x12f8 0x12c9 48 xmm0 = 0 0x12cc 49 xmm0 = _mm_sqrt_sd(xmm1.q) 0x12d0 50 eax = int.d(ftrunc(xmm0.q)) 0x12d7 51 if (eax s< 2) then 54 @ 0x12f8 else 66 @ 0x12d9 0x1330 52 ebp = 2 0x1335 53 goto 67 @ 0x1383 0x12f8 54 ebp = r15d 0x12fb 55 ebp = ebp - ebx 0x12fd 56 xmm1 = 0 0x1300 57 xmm1.q = float.d(ebp) 0x1304 58 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1304 59 flag:c = xmm1.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1304 60 flag:z = xmm1.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1304 61 flag:s = 0 0x1304 62 flag:o = 0 0x1304 63 flag:a = 0 0x130c 64 [rsp + 8 {var_40_2}].q = xmm1.q 0x1312 65 if (flag:c) then 79 @ 0x1390 else 84 @ 0x1314 0x12d9 66 goto 52 @ 0x1330 0x1383 67 eax = ebx 0x1385 68 edx = 0 0x1387 69 temp2.d = ebp 0x1387 70 temp3.d = edx 0x1387 71 temp4.d = eax 0x1387 72 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x1387 73 temp5.d = edx 0x1387 74 temp6.d = eax 0x1387 75 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x1387 76 eax = temp0.d 0x1387 77 edx = temp1.d 0x138b 78 if (edx != 0) then 88 @ 0x1360 else 96 @ 0x138d 0x1390 79 xmm0 = xmm1 0x1394 80 call(0x1050) 0x1399 81 xmm1 = zx.o([rsp + 8 {var_40_2}].q) 0x139f 82 eax = int.d(ftrunc(xmm0.q)) 0x13a6 83 if (eax s< 2) then 97 @ 0x1270 else 107 @ 0x13ac 0x1314 84 xmm0 = 0 0x1317 85 xmm0 = _mm_sqrt_sd(xmm1.q) 0x131b 86 eax = int.d(ftrunc(xmm0.q)) 0x1322 87 if (eax s>= 2) then 107 @ 0x13ac else 109 @ 0x1328 0x1360 88 ebp = ebp + 1 0x1363 89 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1363 90 flag:c = xmm1.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1363 91 flag:z = xmm1.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x1363 92 flag:s = 0 0x1363 93 flag:o = 0 0x1363 94 flag:a = 0 0x136b 95 if (flag:c) then 110 @ 0x1340 else 116 @ 0x136d 0x138d 96 goto 121 @ 0x140c 0x1270 97 ecx = r15d 0x1273 98 ecx = ecx - ebx 0x1275 99 rdi = 0x2013 {"%d=%d+%d\n"} 0x127c 100 esi = r15d 0x127f 101 edx = ebx 0x1281 102 eax = 0 0x1283 103 call(0x1030) 0x1288 104 r15d = r15d + 2 0x128c 105 r12d = r12d + 1 0x1295 106 if (r15d s> [rsp + 0x10 {var_38}].d) then 15 @ 0x1248 else 24 @ 0x1297 0x13ac 107 r14d = 1 0x13b2 108 goto 125 @ 0x13fe 0x1328 109 goto 97 @ 0x1270 0x1340 110 xmm0 = xmm1 0x1344 111 call(0x1050) 0x1349 112 xmm1 = zx.o([rsp + 8 {var_40_1}].q) 0x134f 113 eax = int.d(ftrunc(xmm0.q)) 0x1353 114 ecx = (rbp - 1).d 0x1358 115 if (ecx s< eax) then 67 @ 0x1383 else 139 @ 0x135a 0x136d 116 xmm0 = 0 0x1370 117 xmm0 = _mm_sqrt_sd(xmm1.q) 0x1374 118 eax = int.d(ftrunc(xmm0.q)) 0x1378 119 ecx = (rbp - 1).d 0x137d 120 if (ecx s>= eax) then 54 @ 0x12f8 else 67 @ 0x1383 0x140c 121 eax = (rbx + 1).d 0x140f 122 cond:1 = ebx != r13d 0x1412 123 ebx = eax 0x1414 124 if (cond:1) then 33 @ 0x12b2 else 140 @ 0x141a 0x13fe 125 r14d = r14d + 1 0x1402 126 eax = ebp 0x1404 127 temp7.d:temp8.d = sx.q(eax) 0x1404 128 edx = temp7.d 0x1404 129 eax = temp8.d 0x1405 130 temp9.d = edx 0x1405 131 temp10.d = eax 0x1405 132 temp0.d = divs.dp.d(temp9.d:temp10.d, r14d) 0x1405 133 temp11.d = edx 0x1405 134 temp12.d = eax 0x1405 135 temp1.d = mods.dp.d(temp11.d:temp12.d, r14d) 0x1405 136 eax = temp0.d 0x1405 137 edx = temp1.d 0x140a 138 if (edx != 0) then 143 @ 0x13e0 else 121 @ 0x140c 0x135a 139 goto 54 @ 0x12f8 0x141a 140 eax = [rsp + 0x14 {var_34_1}].d 0x141e 141 ebx = eax 0x1420 142 goto 97 @ 0x1270 0x13e0 143 flag:p = is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x13e0 144 flag:c = xmm1.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x13e0 145 flag:z = xmm1.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm1.q, fconvert.t([0x2008].q)) 0x13e0 146 flag:s = 0 0x13e0 147 flag:o = 0 0x13e0 148 flag:a = 0 0x13e8 149 if (flag:c) then 150 @ 0x13c0 else 155 @ 0x13ea 0x13c0 150 xmm0 = xmm1 0x13c4 151 call(0x1050) 0x13c9 152 xmm1 = zx.o([rsp + 8 {var_40_2}].q) 0x13cf 153 eax = int.d(ftrunc(xmm0.q)) 0x13d6 154 if (r14d s< eax) then 125 @ 0x13fe else 159 @ 0x13d8 0x13ea 155 xmm0 = 0 0x13ed 156 xmm0 = _mm_sqrt_sd(xmm1.q) 0x13f1 157 eax = int.d(ftrunc(xmm0.q)) 0x13f8 158 if (r14d s>= eax) then 97 @ 0x1270 else 125 @ 0x13fe 0x13d8 159 goto 97 @ 0x1270 int64_t _fini(): 0x142c 0 rsp = rsp - 8 0x1430 1 rsp = rsp + 8 0x1434 2 <return> jump(pop)	POJ_68
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVATSHH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r12) 0x1157 4 push(rbx) 0x1158 5 rsp = rsp - 0x10 0x115c 6 rbx = 0x2004 {"%d"} 0x1163 7 rsi = rsp + 0xc {var_2c} 0x1168 8 rdi = rbx 0x116b 9 eax = 0 0x116d 10 call(0x1040) 0x1172 11 r14 = rsp {var_38} 0x1175 12 r15 = rsp + 4 {var_34} 0x117a 13 r12 = rsp + 8 {var_30} 0x117f 14 ebp = 0 0x1181 15 goto 16 @ 0x11a0 0x11a0 16 ebp = ebp + 1 0x11a3 17 rdi = rbx 0x11a9 18 if (ebp == 2) then 19 @ 0x11d0 else 25 @ 0x11ae 0x11d0 19 rsi = r14 {var_38} 0x11d3 20 eax = 0 0x11d5 21 call(0x1040) 0x11da 22 eax = [rsp {var_38}].d 0x11dd 23 ecx = [rsp + 4 {var_34}].d 0x11e3 24 if (eax s<= ecx) then 26 @ 0x119e else 27 @ 0x11e5 0x11ae 25 if (ebp == 1) then 30 @ 0x1190 else 34 @ 0x11b0 0x119e 26 if (ebp s>= [rsp + 0xc {var_2c}].d) then 41 @ 0x11fa else 16 @ 0x11a0 0x11e5 27 [rsp + 4 {var_34}].d = eax 0x11e9 28 [rsp {var_38}].d = ecx 0x11ec 29 goto 26 @ 0x119e 0x1190 30 rsi = r15 {var_34} 0x1193 31 eax = 0 0x1195 32 call(0x1040) 0x1195 33 goto 26 @ 0x119e 0x11b0 34 rsi = r12 {var_30} 0x11b3 35 eax = 0 0x11b5 36 call(0x1040) 0x11ba 37 eax = [rsp + 8 {var_30}].d 0x11be 38 ecx = [rsp + 4 {var_34}].d 0x11c2 39 cond:0 = eax s>= ecx 0x11c4 40 if (eax s<= ecx) then 54 @ 0x11ee else 55 @ 0x11c6 0x11fa 41 esi = [rsp + 4 {var_34}].d 0x11fe 42 edx = [rsp {var_38}].d 0x1201 43 rdi = 0x2007 {"%d\n%d\n"} 0x1208 44 eax = 0 0x120a 45 call(0x1030) 0x120f 46 eax = 0 0x1211 47 rsp = rsp + 0x10 0x1215 48 rbx = pop 0x1216 49 r12 = pop 0x1218 50 r14 = pop 0x121a 51 r15 = pop 0x121c 52 rbp = pop 0x121d 53 <return> jump(pop) 0x11ee 54 if (cond:0) then 26 @ 0x119e else 58 @ 0x11f3 0x11c6 55 [rsp {var_38}].d = ecx 0x11c9 56 [rsp + 4 {var_34}].d = eax 0x11cd 57 goto 26 @ 0x119e 0x11f3 58 if (eax s<= [rsp {var_38}].d) then 26 @ 0x119e else 59 @ 0x11f5 0x11f5 59 [rsp {var_38}].d = eax 0x11f8 60 goto 26 @ 0x119e int64_t _fini(): 0x1224 0 rsp = rsp - 8 0x1228 1 rsp = rsp + 8 0x122c 2 <return> jump(pop)	POJ_84
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0xf0 0x115b 3 [rbp - 4 {var_c}].d = 0 0x1162 4 rdi = 0x2004 {"%d"} 0x1169 5 rsi = rbp - 8 {var_10} 0x116d 6 al = 0 0x116f 7 call(0x1040) 0x1174 8 [rbp - 0x10 {var_18}].d = 0 0x1174 9 goto 10 @ 0x117b 0x117b 10 eax = [rbp - 0x10 {var_18}].d 0x1181 11 if (eax s>= [rbp - 8 {var_10}].d) then 12 @ 0x13c4 else 16 @ 0x1187 0x13c4 12 eax = 0 0x13c6 13 rsp = rsp + 0xf0 0x13cd 14 rbp = pop 0x13ce 15 <return> jump(pop) 0x1187 16 rdi = 0x2004 {"%d"} 0x118e 17 rsi = rbp - 0xc {var_14} 0x1192 18 al = 0 0x1194 19 call(0x1040) 0x119d 20 if ([rbp - 0xc {var_14}].d != 0) then 21 @ 0x11c4 else 22 @ 0x11a3 0x11c4 21 if ([rbp - 0xc {var_14}].d == 0) then 28 @ 0x13ac else 29 @ 0x11ca 0x11a3 22 [rbp - 0x18 {var_20_1}].d = 0x3c {""} 0x11aa 23 esi = [rbp - 0x18 {var_20_1}].d 0x11ad 24 rdi = 0x2007 {"%d\n"} 0x11b4 25 al = 0 0x11b6 26 call(0x1030) 0x11bb 27 goto 31 @ 0x13b1 0x13ac 28 goto 31 @ 0x13b1 0x11ca 29 [rbp - 0x14 {var_1c_1}].d = 0 0x11ca 30 goto 32 @ 0x11d1 0x13b1 31 goto 34 @ 0x13b6 0x11d1 32 eax = [rbp - 0x14 {var_1c_1}].d 0x11d7 33 if (eax s>= [rbp - 0xc {var_14}].d) then 38 @ 0x120b else 40 @ 0x11dd 0x13b6 34 eax = [rbp - 0x10 {var_18}].d 0x13b9 35 eax = eax + 1 0x13bc 36 [rbp - 0x10 {var_18}].d = eax 0x13bf 37 goto 10 @ 0x117b 0x120b 38 [rbp - 0x14 {var_1c_2}].d = 0 0x120b 39 goto 51 @ 0x1212 0x11dd 40 rax = sx.q([rbp - 0x14 {var_1c_1}].d) 0x11e1 41 rsi = rbp - 0xf0 {var_f8} 0x11e8 42 rax = rax << 2 0x11ec 43 rsi = rsi + rax 0x11ef 44 rdi = 0x2004 {"%d"} 0x11f6 45 al = 0 0x11f8 46 call(0x1040) 0x11fd 47 eax = [rbp - 0x14 {var_1c_1}].d 0x1200 48 eax = eax + 1 0x1203 49 [rbp - 0x14 {var_1c_1}].d = eax 0x1206 50 goto 32 @ 0x11d1 0x1212 51 eax = [rbp - 0x14 {var_1c_2}].d 0x1218 52 if (eax s>= [rbp - 0xc {var_14}].d) then 53 @ 0x13a7 else 54 @ 0x121e 0x13a7 53 goto 28 @ 0x13ac 0x121e 54 eax = [rbp - 0x14 {var_1c_2}].d * 3 0x1222 55 rcx = sx.q([rbp - 0x14 {var_1c_2}].d) 0x1226 56 eax = eax + [rbp + (rcx << 2) - 0xf0].d 0x122d 57 [rbp - 0x1c {var_24_1}].d = eax 0x1234 58 if ([rbp - 0x1c {var_24_1}].d s< 0x3c) then 59 @ 0x126a else 60 @ 0x123a 0x126a 59 if ([rbp - 0x1c {var_24_1}].d s>= 0x3c) then 69 @ 0x138f else 70 @ 0x1270 0x123a 60 rax = sx.q([rbp - 0x14 {var_1c_2}].d) 0x123e 61 eax = [rbp + (rax << 2) - 0xf0].d 0x1245 62 [rbp - 0x18 {var_20_2}].d = eax 0x1248 63 rax = sx.q([rbp - 0x14 {var_1c_2}].d) 0x124c 64 esi = [rbp + (rax << 2) - 0xf0].d 0x1253 65 rdi = 0x2007 {"%d\n"} 0x125a 66 al = 0 0x125c 67 call(0x1030) 0x1261 68 goto 53 @ 0x13a7 0x138f 69 goto 74 @ 0x1394 0x1270 70 eax = [rbp - 0x14 {var_1c_2}].d 0x1273 71 ecx = [rbp - 0xc {var_14}].d 0x1276 72 ecx = ecx - 1 0x127b 73 if (eax != ecx) then 75 @ 0x12a5 else 79 @ 0x1281 0x1394 74 goto 88 @ 0x1399 0x12a5 75 eax = [rbp - 0x14 {var_1c_2}].d 0x12a8 76 ecx = [rbp - 0xc {var_14}].d 0x12ab 77 ecx = ecx - 1 0x12b0 78 if (eax == ecx) then 92 @ 0x1385 else 93 @ 0x12b6 0x1281 79 ecx = [rbp - 0xc {var_14}].d * 3 0x1285 80 eax = 0x3c {""} 0x128a 81 eax = eax - ecx 0x128c 82 [rbp - 0x18 {var_20_3}].d = eax 0x128f 83 esi = [rbp - 0x18 {var_20_3}].d 0x1292 84 rdi = 0x2007 {"%d\n"} 0x1299 85 al = 0 0x129b 86 call(0x1030) 0x12a0 87 goto 102 @ 0x138a 0x1399 88 eax = [rbp - 0x14 {var_1c_2}].d 0x139c 89 eax = eax + 1 0x139f 90 [rbp - 0x14 {var_1c_2}].d = eax 0x13a2 91 goto 51 @ 0x1212 0x1385 92 goto 102 @ 0x138a 0x12b6 93 eax = [rbp - 0x14 {var_1c_2}].d 0x12b9 94 eax = eax + 1 0x12bc 95 rax = sx.q(eax) 0x12be 96 eax = [rbp + (rax << 2) - 0xf0].d 0x12c5 97 ecx = [rbp - 0x14 {var_1c_2}].d 0x12c8 98 ecx = ecx + 2 0x12cb 99 ecx = ecx * 3 0x12ce 100 eax = eax + ecx 0x12d3 101 if (eax s<= 0x3c) then 103 @ 0x1380 else 104 @ 0x12d9 0x138a 102 goto 69 @ 0x138f 0x1380 103 goto 92 @ 0x1385 0x12d9 104 eax = [rbp - 0x14 {var_1c_2}].d 0x12dc 105 eax = eax + 1 0x12df 106 ecx = eax * 3 0x12e2 107 eax = 0x3c {""} 0x12e7 108 eax = eax - ecx 0x12e9 109 ecx = [rbp - 0x14 {var_1c_2}].d 0x12ec 110 ecx = ecx + 1 0x12ef 111 rcx = sx.q(ecx) 0x12f9 112 if (eax s< [rbp + (rcx << 2) - 0xf0].d) then 113 @ 0x1327 else 122 @ 0x12ff 0x1327 113 eax = [rbp - 0x14 {var_1c_2}].d 0x132a 114 eax = eax + 1 0x132d 115 ecx = eax * 3 0x1330 116 eax = 0x3c {""} 0x1335 117 eax = eax - ecx 0x1337 118 ecx = [rbp - 0x14 {var_1c_2}].d 0x133a 119 ecx = ecx + 1 0x133d 120 rcx = sx.q(ecx) 0x1347 121 if (eax s>= [rbp + (rcx << 2) - 0xf0].d) then 132 @ 0x1376 else 133 @ 0x134d 0x12ff 122 eax = [rbp - 0x14 {var_1c_2}].d 0x1302 123 eax = eax + 1 0x1305 124 rax = sx.q(eax) 0x1307 125 eax = [rbp + (rax << 2) - 0xf0].d 0x130e 126 [rbp - 0x18 {var_20_4}].d = eax 0x1311 127 esi = [rbp - 0x18 {var_20_4}].d 0x1314 128 rdi = 0x2007 {"%d\n"} 0x131b 129 al = 0 0x131d 130 call(0x1030) 0x1322 131 goto 53 @ 0x13a7 0x1376 132 goto 144 @ 0x137b 0x134d 133 eax = [rbp - 0x14 {var_1c_2}].d 0x1350 134 eax = eax + 1 0x1353 135 ecx = eax * 3 0x1356 136 eax = 0x3c {""} 0x135b 137 eax = eax - ecx 0x135d 138 [rbp - 0x18 {var_20_5}].d = eax 0x1360 139 esi = [rbp - 0x18 {var_20_5}].d 0x1363 140 rdi = 0x2007 {"%d\n"} 0x136a 141 al = 0 0x136c 142 call(0x1030) 0x1371 143 goto 53 @ 0x13a7 0x137b 144 goto 103 @ 0x1380 int64_t _fini(): 0x13d4 0 rsp = rsp - 8 0x13d8 1 rsp = rsp + 8 0x13dc 2 <return> jump(pop)	POJ_86
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(rbx) 0x1165 3 rsp = rsp - 0x1790 0x116c 4 rdi = rsp + 0x20 {var_1788} 0x1171 5 edx = 0x960 {""} 0x1176 6 esi = 0 0x1178 7 call(0x1040) 0x117d 8 rdi = 0x2020 {"%d"} 0x1184 9 rsi = rsp + 4 {var_17a4} 0x1189 10 eax = 0 0x118b 11 call(0x1050) 0x1190 12 eax = [rsp + 4 {var_17a4}].d 0x1196 13 if (eax s<= 0) then 14 @ 0x11cf else 16 @ 0x1198 0x11cf 14 ecx = eax 0x11d3 15 if (eax s<= 0) then 20 @ 0x11f6 else 22 @ 0x11d5 0x1198 16 r15 = rsp + 0x12e0 {var_4c8} 0x11a0 17 r14 = 0x2020 {"%d"} 0x11a7 18 ebx = 0 0x11a9 19 goto 25 @ 0x11b0 0x11f6 20 xmm3 = _mm_xor_pd(xmm3, xmm3) 0x11f6 21 goto 33 @ 0x11fa 0x11d5 22 edx = 0 0x11d7 23 esi = 0 0x11d9 24 goto 36 @ 0x11e0 0x11b0 25 rdi = r14 0x11b3 26 rsi = r15 0x11b6 27 eax = 0 0x11b8 28 call(0x1050) 0x11bd 29 rbx = rbx + 1 0x11c1 30 rax = sx.q([rsp + 4 {var_17a4}].d) 0x11c6 31 r15 = r15 + 4 0x11cd 32 if (rbx s< rax) then 25 @ 0x11b0 else 14 @ 0x11cf 0x11fa 33 xmm0.q = float.d(eax) 0x11fe 34 xmm3.q = xmm3.q f/ xmm0.q 0x1204 35 if (eax s<= 0) then 39 @ 0x1254 else 40 @ 0x1206 0x11e0 36 esi = esi + [rsp + (rdx << 2) + 0x12e0].d 0x11e7 37 rdx = rdx + 1 0x11ee 38 if (rcx != rdx) then 36 @ 0x11e0 else 42 @ 0x11f0 0x1254 39 if (eax s<= 0) then 44 @ 0x12d0 else 67 @ 0x1256 0x1206 40 edx = 0 0x1208 41 goto 70 @ 0x122c 0x11f0 42 xmm3.q = float.d(esi) 0x11f4 43 goto 33 @ 0x11fa 0x12d0 44 xmm2 = zx.o([rsp + 0x20 {var_1788}].q) 0x12d6 45 [rsp + 0x10 {var_1798}].o = xmm2 0x12dc 46 xmm1 = [0x2010].o 0x12e4 47 xmm1 = _mm_xor_pd(xmm1, xmm2) 0x12e8 48 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12ec 49 xmm0 = __cmpsd_xmm_xmmsd_memsd_immb(xmm0.q, [rsp + 0x980 {var_e28}].q, 1) 0x12f6 50 xmm1 = _mm_and_pd(xmm1, xmm0) 0x12fa 51 xmm0 = _mm_andnot_pd(xmm0, xmm2) 0x12fe 52 xmm0 = _mm_or_pd(xmm0, xmm1) 0x1302 53 xmm0.q = xmm0.q f+ xmm3.q 0x1306 54 rdi = 0x2024 {"%.0f"} 0x130d 55 al = 1 0x130f 56 [rsp + 8 {var_17a0}].q = xmm3.q 0x1315 57 call(0x1030) 0x131a 58 xmm0 = [rsp + 0x10 {var_1798}].o 0x1320 59 xmm1 = zx.o([rsp + 0x28 {var_1780}].q) 0x1326 60 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1326 61 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1326 62 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1326 63 flag:s = 0 0x1326 64 flag:o = 0 0x1326 65 flag:a = 0 0x132a 66 if (not(flag:z)) then 80 @ 0x138e else 85 @ 0x132c 0x1256 67 ecx = 0 0x1258 68 edx = eax 0x125a 69 goto 86 @ 0x126a 0x122c 70 xmm1 = 0 0x122f 71 xmm1.q = float.d([rsp + (rdx << 2) + 0x12e0].d) 0x1238 72 xmm0 = xmm3 0x123c 73 flag:p = is_unordered.q(xmm1.q, xmm3.q) 0x123c 74 flag:c = xmm1.q f< xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x123c 75 flag:z = xmm1.q f== xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x123c 76 flag:s = 0 0x123c 77 flag:o = 0 0x123c 78 flag:a = 0 0x1240 79 if (flag:z \|\| flag:c) then 88 @ 0x1210 else 91 @ 0x1242 0x138e 80 rsp = rsp + 0x1790 0x1395 81 rbx = pop 0x1396 82 r14 = pop 0x1398 83 r15 = pop 0x139a 84 <return> jump(pop) 0x132c 85 if (flag:p) then 80 @ 0x138e else 95 @ 0x132e 0x126a 86 edx = edx 0x126e 87 if (eax s<= ecx) then 98 @ 0x1260 else 101 @ 0x1270 0x1210 88 xmm0.q = xmm0.q f- xmm1.q 0x1214 89 [rsp + (rdx << 3) + 0x20].q = xmm0.q 0x1214 90 goto 103 @ 0x121a 0x1242 91 xmm0.q = xmm0.q f- xmm1.q 0x1246 92 xmm1.q = xmm1.q f- xmm3.q 0x124a 93 [rsp + (rdx << 3) + 0x20].q = xmm1.q 0x1250 94 goto 103 @ 0x121a 0x132e 95 ebx = 0 0x1330 96 r14 = 0x2023 {",%.0f"} 0x1337 97 goto 106 @ 0x1340 0x1260 98 ecx = ecx + 1 0x1263 99 edx = edx - 1 0x1268 100 if (ecx == eax) then 44 @ 0x12d0 else 86 @ 0x126a 0x1270 101 esi = 0 0x1272 102 goto 127 @ 0x1288 0x121a 103 [rsp + (rdx << 3) + 0x980].q = xmm0.q 0x1223 104 rdx = rdx + 1 0x122a 105 if (rcx == rdx) then 39 @ 0x1254 else 70 @ 0x122c 0x1340 106 xmm2 = xmm1 0x1344 107 xmm2 = __xorpd_xmmxuq_memxuq(xmm2, [0x2010].o) 0x134c 108 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1350 109 xmm0 = __cmpsd_xmm_xmmsd_memsd_immb(xmm0.q, [rsp + rbx + 0x988].q, 1) 0x135a 110 xmm2 = _mm_and_pd(xmm2, xmm0) 0x135e 111 xmm0 = _mm_andnot_pd(xmm0, xmm1) 0x1362 112 xmm0 = _mm_or_pd(xmm0, xmm2) 0x1366 113 xmm0.q = xmm0.q f+ fconvert.t([rsp + 8 {var_17a0}].q) 0x136c 114 rdi = r14 0x136f 115 al = 1 0x1371 116 call(0x1030) 0x1376 117 xmm0 = [rsp + 0x10 {var_1798}].o 0x137c 118 xmm1 = zx.o([rsp + rbx + 0x30].q) 0x1382 119 rbx = rbx + 8 0x1386 120 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1386 121 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1386 122 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1386 123 flag:s = 0 0x1386 124 flag:o = 0 0x1386 125 flag:a = 0 0x138a 126 if (not(flag:z)) then 80 @ 0x138e else 137 @ 0x138c 0x1288 127 xmm0 = zx.o([rsp + (rsi << 3) + 0x20].q) 0x128e 128 xmm1 = zx.o([rsp + (rsi << 3) + 0x28].q) 0x1294 129 rdi = rsi + 1 0x1298 130 flag:p = is_unordered.q(xmm1.q, xmm0.q) 0x1298 131 flag:c = xmm1.q f< xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1298 132 flag:z = xmm1.q f== xmm0.q \| is_unordered.q(xmm1.q, xmm0.q) 0x1298 133 flag:s = 0 0x1298 134 flag:o = 0 0x1298 135 flag:a = 0 0x129c 136 if (flag:z \|\| flag:c) then 138 @ 0x1280 else 140 @ 0x129e 0x138c 137 if (not(flag:p)) then 106 @ 0x1340 else 80 @ 0x138e 0x1280 138 rsi = rdi 0x1286 139 if (rdx == rdi) then 98 @ 0x1260 else 127 @ 0x1288 0x129e 140 [rsp + (rsi << 3) + 0x20].q = xmm1.q 0x12a4 141 xmm1 = zx.o([rsp + (rsi << 3) + 0x980].q) 0x12ad 142 xmm2 = zx.o([rsp + (rsi << 3) + 0x988].q) 0x12b6 143 [rsp + (rsi << 3) + 0x980].q = xmm2.q 0x12bf 144 [rsp + (rsi << 3) + 0x28].q = xmm0.q 0x12c5 145 [rsp + (rsi << 3) + 0x988].q = xmm1.q 0x12ce 146 goto 138 @ 0x1280 int64_t _fini(): 0x13a0 0 rsp = rsp - 8 0x13a4 1 rsp = rsp + 8 0x13a8 2 <return> jump(pop)	POJ_21
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int64_t calloc(uint64_t n, uint64_t elem_size): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x18 0x116e 7 rdi = 0x2004 {"%d %d"} 0x1175 8 rsi = rsp + 0xc {var_3c} 0x117a 9 rdx = rsp + 8 {var_40} 0x117f 10 eax = 0 0x1181 11 call(0x1040) 0x1186 12 edi = 0x2710 {""} 0x118b 13 esi = 0x2710 {""} 0x1190 14 call(0x1050) 0x1195 15 edi = [rsp + 0xc {var_3c}].d 0x1199 16 ecx = [rsp + 8 {var_40}].d 0x119d 17 cond:0 = edi s<= 0 0x119f 18 [rsp + 0x10 {var_38}].q = rax 0x11a4 19 if (cond:0) then 20 @ 0x1205 else 23 @ 0x11a6 0x1205 20 edx = (rcx + rdi).d 0x1208 21 edx = edx - 1 0x120d 22 if (edx s<= 0) then 27 @ 0x12ac else 35 @ 0x1213 0x11a6 23 r15 = 0x2007 {"%d"} 0x11ad 24 r12 = rax 0x11b0 25 r14d = 0 0x11b3 26 goto 41 @ 0x11d5 0x12ac 27 rsp = rsp + 0x18 0x12b0 28 rbx = pop 0x12b1 29 r12 = pop 0x12b3 30 r13 = pop 0x12b5 31 r14 = pop 0x12b7 32 r15 = pop 0x12b9 33 rbp = pop 0x12ba 34 <return> jump(pop) 0x1213 35 r15d = 0 0x1216 36 r13 = 0x200a {"%d\n"} 0x121d 37 ebp = 0 0x121f 38 r12d = 0 0x1222 39 edx = 0 0x1224 40 goto 42 @ 0x1259 0x11d5 41 if (ecx s<= 0) then 43 @ 0x11c0 else 47 @ 0x11d7 0x1259 42 if (ebp == edi) then 50 @ 0x1234 else 56 @ 0x125e 0x11c0 43 r14 = r14 + 1 0x11c4 44 rdx = sx.q(edi) 0x11c7 45 r12 = r12 + 0x9c40 0x11d1 46 if (r14 s>= rdx) then 20 @ 0x1205 else 41 @ 0x11d5 0x11d7 47 rbx = r12 0x11da 48 ebp = 0 0x11dc 49 goto 57 @ 0x11e0 0x1234 50 esi = (r12 + 1).d 0x1239 51 edx = (rcx - 1).d 0x123c 52 ebp = esi 0x123e 53 ebp = ebp - edx 0x1240 54 cond:1 = r12d s< edx 0x1243 55 if (r12d s< edx) then 65 else 67 @ 0x1246 0x125e 56 if (edx == -1) then 50 @ 0x1234 else 68 @ 0x1260 0x11e0 57 rdi = r15 0x11e3 58 rsi = rbx 0x11e6 59 eax = 0 0x11e8 60 call(0x1040) 0x11ed 61 rbp = rbp + 1 0x11f1 62 rcx = sx.q([rsp + 8 {var_40}].d) 0x11f6 63 rbx = rbx + 4 0x11fd 64 if (rbp s< rcx) then 57 @ 0x11e0 else 75 @ 0x11ff 0x1243 65 edx = esi 0x1243 66 goto 67 @ 0x1246 0x1246 67 if (cond:1) then 77 else 79 @ 0x124a 0x1260 68 rax = sx.q(ebp) 0x1263 69 rbx = sx.q(edx) 0x1266 70 rax = rax * 0x9c40 0x126d 71 r14 = rax + (rbx << 2) 0x1271 72 r14 = r14 + [rsp + 0x10 {var_38}].q 0x1276 73 ebp = ebp + 1 0x1279 74 goto 83 @ 0x1280 0x11ff 75 edi = [rsp + 0xc {var_3c}].d 0x1203 76 goto 43 @ 0x11c0 0x1246 77 ebp = r15d 0x1246 78 goto 79 @ 0x124a 0x124a 79 eax = (rcx + rdi).d 0x124d 80 eax = eax - 1 0x1250 81 r12d = esi 0x1255 82 if (esi s>= eax) then 27 @ 0x12ac else 42 @ 0x1259 0x1280 83 esi = [r14].d 0x1283 84 rdi = r13 0x1286 85 eax = 0 0x1288 86 call(0x1030) 0x128d 87 temp0.q = rbx 0x128d 88 rbx = rbx - 1 0x128d 89 flag:c = temp0.q u>= 1 0x1291 90 cl = flag:c 0x1294 91 edi = [rsp + 0xc {var_3c}].d 0x129a 92 if (ebp == edi) then 93 @ 0x1230 else 95 @ 0x129c 0x1230 93 ecx = [rsp + 8 {var_40}].d 0x1230 94 goto 50 @ 0x1234 0x129c 95 r14 = r14 + 0x9c3c 0x12a3 96 ebp = ebp + 1 0x12a8 97 if (cl != 0) then 83 @ 0x1280 else 98 @ 0x12aa 0x12aa 98 goto 93 @ 0x1230 int64_t _fini(): 0x12c0 0 rsp = rsp - 8 0x12c4 1 rsp = rsp + 8 0x12c8 2 <return> jump(pop)	POJ_4
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) double pow(double x, double y): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVSHp\t"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(rbx) 0x1165 3 rsp = rsp - 0x970 0x116c 4 rdi = 0x2010 {"%d"} 0x1173 5 rsi = rsp + 0xc {var_97c} 0x1178 6 eax = 0 0x117a 7 call(0x1050) 0x117f 8 eax = [rsp + 0xc {var_97c}].d 0x1185 9 if (eax s<= 0) then 10 @ 0x11c3 else 12 @ 0x1187 0x11c3 10 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x11ca 11 if (eax s< 2) then 16 @ 0x1264 else 27 @ 0x11d0 0x1187 12 rbx = rsp + 0x18 {var_970} 0x118c 13 r14 = 0x2013 {"%lf%lf"} 0x1193 14 r15d = 0 0x1196 15 goto 35 @ 0x11a0 0x1264 16 xmm1 = zx.o([0x2008].q) 0x126c 17 call(0x1040) 0x1271 18 rdi = 0x201a {"%.4lf"} 0x1278 19 al = 1 0x127a 20 call(0x1030) 0x127f 21 eax = 0 0x1281 22 rsp = rsp + 0x970 0x1288 23 rbx = pop 0x1289 24 r14 = pop 0x128b 25 r15 = pop 0x128d 26 <return> jump(pop) 0x11d0 27 r9d = (rax - 1).d 0x11d4 28 rcx = sx.q(eax) 0x11d7 29 r8d = eax 0x11da 30 rax = rsp + 0x38 {var_950} 0x11df 31 xmm1 = _mm_xor_pd(xmm1, xmm1) 0x11e3 32 edi = 1 0x11e8 33 ebx = 0 0x11ea 34 goto 44 @ 0x1205 0x11a0 35 rdx = rbx + 8 0x11a4 36 rdi = r14 0x11a7 37 rsi = rbx 0x11aa 38 eax = 0 0x11ac 39 call(0x1050) 0x11b1 40 r15 = r15 + 1 0x11b5 41 rax = sx.q([rsp + 0xc {var_97c}].d) 0x11ba 42 rbx = rbx + 0x18 0x11c1 43 if (r15 s< rax) then 35 @ 0x11a0 else 10 @ 0x11c3 0x1205 44 rdx = rbx 0x1208 45 rbx = rbx + 1 0x120f 46 if (rbx s>= rcx) then 47 @ 0x11f0 else 49 @ 0x1211 0x11f0 47 xmm0 = xmm1 0x11f0 48 goto 55 @ 0x11f4 0x1211 49 rdx = rdx + (rdx << 1) 0x1215 50 xmm2 = zx.o([rsp + (rdx << 3) + 0x18].q) 0x121b 51 xmm3 = zx.o([rsp + (rdx << 3) + 0x20].q) 0x1221 52 rdx = r8 0x1224 53 rsi = rax 0x1227 54 goto 59 @ 0x1230 0x11f4 55 rdi = rdi + 1 0x11f8 56 rax = rax + 0x18 0x11fc 57 xmm1 = xmm0 0x1203 58 if (rbx == r9) then 16 @ 0x1264 else 44 @ 0x1205 0x1230 59 xmm4 = xmm2 0x1234 60 xmm4.q = xmm4.q f- fconvert.t([rsi - 8].q) 0x1239 61 xmm4.q = xmm4.q f* xmm4.q 0x123d 62 xmm0 = xmm3 0x1241 63 xmm0.q = xmm0.q f- fconvert.t([rsi].q) 0x1245 64 xmm0.q = xmm0.q f* xmm0.q 0x1249 65 xmm0.q = xmm0.q f+ xmm4.q 0x124d 66 xmm0 = _mm_max_sd(xmm0.q, xmm1.q) 0x1251 67 rsi = rsi + 0x18 0x1255 68 rdx = rdx - 1 0x1259 69 xmm1 = xmm0 0x1260 70 if (rdi != rdx) then 59 @ 0x1230 else 71 @ 0x1262 0x1262 71 goto 55 @ 0x11f4 int64_t _fini(): 0x1294 0 rsp = rsp - 8 0x1298 1 rsp = rsp + 8 0x129c 2 <return> jump(pop)	POJ_70
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH 5"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0xc3520 0x115b 3 [rbp - 4 {var_c}].d = 0 0x1162 4 rdi = 0x2007 {"%d"} 0x1169 5 rsi = rbp - 8 {var_10} 0x116d 6 al = 0 0x116f 7 call(0x1040) 0x1174 8 [rbp - 0x61a94 {var_61a9c}].d = 0 0x1174 9 goto 10 @ 0x117e 0x117e 10 eax = [rbp - 0x61a94 {var_61a9c}].d 0x1187 11 if (eax s>= [rbp - 8 {var_10}].d) then 12 @ 0x11c5 else 13 @ 0x118d 0x11c5 12 goto 21 @ 0x11ca 0x118d 13 rax = sx.q([rbp - 0x61a94 {var_61a9c}].d) 0x1194 14 [rbp + (rax << 2) - 0xc3520].d = 1 0x119f 15 rax = sx.q([rbp - 0x61a94 {var_61a9c}].d) 0x11a6 16 [rbp + (rax << 2) - 0x61a90].d = 0 0x11b1 17 eax = [rbp - 0x61a94 {var_61a9c}].d 0x11b7 18 eax = eax + 1 0x11ba 19 [rbp - 0x61a94 {var_61a9c}].d = eax 0x11c0 20 goto 10 @ 0x117e 0x11ca 21 rdi = 0x2004 {"%d %d"} 0x11d1 22 rsi = rbp - 0x61a94 {var_61a9c} 0x11d8 23 rdx = rbp - 0x61a98 {var_61aa0} 0x11df 24 al = 0 0x11e1 25 call(0x1040) 0x11ed 26 if ([rbp - 0x61a94 {var_61a9c}].d != 0) then 27 @ 0x1205 else 34 @ 0x11fa 0x1205 27 rax = sx.q([rbp - 0x61a98 {var_61aa0}].d) 0x120c 28 ecx = [rbp + (rax << 2) - 0x61a90].d 0x1213 29 ecx = ecx + 1 0x1216 30 [rbp + (rax << 2) - 0x61a90].d = ecx 0x121d 31 rax = sx.q([rbp - 0x61a94 {var_61a9c}].d) 0x1224 32 [rbp + (rax << 2) - 0xc3520].d = 0 0x122f 33 goto 21 @ 0x11ca 0x11fa 34 if ([rbp - 0x61a98 {var_61aa0}].d != 0) then 27 @ 0x1205 else 35 @ 0x1200 0x1200 35 goto 36 @ 0x1234 0x1234 36 [rbp - 0x61a94 {var_61a9c}].d = 0 0x1234 37 goto 38 @ 0x123e 0x123e 38 eax = [rbp - 0x61a94 {var_61a9c}].d 0x1247 39 if (eax s>= [rbp - 8 {var_10}].d) then 40 @ 0x12b5 else 42 @ 0x124d 0x12b5 40 eax = [rbp - 0x61a94 {var_61a9c}].d 0x12be 41 if (eax != [rbp - 8 {var_10}].d) then 44 @ 0x12d2 else 48 @ 0x12c4 0x124d 42 rax = sx.q([rbp - 0x61a94 {var_61a9c}].d) 0x125c 43 if ([rbp + (rax << 2) - 0xc3520].d != 1) then 52 @ 0x129c else 53 @ 0x1262 0x12d2 44 eax = [rbp - 4 {var_c}].d 0x12d5 45 rsp = rsp + 0xc3520 0x12dc 46 rbp = pop 0x12dd 47 <return> jump(pop) 0x12c4 48 rdi = 0x200a {"NOT FOUND"} 0x12cb 49 al = 0 0x12cd 50 call(0x1030) 0x12cd 51 goto 44 @ 0x12d2 0x129c 52 goto 58 @ 0x12a1 0x1262 53 rax = sx.q([rbp - 0x61a94 {var_61a9c}].d) 0x1269 54 eax = [rbp + (rax << 2) - 0x61a90].d 0x1270 55 ecx = [rbp - 8 {var_10}].d 0x1273 56 ecx = ecx - 1 0x1278 57 if (eax != ecx) then 62 @ 0x1297 else 63 @ 0x127e 0x12a1 58 eax = [rbp - 0x61a94 {var_61a9c}].d 0x12a7 59 eax = eax + 1 0x12aa 60 [rbp - 0x61a94 {var_61a9c}].d = eax 0x12b0 61 goto 38 @ 0x123e 0x1297 62 goto 52 @ 0x129c 0x127e 63 esi = [rbp - 0x61a94 {var_61a9c}].d 0x1284 64 rdi = 0x2007 {"%d"} 0x128b 65 al = 0 0x128d 66 call(0x1030) 0x1292 67 goto 40 @ 0x12b5 int64_t _fini(): 0x12e4 0 rsp = rsp - 8 0x12e8 1 rsp = rsp + 8 0x12ec 2 <return> jump(pop)	POJ_89
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSPH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4040].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4040].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 push(rax) 0x115b 7 rdi = 0x2004 {"%d"} 0x1162 8 rsi = 0x18878 {""} 0x1169 9 eax = 0 0x116b 10 call(0x1040) 0x1170 11 r10d = [0x18878].d 0x117a 12 if (r10d == 0) then 13 @ 0x1422 else 15 @ 0x1180 0x1422 13 [0x18888].d = 0 0x1433 14 if ([0x18870].d s<= 0) then 20 @ 0x1477 else 29 @ 0x1435 0x1180 15 r13 = 0x4050 {""} 0x1187 16 r15 = 0x2004 {"%d"} 0x118e 17 r12 = 0xdc90 {""} 0x1195 18 r14 = 0x18878 {""} 0x119c 19 goto 33 @ 0x11e1 0x1477 20 eax = 0 0x1479 21 rsp = rsp + 8 0x147d 22 rbx = pop 0x147e 23 r12 = pop 0x1480 24 r13 = pop 0x1482 25 r14 = pop 0x1484 26 r15 = pop 0x1486 27 rbp = pop 0x1487 28 <return> jump(pop) 0x1435 29 rbp = 0x178d0 {""} 0x143c 30 rbx = 0x2007 {"%d\n"} 0x1443 31 eax = 0 0x144f 32 goto 39 @ 0x1450 0x11e1 33 [0x1887c].d = 0 0x11eb 34 [0x18880].d = 0 0x11f5 35 eax = (r10 - 1).d 0x11f9 36 [0x18884].d = eax 0x11ff 37 [0x18888].d = 0 0x120c 38 if (r10d s<= 0) then 48 @ 0x1330 else 53 @ 0x1212 0x1450 39 rax = sx.q(eax) 0x1452 40 esi = [rbp + (rax << 2)].d 0x1456 41 rdi = rbx 0x1459 42 eax = 0 0x145b 43 call(0x1030) 0x1460 44 eax = [0x18888].d 0x1466 45 eax = eax + 1 0x1469 46 [0x18888].d = eax 0x1475 47 if (eax s< [0x18870].d) then 39 @ 0x1450 else 20 @ 0x1477 0x1330 48 r9d = (r10 - 1).d 0x1334 49 [0x18888].d = r9d 0x133b 50 edx = [0x18880].d 0x1341 51 eax = [0x18874].d 0x134a 52 if (r10d s<= edx) then 55 @ 0x11a0 else 67 @ 0x1350 0x1212 53 eax = 0 0x121e 54 goto 70 @ 0x1220 0x11a0 55 rcx = sx.q([0x18870].d) 0x11a7 56 rdx = 0x178d0 {""} 0x11ae 57 [rdx + (rcx << 2)].d = eax 0x11b1 58 eax = (rcx + 1).d 0x11b4 59 [0x18870].d = eax 0x11ba 60 [0x18874].d = 0 0x11c4 61 rdi = r15 0x11c7 62 rsi = r14 0x11ca 63 eax = 0 0x11cc 64 call(0x1040) 0x11d1 65 r10d = [0x18878].d 0x11db 66 if (r10d == 0) then 13 @ 0x1422 else 33 @ 0x11e1 0x1350 67 esi = [0x1887c].d 0x1356 68 r8d = [0x18884].d 0x135d 69 goto 81 @ 0x138a 0x1220 70 rax = sx.q(eax) 0x1222 71 rsi = rax << 2 0x122a 72 rsi = rsi + r13 0x122d 73 rdi = r15 0x1230 74 eax = 0 0x1232 75 call(0x1040) 0x1237 76 eax = [0x18888].d 0x123d 77 eax = eax + 1 0x1240 78 [0x18888].d = eax 0x1246 79 r10d = [0x18878].d 0x1250 80 if (eax s< r10d) then 70 @ 0x1220 else 86 @ 0x1252 0x138a 81 rbx = sx.q(edx) 0x138d 82 rbp = sx.q(esi) 0x1390 83 ecx = [r12 + (rbp << 2)].d 0x1394 84 r10 = sx.q(r9d) 0x139c 85 if ([r13 + (rbx << 2)].d s<= ecx) then 88 @ 0x13e1 else 94 @ 0x13a1 0x1252 86 [0x18888].d = 0 0x125f 87 if (r10d s<= 0) then 48 @ 0x1330 else 95 @ 0x1265 0x13e1 88 edi = [r13 + (r10 << 2)].d 0x13e6 89 rbp = sx.q(r8d) 0x13e9 90 ebp = [r12 + (rbp << 2)].d 0x13ed 91 cond:0 = edi s> ebp 0x13ed 92 cond:1 = edi != ebp 0x13ef 93 if (edi s>= ebp) then 97 @ 0x1410 else 98 @ 0x13f1 0x13a1 94 if (r9d s<= edx) then 88 @ 0x13e1 else 101 @ 0x13a3 0x1265 95 eax = 0 0x1267 96 goto 105 @ 0x1270 0x1410 97 if (cond:0) then 115 @ 0x1360 else 120 @ 0x1416 0x13f1 98 eax = eax - 0xc8 0x13f6 99 [0x18874].d = eax 0x13f6 100 goto 121 @ 0x13fc 0x13a3 101 rbp = r12 + (rbp << 2) 0x13a7 102 rbp = rbp + 4 0x13ab 103 rbx = rbx + 1 0x13af 104 goto 124 @ 0x13b0 0x1270 105 rax = sx.q(eax) 0x1272 106 rsi = r12 + (rax << 2) 0x1276 107 rdi = r15 0x1279 108 eax = 0 0x127b 109 call(0x1040) 0x1280 110 eax = [0x18888].d 0x1286 111 eax = eax + 1 0x1289 112 r10d = [0x18878].d 0x1290 113 [0x18888].d = eax 0x1299 114 if (eax s< r10d) then 105 @ 0x1270 else 129 @ 0x129e 0x1360 115 eax = eax + 0xc8 0x1365 116 [0x18874].d = eax 0x136b 117 r8d = r8d - 1 0x136f 118 [0x18884].d = r8d 0x136f 119 goto 130 @ 0x1376 0x1416 120 if (cond:1) then 133 @ 0x1384 else 134 @ 0x141e 0x13fc 121 esi = esi + 1 0x13ff 122 [0x1887c].d = esi 0x1405 123 goto 130 @ 0x1376 0x13b0 124 eax = eax + 0xc8 0x13b5 125 ecx = [rbp].d 0x13b8 126 esi = esi + 1 0x13bb 127 edx = edx + 1 0x13c3 128 if ([r13 + (rbx << 2)].d s<= ecx) then 135 @ 0x13d5 else 138 @ 0x13c5 0x129e 129 if (r10d s<= 0) then 48 @ 0x1330 else 143 @ 0x12a4 0x1376 130 r9d = r9d - 1 0x137a 131 [0x18888].d = r9d 0x137a 132 goto 133 @ 0x1384 0x1384 133 if (r9d s< edx) then 55 @ 0x11a0 else 81 @ 0x138a 0x141e 134 if (edi s< ecx) then 98 @ 0x13f1 else 148 @ 0x1420 0x13d5 135 [0x18880].d = edx 0x13db 136 [0x1887c].d = esi 0x13db 137 goto 88 @ 0x13e1 0x13c5 138 rbp = rbp + 4 0x13c9 139 rdi = rbx + 1 0x13cd 140 cond:2 = rbx s< r10 0x13d0 141 rbx = rdi 0x13d3 142 if (cond:2) then 124 @ 0x13b0 else 135 @ 0x13d5 0x12a4 143 rax = r13 0x12a7 144 rcx = r12 0x12aa 145 r9 = r10 0x12ad 146 r8d = 0 0x12b0 147 goto 149 @ 0x12d1 0x1420 148 goto 121 @ 0x13fc 0x12d1 149 rdi = r8 0x12d4 150 r8 = r8 + 1 0x12db 151 if (r8 u>= r10) then 152 @ 0x12c0 else 156 @ 0x12dd 0x12c0 152 r9 = r9 - 1 0x12c4 153 rcx = rcx + 4 0x12c8 154 rax = rax + 4 0x12cf 155 if (r8 == r10) then 48 @ 0x1330 else 149 @ 0x12d1 0x12dd 156 ebx = [r13 + (rdi << 2)].d 0x12e2 157 ebp = 1 0x12e7 158 goto 159 @ 0x12f9 0x12f9 159 esi = [rax + (rbp << 2)].d 0x12fe 160 if (esi s> ebx) then 161 @ 0x1310 else 167 @ 0x1300 0x1310 161 [rax + (rbp << 2)].d = ebx 0x1313 162 [r13 + (rdi << 2)].d = esi 0x1318 163 ebx = esi 0x131a 164 esi = [rcx + (rbp << 2)].d 0x131d 165 edx = [r12 + (rdi << 2)].d 0x1323 166 if (esi s<= edx) then 170 @ 0x12f0 else 172 @ 0x1325 0x1300 167 esi = [rcx + (rbp << 2)].d 0x1303 168 edx = [r12 + (rdi << 2)].d 0x1309 169 if (esi s<= edx) then 170 @ 0x12f0 else 175 @ 0x130b 0x12f0 170 rbp = rbp + 1 0x12f7 171 if (r9 == rbp) then 152 @ 0x12c0 else 159 @ 0x12f9 0x1325 172 [rcx + (rbp << 2)].d = edx 0x1328 173 [r12 + (rdi << 2)].d = esi 0x132c 174 goto 170 @ 0x12f0 0x130b 175 goto 172 @ 0x1325 void Order(): 0x1490 0 push(rbp) 0x1491 1 push(r14) 0x1493 2 push(rbx) 0x1494 3 r8d = [0x18878].d 0x149e 4 if (r8d s<= 0) then 5 @ 0x152d else 9 @ 0x14a4 0x152d 5 rbx = pop 0x152e 6 r14 = pop 0x1530 7 rbp = pop 0x1531 8 <return> jump(pop) 0x14a4 9 r11 = 0xdc90 {""} 0x14ab 10 r9 = 0x4050 {""} 0x14b2 11 r10d = 0 0x14b5 12 r14 = r8 0x14b8 13 rdi = r9 0x14bb 14 rcx = r11 0x14be 15 goto 16 @ 0x14d1 0x14d1 16 rdx = r10 0x14d4 17 r10 = r10 + 1 0x14db 18 if (r10 u>= r8) then 19 @ 0x14c0 else 23 @ 0x14dd 0x14c0 19 rcx = rcx + 4 0x14c4 20 rdi = rdi + 4 0x14c8 21 r14 = r14 - 1 0x14cf 22 if (r10 == r8) then 5 @ 0x152d else 16 @ 0x14d1 0x14dd 23 ebx = [r9 + (rdx << 2)].d 0x14e1 24 eax = 1 0x14e6 25 goto 26 @ 0x14f9 0x14f9 26 ebp = [rdi + (rax << 2)].d 0x14fe 27 if (ebp s> ebx) then 28 @ 0x1510 else 34 @ 0x1500 0x1510 28 [rdi + (rax << 2)].d = ebx 0x1513 29 [r9 + (rdx << 2)].d = ebp 0x1517 30 ebx = ebp 0x1519 31 ebp = [rcx + (rax << 2)].d 0x151c 32 esi = [r11 + (rdx << 2)].d 0x1522 33 if (ebp s<= esi) then 37 @ 0x14f0 else 39 @ 0x1524 0x1500 34 ebp = [rcx + (rax << 2)].d 0x1503 35 esi = [r11 + (rdx << 2)].d 0x1509 36 if (ebp s<= esi) then 37 @ 0x14f0 else 42 @ 0x150b 0x14f0 37 rax = rax + 1 0x14f7 38 if (r14 == rax) then 19 @ 0x14c0 else 26 @ 0x14f9 0x1524 39 [rcx + (rax << 2)].d = esi 0x1527 40 [r11 + (rdx << 2)].d = ebp 0x152b 41 goto 37 @ 0x14f0 0x150b 42 goto 39 @ 0x1524 int64_t _fini(): 0x1538 0 rsp = rsp - 8 0x153c 1 rsp = rsp + 8 0x1540 2 <return> jump(pop)	POJ_92
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(r12) 0x1156 3 push(rbx) 0x1157 4 rsp = rsp - 0xfb8 0x115e 5 rdi = 0x2004 {"%d%d"} 0x1165 6 r15d = 0 0x1168 7 rsi = rsp + 8 {var_fd0} 0x116d 8 rdx = rsp + 0xc {var_fcc} 0x1172 9 eax = 0 0x1174 10 call(0x1040) 0x1179 11 r8d = [rsp + 8 {var_fd0}].d 0x1181 12 if (r8d s<= 0) then 13 @ 0x11bf else 16 @ 0x1183 0x11bf 13 ecx = r8d 0x11c2 14 edx = [rsp + 0xc {var_fcc}].d 0x11c9 15 if (r8d s<= 0) then 20 else 22 @ 0x11cd 0x1183 16 r12 = rsp + 0x10 {var_fc8} 0x1188 17 r14 = 0x2006 {"%d"} 0x118f 18 ebx = 0 0x119b 19 goto 24 @ 0x11a0 0x11c9 20 r8d = r15d 0x11c9 21 goto 22 @ 0x11cd 0x11cd 22 ebx = 1 0x11d2 23 goto 32 @ 0x11eb 0x11a0 24 rdi = r14 0x11a3 25 rsi = r12 0x11a6 26 eax = 0 0x11a8 27 call(0x1040) 0x11ad 28 rbx = rbx + 1 0x11b1 29 r8 = sx.q([rsp + 8 {var_fd0}].d) 0x11b6 30 r12 = r12 + 4 0x11bd 31 if (rbx s< r8) then 24 @ 0x11a0 else 13 @ 0x11bf 0x11eb 32 if (r15 == r8) then 33 @ 0x1229 else 37 @ 0x11ed 0x1229 33 cond:0 = r8d == ecx 0x122c 34 rax = 0x2009 {"no"} 0x1233 35 rdi = 0x200c {"yes"} 0x123a 36 if (cond:0) then 41 else 43 @ 0x123e 0x11ed 37 r9 = r15 0x11f0 38 r15 = r15 + 1 0x11f4 39 esi = r15d 0x11fa 40 if (ecx s<= r15d) then 52 @ 0x11e0 else 54 @ 0x11fc 0x123a 41 rdi = rax 0x123a 42 goto 43 @ 0x123e 0x123e 43 eax = 0 0x1240 44 call(0x1030) 0x1245 45 eax = 0 0x1247 46 rsp = rsp + 0xfb8 0x124e 47 rbx = pop 0x124f 48 r12 = pop 0x1251 49 r14 = pop 0x1253 50 r15 = pop 0x1255 51 <return> jump(pop) 0x11e0 52 rbx = rbx + 1 0x11e6 53 if (esi != ecx) then 57 @ 0x1226 else 32 @ 0x11eb 0x11fc 54 eax = [rsp + (r9 << 2) + 0x10].d 0x1201 55 rsi = rbx 0x120e 56 goto 59 @ 0x1210 0x1226 57 r8d = r9d 0x1226 58 goto 33 @ 0x1229 0x1210 59 edi = [rsp + (rsi << 2) + 0x10].d 0x1214 60 edi = edi + eax 0x1218 61 if (edi == edx) then 52 @ 0x11e0 else 62 @ 0x121a 0x121a 62 rsi = rsi + 1 0x1220 63 if (ecx != esi) then 59 @ 0x1210 else 64 @ 0x1222 0x1222 64 esi = ecx 0x1224 65 goto 52 @ 0x11e0 int64_t _fini(): 0x125c 0 rsp = rsp - 8 0x1260 1 rsp = rsp + 8 0x1264 2 <return> jump(pop)	POJ_3
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSPH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 push(rax) 0x116b 7 rdi = 0x2010 {"%d %d"} 0x1172 8 r12d = 0 0x1175 9 rsi = rsp + 4 {var_38+0x4} 0x117a 10 rdx = rsp {var_38} 0x117d 11 eax = 0 0x117f 12 call(0x1040) 0x1184 13 r13d = [rsp + 4 {var_38+0x4}].d 0x118d 14 if (r13d s<= [rsp {var_38}].d) then 15 @ 0x11b1 else 19 @ 0x1192 0x11b1 15 r14 = 0x2013 {"%d"} 0x11b8 16 r15 = 0x2016 {",%d"} 0x11bf 17 r12d = 0 0x11c2 18 goto 20 @ 0x11dd 0x1192 19 if (r12d != 0) then 29 @ 0x11a2 else 37 @ 0x1194 0x11dd 20 xmm0 = 0 0x11e0 21 xmm0.q = float.d(r13d) 0x11e5 22 flag:p = is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e5 23 flag:c = xmm0.q f< fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e5 24 flag:z = xmm0.q f== fconvert.t([0x2008].q) \| is_unordered.q(xmm0.q, fconvert.t([0x2008].q)) 0x11e5 25 flag:s = 0 0x11e5 26 flag:o = 0 0x11e5 27 flag:a = 0 0x11ed 28 if (flag:c) then 41 @ 0x1200 else 43 @ 0x11ef 0x11a2 29 rsp = rsp + 8 0x11a6 30 rbx = pop 0x11a7 31 r12 = pop 0x11a9 32 r13 = pop 0x11ab 33 r14 = pop 0x11ad 34 r15 = pop 0x11af 35 rbp = pop 0x11b0 36 <return> jump(pop) 0x1194 37 rdi = 0x201a {"no"} 0x119b 38 eax = 0 0x119d 39 call(0x1030) 0x119d 40 goto 29 @ 0x11a2 0x1200 41 call(0x1050) 0x1200 42 goto 45 @ 0x1205 0x11ef 43 xmm0 = _mm_sqrt_sd(xmm0.q) 0x11f3 44 goto 45 @ 0x1205 0x1205 45 ecx = int.d(ftrunc(xmm0.q)) 0x1209 46 esi = 0 0x120e 47 if (ecx s< 2) then 48 @ 0x1236 else 50 @ 0x1210 0x1236 48 ecx = ecx - 1 0x123b 49 if (esi != ecx) then 53 @ 0x11d0 else 57 @ 0x123d 0x1210 50 edi = (rcx - 1).d 0x1213 51 esi = 0 0x121f 52 goto 60 @ 0x1220 0x11d0 53 eax = (r13 + 1).d 0x11d4 54 cond:0 = r13d s>= [rsp {var_38}].d 0x11d8 55 r13d = eax 0x11db 56 if (cond:0) then 19 @ 0x1192 else 20 @ 0x11dd 0x123d 57 r11d = 0 0x1240 58 edx = r13d 0x124d 59 goto 74 @ 0x1250 0x1220 60 ebp = (rsi + 2).d 0x1223 61 eax = r13d 0x1226 62 temp2.d:temp3.d = sx.q(eax) 0x1226 63 edx = temp2.d 0x1226 64 eax = temp3.d 0x1227 65 temp4.d = edx 0x1227 66 temp5.d = eax 0x1227 67 temp0.d = divs.dp.d(temp4.d:temp5.d, ebp) 0x1227 68 temp6.d = edx 0x1227 69 temp7.d = eax 0x1227 70 temp1.d = mods.dp.d(temp6.d:temp7.d, ebp) 0x1227 71 eax = temp0.d 0x1227 72 edx = temp1.d 0x122b 73 if (edx == 0) then 48 @ 0x1236 else 84 @ 0x122d 0x1250 74 eax = r11d 0x1253 75 rsi = sx.q(edx) 0x1256 76 rdx = rsi * 0x66666667 0x125d 77 rcx = rdx 0x1260 78 rcx = rcx u>> 0x3f 0x1264 79 rdx = rdx s>> 0x22 0x1268 80 edx = edx + ecx 0x126a 81 esi = esi + 9 0x126d 82 r11d = (rax - 1).d 0x1274 83 if (esi u> 0x12) then 74 @ 0x1250 else 86 @ 0x1276 0x122d 84 esi = esi + 1 0x1232 85 if (edi != esi) then 60 @ 0x1220 else 90 @ 0x1234 0x1276 86 r8d = r11d 0x1279 87 r8d = neg.d(r8d) 0x127c 88 r8d = r8d u>> 1 0x1283 89 if (r11d == -1) then 92 @ 0x1371 else 94 @ 0x1289 0x1234 90 esi = edi 0x1234 91 goto 48 @ 0x1236 0x1371 92 r10d = 0 0x1371 93 goto 98 @ 0x1377 0x1289 94 r11d = not.d(r11d) 0x128c 95 cond:1 = r8d u>= 2 0x1290 96 r9d = 1 0x1296 97 if (cond:1) then 99 else 101 @ 0x129a 0x1377 98 if (r10d != r8d) then 53 @ 0x11d0 else 106 @ 0x137d 0x1296 99 r9d = r8d 0x1296 100 goto 101 @ 0x129a 0x129a 101 edx = 1 0x129f 102 eax = neg.d(eax) 0x12a1 103 ebp = 0 0x12a3 104 r10d = 0 0x12a6 105 goto 109 @ 0x1307 0x137d 106 cond:2 = r12d == 0 0x1380 107 rdi = r15 0x1383 108 if (cond:2) then 112 else 114 @ 0x1387 0x1307 109 ebx = r13d 0x130a 110 esi = ebp 0x130f 111 if (edx u< 2) then 119 @ 0x133c else 122 @ 0x131b 0x1383 112 rdi = r14 0x1383 113 goto 114 @ 0x1387 0x1387 114 esi = r13d 0x138a 115 eax = 0 0x138c 116 call(0x1030) 0x1391 117 r12d = r12d + 1 0x1395 118 goto 53 @ 0x11d0 0x133c 119 edi = eax 0x133e 120 esi = r13d 0x1344 121 if (r11d s< edx) then 123 @ 0x12b0 else 150 @ 0x134a 0x131b 122 goto 151 @ 0x1320 0x12b0 123 rbx = sx.q(ebx) 0x12b3 124 rcx = rbx * 0x66666667 0x12ba 125 rdi = rcx 0x12bd 126 rdi = rdi u>> 0x3f 0x12c1 127 rcx = rcx s>> 0x22 0x12c5 128 ecx = ecx + edi 0x12c7 129 ecx = ecx + ecx 0x12c9 130 ecx = (rcx + (rcx << 2)).d 0x12cc 131 ebx = ebx - ecx 0x12ce 132 rcx = sx.q(esi) 0x12d1 133 rsi = rcx * 0x66666667 0x12d8 134 rdi = rsi 0x12db 135 rdi = rdi u>> 0x3f 0x12df 136 rsi = rsi s>> 0x22 0x12e3 137 esi = esi + edi 0x12e5 138 esi = esi + esi 0x12e7 139 esi = (rsi + (rsi << 2)).d 0x12ea 140 ecx = ecx - esi 0x12ec 141 esi = 0 0x12f0 142 sil = ebx == ecx 0x12f4 143 r10d = r10d + esi 0x12f7 144 ecx = (rdx + 1).d 0x12fa 145 ebp = ebp + 1 0x12fd 146 eax = eax - 1 0x1300 147 cond:3 = edx == r9d 0x1303 148 edx = ecx 0x1305 149 if (cond:3) then 98 @ 0x1377 else 109 @ 0x1307 0x134a 150 goto 160 @ 0x1350 0x1320 151 rdi = sx.q(ebx) 0x1323 152 rbx = rdi * 0x66666667 0x132a 153 rdi = rbx 0x132d 154 rdi = rdi u>> 0x3f 0x1331 155 rbx = rbx s>> 0x22 0x1335 156 ebx = ebx + edi 0x1337 157 temp8.d = esi 0x1337 158 esi = esi - 1 0x133a 159 if (temp8.d != 1) then 151 @ 0x1320 else 119 @ 0x133c 0x1350 160 rsi = sx.q(esi) 0x1353 161 rsi = rsi * 0x66666667 0x135a 162 rcx = rsi 0x135d 163 rcx = rcx u>> 0x3f 0x1361 164 rsi = rsi s>> 0x22 0x1365 165 esi = esi + ecx 0x1367 166 temp9.d = edi 0x1367 167 edi = edi - 1 0x136a 168 if (temp9.d != 1) then 160 @ 0x1350 else 169 @ 0x136c 0x136c 169 goto 123 @ 0x12b0 int64_t _fini(): 0x13a0 0 rsp = rsp - 8 0x13a4 1 rsp = rsp + 8 0x13a8 2 <return> jump(pop)	POJ_74
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 uint64_t strlen(char const* arg1): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t puts(char const* str): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVSH`"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(rbx) 0x1165 3 rsp = rsp - 0x760 0x116c 4 rdi = 0x2004 {"%d"} 0x1173 5 rsi = rsp + 0xc {var_76c} 0x1178 6 eax = 0 0x117a 7 call(0x1040) 0x1184 8 if ([rsp + 0xc {var_76c}].d s<= 0) then 9 @ 0x129a else 15 @ 0x118a 0x129a 9 eax = 0 0x129c 10 rsp = rsp + 0x760 0x12a3 11 rbx = pop 0x12a4 12 r14 = pop 0x12a6 13 r15 = pop 0x12a8 14 <return> jump(pop) 0x118a 15 r15 = rsp + 0xe0 {var_698} 0x1192 16 r14 = 0x2007 {"%s"} 0x1199 17 ebx = 0 0x119b 18 goto 19 @ 0x11a0 0x11a0 19 rdi = r14 0x11a3 20 rsi = r15 0x11a6 21 eax = 0 0x11a8 22 call(0x1040) 0x11ad 23 rbx = rbx + 1 0x11b1 24 rax = sx.q([rsp + 0xc {var_76c}].d) 0x11b6 25 r15 = r15 + 0x21 0x11bd 26 if (rbx s< rax) then 19 @ 0x11a0 else 27 @ 0x11bf 0x11bf 27 r14d = eax 0x11c5 28 if (r14d s<= 0) then 9 @ 0x129a else 29 @ 0x11cb 0x11cb 29 r15 = rsp + 0xe0 {var_698} 0x11d3 30 ebx = 0 0x11df 31 goto 32 @ 0x11e0 0x11e0 32 rdi = r15 0x11e3 33 call(0x1030) 0x11e8 34 [rsp + (rbx << 2) + 0x10].d = eax 0x11ec 35 rbx = rbx + 1 0x11f0 36 r15 = r15 + 0x21 0x11f7 37 if (r14 != rbx) then 32 @ 0x11e0 else 38 @ 0x11fc 0x11fc 38 if (r14d s<= 0) then 9 @ 0x129a else 39 @ 0x1202 0x1202 39 rax = rsp + 0xe0 {var_698} 0x120a 40 ecx = 0 0x120c 41 goto 42 @ 0x121d 0x121d 42 rdx = sx.q([rsp + (rcx << 2) + 0x10].d) 0x1222 43 esi = zx.d([rax + rdx - 2].b) 0x122b 44 if (sil == 0x6c) then 45 @ 0x1240 else 47 @ 0x1231 0x1240 45 sil = 0x6c {""} 0x1248 46 if ([rdx + rax - 1].b != 0x79) then 48 @ 0x1256 else 49 @ 0x124a 0x1231 47 if (sil != 0x65) then 48 @ 0x1256 else 52 @ 0x1233 0x1256 48 if ([rdx + rax - 3].b != 0x69) then 54 @ 0x1210 else 57 @ 0x125c 0x124a 49 [rax + rdx - 2].b = 0 0x124f 50 esi = 0 0x124f 51 goto 48 @ 0x1256 0x1233 52 sil = 0x65 {""} 0x123b 53 if ([rdx + rax - 1].b == 0x72) then 49 @ 0x124a else 58 @ 0x123d 0x1210 54 rcx = rcx + 1 0x1214 55 rax = rax + 0x21 0x121b 56 if (r14 == rcx) then 59 @ 0x126c else 42 @ 0x121d 0x125c 57 if (sil != 0x6e) then 54 @ 0x1210 else 62 @ 0x1263 0x123d 58 goto 48 @ 0x1256 0x126c 59 r14 = rsp + 0xe0 {var_698} 0x1274 60 ebx = 0 0x1276 61 goto 63 @ 0x1280 0x1263 62 if ([rdx + rax - 1].b != 0x67) then 54 @ 0x1210 else 69 @ 0x1265 0x1280 63 rdi = r14 0x1283 64 call(0x1050) 0x1288 65 rbx = rbx + 1 0x128c 66 rax = sx.q([rsp + 0xc {var_76c}].d) 0x1291 67 r14 = r14 + 0x21 0x1298 68 if (rbx s< rax) then 63 @ 0x1280 else 9 @ 0x129a 0x1265 69 [rax + rdx - 3].b = 0 0x126a 70 goto 54 @ 0x1210 int64_t _fini(): 0x12b0 0 rsp = rsp - 8 0x12b4 1 rsp = rsp + 8 0x12b8 2 <return> jump(pop)	POJ_57
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) double atof(char const* nptr): 0x1050 0 <return> tailcall([0x4028].q) char* gets(char* buf): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"UAWAVATSH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(rbp) 0x1171 1 push(r15) 0x1173 2 push(r14) 0x1175 3 push(r12) 0x1177 4 push(rbx) 0x1178 5 rsp = rsp - 0x400 0x117f 6 ebp = 0 0x1181 7 rbx = rsp + 6 {var_422} 0x1186 8 rdi = rbx {var_422} 0x1189 9 eax = 0 0x118b 10 call(0x1060) 0x1190 11 rdi = rbx {var_422} 0x1193 12 eax = 0 0x1195 13 call(0x1050) 0x119a 14 r12d = eax 0x119d 15 rbx = rsp + 0x10 {var_418} 0x11a2 16 rdi = rbx {var_418} 0x11a5 17 eax = 0 0x11a7 18 call(0x1060) 0x11ac 19 r15 = rsp + 0x204 {var_224} 0x11b4 20 rdi = r15 {var_224} 0x11b7 21 eax = 0 0x11b9 22 call(0x1060) 0x11be 23 rdi = rbx {var_418} 0x11c1 24 call(0x1040) 0x11c6 25 r14 = rax 0x11c9 26 rdi = r15 {var_224} 0x11cc 27 call(0x1040) 0x11d1 28 rdi = 0x2008 {"error"} 0x11db 29 if (r14d != eax) then 30 @ 0x12c0 else 40 @ 0x11e1 0x12c0 30 eax = 0 0x12c2 31 call(0x1030) 0x12c7 32 eax = 0 0x12c9 33 rsp = rsp + 0x400 0x12d0 34 rbx = pop 0x12d1 35 r12 = pop 0x12d3 36 r14 = pop 0x12d5 37 r15 = pop 0x12d7 38 rbp = pop 0x12d8 39 <return> jump(pop) 0x11e1 40 xmm0.d = float.s(r12d) 0x11e6 41 eax = 0x80045 {""} 0x11eb 42 goto 43 @ 0x11f4 0x11f4 43 ecx = zx.d([rbx].b) 0x11f7 44 edx = (rcx - 0x41).d 0x11fd 45 if (dl u> 0x13) then 46 @ 0x120a else 47 @ 0x11ff 0x120a 46 if (cl == 0) then 50 @ 0x1213 else 52 @ 0x120c 0x11ff 47 edx = zx.d(dl) 0x1202 48 flag:c = test_bit(rax, rdx) 0x1206 49 if (flag:c) then 54 @ 0x11f0 else 46 @ 0x120a 0x1213 50 eax = 0x80045 {""} 0x1218 51 goto 56 @ 0x1224 0x120c 52 ebp = 1 0x1211 53 goto 54 @ 0x11f0 0x11f0 54 rbx = rbx + 1 0x11f0 55 goto 43 @ 0x11f4 0x1224 56 ecx = zx.d([r15].b) 0x1228 57 edx = (rcx - 0x41).d 0x122e 58 if (dl u> 0x13) then 59 @ 0x123b else 60 @ 0x1230 0x123b 59 if (cl == 0) then 63 @ 0x1246 else 64 @ 0x123d 0x1230 60 edx = zx.d(dl) 0x1233 61 flag:c = test_bit(rax, rdx) 0x1237 62 if (flag:c) then 66 @ 0x1220 else 59 @ 0x123b 0x1246 63 if (ebp != 0) then 30 @ 0x12c0 else 68 @ 0x1248 0x123d 64 ebp = 1 0x1242 65 goto 66 @ 0x1220 0x1220 66 r15 = r15 + 1 0x1220 67 goto 56 @ 0x1224 0x1248 68 cl = [rsp + 0x10 {var_418}].b 0x124e 69 if (cl == 0) then 70 @ 0x1298 else 72 @ 0x1250 0x1298 70 xmm1 = 0 0x1298 71 goto 77 @ 0x129b 0x1250 72 rax = rsp + 0x204 {var_224} 0x1258 73 xmm3 = 0 0x125b 74 xmm1 = [0x2004].d 0x1263 75 xmm2 = xmm3 0x1266 76 goto 90 @ 0x1282 0x129b 77 xmm2 = 0 0x129e 78 xmm2.q = float.d(r14d) 0x12a3 79 xmm1.q = xmm1.q f/ xmm2.q 0x12a7 80 xmm1.d = fconvert.s(xmm1.q) 0x12ab 81 flag:p = is_unordered.d(xmm1.d, xmm0.d) 0x12ab 82 flag:c = xmm1.d f< xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x12ab 83 flag:z = xmm1.d f== xmm0.d \| is_unordered.d(xmm1.d, xmm0.d) 0x12ab 84 flag:s = 0 0x12ab 85 flag:o = 0 0x12ab 86 flag:a = 0 0x12ae 87 rax = 0x200e {"yes"} 0x12b5 88 rdi = 0x2012 {"no"} 0x12bc 89 if (not(flag:z) && not(flag:c)) then 92 else 94 0x1282 90 xmm2.d = xmm2.d f+ xmm1.d 0x1288 91 if (cl == [rax].b) then 95 @ 0x1270 else 99 @ 0x128a 0x12bc 92 rdi = rax 0x12bc 93 goto 94 0x12bc 94 goto 30 @ 0x12c0 0x1270 95 ecx = zx.d([rax - 0x1f3].b) 0x1277 96 rax = rax + 1 0x127b 97 xmm3 = xmm2 0x1280 98 if (cl == 0) then 101 @ 0x128f else 90 @ 0x1282 0x128a 99 xmm2 = xmm3 0x128d 100 goto 95 @ 0x1270 0x128f 101 xmm1 = 0 0x1292 102 xmm1.q = fconvert.d(xmm2.d) 0x1296 103 goto 77 @ 0x129b int64_t _fini(): 0x12e0 0 rsp = rsp - 8 0x12e4 1 rsp = rsp + 8 0x12e8 2 <return> jump(pop)	POJ_5
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHHp"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x170 0x115b 3 [rbp - 4 {var_c}].d = 0 0x1162 4 [rbp - 0x20 {var_28}].d = 1 0x1169 5 rdi = 0x2004 {"%d%c%d"} 0x1170 6 rsi = rbp - 8 {var_10} 0x1174 7 rdx = rbp - 0x21 {var_29} 0x1178 8 rcx = rbp - 0xc {var_14} 0x117c 9 al = 0 0x117e 10 call(0x1040) 0x1183 11 [rbp - 0x10 {var_18}].d = 0 0x1183 12 goto 13 @ 0x118a 0x118a 13 eax = [rbp - 0x10 {var_18}].d 0x1190 14 if (eax s>= [rbp - 8 {var_10}].d) then 15 @ 0x11f5 else 17 @ 0x1196 0x11f5 15 [rbp - 0x10 {var_18_1}].d = 0 0x11f5 16 goto 19 @ 0x11fc 0x1196 17 [rbp - 0x14 {var_1c_1}].d = 0 0x1196 18 goto 21 @ 0x119d 0x11fc 19 eax = [rbp - 0x10 {var_18_1}].d 0x1202 20 if (eax s>= [rbp - 8 {var_10}].d) then 23 @ 0x12b3 else 25 @ 0x1208 0x119d 21 eax = [rbp - 0x14 {var_1c_1}].d 0x11a3 22 if (eax s>= [rbp - 0xc {var_14}].d) then 35 @ 0x11e2 else 36 @ 0x11a9 0x12b3 23 [rbp - 0x14 {var_1c_3}].d = 0 0x12b3 24 goto 50 @ 0x12ba 0x1208 25 rcx = sx.q([rbp - 0x10 {var_18_1}].d) 0x120c 26 rax = rbp - 0x130 {var_138} 0x1213 27 rcx = rcx << 5 0x1217 28 rax = rax + rcx 0x121a 29 eax = [rax].d 0x121c 30 [rbp - 0x18 {var_20_1}].d = eax 0x121f 31 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x1223 32 [rbp + (rax << 2) - 0x150].d = 0 0x122e 33 [rbp - 0x14 {var_1c_2}].d = 0 0x122e 34 goto 52 @ 0x1235 0x11e2 35 goto 54 @ 0x11e7 0x11a9 36 rax = sx.q([rbp - 0x10 {var_18}].d) 0x11ad 37 rsi = rbp - 0x130 {var_138} 0x11b4 38 rax = rax << 5 0x11b8 39 rsi = rsi + rax 0x11bb 40 rax = sx.q([rbp - 0x14 {var_1c_1}].d) 0x11bf 41 rax = rax << 2 0x11c3 42 rsi = rsi + rax 0x11c6 43 rdi = 0x2008 {"%d"} 0x11cd 44 al = 0 0x11cf 45 call(0x1040) 0x11d4 46 eax = [rbp - 0x14 {var_1c_1}].d 0x11d7 47 eax = eax + 1 0x11da 48 [rbp - 0x14 {var_1c_1}].d = eax 0x11dd 49 goto 21 @ 0x119d 0x12ba 50 eax = [rbp - 0x14 {var_1c_3}].d 0x12c0 51 if (eax s>= [rbp - 0xc {var_14}].d) then 58 @ 0x1368 else 60 @ 0x12c6 0x1235 52 eax = [rbp - 0x14 {var_1c_2}].d 0x123b 53 if (eax s>= [rbp - 0xc {var_14}].d) then 67 @ 0x12a0 else 68 @ 0x1241 0x11e7 54 eax = [rbp - 0x10 {var_18}].d 0x11ea 55 eax = eax + 1 0x11ed 56 [rbp - 0x10 {var_18}].d = eax 0x11f0 57 goto 13 @ 0x118a 0x1368 58 [rbp - 0x10 {var_18_3}].d = 0 0x1368 59 goto 75 @ 0x136f 0x12c6 60 rax = sx.q([rbp - 0x14 {var_1c_3}].d) 0x12ca 61 eax = [rbp + (rax << 2) - 0x130].d 0x12d1 62 [rbp - 0x1c {var_24_1}].d = eax 0x12d4 63 rax = sx.q([rbp - 0x14 {var_1c_3}].d) 0x12d8 64 [rbp + (rax << 2) - 0x170].d = 0 0x12e3 65 [rbp - 0x10 {var_18_2}].d = 0 0x12e3 66 goto 77 @ 0x12ea 0x12a0 67 goto 79 @ 0x12a5 0x1241 68 rcx = sx.q([rbp - 0x10 {var_18_1}].d) 0x1245 69 rax = rbp - 0x130 {var_138} 0x124c 70 rcx = rcx << 5 0x1250 71 rax = rax + rcx 0x1253 72 rcx = sx.q([rbp - 0x14 {var_1c_2}].d) 0x1257 73 eax = [rax + (rcx << 2)].d 0x125d 74 if (eax s<= [rbp - 0x18 {var_20_1}].d) then 83 @ 0x128d else 84 @ 0x1263 0x136f 75 eax = [rbp - 0x10 {var_18_3}].d 0x1375 76 if (eax s>= [rbp - 8 {var_10}].d) then 95 @ 0x13fb else 96 @ 0x137b 0x12ea 77 eax = [rbp - 0x10 {var_18_2}].d 0x12f0 78 if (eax s>= [rbp - 8 {var_10}].d) then 98 @ 0x1355 else 99 @ 0x12f6 0x12a5 79 eax = [rbp - 0x10 {var_18_1}].d 0x12a8 80 eax = eax + 1 0x12ab 81 [rbp - 0x10 {var_18_1}].d = eax 0x12ae 82 goto 19 @ 0x11fc 0x128d 83 goto 106 @ 0x1292 0x1263 84 rcx = sx.q([rbp - 0x10 {var_18_1}].d) 0x1267 85 rax = rbp - 0x130 {var_138} 0x126e 86 rcx = rcx << 5 0x1272 87 rax = rax + rcx 0x1275 88 rcx = sx.q([rbp - 0x14 {var_1c_2}].d) 0x1279 89 eax = [rax + (rcx << 2)].d 0x127c 90 [rbp - 0x18 {var_20_1}].d = eax 0x127f 91 ecx = [rbp - 0x14 {var_1c_2}].d 0x1282 92 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x1286 93 [rbp + (rax << 2) - 0x150].d = ecx 0x1286 94 goto 83 @ 0x128d 0x13fb 95 if ([rbp - 0x20 {var_28}].d == 0) then 110 @ 0x140f else 114 @ 0x1401 0x137b 96 [rbp - 0x14 {var_1c_4}].d = 0 0x137b 97 goto 118 @ 0x1382 0x1355 98 goto 120 @ 0x135a 0x12f6 99 rcx = sx.q([rbp - 0x10 {var_18_2}].d) 0x12fa 100 rax = rbp - 0x130 {var_138} 0x1301 101 rcx = rcx << 5 0x1305 102 rax = rax + rcx 0x1308 103 rcx = sx.q([rbp - 0x14 {var_1c_3}].d) 0x130c 104 eax = [rax + (rcx << 2)].d 0x1312 105 if (eax s>= [rbp - 0x1c {var_24_1}].d) then 124 @ 0x1342 else 125 @ 0x1318 0x1292 106 eax = [rbp - 0x14 {var_1c_2}].d 0x1295 107 eax = eax + 1 0x1298 108 [rbp - 0x14 {var_1c_2}].d = eax 0x129b 109 goto 52 @ 0x1235 0x140f 110 eax = 0 0x1411 111 rsp = rsp + 0x170 0x1418 112 rbp = pop 0x1419 113 <return> jump(pop) 0x1401 114 rdi = 0x2012 {"No\n"} 0x1408 115 al = 0 0x140a 116 call(0x1030) 0x140a 117 goto 110 @ 0x140f 0x1382 118 eax = [rbp - 0x14 {var_1c_4}].d 0x1388 119 if (eax s>= [rbp - 0xc {var_14}].d) then 136 @ 0x13e4 else 137 @ 0x138e 0x135a 120 eax = [rbp - 0x14 {var_1c_3}].d 0x135d 121 eax = eax + 1 0x1360 122 [rbp - 0x14 {var_1c_3}].d = eax 0x1363 123 goto 50 @ 0x12ba 0x1342 124 goto 140 @ 0x1347 0x1318 125 rcx = sx.q([rbp - 0x10 {var_18_2}].d) 0x131c 126 rax = rbp - 0x130 {var_138} 0x1323 127 rcx = rcx << 5 0x1327 128 rax = rax + rcx 0x132a 129 rcx = sx.q([rbp - 0x14 {var_1c_3}].d) 0x132e 130 eax = [rax + (rcx << 2)].d 0x1331 131 [rbp - 0x1c {var_24_1}].d = eax 0x1334 132 ecx = [rbp - 0x10 {var_18_2}].d 0x1337 133 rax = sx.q([rbp - 0x14 {var_1c_3}].d) 0x133b 134 [rbp + (rax << 2) - 0x170].d = ecx 0x133b 135 goto 124 @ 0x1342 0x13e4 136 goto 144 @ 0x13e9 0x138e 137 rax = sx.q([rbp - 0x10 {var_18_3}].d) 0x1392 138 eax = [rbp + (rax << 2) - 0x150].d 0x139c 139 if (eax != [rbp - 0x14 {var_1c_4}].d) then 148 @ 0x13d1 else 149 @ 0x13a2 0x1347 140 eax = [rbp - 0x10 {var_18_2}].d 0x134a 141 eax = eax + 1 0x134d 142 [rbp - 0x10 {var_18_2}].d = eax 0x1350 143 goto 77 @ 0x12ea 0x13e9 144 eax = [rbp - 0x10 {var_18_3}].d 0x13ec 145 eax = eax + 1 0x13ef 146 [rbp - 0x10 {var_18_3}].d = eax 0x13f2 147 goto 75 @ 0x136f 0x13d1 148 goto 152 @ 0x13d6 0x13a2 149 rax = sx.q([rbp - 0x14 {var_1c_4}].d) 0x13a6 150 eax = [rbp + (rax << 2) - 0x170].d 0x13b0 151 if (eax != [rbp - 0x10 {var_18_3}].d) then 148 @ 0x13d1 else 156 @ 0x13b6 0x13d6 152 eax = [rbp - 0x14 {var_1c_4}].d 0x13d9 153 eax = eax + 1 0x13dc 154 [rbp - 0x14 {var_1c_4}].d = eax 0x13df 155 goto 118 @ 0x1382 0x13b6 156 esi = [rbp - 0x10 {var_18_3}].d 0x13b9 157 edx = [rbp - 0x14 {var_1c_4}].d 0x13bc 158 rdi = 0x200b {"%d+%d\n"} 0x13c3 159 al = 0 0x13c5 160 call(0x1030) 0x13ca 161 [rbp - 0x20 {var_28}].d = 0 0x13ca 162 goto 148 @ 0x13d1 int64_t _fini(): 0x1420 0 rsp = rsp - 8 0x1424 1 rsp = rsp + 8 0x1428 2 <return> jump(pop)	POJ_35
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t scanf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) char* gets(char* buf): 0x1040 0 <return> tailcall([0x4020].q) int32_t strcmp(char const* arg1, char const* arg2): 0x1050 0 <return> tailcall([0x4028].q) int64_t malloc(uint64_t bytes): 0x1060 0 <return> tailcall([0x4030].q) int32_t puts(char const* str): 0x1070 0 <return> tailcall([0x4038].q) void __cxa_finalize(void* d): 0x1080 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1094 0 ebp = 0 0x1096 1 r9 = rdx 0x1099 2 rsi = pop 0x109a 3 rdx = rsp {arg_8} 0x109d 4 rsp = rsp & 0xfffffffffffffff0 0x10a1 5 push(rax) 0x10a2 6 push(rsp) 0x10a3 7 r8d = 0 0x10a6 8 ecx = 0 0x10a8 9 rdi = 0x1180 {"UHH0x"} 0x10af 10 call([0x3ff8].q) 0x10af 11 noreturn void deregister_tm_clones(): 0x10c0 0 rdi = 0x4050 {""} 0x10c7 1 rax = 0x4050 {""} 0x10d1 2 if (rax == rdi) then 3 @ 0x10e8 else 4 @ 0x10d3 0x10e8 3 <return> jump(pop) 0x10d3 4 rax = [0x3fd8].q 0x10dd 5 if (rax == 0) then 3 @ 0x10e8 else 6 @ 0x10df 0x10df 6 <return> tailcall(rax) void register_tm_clones(): 0x10f0 0 rdi = 0x4050 {""} 0x10f7 1 rsi = 0x4050 {""} 0x10fe 2 rsi = rsi - rdi 0x1101 3 rax = rsi 0x1104 4 rsi = rsi u>> 0x3f 0x1108 5 rax = rax s>> 3 0x110c 6 rsi = rsi + rax 0x110f 7 rsi = rsi s>> 1 0x1112 8 if (rsi == 0) then 9 @ 0x1128 else 10 @ 0x1114 0x1128 9 <return> jump(pop) 0x1114 10 rax = [0x3ff0].q 0x111e 11 if (rax == 0) then 9 @ 0x1128 else 12 @ 0x1120 0x1120 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x113b 0 if ([0x4050].b != 0) then 1 @ 0x1168 else 2 @ 0x113d 0x1168 1 <return> jump(pop) 0x113d 2 push(rbp) 0x113e 3 cond:0 = [0x3fe0].q == 0 0x1146 4 rbp = rsp {__saved_rbp} 0x1149 5 if (cond:0) then 6 @ 0x1157 else 10 @ 0x114b 0x1157 6 call(0x10c0) 0x115c 7 [0x4050].b = 1 0x1163 8 rbp = pop 0x1164 9 <return> jump(pop) 0x114b 10 rdi = [0x4048].q 0x1152 11 call(0x1080) 0x1152 12 goto 6 @ 0x1157 int64_t frame_dummy(): 0x1174 0 <return> tailcall(0x10f0) int32_t main(int32_t argc, char argv, char envp): 0x1180 0 push(rbp) 0x1181 1 rbp = rsp {__saved_rbp} 0x1184 2 rsp = rsp - 0x30 0x1188 3 edi = 0x78 {""} 0x118d 4 call(0x1060) 0x1192 5 [rbp - 0x10 {var_18}].q = rax 0x1196 6 rax = [rbp - 0x10 {var_18}].q 0x119a 7 [rbp - 8 {var_10}].q = rax 0x119e 8 rax = [rbp - 0x10 {var_18}].q 0x11a2 9 [rbp - 0x18 {var_20}].q = rax 0x11a6 10 rdi = [rbp - 0x10 {var_18}].q 0x11aa 11 al = 0 0x11ac 12 call(0x1040) 0x11b1 13 rax = [rbp - 0x10 {var_18}].q 0x11b5 14 [rax + 0x70].q = 0 0x11bd 15 rdi = 0x2004 {"\n"} 0x11c4 16 al = 0 0x11c6 17 call(0x1030) 0x11c6 18 goto 19 @ 0x11cb 0x11cb 19 edi = 0x78 {""} 0x11d0 20 call(0x1060) 0x11d5 21 [rbp - 0x10 {var_18_1}].q = rax 0x11d9 22 rdi = [rbp - 0x10 {var_18_1}].q 0x11dd 23 al = 0 0x11df 24 call(0x1040) 0x11e4 25 rdi = 0x2004 {"\n"} 0x11eb 26 al = 0 0x11ed 27 call(0x1030) 0x11f2 28 rdi = [rbp - 0x10 {var_18_1}].q 0x11f6 29 rsi = 0x2006 {"end"} 0x11fd 30 call(0x1050) 0x1205 31 if (eax != 0) then 32 @ 0x1218 else 38 @ 0x120b 0x1218 32 rcx = [rbp - 0x18 {var_20}].q 0x121c 33 rax = [rbp - 0x10 {var_18_1}].q 0x1220 34 [rax + 0x70].q = rcx 0x1224 35 rax = [rbp - 0x10 {var_18_1}].q 0x1228 36 [rbp - 0x18 {var_20}].q = rax 0x122c 37 goto 19 @ 0x11cb 0x120b 38 rax = [rbp - 0x18 {var_20}].q 0x120f 39 [rbp - 0x20 {var_28}].q = rax 0x1213 40 goto 41 @ 0x1231 0x1231 41 goto 42 @ 0x123b 0x123b 42 if ([rbp - 0x20 {var_28}].q == 0) then 43 @ 0x125d else 46 @ 0x1241 0x125d 43 rsp = rsp + 0x30 0x1261 44 rbp = pop 0x1262 45 <return> jump(pop) 0x1241 46 rdi = [rbp - 0x20 {var_28}].q 0x1245 47 al = 0 0x1247 48 call(0x1070) 0x124c 49 rax = [rbp - 0x20 {var_28}].q 0x1250 50 rax = [rax + 0x70].q 0x1254 51 [rbp - 0x20 {var_28}].q = rax 0x1258 52 goto 42 @ 0x123b int64_t _fini(): 0x1268 0 rsp = rsp - 8 0x126c 1 rsp = rsp + 8 0x1270 2 <return> jump(pop)	POJ_31
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSH(D$"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x28 0x115e 7 [rsp + 0x10 {var_48}].d = 0 0x1166 8 rax = rsp + 0x14 {var_44} 0x116b 9 [rsp {var_58}].q = rax {var_44} 0x116f 10 rdi = 0x2004 {"%d %d %d %d %d %d"} 0x1176 11 rsi = rsp + 0x10 {var_48} 0x117b 12 rdx = rsp + 0x24 {var_34} 0x1180 13 rcx = rsp + 0x20 {var_38} 0x1185 14 r8 = rsp + 0x1c {var_3c} 0x118a 15 r9 = rsp + 0x18 {var_40} 0x118f 16 eax = 0 0x1191 17 call(0x1040) 0x1198 18 if (eax == 0) then 19 @ 0x1234 else 28 @ 0x119e 0x1234 19 eax = 0 0x1236 20 rsp = rsp + 0x28 0x123a 21 rbx = pop 0x123b 22 r12 = pop 0x123d 23 r13 = pop 0x123f 24 r14 = pop 0x1241 25 r15 = pop 0x1243 26 rbp = pop 0x1244 27 <return> jump(pop) 0x119e 28 eax = [rsp + 0x10 {var_48}].d 0x11a4 29 if (eax == 0) then 19 @ 0x1234 else 30 @ 0x11aa 0x11aa 30 r15 = 0x2004 {"%d %d %d %d %d %d"} 0x11b1 31 r12 = rsp + 0x10 {var_48} 0x11b6 32 r13 = rsp + 0x24 {var_34} 0x11bb 33 rbx = rsp + 0x20 {var_38} 0x11c0 34 rbp = rsp + 0x1c {var_3c} 0x11c5 35 r14 = rsp + 0x18 {var_40} 0x11ca 36 goto 37 @ 0x11d0 0x11d0 37 ecx = [rsp + 0x1c {var_3c}].d 0x11d4 38 edx = [rsp + 0x18 {var_40}].d 0x11d8 39 edx = edx - [rsp + 0x24 {var_34}].d 0x11dc 40 ecx = ecx - eax 0x11de 41 eax = ecx * 0xe10 0x11e4 42 eax = eax - [rsp + 0x20 {var_38}].d 0x11e8 43 ecx = edx * 0x3c 0x11eb 44 eax = eax + [rsp + 0x14 {var_44}].d 0x11ef 45 esi = (rcx + rax).d 0x11f2 46 esi = esi + 0xa8c0 0x11f8 47 rdi = 0x2016 {"%d\n"} 0x11ff 48 eax = 0 0x1201 49 call(0x1030) 0x1206 50 rax = rsp + 0x14 {var_44} 0x120b 51 [rsp {var_58_1}].q = rax {var_44} 0x120f 52 rdi = r15 0x1212 53 rsi = r12 {var_48} 0x1215 54 rdx = r13 {var_34} 0x1218 55 rcx = rbx {var_38} 0x121b 56 r8 = rbp {var_3c} 0x121e 57 r9 = r14 {var_40} 0x1221 58 eax = 0 0x1223 59 call(0x1040) 0x122a 60 if (eax == 0) then 19 @ 0x1234 else 61 @ 0x122c 0x122c 61 eax = [rsp + 0x10 {var_48}].d 0x1232 62 if (eax != 0) then 37 @ 0x11d0 else 19 @ 0x1234 int64_t _fini(): 0x124c 0 rsp = rsp - 8 0x1250 1 rsp = rsp + 8 0x1254 2 <return> jump(pop)	POJ_87
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH q"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x27120 0x115b 3 [rbp - 0x10 {var_18}].d = 0 0x1162 4 rdi = 0x2004 {"%d"} 0x1169 5 rsi = rbp - 4 {var_c} 0x116d 6 al = 0 0x116f 7 call(0x1040) 0x1174 8 [rbp - 8 {var_10}].d = 0 0x1174 9 goto 10 @ 0x117b 0x117b 10 eax = [rbp - 8 {var_10}].d 0x1181 11 if (eax s>= [rbp - 4 {var_c}].d) then 12 @ 0x11b5 else 14 @ 0x1187 0x11b5 12 [rbp - 8 {var_10_1}].d = 0 0x11b5 13 goto 25 @ 0x11bc 0x1187 14 rax = sx.q([rbp - 8 {var_10}].d) 0x118b 15 rsi = rbp - 0x138a0 {var_138a8} 0x1192 16 rax = rax << 2 0x1196 17 rsi = rsi + rax 0x1199 18 rdi = 0x2004 {"%d"} 0x11a0 19 al = 0 0x11a2 20 call(0x1040) 0x11a7 21 eax = [rbp - 8 {var_10}].d 0x11aa 22 eax = eax + 1 0x11ad 23 [rbp - 8 {var_10}].d = eax 0x11b0 24 goto 10 @ 0x117b 0x11bc 25 eax = [rbp - 8 {var_10_1}].d 0x11c2 26 if (eax s>= [rbp - 4 {var_c}].d) then 27 @ 0x1266 else 29 @ 0x11c8 0x1266 27 [rbp - 8 {var_10_2}].d = 0 0x1266 28 goto 31 @ 0x126d 0x11c8 29 rax = sx.q([rbp - 8 {var_10_1}].d) 0x11d4 30 if ([rbp + (rax << 2) - 0x138a0].d == 0) then 33 @ 0x1253 else 34 @ 0x11da 0x126d 31 eax = [rbp - 8 {var_10_2}].d 0x1273 32 if (eax s>= [rbp - 4 {var_c}].d) then 36 @ 0x12bd else 40 @ 0x1279 0x1253 33 goto 42 @ 0x1258 0x11da 34 [rbp - 0xc {var_14_1}].d = 0 0x11da 35 goto 46 @ 0x11e1 0x12bd 36 eax = [rbp - 0x10 {var_18}].d 0x12c0 37 [rbp - 0x14 {var_1c}].d = eax 0x12c3 38 [rbp - 0x10 {var_18_1}].d = 0 0x12c3 39 goto 48 @ 0x12ca 0x1279 40 rax = sx.q([rbp - 8 {var_10_2}].d) 0x1285 41 if ([rbp + (rax << 2) - 0x138a0].d == 0) then 52 @ 0x12aa else 53 @ 0x128b 0x1258 42 eax = [rbp - 8 {var_10_1}].d 0x125b 43 eax = eax + 1 0x125e 44 [rbp - 8 {var_10_1}].d = eax 0x1261 45 goto 25 @ 0x11bc 0x11e1 46 eax = [rbp - 0xc {var_14_1}].d 0x11e7 47 if (eax s>= [rbp - 4 {var_c}].d) then 61 @ 0x124e else 62 @ 0x11ed 0x12ca 48 eax = [rbp - 0x10 {var_18_1}].d 0x12cd 49 ecx = [rbp - 0x14 {var_1c}].d 0x12d0 50 ecx = ecx - 1 0x12d5 51 if (eax s>= ecx) then 66 @ 0x1302 else 74 @ 0x12db 0x12aa 52 goto 83 @ 0x12af 0x128b 53 rax = sx.q([rbp - 8 {var_10_2}].d) 0x128f 54 ecx = [rbp + (rax << 2) - 0x138a0].d 0x1296 55 rax = sx.q([rbp - 0x10 {var_18}].d) 0x129a 56 [rbp + (rax << 2) - 0x27120].d = ecx 0x12a1 57 eax = [rbp - 0x10 {var_18}].d 0x12a4 58 eax = eax + 1 0x12a7 59 [rbp - 0x10 {var_18}].d = eax 0x12a7 60 goto 52 @ 0x12aa 0x124e 61 goto 33 @ 0x1253 0x11ed 62 rax = sx.q([rbp - 8 {var_10_1}].d) 0x11f1 63 eax = [rbp + (rax << 2) - 0x138a0].d 0x11f8 64 rcx = sx.q([rbp - 0xc {var_14_1}].d) 0x1203 65 if (eax != [rbp + (rcx << 2) - 0x138a0].d) then 87 @ 0x123b else 88 @ 0x1209 0x1302 66 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x1306 67 esi = [rbp + (rax << 2) - 0x27120].d 0x130d 68 rdi = 0x2004 {"%d"} 0x1314 69 al = 0 0x1316 70 call(0x1030) 0x131b 71 rsp = rsp + 0x27120 0x1322 72 rbp = pop 0x1323 73 <return> jump(pop) 0x12db 74 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x12df 75 esi = [rbp + (rax << 2) - 0x27120].d 0x12e6 76 rdi = 0x2007 {"%d "} 0x12ed 77 al = 0 0x12ef 78 call(0x1030) 0x12f4 79 eax = [rbp - 0x10 {var_18_1}].d 0x12f7 80 eax = eax + 1 0x12fa 81 [rbp - 0x10 {var_18_1}].d = eax 0x12fd 82 goto 48 @ 0x12ca 0x12af 83 eax = [rbp - 8 {var_10_2}].d 0x12b2 84 eax = eax + 1 0x12b5 85 [rbp - 8 {var_10_2}].d = eax 0x12b8 86 goto 31 @ 0x126d 0x123b 87 goto 90 @ 0x1240 0x1209 88 eax = [rbp - 8 {var_10_1}].d 0x120f 89 if (eax == [rbp - 0xc {var_14_1}].d) then 94 @ 0x1236 else 95 @ 0x1215 0x1240 90 eax = [rbp - 0xc {var_14_1}].d 0x1243 91 eax = eax + 1 0x1246 92 [rbp - 0xc {var_14_1}].d = eax 0x1249 93 goto 46 @ 0x11e1 0x1236 94 goto 87 @ 0x123b 0x1215 95 rax = sx.q([rbp - 0xc {var_14_1}].d) 0x1221 96 if ([rbp + (rax << 2) - 0x138a0].d == 0) then 94 @ 0x1236 else 97 @ 0x1227 0x1227 97 rax = sx.q([rbp - 0xc {var_14_1}].d) 0x122b 98 [rbp + (rax << 2) - 0x138a0].d = 0 0x122b 99 goto 94 @ 0x1236 int64_t _fini(): 0x1328 0 rsp = rsp - 8 0x132c 1 rsp = rsp + 8 0x1330 2 <return> jump(pop)	POJ_13
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memcpy(void* arg1, void const* arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x10 0x1168 3 rdi = 0x2004 {"%d%d%d"} 0x116f 4 rsi = rbp - 4 {var_c} 0x1173 5 rdx = rbp - 8 {var_10} 0x1177 6 rcx = rbp - 0xc {var_14} 0x117b 7 al = 0 0x117d 8 call(0x1050) 0x1182 9 edi = [rbp - 8 {var_10}].d 0x1185 10 esi = [rbp - 0xc {var_14}].d 0x1188 11 call(0x11d0) 0x118d 12 [rbp - 0x10 {var_18}].d = eax 0x1190 13 edi = [rbp - 4 {var_c}].d 0x1193 14 call(0x1230) 0x119b 15 if (eax == 0) then 16 @ 0x11b4 else 23 @ 0x11a5 0x11b4 16 esi = [rbp - 0x10 {var_18}].d 0x11b7 17 rdi = 0x2008 {"%d"} 0x11be 18 al = 0 0x11c0 19 call(0x1030) 0x11c5 20 rsp = rsp + 0x10 0x11c9 21 rbp = pop 0x11ca 22 <return> jump(pop) 0x11a5 23 if ([rbp - 8 {var_10}].d s< 3) then 16 @ 0x11b4 else 24 @ 0x11ab 0x11ab 24 eax = [rbp - 0x10 {var_18}].d 0x11ae 25 eax = eax + 1 0x11b1 26 [rbp - 0x10 {var_18}].d = eax 0x11b1 27 goto 16 @ 0x11b4 uint64_t sum_day(int32_t arg1, int32_t arg2): 0x11d0 0 push(rbp) 0x11d1 1 rbp = rsp {__saved_rbp} 0x11d4 2 rsp = rsp - 0x50 0x11d8 3 [rbp - 4 {var_c}].d = edi 0x11db 4 [rbp - 8 {var_10}].d = esi 0x11de 5 rdi = rbp - 0x40 {var_48} 0x11e2 6 rsi = 0x2010 {""} 0x11e9 7 edx = 0x34 {"@"} 0x11ee 8 call(0x1040) 0x11f3 9 [rbp - 0x44 {var_4c}].d = 1 0x11f3 10 goto 11 @ 0x11fa 0x11fa 11 eax = [rbp - 0x44 {var_4c}].d 0x1200 12 if (eax s>= [rbp - 4 {var_c}].d) then 13 @ 0x1222 else 17 @ 0x1206 0x1222 13 eax = [rbp - 8 {var_10}].d 0x1225 14 rsp = rsp + 0x50 0x1229 15 rbp = pop 0x122a 16 <return> jump(pop) 0x1206 17 rax = sx.q([rbp - 0x44 {var_4c}].d) 0x120a 18 eax = [rbp + (rax << 2) - 0x40].d 0x120e 19 eax = eax + [rbp - 8 {var_10}].d 0x1211 20 [rbp - 8 {var_10}].d = eax 0x1214 21 eax = [rbp - 0x44 {var_4c}].d 0x1217 22 eax = eax + 1 0x121a 23 [rbp - 0x44 {var_4c}].d = eax 0x121d 24 goto 11 @ 0x11fa uint64_t leap(int32_t arg1): 0x1230 0 push(rbp) 0x1231 1 rbp = rsp {__saved_rbp} 0x1234 2 [rbp - 4 {var_c}].d = edi 0x1237 3 eax = [rbp - 4 {var_c}].d 0x123a 4 ecx = 3 0x123f 5 temp2.d:temp3.d = sx.q(eax) 0x123f 6 edx = temp2.d 0x123f 7 eax = temp3.d 0x1240 8 temp4.d = edx 0x1240 9 temp5.d = eax 0x1240 10 temp0.d = divs.dp.d(temp4.d:temp5.d, ecx) 0x1240 11 temp6.d = edx 0x1240 12 temp7.d = eax 0x1240 13 temp1.d = mods.dp.d(temp6.d:temp7.d, ecx) 0x1240 14 eax = temp0.d 0x1240 15 edx = temp1.d 0x1245 16 if (edx != 0) then 17 @ 0x1264 else 33 @ 0x124b 0x1264 17 eax = [rbp - 4 {var_c}].d 0x1267 18 ecx = 0x190 {""} 0x126c 19 temp8.d:temp9.d = sx.q(eax) 0x126c 20 edx = temp8.d 0x126c 21 eax = temp9.d 0x126d 22 temp10.d = edx 0x126d 23 temp11.d = eax 0x126d 24 temp0.d = divs.dp.d(temp10.d:temp11.d, ecx) 0x126d 25 temp12.d = edx 0x126d 26 temp13.d = eax 0x126d 27 temp1.d = mods.dp.d(temp12.d:temp13.d, ecx) 0x126d 28 eax = temp0.d 0x126d 29 edx = temp1.d 0x1272 30 al = edx == 0 0x1275 31 [rbp - 9 {var_11_1}].b = al 0x1275 32 goto 50 @ 0x1278 0x124b 33 eax = [rbp - 4 {var_c}].d 0x124e 34 ecx = 0x64 {""} 0x1253 35 temp14.d:temp15.d = sx.q(eax) 0x1253 36 edx = temp14.d 0x1253 37 eax = temp15.d 0x1254 38 temp16.d = edx 0x1254 39 temp17.d = eax 0x1254 40 temp0.d = divs.dp.d(temp16.d:temp17.d, ecx) 0x1254 41 temp18.d = edx 0x1254 42 temp19.d = eax 0x1254 43 temp1.d = mods.dp.d(temp18.d:temp19.d, ecx) 0x1254 44 eax = temp0.d 0x1254 45 edx = temp1.d 0x1256 46 al = 1 0x1258 47 cond:0 = edx != 0 0x125b 48 [rbp - 9 {var_11_1}].b = al 0x125e 49 if (cond:0) then 50 @ 0x1278 else 17 @ 0x1264 0x1278 50 al = [rbp - 9 {var_11_1}].b 0x127b 51 al = al & 1 0x127d 52 eax = zx.d(al) 0x1280 53 [rbp - 8 {var_10}].d = eax 0x1283 54 eax = [rbp - 8 {var_10}].d 0x1286 55 rbp = pop 0x1287 56 <return> jump(pop) int64_t _fini(): 0x128c 0 rsp = rsp - 8 0x1290 1 rsp = rsp + 8 0x1294 2 <return> jump(pop)	POJ_11
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSHH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x18 0x116e 7 rdi = 0x201b {"%d"} 0x1175 8 r13d = 0 0x1178 9 rsi = rsp + 0xc {var_3c} 0x117d 10 eax = 0 0x117f 11 call(0x1040) 0x1184 12 cond:0 = [rsp + 0xc {var_3c}].d s<= 0 0x1189 13 ebx = 0 0x118e 14 if (cond:0) then 15 @ 0x11f2 else 17 @ 0x1190 0x11f2 15 cond:1 = r13d s>= ebx 0x11f5 16 if (r13d s<= ebx) then 24 @ 0x1203 else 25 @ 0x11f7 0x1190 17 r15 = rsp + 0x14 {var_34} 0x1195 18 r12 = rsp + 0x10 {var_38} 0x119a 19 rbp = 0x2004 {"%d %d"} 0x11a1 20 r14d = 0 0x11a4 21 ebx = 0 0x11a6 22 r13d = 0 0x11a9 23 goto 28 @ 0x11bf 0x1203 24 if (cond:1) then 37 @ 0x1211 else 41 @ 0x1205 0x11f7 25 edi = 0x41 {""} 0x11fc 26 call(0x1050) 0x1201 27 goto 44 @ 0x121f 0x11bf 28 rdi = 0x2018 {"%d %d"} 0x11c6 29 rsi = r15 {var_34} 0x11c9 30 rdx = r12 {var_38} 0x11cc 31 eax = 0 0x11ce 32 call(0x1040) 0x11d3 33 eax = [rsp + 0x10 {var_38}].d 0x11d7 34 eax = eax - [rsp + 0x14 {var_34}].d 0x11db 35 eax = eax + 2 0x11e1 36 if (eax u> 4) then 53 @ 0x11b4 else 55 @ 0x11e3 0x1211 37 rdi = 0x201e {"Tie"} 0x1218 38 eax = 0 0x121a 39 call(0x1030) 0x121a 40 goto 44 @ 0x121f 0x1205 41 edi = 0x42 {""} 0x120a 42 call(0x1050) 0x120f 43 goto 44 @ 0x121f 0x121f 44 eax = 0 0x1221 45 rsp = rsp + 0x18 0x1225 46 rbx = pop 0x1226 47 r12 = pop 0x1228 48 r13 = pop 0x122a 49 r14 = pop 0x122c 50 r15 = pop 0x122e 51 rbp = pop 0x122f 52 <return> jump(pop) 0x11b4 53 r14d = r14d + 1 0x11bd 54 if (r14d s>= [rsp + 0xc {var_3c}].d) then 15 @ 0x11f2 else 28 @ 0x11bf 0x11e3 55 rax = sx.q([rbp + (rax << 2)].d) 0x11e8 56 rax = rax + rbp 0x11eb 57 jump(rax => 58 @ 0x11b0, 53 @ 0x11b4, 60 @ 0x11ed) 0x11b0 58 r13d = r13d + 1 0x11b0 59 goto 53 @ 0x11b4 0x11ed 60 ebx = ebx + 1 0x11f0 61 goto 53 @ 0x11b4 int64_t _fini(): 0x1234 0 rsp = rsp - 8 0x1238 1 rsp = rsp + 8 0x123c 2 <return> jump(pop)	POJ_65
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t scanf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t puts(char const* str): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSHxW)D$@)D$("} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x78 0x115e 7 xmm0 = 0 0x1161 8 [rsp + 0x40 {var_68}].o = xmm0 0x1166 9 [rsp + 0x10 {var_98}].o = xmm0 0x116b 10 xmm0 = [0x2010].o 0x1172 11 [rsp + 0x44 {var_68+0x4}].o = xmm0 0x1177 12 xmm0 = [0x2020].o 0x117e 13 [rsp + 0x14 {var_98+0x4}].o = xmm0 0x1183 14 xmm0 = [0x2030].o 0x118a 15 [rsp + 0x54 {var_54}].o = xmm0 0x118f 16 xmm0 = [0x2040].o 0x1196 17 [rsp + 0x24 {var_84}].o = xmm0 0x119b 18 [rsp + 0x64 {var_44}].d = 0x112 {""} 0x11a3 19 [rsp + 0x34 {var_74}].d = 0x111 {""} 0x11ab 20 rax = 0x14f00000131 {""} 0x11b5 21 [rsp + 0x68 {var_40}].q = rax 0x11ba 22 rax = 0x14e00000130 {""} 0x11c4 23 [rsp + 0x38 {var_70}].q = rax 0x11c9 24 rdi = 0x2056 {"%d"} 0x11d0 25 rsi = rsp + 8 {var_a0} 0x11d5 26 eax = 0 0x11d7 27 call(0x1030) 0x11e1 28 if ([rsp + 8 {var_a0}].d s<= 0) then 29 @ 0x12cd else 38 @ 0x11e7 0x12cd 29 eax = 0 0x12cf 30 rsp = rsp + 0x78 0x12d3 31 rbx = pop 0x12d4 32 r12 = pop 0x12d6 33 r13 = pop 0x12d8 34 r14 = pop 0x12da 35 r15 = pop 0x12dc 36 rbp = pop 0x12dd 37 <return> jump(pop) 0x11e7 38 r14 = 0x2050 {"%d %d %d"} 0x11ee 39 r15 = rsp + 0xc {var_9c} 0x11f3 40 r12 = rsp + 4 {var_a4} 0x11f8 41 r13 = rsp {var_a8} 0x11fb 42 rbx = 0x205c {"YES"} 0x1202 43 ebp = 0 0x1204 44 goto 45 @ 0x1222 0x1222 45 rdi = r14 0x1225 46 rsi = r15 {var_9c} 0x1228 47 rdx = r12 {var_a4} 0x122b 48 rcx = r13 {var_a8} 0x122e 49 eax = 0 0x1230 50 call(0x1030) 0x1235 51 eax = [rsp + 0xc {var_9c}].d 0x1239 52 ecx = eax * -0x3d70a3d7 0x123f 53 ecx = ecx + 0x51eb850 0x1245 54 ecx = ror.d(ecx, 4) 0x124e 55 if (ecx u< 0xa3d70b) then 56 @ 0x1272 else 61 @ 0x1252 0x1272 56 rax = sx.q([rsp + 4 {var_a4}].d) 0x1277 57 eax = [rsp + (rax << 2) + 0x3c].d 0x127b 58 rcx = sx.q([rsp {var_a8}].d) 0x127f 59 eax = eax - [rsp + (rcx << 2) + 0x3c].d 0x1283 60 goto 62 @ 0x12a1 0x1252 61 if ((al & 3) != 0) then 65 @ 0x1290 else 70 @ 0x1254 0x12a1 62 ecx = eax 0x12a3 63 ecx = neg.d(ecx) 0x12a5 64 if (ecx s< 0) then 80 else 82 @ 0x12a8 0x1290 65 rax = sx.q([rsp + 4 {var_a4}].d) 0x1295 66 eax = [rsp + (rax << 2) + 0xc].d 0x1299 67 rcx = sx.q([rsp {var_a8}].d) 0x129d 68 eax = eax - [rsp + (rcx << 2) + 0xc].d 0x129d 69 goto 62 @ 0x12a1 0x1254 70 rcx = sx.q(eax) 0x1257 71 rcx = rcx * 0x51eb851f 0x125e 72 rdx = rcx 0x1261 73 rdx = rdx u>> 0x3f 0x1265 74 rcx = rcx s>> 0x25 0x1269 75 ecx = ecx + edx 0x126b 76 ecx = ecx * 0x64 0x126e 77 temp0.d = eax 0x126e 78 eax = eax - ecx 0x1270 79 if (temp0.d == ecx) then 65 @ 0x1290 else 56 @ 0x1272 0x12a5 80 ecx = eax 0x12a5 81 goto 82 @ 0x12a8 0x12a8 82 eax = ecx * -0x49249249 0x12ae 83 eax = eax + 0x12492492 0x12b3 84 rdi = rbx 0x12bb 85 if (eax u< 0x24924925) then 86 @ 0x1210 else 89 @ 0x12c1 0x1210 86 call(0x1040) 0x1215 87 ebp = ebp + 1 0x121c 88 if (ebp s>= [rsp + 8 {var_a0}].d) then 29 @ 0x12cd else 45 @ 0x1222 0x12c1 89 rdi = 0x2059 {"NO"} 0x12c8 90 goto 86 @ 0x1210 int64_t _fini(): 0x12e4 0 rsp = rsp - 8 0x12e8 1 rsp = rsp + 8 0x12ec 2 <return> jump(pop)	POJ_71
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVATSHH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r12) 0x1157 4 push(rbx) 0x1158 5 rsp = rsp - 0x10 0x115c 6 rdi = 0x2004 {"%d"} 0x1163 7 rsi = rsp + 0xc {var_2c} 0x1168 8 eax = 0 0x116a 9 call(0x1040) 0x116f 10 ebp = 1 0x1174 11 r15 = 0x2010 {""} 0x117b 12 r14 = 0x2007 {"%d\n"} 0x1182 13 ebx = 0 0x1184 14 r12d = 0 0x1187 15 goto 16 @ 0x119d 0x119d 16 eax = [rbx + r15].d 0x11a1 17 ecx = (rax + r12).d 0x11a5 18 ecx = ecx + 0xc 0x11a8 19 r12d = r12d + eax 0x11ab 20 rax = sx.q(ecx) 0x11ae 21 rax = rax * -0x6db6db6d 0x11b5 22 rax = rax u>> 0x20 0x11b9 23 eax = eax + r12d 0x11bc 24 eax = eax + 0xc 0x11bf 25 ecx = eax 0x11c1 26 ecx = ecx u>> 0x1f 0x11c4 27 eax = eax s>> 2 0x11c7 28 eax = eax + ecx 0x11c9 29 ecx = (rax << 3).d 0x11d0 30 eax = eax - ecx 0x11d2 31 eax = eax + r12d 0x11d5 32 eax = eax + 0xc 0x11d8 33 eax = eax + [rsp + 0xc {var_2c}].d 0x11dc 34 rax = sx.q(eax) 0x11de 35 rcx = rax * -0x6db6db6d 0x11e5 36 rcx = rcx u>> 0x20 0x11e9 37 ecx = ecx + eax 0x11eb 38 edx = ecx 0x11ed 39 edx = edx u>> 0x1f 0x11f0 40 ecx = ecx s>> 2 0x11f3 41 ecx = ecx + edx 0x11f5 42 edx = (rcx << 3).d 0x11fc 43 ecx = ecx - edx 0x11fe 44 ecx = ecx + eax 0x1203 45 if (ecx != 5) then 46 @ 0x1190 else 49 @ 0x1205 0x1190 46 rbx = rbx + 4 0x1194 47 ebp = ebp + 1 0x119b 48 if (rbx == 0x34) then 54 @ 0x1216 else 16 @ 0x119d 0x1205 49 rdi = r14 0x1208 50 esi = ebp 0x120a 51 eax = 0 0x120c 52 call(0x1030) 0x1211 53 goto 46 @ 0x1190 0x1216 54 eax = 0 0x1218 55 rsp = rsp + 0x10 0x121c 56 rbx = pop 0x121d 57 r12 = pop 0x121f 58 r14 = pop 0x1221 59 r15 = pop 0x1223 60 rbp = pop 0x1224 61 <return> jump(pop) int64_t _fini(): 0x122c 0 rsp = rsp - 8 0x1230 1 rsp = rsp + 8 0x1234 2 <return> jump(pop)	POJ_50
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t getchar(): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(rbx) 0x1166 4 rsp = rsp - 0x418 0x116d 5 rdi = 0x2060 {"%d %s %d"} 0x1174 6 rsi = rsp + 0xc {var_42c} 0x1179 7 rdx = rsp + 0x80 {var_3b8} 0x1181 8 rcx = rsp + 8 {var_430} 0x1186 9 eax = 0 0x1188 10 call(0x1040) 0x118d 11 dl = [rsp + 0x80 {var_3b8}].b 0x1196 12 if (dl == 0) then 13 @ 0x1305 else 16 @ 0x119c 0x1305 13 edi = 0x30 {""} 0x130a 14 call(0x1050) 0x130f 15 goto 19 @ 0x1448 0x119c 16 sil = 1 0x119f 17 ecx = 0 0x11a1 18 goto 32 @ 0x11cf 0x1448 19 edi = 0xa {""} 0x144d 20 call(0x1050) 0x1452 21 eax = 0 0x1454 22 call(0x1030) 0x1459 23 eax = 0 0x145b 24 call(0x1030) 0x1460 25 eax = 0 0x1462 26 rsp = rsp + 0x418 0x1469 27 rbx = pop 0x146a 28 r14 = pop 0x146c 29 r15 = pop 0x146e 30 rbp = pop 0x146f 31 <return> jump(pop) 0x11cf 32 eax = esi 0x11d1 33 edi = (rdx - 0x30).d 0x11d4 34 esi = 0xffffffd0 {""} 0x11dd 35 if (dil u< 0xa) then 36 @ 0x11b0 else 40 @ 0x11df 0x11b0 36 edx = sx.d(dl) 0x11b3 37 edx = edx + esi 0x11b5 38 [rsp + (rcx << 2) + 0xf0].d = edx 0x11b5 39 goto 43 @ 0x11bc 0x11df 40 edi = (rdx - 0x61).d 0x11e2 41 esi = 0xffffffa9 {""} 0x11eb 42 if (dil u< 0x1a) then 36 @ 0x11b0 else 47 @ 0x11ed 0x11bc 43 edx = zx.d([rsp + rcx + 0x81].b) 0x11c4 44 rcx = rcx + 1 0x11c8 45 esi = (rax + 1).d 0x11cd 46 if (dl == 0) then 50 @ 0x11ff else 32 @ 0x11cf 0x11ed 47 edi = (rdx - 0x41).d 0x11f0 48 esi = 0xffffffc9 {""} 0x11f9 49 if (dil u<= 0x19) then 36 @ 0x11b0 else 51 @ 0x11fb 0x11ff 50 if (ecx s<= 0) then 13 @ 0x1305 else 52 @ 0x1205 0x11fb 51 goto 43 @ 0x11bc 0x1205 52 r9d = [rsp + 0xc {var_42c}].d 0x120a 53 esi = ecx 0x120c 54 rdx = rsi - 1 0x1210 55 r10d = zx.d(al) 0x1218 56 if (rdx u>= 3) then 57 @ 0x1223 else 65 @ 0x121a 0x1223 57 r8d = 0xfffffffe {""} 0x1229 58 r11d = ecx 0x122c 59 eax = r10d 0x122f 60 eax = eax & 3 0x1232 61 r11 = r11 - rax 0x1235 62 edx = 1 0x123a 63 eax = 0 0x123c 64 goto 68 @ 0x1240 0x121a 65 edx = 1 0x121f 66 eax = 0 0x1221 67 goto 93 @ 0x129b 0x1240 68 rdi = rsi + r8 0x1244 69 ebx = (rdi + 1).d 0x1247 70 ebp = r9d 0x124a 71 ebp = ebp * edx 0x124d 72 edx = edx * [rsp + (rbx << 2) + 0xf0].d 0x1255 73 edx = edx + eax 0x1257 74 eax = edi 0x1259 75 ebx = r9d 0x125c 76 ebx = ebx * ebp 0x125f 77 ebp = ebp * [rsp + (rax << 2) + 0xf0].d 0x1267 78 ebp = ebp + edx 0x1269 79 edi = edi - 1 0x126c 80 eax = r9d 0x126f 81 eax = eax * ebx 0x1272 82 ebx = ebx * [rsp + (rdi << 2) + 0xf0].d 0x127a 83 ebx = ebx + ebp 0x127c 84 rsi = rsi - 4 0x1280 85 edi = esi 0x1282 86 edx = r9d 0x1285 87 edx = edx * eax 0x1288 88 eax = eax * [rsp + (rdi << 2) + 0xf0].d 0x1290 89 eax = eax + ebx 0x1292 90 temp2.q = r11 0x1292 91 r11 = r11 - 4 0x1296 92 if (temp2.q != 4) then 68 @ 0x1240 else 93 @ 0x129b 0x129b 93 if ((cl & 3) == 0) then 94 @ 0x12d0 else 95 @ 0x129d 0x12d0 94 if (eax == 0) then 13 @ 0x1305 else 98 @ 0x12d2 0x129d 95 rsi = rsi - 1 0x12a1 96 r10d = r10d & 3 0x12af 97 goto 101 @ 0x12b0 0x12d2 98 esi = [rsp + 8 {var_430}].d 0x12d6 99 ecx = 0 0x12d8 100 goto 111 @ 0x12e0 0x12b0 101 ecx = esi 0x12b2 102 edi = r9d 0x12b5 103 edi = edi * edx 0x12b8 104 edx = edx * [rsp + (rcx << 2) + 0xf0].d 0x12c0 105 eax = eax + edx 0x12c2 106 rsi = rsi - 1 0x12c6 107 edx = edi 0x12c8 108 temp3.q = r10 0x12c8 109 r10 = r10 - 1 0x12cc 110 if (temp3.q != 1) then 101 @ 0x12b0 else 94 @ 0x12d0 0x12e0 111 temp4.d:temp5.d = sx.q(eax) 0x12e0 112 edx = temp4.d 0x12e0 113 eax = temp5.d 0x12e1 114 temp6.d = edx 0x12e1 115 temp7.d = eax 0x12e1 116 temp0.d = divs.dp.d(temp6.d:temp7.d, esi) 0x12e1 117 temp8.d = edx 0x12e1 118 temp9.d = eax 0x12e1 119 temp1.d = mods.dp.d(temp8.d:temp9.d, esi) 0x12e1 120 eax = temp0.d 0x12e1 121 edx = temp1.d 0x12e3 122 [rsp + (rcx << 2) + 0x280].d = edx 0x12ea 123 rcx = rcx + 1 0x12f0 124 if (eax != 0) then 111 @ 0x12e0 else 125 @ 0x12f2 0x12f2 125 eax = ecx 0x12f4 126 r14 = rcx - 1 0x12fc 127 if (rax u>= 8) then 128 @ 0x1314 else 140 @ 0x12fe 0x1314 128 esi = ecx 0x1316 129 edx = ecx 0x1318 130 edx = edx & 7 0x131b 131 rax = rax - rdx 0x131e 132 rsi = rsi - rdx 0x1321 133 edi = 0 0x1323 134 xmm8 = [0x2010].o 0x132c 135 xmm9 = [0x2020].o 0x1335 136 xmm2 = [0x2030].o 0x133d 137 xmm3 = [0x2040].o 0x1345 138 xmm4 = [0x2050].o 0x134d 139 goto 142 @ 0x1350 0x12fe 140 eax = 0 0x1300 141 goto 176 @ 0x13f4 0x1350 142 xmm7 = [rsp + (rdi << 2) + 0x280].o 0x1359 143 xmm0 = [rsp + (rdi << 2) + 0x290].o 0x1362 144 xmm1 = xmm7 0x1366 145 xmm1 = xmm1 ^ xmm8 0x136b 146 xmm6 = xmm9 0x1370 147 xmm6 = _mm_cmpgt_epi32(xmm6, xmm1) 0x1374 148 xmm6 = _mm_packs_epi32(xmm6, xmm6) 0x1378 149 xmm6 = _mm_packs_epi16(xmm6, xmm6) 0x137c 150 xmm5 = xmm0 0x1380 151 xmm5 = xmm5 ^ xmm8 0x1385 152 xmm1 = xmm9 0x138a 153 xmm1 = _mm_cmpgt_epi32(xmm1, xmm5) 0x138e 154 xmm1 = _mm_packs_epi32(xmm1, xmm1) 0x1392 155 xmm1 = _mm_packs_epi16(xmm1, xmm1) 0x1396 156 xmm7 = xmm7 & xmm2 0x139a 157 xmm7 = _mm_packus_epi16(xmm7, xmm7) 0x139e 158 xmm7 = _mm_packus_epi16(xmm7, xmm7) 0x13a2 159 xmm0 = xmm0 & xmm2 0x13a6 160 xmm0 = _mm_packus_epi16(xmm0, xmm0) 0x13aa 161 xmm0 = _mm_packus_epi16(xmm0, xmm0) 0x13ae 162 xmm5 = xmm6 0x13b2 163 xmm5 = xmm5 & not.o(xmm3) 0x13b6 164 xmm6 = xmm6 & xmm4 0x13ba 165 xmm6 = xmm6 \| xmm5 0x13be 166 xmm6 = _mm_add_epi8(xmm6, xmm7) 0x13c2 167 xmm5 = xmm1 0x13c6 168 xmm5 = xmm5 & not.o(xmm3) 0x13ca 169 xmm1 = xmm1 & xmm4 0x13ce 170 xmm1 = xmm1 \| xmm5 0x13d2 171 xmm1 = _mm_add_epi8(xmm1, xmm0) 0x13d6 172 [rsp + rdi + 0x10].d = xmm6.d 0x13dc 173 [rsp + rdi + 0x14].d = xmm1.d 0x13e2 174 rdi = rdi + 8 0x13e9 175 if (rsi != rdi) then 142 @ 0x1350 else 179 @ 0x13f2 0x13f4 176 ecx = ecx 0x13f6 177 edx = 0x30 {""} 0x13fb 178 goto 180 @ 0x1400 0x13f2 179 if (rdx == 0) then 184 @ 0x1423 else 176 @ 0x13f4 0x1400 180 esi = [rsp + (rax << 2) + 0x280].d 0x1407 181 cond:0 = esi u< 0xa 0x140a 182 edi = 0x37 {""} 0x140f 183 if (cond:0) then 189 else 191 @ 0x1412 0x1423 184 eax = r14d 0x1426 185 r15 = rsp + rax 0x142a 186 r15 = r15 + 0x10 0x142e 187 ebx = 0 0x142e 188 goto 195 @ 0x1430 0x140f 189 edi = edx 0x140f 190 goto 191 @ 0x1412 0x1412 191 dil = dil + sil 0x1415 192 [rsp + rax + 0x10].b = dil 0x141a 193 rax = rax + 1 0x1421 194 if (rcx != rax) then 180 @ 0x1400 else 184 @ 0x1423 0x1430 195 edi = sx.d([r15 + rbx].b) 0x1435 196 call(0x1050) 0x143a 197 rax = rbx - 1 0x143e 198 ebx = ebx + r14d 0x1441 199 cond:1 = ebx s> 0 0x1443 200 rbx = rax 0x1446 201 if (cond:1) then 195 @ 0x1430 else 19 @ 0x1448 int64_t _fini(): 0x1474 0 rsp = rsp - 8 0x1478 1 rsp = rsp + 8 0x147c 2 <return> jump(pop)	POJ_55
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t getchar(): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"HhH="} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 rsp = rsp - 0x68 0x1164 1 rdi = 0x2040 {"%d %d %d"} 0x116b 2 rsi = rsp + 0xc {var_5c} 0x1170 3 rdx = rsp + 8 {var_60} 0x1175 4 rcx = rsp + 4 {var_64} 0x117a 5 eax = 0 0x117c 6 call(0x1050) 0x1181 7 xmm0 = [0x2010].o 0x1188 8 [rsp + 0x18 {var_50}].o = xmm0 0x118d 9 xmm0 = [0x2020].o 0x1195 10 [rsp + 0x28 {var_40}].o = xmm0 0x119b 11 rax = 0x1e0000001f {""} 0x11a5 12 [rsp + 0x38 {var_30}].q = rax 0x11aa 13 [rsp + 0x40 {var_28}].d = 0x1f {""} 0x11b2 14 eax = [rsp + 8 {var_60}].d 0x11b9 15 if (eax s<= 1) then 16 @ 0x11e2 else 18 @ 0x11bb 0x11e2 16 esi = [rsp + 4 {var_64}].d 0x11e6 17 goto 20 @ 0x133c 0x11bb 18 esi = 0x1f {""} 0x11c3 19 if (eax == 2) then 30 @ 0x12fd else 32 @ 0x11c9 0x133c 20 rdi = 0x2049 {"%d\n"} 0x1343 21 eax = 0 0x1345 22 call(0x1030) 0x134a 23 eax = 0 0x134c 24 call(0x1040) 0x1351 25 eax = 0 0x1353 26 call(0x1040) 0x1358 27 eax = 0 0x135a 28 rsp = rsp + 0x68 0x135e 29 <return> jump(pop) 0x12fd 30 esi = esi + [rsp + 4 {var_64}].d 0x1304 31 if (eax s< 3) then 20 @ 0x133c else 34 @ 0x1306 0x11c9 32 r8 = rax - 2 0x11d1 33 if (r8 u>= 8) then 49 @ 0x11eb else 58 @ 0x11d3 0x1306 34 eax = [rsp + 0xc {var_5c}].d 0x130c 35 cl = (al & 3) == 0 0x130f 36 eax = eax * -0x3d70a3d7 0x1315 37 eax = eax + 0x51eb850 0x131a 38 edx = eax 0x131c 39 edx = ror.d(edx, 2) 0x1325 40 dl = edx u>= 0x28f5c29 0x1328 41 dl = dl & cl 0x132a 42 eax = ror.d(eax, 4) 0x132d 43 flag:c = eax u< 0xa3d70b 0x1332 44 al = flag:c 0x1335 45 al = al \| dl 0x1337 46 eax = zx.d(al) 0x133a 47 esi = esi + eax 0x133a 48 goto 20 @ 0x133c 0x11eb 49 rcx = r8 0x11ee 50 rcx = rcx & 0xfffffffffffffff8 0x11f2 51 rdi = rcx - 8 0x11f6 52 rsi = rdi 0x11f9 53 rsi = rsi u>> 3 0x11fd 54 rsi = rsi + 1 0x1201 55 edx = esi 0x1203 56 edx = edx & 3 0x120a 57 if (rdi u>= 0x18) then 61 @ 0x121c else 66 @ 0x120c 0x11d3 58 esi = 0x1f {""} 0x11d8 59 ecx = 2 0x11dd 60 goto 70 @ 0x12f0 0x121c 61 rsi = rsi & 0xfffffffffffffffc 0x1220 62 xmm1 = 0 0x1224 63 xmm0 = [0x2030].o 0x122c 64 edi = 0 0x122e 65 goto 73 @ 0x1230 0x120c 66 xmm1 = 0 0x1210 67 xmm0 = [0x2030].o 0x1218 68 edi = 0 0x121a 69 goto 93 @ 0x1290 0x12f0 70 esi = esi + [rsp + (rcx << 2) + 0x10].d 0x12f4 71 rcx = rcx + 1 0x12fb 72 if (rax != rcx) then 70 @ 0x12f0 else 30 @ 0x12fd 0x1230 73 xmm2 = [rsp + (rdi << 2) + 0x18].o 0x1236 74 xmm2 = _mm_add_epi32(xmm2, xmm0) 0x123a 75 xmm0 = [rsp + (rdi << 2) + 0x28].o 0x1240 76 xmm0 = _mm_add_epi32(xmm0, xmm1) 0x1244 77 xmm1 = [rsp + (rdi << 2) + 0x38].o 0x124a 78 xmm3 = [rsp + (rdi << 2) + 0x48].o 0x1250 79 xmm4 = [rsp + (rdi << 2) + 0x58].o 0x1256 80 xmm4 = _mm_add_epi32(xmm4, xmm1) 0x125a 81 xmm4 = _mm_add_epi32(xmm4, xmm2) 0x125e 82 xmm2 = [rsp + (rdi << 2) + 0x68].o 0x1264 83 xmm2 = _mm_add_epi32(xmm2, xmm3) 0x1268 84 xmm2 = _mm_add_epi32(xmm2, xmm0) 0x126c 85 xmm0 = [rsp + (rdi << 2) + 0x78].o 0x1272 86 xmm0 = _mm_add_epi32(xmm0, xmm4) 0x1276 87 xmm1 = [rsp + (rdi << 2) + 0x88].o 0x127f 88 xmm1 = _mm_add_epi32(xmm1, xmm2) 0x1283 89 rdi = rdi + 0x20 0x1287 90 temp0.q = rsi 0x1287 91 rsi = rsi - 4 0x128b 92 if (temp0.q != 4) then 73 @ 0x1230 else 93 @ 0x1290 0x1290 93 if (rdx == 0) then 94 @ 0x12ca else 101 @ 0x129c 0x12ca 94 xmm0 = _mm_add_epi32(xmm0, xmm1) 0x12ce 95 xmm1 = _mm_shuffle_epi32(xmm0, 0xee) 0x12d3 96 xmm1 = _mm_add_epi32(xmm1, xmm0) 0x12d7 97 xmm0 = _mm_shuffle_epi32(xmm1, 0x55) 0x12dc 98 xmm0 = _mm_add_epi32(xmm0, xmm1) 0x12e0 99 esi = xmm0.d 0x12e7 100 if (r8 == rcx) then 30 @ 0x12fd else 102 @ 0x12e9 0x129c 101 goto 104 @ 0x12a0 0x12e9 102 rcx = rcx \| 2 0x12ed 103 goto 70 @ 0x12f0 0x12a0 104 rsi = rdi << 2 0x12a8 105 rsi = rsi \| 8 0x12ac 106 xmm2 = [rsp + rsi + 0x10].o 0x12b2 107 xmm0 = _mm_add_epi32(xmm0, xmm2) 0x12b6 108 xmm2 = [rsp + rsi + 0x20].o 0x12bc 109 xmm1 = _mm_add_epi32(xmm1, xmm2) 0x12c0 110 rdi = rdi + 8 0x12c4 111 temp1.q = rdx 0x12c4 112 rdx = rdx - 1 0x12c8 113 if (temp1.q != 1) then 104 @ 0x12a0 else 94 @ 0x12ca int64_t _fini(): 0x1364 0 rsp = rsp - 8 0x1368 1 rsp = rsp + 8 0x136c 2 <return> jump(pop)	POJ_11
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHHP"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x350 0x116b 3 [rbp - 4 {var_c}].d = 0 0x1172 4 rdi = rbp - 0xd0 {var_d8} 0x1179 5 esi = 0 0x117b 6 edx = 0xc8 {""} 0x1180 7 call(0x1040) 0x1185 8 rdi = rbp - 0x1a0 {var_1a8} 0x118c 9 esi = 0 0x118e 10 edx = 0xc8 {""} 0x1193 11 call(0x1040) 0x1198 12 rdi = rbp - 0x330 {var_338} 0x119f 13 esi = 0 0x11a1 14 edx = 0x190 {""} 0x11a6 15 call(0x1040) 0x11ab 16 rax = rbp - 0x334 {var_33c} 0x11b2 17 [rbp - 0x340 {var_348}].q = rax {var_33c} 0x11b9 18 rax = rbp - 0x338 {var_340} 0x11c0 19 [rbp - 0x348 {var_350}].q = rax {var_340} 0x11c7 20 rdi = rbp - 0xd0 {var_d8} 0x11ce 21 rsi = rbp - 0x1a0 {var_1a8} 0x11d5 22 rdx = [rbp - 0x340 {var_348}].q {var_33c} 0x11dc 23 rcx = [rbp - 0x348 {var_350}].q {var_340} 0x11e3 24 call(0x1260) 0x11e8 25 rdi = rbp - 0xd0 {var_d8} 0x11ef 26 rsi = [rbp - 0x340 {var_348}].q {var_33c} 0x11f6 27 call(0x1320) 0x11fb 28 rdi = rbp - 0x1a0 {var_1a8} 0x1202 29 rsi = [rbp - 0x348 {var_350}].q {var_340} 0x1209 30 call(0x1320) 0x120e 31 rdi = rbp - 0xd0 {var_d8} 0x1215 32 rsi = rbp - 0x1a0 {var_1a8} 0x121c 33 rdx = rbp - 0x330 {var_338} 0x1223 34 rcx = [rbp - 0x340 {var_348}].q {var_33c} 0x122a 35 r8 = [rbp - 0x348 {var_350}].q {var_340} 0x1231 36 call(0x13f0) 0x1236 37 rdi = rbp - 0x330 {var_338} 0x123d 38 rsi = [rbp - 0x340 {var_348}].q {var_33c} 0x1244 39 rdx = [rbp - 0x348 {var_350}].q {var_340} 0x124b 40 call(0x14a0) 0x1250 41 eax = 0 0x1252 42 rsp = rsp + 0x350 0x1259 43 rbp = pop 0x125a 44 <return> jump(pop) uint64_t input(int64_t arg1, int64_t arg2, int32_t* arg3, int32_t* arg4): 0x1260 0 push(rbp) 0x1261 1 rbp = rsp {__saved_rbp} 0x1264 2 rsp = rsp - 0x30 0x1268 3 [rbp - 8 {var_10}].q = rdi 0x126c 4 [rbp - 0x10 {var_18}].q = rsi 0x1270 5 [rbp - 0x18 {var_20}].q = rdx 0x1274 6 [rbp - 0x20 {var_28}].q = rcx 0x1278 7 rsi = [rbp - 0x18 {var_20}].q 0x127c 8 rdx = [rbp - 0x20 {var_28}].q 0x1280 9 rdi = 0x2004 {"%d %d"} 0x1287 10 al = 0 0x1289 11 call(0x1050) 0x128e 12 [rbp - 0x24 {var_2c}].d = 0 0x128e 13 goto 14 @ 0x1295 0x1295 14 eax = [rbp - 0x24 {var_2c}].d 0x1298 15 rcx = [rbp - 0x18 {var_20}].q 0x129e 16 if (eax s>= [rcx].d) then 17 @ 0x12cf else 19 @ 0x12a4 0x12cf 17 [rbp - 0x24 {var_2c_1}].d = 0 0x12cf 18 goto 30 @ 0x12d6 0x12a4 19 rsi = [rbp - 8 {var_10}].q 0x12a8 20 rax = sx.q([rbp - 0x24 {var_2c}].d) 0x12ac 21 rax = rax << 2 0x12b0 22 rsi = rsi + rax 0x12b3 23 rdi = 0x2007 {"%d"} 0x12ba 24 al = 0 0x12bc 25 call(0x1050) 0x12c1 26 eax = [rbp - 0x24 {var_2c}].d 0x12c4 27 eax = eax + 1 0x12c7 28 [rbp - 0x24 {var_2c}].d = eax 0x12ca 29 goto 14 @ 0x1295 0x12d6 30 eax = [rbp - 0x24 {var_2c_1}].d 0x12d9 31 rcx = [rbp - 0x20 {var_28}].q 0x12df 32 if (eax s>= [rcx].d) then 33 @ 0x1310 else 36 @ 0x12e5 0x1310 33 rsp = rsp + 0x30 0x1314 34 rbp = pop 0x1315 35 <return> jump(pop) 0x12e5 36 rsi = [rbp - 0x10 {var_18}].q 0x12e9 37 rax = sx.q([rbp - 0x24 {var_2c_1}].d) 0x12ed 38 rax = rax << 2 0x12f1 39 rsi = rsi + rax 0x12f4 40 rdi = 0x2007 {"%d"} 0x12fb 41 al = 0 0x12fd 42 call(0x1050) 0x1302 43 eax = [rbp - 0x24 {var_2c_1}].d 0x1305 44 eax = eax + 1 0x1308 45 [rbp - 0x24 {var_2c_1}].d = eax 0x130b 46 goto 30 @ 0x12d6 uint64_t sort(int64_t arg1, int32_t* arg2): 0x1320 0 push(rbp) 0x1321 1 rbp = rsp {__saved_rbp} 0x1324 2 [rbp - 8 {var_10}].q = rdi 0x1328 3 [rbp - 0x10 {var_18}].q = rsi 0x132c 4 [rbp - 0x14 {var_1c}].d = 0 0x132c 5 goto 6 @ 0x1333 0x1333 6 eax = [rbp - 0x14 {var_1c}].d 0x1336 7 rcx = [rbp - 0x10 {var_18}].q 0x133a 8 ecx = [rcx].d 0x133c 9 ecx = ecx - 1 0x1341 10 if (eax s>= ecx) then 11 @ 0x13eb else 13 @ 0x1347 0x13eb 11 rbp = pop 0x13ec 12 <return> jump(pop) 0x1347 13 eax = [rbp - 0x14 {var_1c}].d 0x134a 14 [rbp - 0x1c {var_24_1}].d = eax 0x134d 15 eax = [rbp - 0x14 {var_1c}].d 0x1350 16 eax = eax + 1 0x1353 17 [rbp - 0x18 {var_20_1}].d = eax 0x1353 18 goto 19 @ 0x1356 0x1356 19 eax = [rbp - 0x18 {var_20_1}].d 0x1359 20 rcx = [rbp - 0x10 {var_18}].q 0x135f 21 if (eax s>= [rcx].d) then 22 @ 0x139a else 24 @ 0x1365 0x139a 22 eax = [rbp - 0x1c {var_24_1}].d 0x13a0 23 if (eax == [rbp - 0x14 {var_1c}].d) then 30 @ 0x13d8 else 31 @ 0x13a6 0x1365 24 rax = [rbp - 8 {var_10}].q 0x1369 25 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x136d 26 eax = [rax + (rcx << 2)].d 0x1370 27 rcx = [rbp - 8 {var_10}].q 0x1374 28 rdx = sx.q([rbp - 0x18 {var_20_1}].d) 0x137b 29 if (eax s<= [rcx + (rdx << 2)].d) then 46 @ 0x1387 else 47 @ 0x1381 0x13d8 30 goto 50 @ 0x13dd 0x13a6 31 rax = [rbp - 8 {var_10}].q 0x13aa 32 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x13ae 33 eax = [rax + (rcx << 2)].d 0x13b1 34 [rbp - 0x20 {var_28_1}].d = eax 0x13b4 35 rax = [rbp - 8 {var_10}].q 0x13b8 36 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x13bc 37 edx = [rax + (rcx << 2)].d 0x13bf 38 rax = [rbp - 8 {var_10}].q 0x13c3 39 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x13c7 40 [rax + (rcx << 2)].d = edx 0x13ca 41 edx = [rbp - 0x20 {var_28_1}].d 0x13cd 42 rax = [rbp - 8 {var_10}].q 0x13d1 43 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x13d5 44 [rax + (rcx << 2)].d = edx 0x13d5 45 goto 30 @ 0x13d8 0x1387 46 goto 54 @ 0x138c 0x1381 47 eax = [rbp - 0x18 {var_20_1}].d 0x1384 48 [rbp - 0x1c {var_24_1}].d = eax 0x1384 49 goto 46 @ 0x1387 0x13dd 50 eax = [rbp - 0x14 {var_1c}].d 0x13e0 51 eax = eax + 1 0x13e3 52 [rbp - 0x14 {var_1c}].d = eax 0x13e6 53 goto 6 @ 0x1333 0x138c 54 eax = [rbp - 0x18 {var_20_1}].d 0x138f 55 eax = eax + 1 0x1392 56 [rbp - 0x18 {var_20_1}].d = eax 0x1395 57 goto 19 @ 0x1356 uint64_t connect(int64_t arg1, int64_t arg2, int64_t arg3, int32_t* arg4, int64_t arg5): 0x13f0 0 push(rbp) 0x13f1 1 rbp = rsp {__saved_rbp} 0x13f4 2 [rbp - 8 {var_10}].q = rdi 0x13f8 3 [rbp - 0x10 {var_18}].q = rsi 0x13fc 4 [rbp - 0x18 {var_20}].q = rdx 0x1400 5 [rbp - 0x20 {var_28}].q = rcx 0x1404 6 [rbp - 0x28 {var_30}].q = r8 0x1408 7 [rbp - 0x30 {var_38}].d = 0 0x140f 8 [rbp - 0x2c {var_34}].d = 0 0x140f 9 goto 10 @ 0x1416 0x1416 10 eax = [rbp - 0x2c {var_34}].d 0x1419 11 rcx = [rbp - 0x20 {var_28}].q 0x141f 12 if (eax s>= [rcx].d) then 13 @ 0x1449 else 17 @ 0x1425 0x1449 13 rax = [rbp - 0x20 {var_28}].q 0x144d 14 eax = [rax].d 0x144f 15 [rbp - 0x2c {var_34_1}].d = eax 0x144f 16 goto 27 @ 0x1452 0x1425 17 rax = [rbp - 8 {var_10}].q 0x1429 18 rcx = sx.q([rbp - 0x2c {var_34}].d) 0x142d 19 edx = [rax + (rcx << 2)].d 0x1430 20 rax = [rbp - 0x18 {var_20}].q 0x1434 21 rcx = sx.q([rbp - 0x2c {var_34}].d) 0x1438 22 [rax + (rcx << 2)].d = edx 0x143b 23 eax = [rbp - 0x2c {var_34}].d 0x143e 24 eax = eax + 1 0x1441 25 [rbp - 0x2c {var_34}].d = eax 0x1444 26 goto 10 @ 0x1416 0x1452 27 eax = [rbp - 0x2c {var_34_1}].d 0x1455 28 rcx = [rbp - 0x20 {var_28}].q 0x1459 29 ecx = [rcx].d 0x145b 30 rdx = [rbp - 0x28 {var_30}].q 0x145f 31 ecx = ecx + [rdx].d 0x1463 32 if (eax s>= ecx) then 33 @ 0x1496 else 35 @ 0x1469 0x1496 33 rbp = pop 0x1497 34 <return> jump(pop) 0x1469 35 rax = [rbp - 0x10 {var_18}].q 0x146d 36 rcx = sx.q([rbp - 0x30 {var_38}].d) 0x1471 37 edx = [rax + (rcx << 2)].d 0x1474 38 rax = [rbp - 0x18 {var_20}].q 0x1478 39 rcx = sx.q([rbp - 0x2c {var_34_1}].d) 0x147c 40 [rax + (rcx << 2)].d = edx 0x147f 41 eax = [rbp - 0x2c {var_34_1}].d 0x1482 42 eax = eax + 1 0x1485 43 [rbp - 0x2c {var_34_1}].d = eax 0x1488 44 eax = [rbp - 0x30 {var_38}].d 0x148b 45 eax = eax + 1 0x148e 46 [rbp - 0x30 {var_38}].d = eax 0x1491 47 goto 27 @ 0x1452 int64_t output(int64_t arg1, int32_t* arg2, int64_t arg3): 0x14a0 0 push(rbp) 0x14a1 1 rbp = rsp {__saved_rbp} 0x14a4 2 rsp = rsp - 0x20 0x14a8 3 [rbp - 8 {var_10}].q = rdi 0x14ac 4 [rbp - 0x10 {var_18}].q = rsi 0x14b0 5 [rbp - 0x18 {var_20}].q = rdx 0x14b4 6 rax = [rbp - 0x10 {var_18}].q 0x14b8 7 eax = [rax].d 0x14ba 8 rcx = [rbp - 0x18 {var_20}].q 0x14be 9 eax = eax + [rcx].d 0x14c0 10 [rbp - 0x20 {var_28}].d = eax 0x14c3 11 [rbp - 0x1c {var_24}].d = 0 0x14c3 12 goto 13 @ 0x14ca 0x14ca 13 eax = [rbp - 0x1c {var_24}].d 0x14cd 14 ecx = [rbp - 0x20 {var_28}].d 0x14d0 15 ecx = ecx - 1 0x14d5 16 if (eax s>= ecx) then 17 @ 0x1502 else 28 @ 0x14db 0x1502 17 rax = [rbp - 8 {var_10}].q 0x1506 18 ecx = [rbp - 0x20 {var_28}].d 0x1509 19 ecx = ecx - 1 0x150c 20 rcx = sx.q(ecx) 0x150f 21 esi = [rax + (rcx << 2)].d 0x1512 22 rdi = 0x2007 {"%d"} 0x1519 23 al = 0 0x151b 24 call(0x1030) 0x1520 25 rsp = rsp + 0x20 0x1524 26 rbp = pop 0x1525 27 <return> jump(pop) 0x14db 28 rax = [rbp - 8 {var_10}].q 0x14df 29 rcx = sx.q([rbp - 0x1c {var_24}].d) 0x14e3 30 esi = [rax + (rcx << 2)].d 0x14e6 31 rdi = 0x200a {"%d "} 0x14ed 32 al = 0 0x14ef 33 call(0x1030) 0x14f4 34 eax = [rbp - 0x1c {var_24}].d 0x14f7 35 eax = eax + 1 0x14fa 36 [rbp - 0x1c {var_24}].d = eax 0x14fd 37 goto 13 @ 0x14ca int64_t _fini(): 0x152c 0 rsp = rsp - 8 0x1530 1 rsp = rsp + 8 0x1534 2 <return> jump(pop)	POJ_8
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1190 {"UAWAVSPH=f"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) uint64_t sushu(int32_t arg1): 0x1150 0 ecx = 1 0x1158 1 if (edi s< 3) then 2 @ 0x1181 else 4 @ 0x115a 0x1181 2 eax = ecx 0x1183 3 <return> jump(pop) 0x115a 4 esi = 2 0x115f 5 ecx = 1 0x116e 6 goto 7 @ 0x1170 0x1170 7 eax = edi 0x1172 8 temp2.d:temp3.d = sx.q(eax) 0x1172 9 edx = temp2.d 0x1172 10 eax = temp3.d 0x1173 11 temp4.d = edx 0x1173 12 temp5.d = eax 0x1173 13 temp0.d = divs.dp.d(temp4.d:temp5.d, esi) 0x1173 14 temp6.d = edx 0x1173 15 temp7.d = eax 0x1173 16 temp1.d = mods.dp.d(temp6.d:temp7.d, esi) 0x1173 17 eax = temp0.d 0x1173 18 edx = temp1.d 0x1177 19 if (edx == 0) then 20 else 22 @ 0x117a 0x1177 20 ecx = edx 0x1177 21 goto 22 @ 0x117a 0x117a 22 esi = esi + 1 0x117f 23 if (edi != esi) then 7 @ 0x1170 else 2 @ 0x1181 int32_t main(int32_t argc, char argv, char envp): 0x1190 0 push(rbp) 0x1191 1 push(r15) 0x1193 2 push(r14) 0x1195 3 push(rbx) 0x1196 4 push(rax) 0x1197 5 rdi = 0x2004 {"%d"} 0x119e 6 r15d = 0 0x11a1 7 rsi = rsp + 4 {var_28+0x4} 0x11a6 8 eax = 0 0x11a8 9 call(0x1040) 0x11b2 10 if ([rsp + 4 {var_28+0x4}].d s>= 4) then 11 @ 0x11d4 else 16 @ 0x11b7 0x11d4 11 ebx = 4 0x11d9 12 r14 = 0x2007 {"%d %d\n"} 0x11e0 13 ebp = 0 0x11e2 14 r15d = 0 0x11e5 15 goto 17 @ 0x11fe 0x11b7 16 if (r15d != 0) then 20 @ 0x11c7 else 27 @ 0x11b9 0x11fe 17 esi = (rbx - 2).d 0x1201 18 ecx = 1 0x1209 19 if (ebx u< 5) then 31 @ 0x123f else 32 @ 0x120b 0x11c7 20 eax = 0 0x11c9 21 rsp = rsp + 8 0x11cd 22 rbx = pop 0x11ce 23 r14 = pop 0x11d0 24 r15 = pop 0x11d2 25 rbp = pop 0x11d3 26 <return> jump(pop) 0x11b9 27 rdi = 0x200e {"empty"} 0x11c0 28 eax = 0 0x11c2 29 call(0x1030) 0x11c2 30 goto 20 @ 0x11c7 0x123f 31 if (ecx == 0) then 35 @ 0x11f0 else 40 @ 0x1241 0x120b 32 edi = 2 0x1210 33 ecx = 1 0x121f 34 goto 43 @ 0x1220 0x11f0 35 eax = (rbx + 1).d 0x11f3 36 ebp = ebp - 1 0x11f6 37 cond:0 = ebx s>= [rsp + 4 {var_28+0x4}].d 0x11fa 38 ebx = eax 0x11fc 39 if (cond:0) then 16 @ 0x11b7 else 17 @ 0x11fe 0x1241 40 edi = 2 0x1246 41 ecx = 1 0x124b 42 goto 55 @ 0x1250 0x1220 43 eax = esi 0x1222 44 edx = 0 0x1224 45 temp2.d = edi 0x1224 46 temp3.d = edx 0x1224 47 temp4.d = eax 0x1224 48 temp0.d = divu.dp.d(temp3.d:temp4.d, temp2.d) 0x1224 49 temp5.d = edx 0x1224 50 temp6.d = eax 0x1224 51 temp1.d = modu.dp.d(temp5.d:temp6.d, temp2.d) 0x1224 52 eax = temp0.d 0x1224 53 edx = temp1.d 0x1228 54 if (edx == 0) then 67 else 69 @ 0x122b 0x1250 55 eax = ebx 0x1252 56 edx = 0 0x1254 57 temp2.d = edi 0x1254 58 temp7.d = edx 0x1254 59 temp8.d = eax 0x1254 60 temp0.d = divu.dp.d(temp7.d:temp8.d, temp2.d) 0x1254 61 temp9.d = edx 0x1254 62 temp10.d = eax 0x1254 63 temp1.d = modu.dp.d(temp9.d:temp10.d, temp2.d) 0x1254 64 eax = temp0.d 0x1254 65 edx = temp1.d 0x1258 66 if (edx == 0) then 75 else 77 @ 0x125b 0x1228 67 ecx = edx 0x1228 68 goto 69 @ 0x122b 0x122b 69 eax = (rdi + rbp).d 0x122e 70 eax = eax + 1 0x1231 71 edx = edi 0x1233 72 edx = edx + 1 0x1236 73 edi = edx 0x123b 74 if (eax != 2) then 43 @ 0x1220 else 31 @ 0x123f 0x1258 75 ecx = edx 0x1258 76 goto 77 @ 0x125b 0x125b 77 eax = (rdi + rbp).d 0x125e 78 eax = eax + 1 0x1261 79 edx = edi 0x1263 80 edx = edx + 1 0x1266 81 edi = edx 0x126b 82 if (eax != 4) then 55 @ 0x1250 else 83 @ 0x126f 0x126f 83 if (ecx == 0) then 35 @ 0x11f0 else 84 @ 0x1275 0x1275 84 rdi = r14 0x1278 85 edx = ebx 0x127a 86 eax = 0 0x127c 87 call(0x1030) 0x1281 88 r15d = 1 0x1287 89 goto 35 @ 0x11f0 int64_t _fini(): 0x1290 0 rsp = rsp - 8 0x1294 1 rsp = rsp + 8 0x1298 2 <return> jump(pop)	POJ_60
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0xa0 0x115c 4 ebx = 4 0x1161 5 r14 = 0x2034 {"%d %d %d"} 0x1168 6 goto 7 @ 0x1170 0x1170 7 rsi = rsp + rbx 0x1174 8 rsi = rsi + 0x80 0x117b 9 rdx = rsp + rbx 0x117f 10 rdx = rdx + 0x60 0x1183 11 rcx = rsp + rbx 0x1187 12 rdi = r14 0x118a 13 eax = 0 0x118c 14 call(0x1040) 0x1191 15 rbx = rbx + 4 0x1199 16 if (rbx != 0x18) then 7 @ 0x1170 else 17 @ 0x119b 0x119b 17 r14 = 0x203d {"%d\n"} 0x11a2 18 r15 = 0x2004 {""} 0x11a9 19 ebx = 0 0x11ab 20 goto 21 @ 0x11b0 0x11b0 21 eax = [rsp + rbx + 0x84].d 0x11b9 22 cl = (al & 3) == 0 0x11bc 23 eax = eax * -0x3d70a3d7 0x11c2 24 eax = eax + 0x51eb850 0x11c7 25 edx = eax 0x11c9 26 edx = ror.d(edx, 2) 0x11d2 27 dl = edx u>= 0x28f5c29 0x11d5 28 dl = dl & cl 0x11d7 29 eax = ror.d(eax, 4) 0x11da 30 flag:c = eax u< 0xa3d70b 0x11df 31 al = flag:c 0x11e2 32 al = al \| dl 0x11e4 33 eax = zx.d(al) 0x11e7 34 [rsp + rbx + 0x24].d = eax 0x11eb 35 eax = [rsp + rbx + 0x64].d 0x11ef 36 eax = eax - 1 0x11f5 37 if (eax u> 0xb) then 38 @ 0x12d4 else 44 @ 0x11fb 0x12d4 38 esi = [rsp + rbx + 0x44].d 0x12d8 39 rdi = r14 0x12db 40 eax = 0 0x12dd 41 call(0x1030) 0x12e2 42 rbx = rbx + 4 0x12ea 43 if (rbx != 0x14) then 21 @ 0x11b0 else 47 @ 0x12f0 0x11fb 44 rax = sx.q([r15 + (rax << 2)].d) 0x11ff 45 rax = rax + r15 0x1202 46 jump(rax => 53 @ 0x1204, 55 @ 0x120d, 58 @ 0x1219, 63 @ 0x122b, 68 @ 0x123d, 73 @ 0x124f, 78 @ 0x1260, 83 @ 0x1271, 88 @ 0x1282, 93 @ 0x1293, 98 @ 0x12a4, 103 @ 0x12b5) 0x12f0 47 eax = 0 0x12f2 48 rsp = rsp + 0xa0 0x12f9 49 rbx = pop 0x12fa 50 r14 = pop 0x12fc 51 r15 = pop 0x12fe 52 <return> jump(pop) 0x1204 53 eax = [rsp + rbx + 4].d 0x1208 54 goto 108 @ 0x12d0 0x120d 55 eax = [rsp + rbx + 4].d 0x1211 56 eax = eax + 0x1f 0x1214 57 goto 108 @ 0x12d0 0x1219 58 eax = [rsp + rbx + 4].d 0x121d 59 ecx = [rsp + rbx + 0x24].d 0x1221 60 eax = eax + ecx 0x1223 61 eax = eax + 0x3b 0x1226 62 goto 108 @ 0x12d0 0x122b 63 eax = [rsp + rbx + 4].d 0x122f 64 ecx = [rsp + rbx + 0x24].d 0x1233 65 eax = eax + ecx 0x1235 66 eax = eax + 0x5a 0x1238 67 goto 108 @ 0x12d0 0x123d 68 eax = [rsp + rbx + 4].d 0x1241 69 ecx = [rsp + rbx + 0x24].d 0x1245 70 eax = eax + ecx 0x1247 71 eax = eax + 0x78 0x124a 72 goto 108 @ 0x12d0 0x124f 73 eax = [rsp + rbx + 4].d 0x1253 74 ecx = [rsp + rbx + 0x24].d 0x1257 75 eax = eax + ecx 0x1259 76 eax = eax + 0x97 0x125e 77 goto 108 @ 0x12d0 0x1260 78 eax = [rsp + rbx + 4].d 0x1264 79 ecx = [rsp + rbx + 0x24].d 0x1268 80 eax = eax + ecx 0x126a 81 eax = eax + 0xb5 0x126f 82 goto 108 @ 0x12d0 0x1271 83 eax = [rsp + rbx + 4].d 0x1275 84 ecx = [rsp + rbx + 0x24].d 0x1279 85 eax = eax + ecx 0x127b 86 eax = eax + 0xd4 0x1280 87 goto 108 @ 0x12d0 0x1282 88 eax = [rsp + rbx + 4].d 0x1286 89 ecx = [rsp + rbx + 0x24].d 0x128a 90 eax = eax + ecx 0x128c 91 eax = eax + 0xf3 0x1291 92 goto 108 @ 0x12d0 0x1293 93 eax = [rsp + rbx + 4].d 0x1297 94 ecx = [rsp + rbx + 0x24].d 0x129b 95 eax = eax + ecx 0x129d 96 eax = eax + 0x111 0x12a2 97 goto 108 @ 0x12d0 0x12a4 98 eax = [rsp + rbx + 4].d 0x12a8 99 ecx = [rsp + rbx + 0x24].d 0x12ac 100 eax = eax + ecx 0x12ae 101 eax = eax + 0x130 0x12b3 102 goto 108 @ 0x12d0 0x12b5 103 eax = [rsp + rbx + 4].d 0x12b9 104 ecx = [rsp + rbx + 0x24].d 0x12bd 105 eax = eax + ecx 0x12bf 106 eax = eax + 0x14e 0x12ce 107 goto 108 @ 0x12d0 0x12d0 108 [rsp + rbx + 0x44].d = eax 0x12d0 109 goto 38 @ 0x12d4 int64_t _fini(): 0x1304 0 rsp = rsp - 8 0x1308 1 rsp = rsp + 8 0x130c 2 <return> jump(pop)	POJ_11
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 rsp = rsp - 0x9c88 0x1161 7 rdi = 0x2004 {"%d%d"} 0x1168 8 rsi = rsp + 0xc {var_9cac} 0x116d 9 rdx = rsp + 0x10 {var_9ca8} 0x1172 10 eax = 0 0x1174 11 call(0x1040) 0x1179 12 ecx = [rsp + 0xc {var_9cac}].d 0x117f 13 if (ecx s<= 0) then 14 @ 0x11e5 else 25 @ 0x1181 0x11e5 14 r15 = rsp + 0x1d0 {var_9ae8} 0x11ed 15 r12d = 0xfffffffe {""} 0x11f3 16 rax = rsp + 0x40 {var_9c78} 0x11f8 17 [rsp + 0x18 {var_9ca0}].d = -1 0x1200 18 [rsp + 0x1c {var_9c9c}].d = 1 0x1208 19 [rsp + 0x30 {var_9c88}].q = rax {var_9c78} 0x120d 20 rbp = rax {var_9c78} 0x1210 21 r13d = 0 0x1213 22 eax = 0 0x1215 23 r14d = 0 0x1218 24 goto 27 @ 0x125c 0x1181 25 eax = [rsp + 0x10 {var_9ca8}].d 0x1187 26 if (eax s<= 0) then 14 @ 0x11e5 else 32 @ 0x1189 0x125c 27 [rsp + 0x14 {var_9ca4_1}].d = eax 0x1260 28 rcx = sx.q([rsp + 0x10 {var_9ca8}].d) 0x1265 29 rax = rcx 0x1268 30 rax = rax - r13 0x126e 31 if (r13 s>= rax) then 36 @ 0x12c0 else 46 @ 0x1270 0x1189 32 r15 = rsp + 0x40 {var_9c78} 0x118e 33 r14 = 0x2006 {"%d"} 0x1195 34 r12d = 0 0x1198 35 goto 48 @ 0x11b5 0x12c0 36 [rsp + 0x20 {var_9c98_1}].q = r15 0x12c5 37 [rsp + 0x28 {var_9c90_1}].q = rbp 0x12ca 38 rbx = r12 0x12cd 39 rsi = r13 + 1 0x12d1 40 eax = [rsp + 0xc {var_9cac}].d 0x12d5 41 edx = eax 0x12d7 42 edx = edx - r13d 0x12da 43 rdx = sx.q(edx) 0x12dd 44 [rsp + 0x38 {var_9c80_1}].q = rsi 0x12e5 45 if (rsi s>= rdx) then 49 @ 0x1350 else 57 @ 0x12e7 0x1270 46 ebx = 0 0x1272 47 goto 60 @ 0x1291 0x11b5 48 if (eax s<= 0) then 63 @ 0x11a0 else 67 @ 0x11b7 0x1350 49 esi = [rsp + 0x14 {var_9ca4_1}].d 0x1354 50 edx = esi 0x1356 51 esi = esi - 2 0x1359 52 [rsp + 0x14 {var_9ca4_2}].d = esi 0x135d 53 edx = edx + ecx 0x135f 54 edx = edx - 2 0x1362 55 rdx = sx.q(edx) 0x1368 56 if (r13 s<= rdx) then 70 @ 0x1380 else 77 @ 0x136a 0x12e7 57 r15d = [rsp + 0x1c {var_9c9c}].d 0x12ec 58 r12 = [rsp + 0x20 {var_9c98_1}].q 0x12f1 59 goto 81 @ 0x1319 0x1291 60 eax = [rsp + 0xc {var_9cac}].d 0x1295 61 eax = eax * ecx 0x129b 62 if (r14d == eax) then 84 @ 0x1280 else 89 @ 0x129d 0x11a0 63 r12 = r12 + 1 0x11a4 64 rdx = sx.q(ecx) 0x11a7 65 r15 = r15 + 0x190 0x11b1 66 if (r12 s>= rdx) then 14 @ 0x11e5 else 48 @ 0x11b5 0x11b7 67 rbx = r15 0x11ba 68 ebp = 0 0x11bc 69 goto 96 @ 0x11c0 0x1380 70 r12 = rbx 0x1383 71 edx = (rcx + rbx).d 0x1386 72 rbx = sx.q(edx) 0x1389 73 rbp = [rsp + 0x28 {var_9c90_1}].q 0x138e 74 r15 = [rsp + 0x20 {var_9c98_1}].q 0x1393 75 ecx = ecx * eax 0x1399 76 if (r14d == ecx) then 104 @ 0x13cc else 105 @ 0x139b 0x136a 77 r12 = rbx 0x136d 78 rbp = [rsp + 0x28 {var_9c90_1}].q 0x1372 79 r15 = [rsp + 0x20 {var_9c98_1}].q 0x1377 80 goto 106 @ 0x13f4 0x1319 81 edx = ecx 0x131b 82 edx = edx * eax 0x1321 83 if (r14d == edx) then 110 @ 0x1300 else 116 @ 0x1323 0x1280 84 eax = ecx 0x1282 85 eax = eax - r13d 0x1285 86 rbx = rbx + 1 0x1289 87 edx = (rbx + r13).d 0x128f 88 if (eax s<= edx) then 36 @ 0x12c0 else 60 @ 0x1291 0x129d 89 esi = [rbp + (rbx << 2)].d 0x12a1 90 rdi = 0x2009 {"%d\n"} 0x12a8 91 eax = 0 0x12aa 92 call(0x1030) 0x12af 93 r14d = r14d + 1 0x12b3 94 ecx = [rsp + 0x10 {var_9ca8}].d 0x12b7 95 goto 84 @ 0x1280 0x11c0 96 rdi = r14 0x11c3 97 rsi = rbx 0x11c6 98 eax = 0 0x11c8 99 call(0x1040) 0x11cd 100 rbp = rbp + 1 0x11d1 101 rax = sx.q([rsp + 0x10 {var_9ca8}].d) 0x11d6 102 rbx = rbx + 4 0x11dd 103 if (rbp s< rax) then 96 @ 0x11c0 else 125 @ 0x11df 0x13cc 104 if (rbx s<= r13) then 127 @ 0x13f0 else 129 @ 0x13ce 0x139b 105 goto 134 @ 0x13a0 0x13f4 106 ecx = [rsp + 0x14 {var_9ca4_2}].d 0x13f8 107 ecx = ecx + eax 0x13fa 108 rcx = sx.q(ecx) 0x1400 109 if (r13 s>= rcx) then 145 @ 0x1225 else 155 @ 0x1406 0x1300 110 edx = eax 0x1302 111 edx = edx - r13d 0x1305 112 ecx = [rsp + 0x10 {var_9ca8}].d 0x1309 113 r12 = r12 + 0x190 0x1310 114 r15d = r15d + 1 0x1317 115 if (edx s<= r15d) then 49 @ 0x1350 else 81 @ 0x1319 0x1323 116 ecx = ecx + [rsp + 0x18 {var_9ca0}].d 0x1327 117 rax = sx.q(ecx) 0x132a 118 esi = [r12 + (rax << 2)].d 0x132e 119 rdi = 0x2009 {"%d\n"} 0x1335 120 eax = 0 0x1337 121 call(0x1030) 0x133c 122 r14d = r14d + 1 0x1340 123 eax = [rsp + 0xc {var_9cac}].d 0x1344 124 goto 110 @ 0x1300 0x11df 125 ecx = [rsp + 0xc {var_9cac}].d 0x11e3 126 goto 63 @ 0x11a0 0x13f0 127 eax = [rsp + 0xc {var_9cac}].d 0x13f0 128 goto 106 @ 0x13f4 0x13ce 129 rbx = rbx - 1 0x13d2 130 eax = [rsp + 0xc {var_9cac}].d 0x13d6 131 ecx = [rsp + 0x10 {var_9ca8}].d 0x13da 132 ecx = ecx * eax 0x13e0 133 if (r14d != ecx) then 134 @ 0x13a0 else 162 @ 0x13e2 0x13a0 134 eax = eax + [rsp + 0x18 {var_9ca0}].d 0x13a4 135 rax = sx.q(eax) 0x13a6 136 rax = rax * 0x190 0x13ad 137 rax = rax + rsp 0x13b0 138 rax = rax + 0x40 0x13b4 139 esi = [rax + (rbx << 2)].d 0x13b7 140 rdi = 0x2009 {"%d\n"} 0x13be 141 eax = 0 0x13c0 142 call(0x1030) 0x13c5 143 r14d = r14d + 1 0x13c5 144 goto 104 @ 0x13cc 0x1225 145 r13d = not.d(r13d) 0x1228 146 r12d = r12d - 1 0x122c 147 rbp = rbp + 0x194 0x1233 148 [rsp + 0x18 {var_9ca0}].d = [rsp + 0x18 {var_9ca0}].d - 1 0x1238 149 r15 = r15 + 0x190 0x123f 150 [rsp + 0x1c {var_9c9c}].d = [rsp + 0x1c {var_9c9c}].d + 1 0x1244 151 [rsp + 0x30 {var_9c88}].q = [rsp + 0x30 {var_9c88}].q + 4 0x124a 152 eax = r13d 0x124d 153 r13 = [rsp + 0x38 {var_9c80_1}].q 0x1256 154 if (r13 == 0x65) then 163 @ 0x1469 else 27 @ 0x125c 0x1406 155 ecx = (rax + r12).d 0x140a 156 rbx = sx.q(ecx) 0x140d 157 rbp = rbx * 0x190 0x1414 158 rbp = rbp + [rsp + 0x30 {var_9c88}].q 0x1419 159 rbx = rbx - 1 0x141d 160 eax = eax * [rsp + 0x10 {var_9ca8}].d 0x1425 161 if (r14d == eax) then 172 @ 0x1448 else 173 @ 0x1427 0x13e2 162 goto 104 @ 0x13cc 0x1469 163 eax = 0 0x146b 164 rsp = rsp + 0x9c88 0x1472 165 rbx = pop 0x1473 166 r12 = pop 0x1475 167 r13 = pop 0x1477 168 r14 = pop 0x1479 169 r15 = pop 0x147b 170 rbp = pop 0x147c 171 <return> jump(pop) 0x1448 172 if (rbx s<= r13) then 174 @ 0x1220 else 176 @ 0x144e 0x1427 173 goto 181 @ 0x1430 0x1220 174 rbp = [rsp + 0x28 {var_9c90_1}].q 0x1220 175 goto 145 @ 0x1225 0x144e 176 eax = [rsp + 0xc {var_9cac}].d 0x1452 177 rbp = rbp - 0x190 0x1459 178 rbx = rbx - 1 0x145d 179 eax = eax * [rsp + 0x10 {var_9ca8}].d 0x1465 180 if (r14d != eax) then 181 @ 0x1430 else 187 @ 0x1467 0x1430 181 esi = [rbp].d 0x1433 182 rdi = 0x2009 {"%d\n"} 0x143a 183 eax = 0 0x143c 184 call(0x1030) 0x1441 185 r14d = r14d + 1 0x1441 186 goto 172 @ 0x1448 0x1467 187 goto 172 @ 0x1448 int64_t _fini(): 0x1484 0 rsp = rsp - 8 0x1488 1 rsp = rsp + 8 0x148c 2 <return> jump(pop)	POJ_46
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH E"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x20 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 [rbp - 8 {var_10}].d = edi 0x1162 5 [rbp - 0x10 {var_18}].q = rsi 0x1166 6 [rbp - 0x14 {var_1c}].d = 0 0x116d 7 [rbp - 0x18 {var_20}].d = 0 0x1174 8 [rbp - 0x1c {var_24}].d = 0 0x117b 9 [rbp - 0x20 {var_28}].d = 0 0x1182 10 rdi = 0x2004 {"%d"} 0x1189 11 rsi = rbp - 0x20 {var_28} 0x118d 12 al = 0 0x118f 13 call(0x1040) 0x1194 14 [rbp - 0x14 {var_1c_1}].d = 1 0x1194 15 goto 16 @ 0x119f 0x119f 16 if ([rbp - 0x14 {var_1c_1}].d s> 0xc) then 17 @ 0x1311 else 21 @ 0x11a9 0x1311 17 eax = 0 0x1313 18 rsp = rsp + 0x20 0x1317 19 rbp = pop 0x1318 20 <return> jump(pop) 0x11a9 21 if ([rbp - 0x14 {var_1c_1}].d != 1) then 22 @ 0x11ef else 23 @ 0x11af 0x11ef 22 if ([rbp - 0x14 {var_1c_1}].d != 3) then 43 @ 0x1230 else 44 @ 0x11f5 0x11af 23 eax = [rbp - 0x18 {var_20}].d 0x11b2 24 ecx = [rbp - 0x20 {var_28}].d 0x11b5 25 ecx = ecx + 0xc 0x11b8 26 eax = eax + ecx 0x11ba 27 [rbp - 0x18 {var_20}].d = eax 0x11bd 28 eax = [rbp - 0x18 {var_20}].d 0x11c0 29 ecx = 7 0x11c5 30 temp2.d:temp3.d = sx.q(eax) 0x11c5 31 edx = temp2.d 0x11c5 32 eax = temp3.d 0x11c6 33 temp4.d = edx 0x11c6 34 temp5.d = eax 0x11c6 35 temp0.d = divs.dp.d(temp4.d:temp5.d, ecx) 0x11c6 36 temp6.d = edx 0x11c6 37 temp7.d = eax 0x11c6 38 temp1.d = mods.dp.d(temp6.d:temp7.d, ecx) 0x11c6 39 eax = temp0.d 0x11c6 40 edx = temp1.d 0x11c8 41 [rbp - 0x1c {var_24_1}].d = edx 0x11cf 42 if ([rbp - 0x1c {var_24_1}].d != 5) then 62 @ 0x11e6 else 63 @ 0x11d5 0x1230 43 if ([rbp - 0x14 {var_1c_1}].d == 5) then 68 @ 0x1254 else 86 @ 0x123a 0x11f5 44 eax = [rbp - 0x18 {var_20}].d 0x11f8 45 eax = eax + 0x1c 0x11fb 46 [rbp - 0x18 {var_20}].d = eax 0x11fe 47 eax = [rbp - 0x18 {var_20}].d 0x1201 48 ecx = 7 0x1206 49 temp8.d:temp9.d = sx.q(eax) 0x1206 50 edx = temp8.d 0x1206 51 eax = temp9.d 0x1207 52 temp10.d = edx 0x1207 53 temp11.d = eax 0x1207 54 temp0.d = divs.dp.d(temp10.d:temp11.d, ecx) 0x1207 55 temp12.d = edx 0x1207 56 temp13.d = eax 0x1207 57 temp1.d = mods.dp.d(temp12.d:temp13.d, ecx) 0x1207 58 eax = temp0.d 0x1207 59 edx = temp1.d 0x1209 60 [rbp - 0x1c {var_24_2}].d = edx 0x1210 61 if ([rbp - 0x1c {var_24_2}].d != 5) then 87 @ 0x1227 else 88 @ 0x1216 0x11e6 62 goto 22 @ 0x11ef 0x11d5 63 esi = [rbp - 0x14 {var_1c_1}].d 0x11d8 64 rdi = 0x2007 {"%d\n"} 0x11df 65 al = 0 0x11e1 66 call(0x1030) 0x11e1 67 goto 62 @ 0x11e6 0x1254 68 eax = [rbp - 0x18 {var_20}].d 0x1257 69 eax = eax + 0x1e 0x125a 70 [rbp - 0x18 {var_20}].d = eax 0x125d 71 eax = [rbp - 0x18 {var_20}].d 0x1260 72 ecx = 7 0x1265 73 temp14.d:temp15.d = sx.q(eax) 0x1265 74 edx = temp14.d 0x1265 75 eax = temp15.d 0x1266 76 temp16.d = edx 0x1266 77 temp17.d = eax 0x1266 78 temp0.d = divs.dp.d(temp16.d:temp17.d, ecx) 0x1266 79 temp18.d = edx 0x1266 80 temp19.d = eax 0x1266 81 temp1.d = mods.dp.d(temp18.d:temp19.d, ecx) 0x1266 82 eax = temp0.d 0x1266 83 edx = temp1.d 0x1268 84 [rbp - 0x1c {var_24_3}].d = edx 0x126f 85 if ([rbp - 0x1c {var_24_3}].d != 5) then 93 @ 0x1286 else 94 @ 0x1275 0x123a 86 if ([rbp - 0x14 {var_1c_1}].d == 7) then 68 @ 0x1254 else 99 @ 0x1244 0x1227 87 goto 43 @ 0x1230 0x1216 88 esi = [rbp - 0x14 {var_1c_1}].d 0x1219 89 rdi = 0x2007 {"%d\n"} 0x1220 90 al = 0 0x1222 91 call(0x1030) 0x1222 92 goto 87 @ 0x1227 0x1286 93 goto 100 @ 0x128f 0x1275 94 esi = [rbp - 0x14 {var_1c_1}].d 0x1278 95 rdi = 0x2007 {"%d\n"} 0x127f 96 al = 0 0x1281 97 call(0x1030) 0x1281 98 goto 93 @ 0x1286 0x1244 99 if ([rbp - 0x14 {var_1c_1}].d == 0xa) then 68 @ 0x1254 else 101 @ 0x124e 0x128f 100 if ([rbp - 0x14 {var_1c_1}].d == 2) then 102 @ 0x12c7 else 120 @ 0x1299 0x124e 101 if ([rbp - 0x14 {var_1c_1}].d != 0xc) then 100 @ 0x128f else 68 @ 0x1254 0x12c7 102 eax = [rbp - 0x18 {var_20}].d 0x12ca 103 eax = eax + 0x1f 0x12cd 104 [rbp - 0x18 {var_20}].d = eax 0x12d0 105 eax = [rbp - 0x18 {var_20}].d 0x12d3 106 ecx = 7 0x12d8 107 temp20.d:temp21.d = sx.q(eax) 0x12d8 108 edx = temp20.d 0x12d8 109 eax = temp21.d 0x12d9 110 temp22.d = edx 0x12d9 111 temp23.d = eax 0x12d9 112 temp0.d = divs.dp.d(temp22.d:temp23.d, ecx) 0x12d9 113 temp24.d = edx 0x12d9 114 temp25.d = eax 0x12d9 115 temp1.d = mods.dp.d(temp24.d:temp25.d, ecx) 0x12d9 116 eax = temp0.d 0x12d9 117 edx = temp1.d 0x12db 118 [rbp - 0x1c {var_24_4}].d = edx 0x12e2 119 if ([rbp - 0x1c {var_24_4}].d != 5) then 121 @ 0x12f9 else 122 @ 0x12e8 0x1299 120 if ([rbp - 0x14 {var_1c_1}].d == 4) then 102 @ 0x12c7 else 127 @ 0x12a3 0x12f9 121 goto 128 @ 0x12fe 0x12e8 122 esi = [rbp - 0x14 {var_1c_1}].d 0x12eb 123 rdi = 0x2007 {"%d\n"} 0x12f2 124 al = 0 0x12f4 125 call(0x1030) 0x12f4 126 goto 121 @ 0x12f9 0x12a3 127 if ([rbp - 0x14 {var_1c_1}].d == 6) then 102 @ 0x12c7 else 129 @ 0x12ad 0x12fe 128 goto 130 @ 0x1303 0x12ad 129 if ([rbp - 0x14 {var_1c_1}].d == 8) then 102 @ 0x12c7 else 134 @ 0x12b7 0x1303 130 eax = [rbp - 0x14 {var_1c_1}].d 0x1306 131 eax = eax + 1 0x1309 132 [rbp - 0x14 {var_1c_1}].d = eax 0x130c 133 goto 16 @ 0x119f 0x12b7 134 if ([rbp - 0x14 {var_1c_1}].d == 9) then 102 @ 0x12c7 else 135 @ 0x12c1 0x12c1 135 if ([rbp - 0x14 {var_1c_1}].d != 0xb) then 128 @ 0x12fe else 102 @ 0x12c7 int64_t _fini(): 0x1320 0 rsp = rsp - 8 0x1324 1 rsp = rsp + 8 0x1328 2 <return> jump(pop)	POJ_50
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH@E"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x40 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 xmm0 = 0 0x1162 5 [rbp - 0x30 {var_38}].q = xmm0.q 0x1167 6 xmm0 = 0 0x116a 7 [rbp - 0x28 {var_30}].q = xmm0.q 0x116f 8 xmm0 = 0 0x1172 9 [rbp - 0x20 {var_28}].q = xmm0.q 0x1177 10 xmm0 = 0 0x117a 11 [rbp - 0x18 {var_20}].q = xmm0.q 0x117f 12 [rbp - 0x31 {var_39}].b = 0x25 {""} 0x1183 13 rdi = 0x2018 {"%d"} 0x118a 14 rsi = rbp - 8 {var_10} 0x118e 15 al = 0 0x1190 16 call(0x1040) 0x1195 17 [rbp - 0xc {var_14}].d = 0 0x1195 18 goto 19 @ 0x119c 0x119c 19 eax = [rbp - 0xc {var_14}].d 0x11a2 20 if (eax s>= [rbp - 8 {var_10}].d) then 21 @ 0x124c else 69 @ 0x11a8 0x124c 21 xmm0 = zx.o([rbp - 0x18 {var_20}].q) 0x1251 22 xmm1.q = float.d([rbp - 8 {var_10}].d) 0x1256 23 xmm0.q = xmm0.q f/ xmm1.q 0x125a 24 xmm1 = zx.o([0x2008].q) 0x1262 25 xmm0.q = xmm0.q f* xmm1.q 0x1266 26 [rbp - 0x18 {var_20_1}].q = xmm0.q 0x126b 27 xmm0 = zx.o([rbp - 0x20 {var_28}].q) 0x1270 28 xmm1.q = float.d([rbp - 8 {var_10}].d) 0x1275 29 xmm0.q = xmm0.q f/ xmm1.q 0x1279 30 xmm1 = zx.o([0x2008].q) 0x1281 31 xmm0.q = xmm0.q f* xmm1.q 0x1285 32 [rbp - 0x20 {var_28_1}].q = xmm0.q 0x128a 33 xmm0 = zx.o([rbp - 0x28 {var_30}].q) 0x128f 34 xmm1.q = float.d([rbp - 8 {var_10}].d) 0x1294 35 xmm0.q = xmm0.q f/ xmm1.q 0x1298 36 xmm1 = zx.o([0x2008].q) 0x12a0 37 xmm0.q = xmm0.q f* xmm1.q 0x12a4 38 [rbp - 0x28 {var_30_1}].q = xmm0.q 0x12a9 39 xmm0 = zx.o([rbp - 0x30 {var_38}].q) 0x12ae 40 xmm1.q = float.d([rbp - 8 {var_10}].d) 0x12b3 41 xmm0.q = xmm0.q f/ xmm1.q 0x12b7 42 xmm1 = zx.o([0x2008].q) 0x12bf 43 xmm0.q = xmm0.q f* xmm1.q 0x12c3 44 [rbp - 0x30 {var_38_1}].q = xmm0.q 0x12c8 45 xmm0 = zx.o([rbp - 0x18 {var_20_1}].q) 0x12cd 46 esi = sx.d([rbp - 0x31 {var_39}].b) 0x12d1 47 rdi = 0x201b {"1-18: %.2lf%c\n"} 0x12d8 48 al = 1 0x12da 49 call(0x1030) 0x12df 50 xmm0 = zx.o([rbp - 0x20 {var_28_1}].q) 0x12e4 51 esi = sx.d([rbp - 0x31 {var_39}].b) 0x12e8 52 rdi = 0x202a {"19-35: %.2lf%c\n"} 0x12ef 53 al = 1 0x12f1 54 call(0x1030) 0x12f6 55 xmm0 = zx.o([rbp - 0x28 {var_30_1}].q) 0x12fb 56 esi = sx.d([rbp - 0x31 {var_39}].b) 0x12ff 57 rdi = 0x203a {"36-60: %.2lf%c\n"} 0x1306 58 al = 1 0x1308 59 call(0x1030) 0x130d 60 xmm0 = zx.o([rbp - 0x30 {var_38_1}].q) 0x1312 61 esi = sx.d([rbp - 0x31 {var_39}].b) 0x1316 62 rdi = 0x204a {"60??: %.2lf%c\n"} 0x131d 63 al = 1 0x131f 64 call(0x1030) 0x1324 65 eax = 0 0x1326 66 rsp = rsp + 0x40 0x132a 67 rbp = pop 0x132b 68 <return> jump(pop) 0x11a8 69 rdi = 0x2018 {"%d"} 0x11af 70 rsi = rbp - 0x10 {var_18} 0x11b3 71 al = 0 0x11b5 72 call(0x1040) 0x11be 73 if ([rbp - 0x10 {var_18}].d s> 0x12) then 74 @ 0x11df else 75 @ 0x11c4 0x11df 74 if ([rbp - 0x10 {var_18}].d s> 0x23) then 79 @ 0x1200 else 80 @ 0x11e5 0x11c4 75 xmm0 = zx.o([0x2010].q) 0x11cc 76 xmm0.q = xmm0.q f+ fconvert.t([rbp - 0x18 {var_20}].q) 0x11d1 77 [rbp - 0x18 {var_20}].q = xmm0.q 0x11d6 78 goto 84 @ 0x1239 0x1200 79 if ([rbp - 0x10 {var_18}].d s> 0x3c) then 85 @ 0x121d else 89 @ 0x1206 0x11e5 80 xmm0 = zx.o([0x2010].q) 0x11ed 81 xmm0.q = xmm0.q f+ fconvert.t([rbp - 0x20 {var_28}].q) 0x11f2 82 [rbp - 0x20 {var_28}].q = xmm0.q 0x11f7 83 goto 93 @ 0x1234 0x1239 84 goto 94 @ 0x123e 0x121d 85 xmm0 = zx.o([0x2010].q) 0x1225 86 xmm0.q = xmm0.q f+ fconvert.t([rbp - 0x30 {var_38}].q) 0x122a 87 [rbp - 0x30 {var_38}].q = xmm0.q 0x122a 88 goto 98 @ 0x122f 0x1206 89 xmm0 = zx.o([0x2010].q) 0x120e 90 xmm0.q = xmm0.q f+ fconvert.t([rbp - 0x28 {var_30}].q) 0x1213 91 [rbp - 0x28 {var_30}].q = xmm0.q 0x1218 92 goto 98 @ 0x122f 0x1234 93 goto 84 @ 0x1239 0x123e 94 eax = [rbp - 0xc {var_14}].d 0x1241 95 eax = eax + 1 0x1244 96 [rbp - 0xc {var_14}].d = eax 0x1247 97 goto 19 @ 0x119c 0x122f 98 goto 93 @ 0x1234 int64_t _fini(): 0x1330 0 rsp = rsp - 8 0x1334 1 rsp = rsp + 8 0x1338 2 <return> jump(pop)	POJ_99
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x7f0 0x115b 3 [rbp - 4 {var_c}].d = 0 0x1162 4 xmm0 = 0 0x1165 5 [rbp - 0x7e8 {var_7f0}].q = xmm0.q 0x116d 6 xmm0 = 0 0x1170 7 [rbp - 0x7f0 {var_7f8}].q = xmm0.q 0x1178 8 rdi = 0x2020 {"%d"} 0x117f 9 rsi = rbp - 8 {var_10} 0x1183 10 al = 0 0x1185 11 call(0x1040) 0x118a 12 [rbp - 0xc {var_14}].d = 0 0x118a 13 goto 14 @ 0x1191 0x1191 14 eax = [rbp - 0xc {var_14}].d 0x1197 15 if (eax s>= [rbp - 8 {var_10}].d) then 16 @ 0x11cb else 22 @ 0x119d 0x11cb 16 xmm0 = zx.o([0x2010].q) 0x11d3 17 [rbp - 0x4c0 {var_4c8}].q = xmm0.q 0x11db 18 xmm0 = zx.o([0x2008].q) 0x11e3 19 [rbp - 0x4b8 {var_4c0}].q = xmm0.q 0x11eb 20 [rbp - 0xc {var_14_1}].d = 0 0x11eb 21 goto 33 @ 0x11f2 0x119d 22 rax = sx.q([rbp - 0xc {var_14}].d) 0x11a1 23 rsi = rbp - 0x1a0 {var_1a8} 0x11a8 24 rax = rax << 2 0x11ac 25 rsi = rsi + rax 0x11af 26 rdi = 0x2020 {"%d"} 0x11b6 27 al = 0 0x11b8 28 call(0x1040) 0x11bd 29 eax = [rbp - 0xc {var_14}].d 0x11c0 30 eax = eax + 1 0x11c3 31 [rbp - 0xc {var_14}].d = eax 0x11c6 32 goto 14 @ 0x1191 0x11f2 33 eax = [rbp - 0xc {var_14_1}].d 0x11f8 34 if (eax s>= [rbp - 8 {var_10}].d) then 35 @ 0x1269 else 41 @ 0x11fe 0x1269 35 xmm0 = zx.o([0x2018].q) 0x1271 36 [rbp - 0x7e0 {var_7e8}].q = xmm0.q 0x1279 37 xmm0 = zx.o([0x2010].q) 0x1281 38 [rbp - 0x7d8 {var_7e0}].q = xmm0.q 0x1289 39 [rbp - 0xc {var_14_2}].d = 0 0x1289 40 goto 43 @ 0x1290 0x11fe 41 [rbp - 0x10 {var_18_1}].d = 2 0x11fe 42 goto 45 @ 0x1205 0x1290 43 eax = [rbp - 0xc {var_14_2}].d 0x1296 44 if (eax s>= [rbp - 8 {var_10}].d) then 48 @ 0x1307 else 50 @ 0x129c 0x1205 45 eax = [rbp - 0x10 {var_18_1}].d 0x1208 46 rcx = sx.q([rbp - 0xc {var_14_1}].d) 0x1213 47 if (eax s>= [rbp + (rcx << 2) - 0x1a0].d) then 52 @ 0x1256 else 53 @ 0x1219 0x1307 48 [rbp - 0xc {var_14_3}].d = 0 0x1307 49 goto 67 @ 0x130e 0x129c 50 [rbp - 0x10 {var_18_2}].d = 2 0x129c 51 goto 69 @ 0x12a3 0x1256 52 goto 72 @ 0x125b 0x1219 53 eax = [rbp - 0x10 {var_18_1}].d 0x121c 54 eax = eax - 1 0x121f 55 rax = sx.q(eax) 0x1221 56 xmm0 = zx.o([rbp + (rax << 3) - 0x4c0].q) 0x122a 57 eax = [rbp - 0x10 {var_18_1}].d 0x122d 58 eax = eax - 2 0x1230 59 rax = sx.q(eax) 0x1232 60 xmm0.q = xmm0.q f+ fconvert.t([rbp + (rax << 3) - 0x4c0].q) 0x123b 61 rax = sx.q([rbp - 0x10 {var_18_1}].d) 0x123f 62 [rbp + (rax << 3) - 0x4c0].q = xmm0.q 0x1248 63 eax = [rbp - 0x10 {var_18_1}].d 0x124b 64 eax = eax + 1 0x124e 65 [rbp - 0x10 {var_18_1}].d = eax 0x1251 66 goto 45 @ 0x1205 0x130e 67 eax = [rbp - 0xc {var_14_3}].d 0x1314 68 if (eax s>= [rbp - 8 {var_10}].d) then 76 @ 0x13b7 else 80 @ 0x131a 0x12a3 69 eax = [rbp - 0x10 {var_18_2}].d 0x12a6 70 rcx = sx.q([rbp - 0xc {var_14_2}].d) 0x12b1 71 if (eax s>= [rbp + (rcx << 2) - 0x1a0].d) then 86 @ 0x12f4 else 87 @ 0x12b7 0x125b 72 eax = [rbp - 0xc {var_14_1}].d 0x125e 73 eax = eax + 1 0x1261 74 [rbp - 0xc {var_14_1}].d = eax 0x1264 75 goto 33 @ 0x11f2 0x13b7 76 eax = 0 0x13b9 77 rsp = rsp + 0x7f0 0x13c0 78 rbp = pop 0x13c1 79 <return> jump(pop) 0x131a 80 xmm0 = 0 0x131d 81 [rbp - 0x7f0 {var_7f8_1}].q = xmm0.q 0x1325 82 xmm0 = 0 0x1328 83 [rbp - 0x7e8 {var_7f0_1}].q = xmm0.q 0x1330 84 [rbp - 0x10 {var_18_3}].d = 0 0x1330 85 goto 101 @ 0x1337 0x12f4 86 goto 104 @ 0x12f9 0x12b7 87 eax = [rbp - 0x10 {var_18_2}].d 0x12ba 88 eax = eax - 1 0x12bd 89 rax = sx.q(eax) 0x12bf 90 xmm0 = zx.o([rbp + (rax << 3) - 0x7e0].q) 0x12c8 91 eax = [rbp - 0x10 {var_18_2}].d 0x12cb 92 eax = eax - 2 0x12ce 93 rax = sx.q(eax) 0x12d0 94 xmm0.q = xmm0.q f+ fconvert.t([rbp + (rax << 3) - 0x7e0].q) 0x12d9 95 rax = sx.q([rbp - 0x10 {var_18_2}].d) 0x12dd 96 [rbp + (rax << 3) - 0x7e0].q = xmm0.q 0x12e6 97 eax = [rbp - 0x10 {var_18_2}].d 0x12e9 98 eax = eax + 1 0x12ec 99 [rbp - 0x10 {var_18_2}].d = eax 0x12ef 100 goto 69 @ 0x12a3 0x1337 101 eax = [rbp - 0x10 {var_18_3}].d 0x133a 102 rcx = sx.q([rbp - 0xc {var_14_3}].d) 0x1345 103 if (eax s>= [rbp + (rcx << 2) - 0x1a0].d) then 108 @ 0x1393 else 116 @ 0x134b 0x12f9 104 eax = [rbp - 0xc {var_14_2}].d 0x12fc 105 eax = eax + 1 0x12ff 106 [rbp - 0xc {var_14_2}].d = eax 0x1302 107 goto 43 @ 0x1290 0x1393 108 xmm0 = zx.o([rbp - 0x7f0 {var_7f8_1}].q) 0x139b 109 rdi = 0x2023 {"%.3lf\n"} 0x13a2 110 al = 1 0x13a4 111 call(0x1030) 0x13a9 112 eax = [rbp - 0xc {var_14_3}].d 0x13ac 113 eax = eax + 1 0x13af 114 [rbp - 0xc {var_14_3}].d = eax 0x13b2 115 goto 67 @ 0x130e 0x134b 116 rax = sx.q([rbp - 0x10 {var_18_3}].d) 0x134f 117 xmm0 = zx.o([rbp + (rax << 3) - 0x4c0].q) 0x1358 118 rax = sx.q([rbp - 0x10 {var_18_3}].d) 0x135c 119 xmm0.q = xmm0.q f/ fconvert.t([rbp + (rax << 3) - 0x7e0].q) 0x1365 120 [rbp - 0x7e8 {var_7f0_2}].q = xmm0.q 0x136d 121 xmm0 = zx.o([rbp - 0x7f0 {var_7f8_1}].q) 0x1375 122 xmm0.q = xmm0.q f+ fconvert.t([rbp - 0x7e8 {var_7f0_2}].q) 0x137d 123 [rbp - 0x7f0 {var_7f8_1}].q = xmm0.q 0x1385 124 eax = [rbp - 0x10 {var_18_3}].d 0x1388 125 eax = eax + 1 0x138b 126 [rbp - 0x10 {var_18_3}].d = eax 0x138e 127 goto 101 @ 0x1337 int64_t _fini(): 0x13c8 0 rsp = rsp - 8 0x13cc 1 rsp = rsp + 8 0x13d0 2 <return> jump(pop)	POJ_29
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) double sqrt(double x): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVAUATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r13) 0x1167 4 push(r12) 0x1169 5 push(rbx) 0x116a 6 rsp = rsp - 0x518 0x1171 7 rdi = 0x202e {"%d"} 0x1178 8 rsi = rsp + 0xc {var_53c} 0x117d 9 eax = 0 0x117f 10 call(0x1040) 0x1184 11 eax = [rsp + 0xc {var_53c}].d 0x1188 12 edx = (rax - 1).d 0x118b 13 edx = edx * eax 0x118e 14 ecx = edx 0x1190 15 ecx = ecx u>> 0x1f 0x1193 16 [rsp + 0x10 {var_538}].d = edx 0x1197 17 ecx = ecx + edx 0x1199 18 [rsp + 0x18 {var_530}].q = rcx 0x11a0 19 if (eax s<= 0) then 20 @ 0x12fd else 24 @ 0x11a6 0x12fd 20 rbx = [rsp + 0x18 {var_530}].q 0x1302 21 ebx = ebx s>> 1 0x1304 22 r8d = [rsp + 0x10 {var_538}].d 0x130d 23 if (r8d s< 4) then 28 @ 0x141d else 29 @ 0x1313 0x11a6 24 rbx = rsp + 0x30 {var_518} 0x11ab 25 r14 = 0x2028 {"%d %d %d"} 0x11b2 26 ebp = 0 0x11be 27 goto 35 @ 0x11c0 0x141d 28 if (r8d s< 2) then 45 @ 0x147c else 53 @ 0x141f 0x1313 29 eax = (rbx - 1).d 0x1316 30 rcx = rsp + 0xc0 {var_488} 0x131e 31 xmm0 = [0x2010].o 0x1326 32 xmm1 = zx.o([0x2020].q) 0x132e 33 edx = ebx 0x1330 34 goto 57 @ 0x1352 0x11c0 35 rdx = rbx + 4 0x11c4 36 rcx = rbx + 8 0x11c8 37 rdi = r14 0x11cb 38 rsi = rbx 0x11ce 39 eax = 0 0x11d0 40 call(0x1040) 0x11d5 41 rbp = rbp + 1 0x11d9 42 rax = sx.q([rsp + 0xc {var_53c}].d) 0x11de 43 rbx = rbx + 0xc 0x11e5 44 if (rbp s< rax) then 35 @ 0x11c0 else 58 @ 0x11ea 0x147c 45 rsp = rsp + 0x518 0x1483 46 rbx = pop 0x1484 47 r12 = pop 0x1486 48 r13 = pop 0x1488 49 r14 = pop 0x148a 50 r15 = pop 0x148c 51 rbp = pop 0x148d 52 <return> jump(pop) 0x141f 53 ebp = ebx 0x1421 54 rbx = rsp + 0xd0 {var_478} 0x1429 55 r14 = 0x2031 {"(%d,%d,%d)-(%d,%d,%d)=%.2f\n"} 0x1429 56 goto 59 @ 0x1430 0x1352 57 if (edx s< 2) then 28 @ 0x141d else 80 @ 0x1358 0x11ea 58 if (eax s< 2) then 20 @ 0x12fd else 85 @ 0x11f0 0x1430 59 eax = int.d(ftrunc(fconvert.t([rbx - 0x10].q))) 0x1435 60 rax = sx.q(eax) 0x1437 61 rax = rax + (rax << 1) 0x143b 62 esi = [rsp + (rax << 2) + 0x30].d 0x143f 63 edi = int.d(ftrunc(fconvert.t([rbx - 8].q))) 0x1444 64 edx = [rsp + (rax << 2) + 0x34].d 0x1448 65 ecx = [rsp + (rax << 2) + 0x38].d 0x144c 66 rax = sx.q(edi) 0x144f 67 rax = rax + (rax << 1) 0x1453 68 r8d = [rsp + (rax << 2) + 0x30].d 0x1458 69 r9d = [rsp + (rax << 2) + 0x34].d 0x145d 70 eax = [rsp + (rax << 2) + 0x38].d 0x1461 71 xmm0 = zx.o([rbx].q) 0x1465 72 [rsp {var_548}].d = eax 0x1468 73 rdi = r14 0x146b 74 al = 1 0x146d 75 call(0x1030) 0x1472 76 rbx = rbx + 0x18 0x1476 77 temp0.q = rbp 0x1476 78 rbp = rbp - 1 0x147a 79 if (temp0.q != 1) then 59 @ 0x1430 else 45 @ 0x147c 0x1358 80 esi = (rdx - 1).d 0x135b 81 xmm3 = zx.o([rsp + 0xd0 {var_478}].q) 0x1364 82 rdi = rcx {var_488} 0x1367 83 ebp = 0 0x1369 84 goto 91 @ 0x13a2 0x11f0 85 rbx = rsp + 0x44 {var_504} 0x11f5 86 edx = 0 0x11f7 87 ebp = 1 0x11fc 88 xmm2 = _mm_xor_pd(xmm2, xmm2) 0x1200 89 r14d = 0 0x1203 90 goto 100 @ 0x122f 0x13a2 91 rbp = rbp + 1 0x13a6 92 xmm2 = zx.o([rdi + 0x28].q) 0x13ab 93 flag:p = is_unordered.q(xmm2.q, xmm3.q) 0x13ab 94 flag:c = xmm2.q f< xmm3.q \| is_unordered.q(xmm2.q, xmm3.q) 0x13ab 95 flag:z = xmm2.q f== xmm3.q \| is_unordered.q(xmm2.q, xmm3.q) 0x13ab 96 flag:s = 0 0x13ab 97 flag:o = 0 0x13ab 98 flag:a = 0 0x13af 99 if (not(flag:z) && not(flag:c)) then 107 @ 0x1370 else 112 @ 0x13b1 0x122f 100 rcx = rdx 0x1232 101 rsi = rdx + 1 0x1236 102 rdx = sx.q(eax) 0x1239 103 cond:0 = rsi s>= rdx 0x123c 104 [rsp + 0x14 {var_534_1}].d = ebp 0x1240 105 [rsp + 0x20 {var_528_1}].q = rsi 0x1245 106 if (cond:0) then 121 @ 0x1210 else 128 @ 0x1247 0x1370 107 xmm3 = [rdi].o 0x1374 108 xmm4 = [rdi + 0x18].o 0x1379 109 [rdi + 0x18].o = xmm3 0x137e 110 [rdi].o = xmm4 0x137e 111 goto 140 @ 0x1382 0x13b1 112 xmm3.q = xmm3.q f- xmm2.q 0x13b5 113 xmm3 = _mm_and_pd(xmm3, xmm0) 0x13b9 114 flag:p = is_unordered.q(xmm1.q, xmm3.q) 0x13b9 115 flag:c = xmm1.q f< xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x13b9 116 flag:z = xmm1.q f== xmm3.q \| is_unordered.q(xmm1.q, xmm3.q) 0x13b9 117 flag:s = 0 0x13b9 118 flag:o = 0 0x13b9 119 flag:a = 0 0x13bd 120 if (flag:z \|\| flag:c) then 145 @ 0x1395 else 148 @ 0x13bf 0x1210 121 ecx = (rax - 1).d 0x1213 122 rcx = sx.q(ecx) 0x1216 123 ebp = [rsp + 0x14 {var_534_1}].d 0x121a 124 ebp = ebp + 1 0x121d 125 rbx = rbx + 0xc 0x1221 126 rdx = [rsp + 0x20 {var_528_1}].q 0x1229 127 if (rdx s>= rcx) then 20 @ 0x12fd else 100 @ 0x122f 0x1247 128 rax = rcx + (rcx << 1) 0x124b 129 r12 = rsp + (rax << 2) 0x124f 130 r12 = r12 + 0x30 0x1253 131 xmm3 = 0 0x1256 132 xmm3.q = float.d(ecx) 0x125a 133 rax = sx.q(r14d) 0x125d 134 rax = rax + (rax << 1) 0x1261 135 rcx = rsp + 0xd0 {var_478} 0x1269 136 r15 = rcx + (rax << 3) 0x126d 137 r13d = 0 0x1270 138 [rsp + 0x28 {var_520_1}].q = xmm3.q 0x1276 139 goto 157 @ 0x12c1 0x1382 140 xmm3 = zx.o([rdi + 0x10].q) 0x1387 141 [rdi + 0x28].q = xmm3.q 0x138c 142 [rdi + 0x10].q = xmm2.q 0x1391 143 xmm2 = xmm3 0x1391 144 goto 145 @ 0x1395 0x1395 145 rdi = rdi + 0x18 0x1399 146 xmm3 = xmm2 0x13a0 147 if (rax == rbp) then 177 @ 0x1340 else 91 @ 0x13a2 0x13bf 148 xmm4 = zx.o([rdi].q) 0x13c3 149 xmm3 = zx.o([rdi + 0x18].q) 0x13c8 150 flag:p = is_unordered.q(xmm4.q, xmm3.q) 0x13c8 151 flag:c = xmm4.q f< xmm3.q \| is_unordered.q(xmm4.q, xmm3.q) 0x13c8 152 flag:z = xmm4.q f== xmm3.q \| is_unordered.q(xmm4.q, xmm3.q) 0x13c8 153 flag:s = 0 0x13c8 154 flag:o = 0 0x13c8 155 flag:a = 0 0x13cc 156 if (flag:z \|\| flag:c) then 181 @ 0x13ed else 182 @ 0x13ce 0x12c1 157 eax = [r12].d 0x12c5 158 eax = eax - [rbx + r13 - 8].d 0x12ca 159 ecx = [r12 + 4].d 0x12cf 160 ecx = ecx - [rbx + r13 - 4].d 0x12d4 161 eax = eax * eax 0x12d7 162 ecx = ecx * ecx 0x12da 163 ecx = ecx + eax 0x12dc 164 eax = [r12 + 8].d 0x12e1 165 eax = eax - [rbx + r13].d 0x12e5 166 eax = eax * eax 0x12e8 167 eax = eax + ecx 0x12ea 168 xmm0 = 0 0x12ed 169 xmm0.q = float.d(eax) 0x12f1 170 flag:p = is_unordered.q(xmm0.q, xmm2.q) 0x12f1 171 flag:c = xmm0.q f< xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x12f1 172 flag:z = xmm0.q f== xmm2.q \| is_unordered.q(xmm0.q, xmm2.q) 0x12f1 173 flag:s = 0 0x12f1 174 flag:o = 0 0x12f1 175 flag:a = 0 0x12f5 176 if (flag:c) then 189 @ 0x1280 else 193 @ 0x12f7 0x1340 177 rax = rax - 1 0x1344 178 cond:1 = edx s< 3 0x1347 179 edx = esi 0x1349 180 if (cond:1) then 28 @ 0x141d else 57 @ 0x1352 0x13ed 181 if (not(flag:z)) then 145 @ 0x1395 else 195 @ 0x13ef 0x13ce 182 [rdi + 0x18].q = xmm4.q 0x13d3 183 [rdi].q = xmm3.q 0x13d7 184 xmm3 = zx.o([rdi + 8].q) 0x13dc 185 xmm4 = zx.o([rdi + 0x20].q) 0x13e1 186 [rdi + 0x20].q = xmm3.q 0x13e6 187 [rdi + 8].q = xmm4.q 0x13eb 188 goto 140 @ 0x1382 0x1280 189 call(0x1050) 0x1285 190 xmm3 = zx.o([rsp + 0x28 {var_520_1}].q) 0x128b 191 xmm2 = _mm_xor_pd(xmm2, xmm2) 0x128b 192 goto 196 @ 0x128f 0x12f7 193 xmm0 = _mm_sqrt_sd(xmm0.q) 0x12fb 194 goto 196 @ 0x128f 0x13ef 195 if (flag:p) then 145 @ 0x1395 else 206 @ 0x13f1 0x128f 196 xmm1 = 0 0x1292 197 xmm1.q = float.d(ebp) 0x1296 198 [r15 + (r13 << 1) - 0x10].q = xmm3.q 0x129d 199 [r15 + (r13 << 1) - 8].q = xmm1.q 0x12a4 200 [r15 + (r13 << 1)].q = xmm0.q 0x12aa 201 eax = [rsp + 0xc {var_53c}].d 0x12ae 202 ebp = ebp + 1 0x12b1 203 r13 = r13 + 0xc 0x12b5 204 r14d = r14d + 1 0x12bb 205 if (eax s<= ebp) then 121 @ 0x1210 else 157 @ 0x12c1 0x13f1 206 xmm5 = zx.o([rdi + 8].q) 0x13f6 207 xmm6 = zx.o([rdi + 0x20].q) 0x13fb 208 flag:p = is_unordered.q(xmm5.q, xmm6.q) 0x13fb 209 flag:c = xmm5.q f< xmm6.q \| is_unordered.q(xmm5.q, xmm6.q) 0x13fb 210 flag:z = xmm5.q f== xmm6.q \| is_unordered.q(xmm5.q, xmm6.q) 0x13fb 211 flag:s = 0 0x13fb 212 flag:o = 0 0x13fb 213 flag:a = 0 0x13ff 214 if (flag:z \|\| flag:c) then 145 @ 0x1395 else 215 @ 0x1401 0x1401 215 [rdi + 0x18].q = xmm4.q 0x1406 216 [rdi].q = xmm3.q 0x140a 217 [rdi + 0x20].q = xmm5.q 0x140f 218 [rdi + 8].q = xmm6.q 0x1414 219 goto 140 @ 0x1382 int64_t _fini(): 0x1494 0 rsp = rsp - 8 0x1498 1 rsp = rsp + 8 0x149c 2 <return> jump(pop)	POJ_64
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t scanf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t putchar(int32_t c): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"PH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rax) 0x1151 1 rdi = 0x2004 {"%d"} 0x1158 2 eax = 0 0x115a 3 call(0x1030) 0x115f 4 edi = 0xa {""} 0x1164 5 call(0x1040) 0x1169 6 eax = 0 0x116b 7 rcx = pop 0x116c 8 <return> jump(pop) int64_t _fini(): 0x1174 0 rsp = rsp - 8 0x1178 1 rsp = rsp + 8 0x117c 2 <return> jump(pop)	POJ_15
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) int32_t putchar(int32_t c): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(r12) 0x1166 3 push(rbx) 0x1167 4 rsp = rsp - 0x4c8 0x116e 5 r14 = 0x2005 {"%d"} 0x1175 6 rsi = rsp + 0xc {var_4dc} 0x117a 7 rdi = r14 0x117d 8 eax = 0 0x117f 9 call(0x1040) 0x1184 10 ebx = 1 0x1189 11 goto 12 @ 0x11a3 0x11a3 12 r12 = sx.q(ebx) 0x11a6 13 r15 = rsp + (r12 << 2) 0x11aa 14 r15 = r15 + 0x10 0x11ae 15 rdi = r14 0x11b1 16 rsi = r15 0x11b4 17 eax = 0 0x11b6 18 call(0x1040) 0x11bf 19 if (r12d s< 2) then 20 @ 0x1198 else 24 @ 0x11c1 0x1198 20 eax = (rbx + 1).d 0x119b 21 cond:0 = ebx s>= [rsp + 0xc {var_4dc}].d 0x119f 22 ebx = eax 0x11a1 23 if (cond:0) then 28 @ 0x11e1 else 12 @ 0x11a3 0x11c1 24 eax = [r15].d 0x11c4 25 ecx = ebx 0x11c6 26 edx = 1 0x11cb 27 goto 33 @ 0x11d4 0x11e1 28 esi = [rsp + 0x14 {var_4d4}].d 0x11e5 29 rdi = 0x2005 {"%d"} 0x11ec 30 eax = 0 0x11ee 31 call(0x1030) 0x11f8 32 if ([rsp + 0xc {var_4dc}].d s< 2) then 34 @ 0x122c else 42 @ 0x11fa 0x11d4 33 if (eax == [rsp + (rdx << 2) + 0x10].d) then 45 @ 0x1190 else 48 @ 0x11d6 0x122c 34 edi = 0xa {""} 0x1231 35 call(0x1050) 0x1236 36 rsp = rsp + 0x4c8 0x123d 37 rbx = pop 0x123e 38 r12 = pop 0x1240 39 r14 = pop 0x1242 40 r15 = pop 0x1244 41 <return> jump(pop) 0x11fa 42 ebx = 1 0x11ff 43 r14 = 0x2004 {",%d"} 0x1206 44 goto 50 @ 0x1210 0x1190 45 ebx = ebx - 1 0x1193 46 [rsp + 0xc {var_4dc}].d = [rsp + 0xc {var_4dc}].d - 1 0x1193 47 goto 20 @ 0x1198 0x11d6 48 rdx = rdx + 1 0x11dd 49 if (rcx != rdx) then 33 @ 0x11d4 else 57 @ 0x11df 0x1210 50 esi = [rsp + (rbx << 2) + 0x14].d 0x1214 51 rdi = r14 0x1217 52 eax = 0 0x1219 53 call(0x1030) 0x121e 54 rax = sx.q([rsp + 0xc {var_4dc}].d) 0x1223 55 rbx = rbx + 1 0x122a 56 if (rbx s< rax) then 50 @ 0x1210 else 34 @ 0x122c 0x11df 57 goto 20 @ 0x1198 int64_t _fini(): 0x124c 0 rsp = rsp - 8 0x1250 1 rsp = rsp + 8 0x1254 2 <return> jump(pop)	POJ_53
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UAWAVATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 push(r15) 0x1163 2 push(r14) 0x1165 3 push(r12) 0x1167 4 push(rbx) 0x1168 5 rsp = rsp - 0x7a0 0x116f 6 rdi = 0x2004 {"%d %d"} 0x1176 7 rsi = rsp + 0xc {var_7bc} 0x117b 8 rdx = rsp + 8 {var_7c0} 0x1180 9 eax = 0 0x1182 10 call(0x1050) 0x1187 11 eax = [rsp + 0xc {var_7bc}].d 0x118e 12 if (eax s< -1) then 13 @ 0x11e8 else 14 @ 0x1190 0x11e8 13 if ([rsp + 0xc {var_7bc}].d s<= 0) then 18 @ 0x1256 else 19 @ 0x11ea 0x1190 14 r15d = [rsp + 8 {var_7c0}].d 0x1195 15 cond:0 = r15d s>= 0 0x1198 16 ecx = 0xffffffff {""} 0x119d 17 if (cond:0) then 23 else 25 @ 0x11a1 0x1256 18 if ([rsp + 0xc {var_7bc}].d s<= 0) then 31 @ 0x12ee else 39 @ 0x125c 0x11ea 19 r14 = rsp + 0x6c {var_75c} 0x11ef 20 r15d = 1 0x11f5 21 r12 = 0x200a {"%d "} 0x11fc 22 goto 43 @ 0x121a 0x119d 23 ecx = r15d 0x119d 24 goto 25 @ 0x11a1 0x11a1 25 ecx = ecx + 1 0x11a4 26 r14 = (rcx << 2) + 4 0x11ac 27 eax = eax + 2 0x11af 28 rbx = rax * 0x58 0x11b3 29 ebp = 0 0x11b5 30 goto 44 @ 0x11cd 0x12ee 31 eax = 0 0x12f0 32 rsp = rsp + 0x7a0 0x12f7 33 rbx = pop 0x12f8 34 r12 = pop 0x12fa 35 r14 = pop 0x12fc 36 r15 = pop 0x12fe 37 rbp = pop 0x12ff 38 <return> jump(pop) 0x125c 39 rbp = rsp + 0xc4 {var_704} 0x1264 40 r12d = 1 0x126a 41 r14 = 0x200e {"%d %d\n"} 0x1271 42 goto 45 @ 0x129b 0x121a 43 if ([rsp + 8 {var_7c0}].d s<= 0) then 46 @ 0x1200 else 52 @ 0x121c 0x11cd 44 if (r15d s< -1) then 55 @ 0x11c0 else 57 @ 0x11cf 0x129b 45 if ([rsp + 8 {var_7c0}].d s<= 0) then 63 @ 0x1280 else 69 @ 0x129d 0x1200 46 rax = r15 + 1 0x1204 47 rcx = sx.q([rsp + 0xc {var_7bc}].d) 0x1209 48 r14 = r14 + 0x58 0x120d 49 cond:1 = r15 s>= rcx 0x1210 50 r15 = rax 0x1213 51 if (cond:1) then 18 @ 0x1256 else 43 @ 0x121a 0x121c 52 rbp = r14 0x121f 53 ebx = 0 0x122b 54 goto 72 @ 0x1230 0x11c0 55 rbp = rbp + 0x58 0x11c7 56 if (rbx == rbp) then 13 @ 0x11e8 else 44 @ 0x11cd 0x11cf 57 rdi = rsp + rbp 0x11d3 58 rdi = rdi + 0x10 0x11d7 59 esi = 0 0x11d9 60 rdx = r14 0x11dc 61 call(0x1040) 0x11e1 62 goto 55 @ 0x11c0 0x1280 63 rax = r12 + 1 0x1285 64 rcx = sx.q([rsp + 0xc {var_7bc}].d) 0x128a 65 rbp = rbp + 0x58 0x128e 66 cond:2 = r12 s>= rcx 0x1291 67 r12 = rax 0x1294 68 if (cond:2) then 31 @ 0x12ee else 45 @ 0x129b 0x129d 69 r15d = (r12 - 1).d 0x12a2 70 ebx = 0 0x12a4 71 goto 80 @ 0x12be 0x1230 72 rdi = r12 0x1233 73 rsi = rbp 0x1236 74 eax = 0 0x1238 75 call(0x1050) 0x123d 76 rax = sx.q([rsp + 8 {var_7c0}].d) 0x1242 77 rbx = rbx + 1 0x1246 78 rbp = rbp + 4 0x124d 79 if (rbx s< rax) then 72 @ 0x1230 else 82 @ 0x124f 0x12be 80 eax = [rbp + (rbx << 2) - 0x58].d 0x12c9 81 if (eax s< [rbp + (rbx << 2) - 0xb0].d) then 83 @ 0x12b0 else 86 @ 0x12cf 0x124f 82 goto 46 @ 0x1200 0x12b0 83 rax = sx.q([rsp + 8 {var_7c0}].d) 0x12b5 84 rbx = rbx + 1 0x12bc 85 if (rbx s>= rax) then 63 @ 0x1280 else 80 @ 0x12be 0x12cf 86 if (eax s< [rbp + (rbx << 2)].d) then 83 @ 0x12b0 else 87 @ 0x12d5 0x12d5 87 if (eax s< [rbp + (rbx << 2) - 0x5c].d) then 83 @ 0x12b0 else 88 @ 0x12db 0x12db 88 if (eax s< [rbp + (rbx << 2) - 0x54].d) then 83 @ 0x12b0 else 89 @ 0x12dd 0x12dd 89 rdi = r14 0x12e0 90 esi = r15d 0x12e3 91 edx = ebx 0x12e5 92 eax = 0 0x12e7 93 call(0x1030) 0x12ec 94 goto 83 @ 0x12b0 int64_t _fini(): 0x1304 0 rsp = rsp - 8 0x1308 1 rsp = rsp + 8 0x130c 2 <return> jump(pop)	POJ_72
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"SHpW)D$D$,)D$ D$"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbx) 0x1151 1 rsp = rsp - 0x70 0x1155 2 xmm0 = 0 0x1158 3 [rsp + 0x10 {var_68}].o = xmm0 0x115d 4 [rsp + 0x2c {var_4c}].o = xmm0 0x1162 5 [rsp + 0x20 {var_58}].o = xmm0 0x1167 6 [rsp + 0x10 {var_68}].d = 2 0x116f 7 [rsp + 0x40 {var_38}].o = xmm0 0x1174 8 [rsp + 0x5c {var_1c}].o = xmm0 0x1179 9 [rsp + 0x50 {var_28}].o = xmm0 0x117e 10 [rsp + 0x40 {var_38}].d = 3 0x1186 11 rdi = 0x2004 {"%d%d"} 0x118d 12 ebx = 0 0x118f 13 rsi = rsp + 0xc {var_6c} 0x1194 14 rdx = rsp + 8 {var_70} 0x1199 15 eax = 0 0x119b 16 call(0x1040) 0x11a0 17 eax = [rsp + 0xc {var_6c}].d 0x11a6 18 if (eax s<= 0) then 19 @ 0x11ca else 21 @ 0x11a8 0x11ca 19 eax = [rsp + 8 {var_70}].d 0x11d0 20 if (eax s<= 0) then 23 @ 0x1200 else 26 @ 0x11d2 0x11a8 21 ebx = 0 0x11aa 22 goto 28 @ 0x11b0 0x1200 23 esi = 3 0x1205 24 ecx = 0 0x1205 25 goto 35 @ 0x1207 0x11d2 26 ecx = 0 0x11de 27 goto 39 @ 0x11e0 0x11b0 28 ecx = eax 0x11b2 29 edx = eax 0x11b4 30 edx = edx & 1 0x11b7 31 [rsp + (rbx << 2) + 0x14].d = edx 0x11bb 32 rbx = rbx + 1 0x11bf 33 eax = eax u>> 1 0x11c4 34 if (ecx u> 1) then 28 @ 0x11b0 else 46 @ 0x11c6 0x1207 35 rdi = sx.q(ebx) 0x120a 36 eax = ebx 0x120c 37 edx = ebx 0x1212 38 if ([rsp + (rdi << 2) + 0x10].d != esi) then 48 @ 0x1233 else 50 @ 0x1214 0x11e0 39 edx = eax 0x11e2 40 esi = eax 0x11e4 41 esi = esi & 1 0x11e7 42 [rsp + (rcx << 2) + 0x44].d = esi 0x11eb 43 rcx = rcx + 1 0x11ef 44 eax = eax u>> 1 0x11f4 45 if (edx u>= 2) then 39 @ 0x11e0 else 54 @ 0x11f6 0x11c6 46 [rsp + 0xc {var_6c}].d = eax 0x11c6 47 goto 19 @ 0x11ca 0x1233 48 esi = 0 0x1237 49 if (ebx s<= edx) then 57 @ 0x12ae else 63 @ 0x1239 0x1214 50 rcx = rsp + (rcx << 2) 0x1218 51 rcx = rcx + 0x3c 0x121c 52 rdx = rax 0x121f 53 goto 71 @ 0x1220 0x11f6 54 [rsp + 8 {var_70}].d = eax 0x11fa 55 esi = [rsp + (rcx << 2) + 0x40].d 0x11fe 56 goto 35 @ 0x1207 0x12ae 57 rdi = 0x2006 {"%d"} 0x12b5 58 eax = 0 0x12b7 59 call(0x1030) 0x12bc 60 rsp = rsp + 0x70 0x12c0 61 rbx = pop 0x12c1 62 <return> jump(pop) 0x1239 63 rsi = sx.q(edx) 0x123c 64 rdx = rax 0x123f 65 rdx = rdx - rsi 0x1242 66 rsi = not.q(rsi) 0x1245 67 rsi = rsi + rax 0x1248 68 ecx = edx 0x124a 69 ecx = ecx & 3 0x1251 70 if (rsi u>= 3) then 77 @ 0x1257 else 80 @ 0x1253 0x1220 71 esi = [rsp + (rdx << 2) + 0xc].d 0x1224 72 rdx = rdx - 1 0x1228 73 rdi = rcx - 4 0x122c 74 cond:0 = esi == [rcx].d 0x122e 75 rcx = rdi 0x1231 76 if (cond:0) then 71 @ 0x1220 else 48 @ 0x1233 0x1257 77 rdx = rdx & 0xfffffffffffffffc 0x125b 78 esi = 0 0x125d 79 goto 82 @ 0x1260 0x1253 80 esi = 0 0x1255 81 goto 94 @ 0x1285 0x1260 82 esi = esi + esi 0x1262 83 esi = esi + [rsp + (rax << 2) + 0x10].d 0x1266 84 esi = esi + esi 0x1268 85 esi = esi + [rsp + (rax << 2) + 0xc].d 0x126c 86 esi = esi + esi 0x126e 87 esi = esi + [rsp + (rax << 2) + 8].d 0x1272 88 esi = esi + esi 0x1274 89 esi = esi + [rsp + (rax << 2) + 4].d 0x1278 90 rax = rax - 4 0x127c 91 temp0.q = rdx 0x127c 92 rdx = rdx - 4 0x1280 93 if (temp0.q != 4) then 82 @ 0x1260 else 94 @ 0x1285 0x1285 94 if (rcx == 0) then 57 @ 0x12ae else 95 @ 0x1287 0x1287 95 rax = rsp + (rax << 2) 0x128b 96 rax = rax + 0x10 0x128f 97 rcx = neg.q(rcx) 0x1292 98 edx = 0 0x129e 99 goto 100 @ 0x12a0 0x12a0 100 esi = esi + esi 0x12a2 101 esi = esi + [rax + (rdx << 2)].d 0x12a5 102 rdx = rdx - 1 0x12ac 103 if (rcx != rdx) then 100 @ 0x12a0 else 57 @ 0x12ae int64_t _fini(): 0x12c8 0 rsp = rsp - 8 0x12cc 1 rsp = rsp + 8 0x12d0 2 <return> jump(pop)	POJ_104
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVAUATSPH="} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(r13) 0x1157 4 push(r12) 0x1159 5 push(rbx) 0x115a 6 push(rax) 0x115b 7 rdi = 0x2004 {"%d%d"} 0x1162 8 rsi = rsp + 4 {var_38+0x4} 0x1167 9 rdx = rsp {var_38} 0x116a 10 eax = 0 0x116c 11 call(0x1040) 0x1171 12 ebx = [rsp + 4 {var_38+0x4}].d 0x1178 13 if (ebx s> [rsp {var_38}].d) then 14 @ 0x1353 else 18 @ 0x117e 0x1353 14 rdi = 0x200d {"no"} 0x135a 15 eax = 0 0x135c 16 call(0x1030) 0x135c 17 goto 24 @ 0x1361 0x117e 18 r14 = 0x200a {"%d"} 0x1185 19 r15 = 0x2009 {",%d"} 0x118c 20 r12d = 0xd1b71759 {""} 0x1192 21 r13d = 0xcccccccd {""} 0x1198 22 ebp = 0 0x119a 23 goto 33 @ 0x11c1 0x1361 24 eax = 0 0x1363 25 rsp = rsp + 8 0x1367 26 rbx = pop 0x1368 27 r12 = pop 0x136a 28 r13 = pop 0x136c 29 r14 = pop 0x136e 30 r15 = pop 0x1370 31 rbp = pop 0x1371 32 <return> jump(pop) 0x11c1 33 ecx = 2 0x11c9 34 if (ebx s< 3) then 35 @ 0x11f2 else 36 @ 0x11cb 0x11f2 35 if (ecx != ebx) then 38 @ 0x11b3 else 42 @ 0x11f4 0x11cb 36 ecx = 2 0x11cb 37 goto 44 @ 0x11d0 0x11b3 38 eax = (rbx + 1).d 0x11b6 39 cond:0 = ebx s>= [rsp {var_38}].d 0x11b9 40 ebx = eax 0x11bb 41 if (cond:0) then 57 @ 0x1351 else 33 @ 0x11c1 0x11f4 42 eax = (rbx - 1).d 0x11fa 43 if (eax u<= 8) then 58 @ 0x11a2 else 59 @ 0x11fc 0x11d0 44 eax = ebx 0x11d2 45 temp2.d:temp3.d = sx.q(eax) 0x11d2 46 edx = temp2.d 0x11d2 47 eax = temp3.d 0x11d3 48 temp4.d = edx 0x11d3 49 temp5.d = eax 0x11d3 50 temp0.d = divs.dp.d(temp4.d:temp5.d, ecx) 0x11d3 51 temp6.d = edx 0x11d3 52 temp7.d = eax 0x11d3 53 temp1.d = mods.dp.d(temp6.d:temp7.d, ecx) 0x11d3 54 eax = temp0.d 0x11d3 55 edx = temp1.d 0x11d7 56 if (edx == 0) then 35 @ 0x11f2 else 61 @ 0x11d9 0x1351 57 if (ebp != 0) then 24 @ 0x1361 else 14 @ 0x1353 0x11a2 58 if (ebp == 0) then 63 @ 0x121e else 66 @ 0x11a4 0x11fc 59 eax = (rbx - 0xa).d 0x1202 60 if (eax u> 0x59) then 69 @ 0x1228 else 71 @ 0x1204 0x11d9 61 ecx = ecx + 1 0x11de 62 if (ebx != ecx) then 44 @ 0x11d0 else 78 @ 0x11e0 0x121e 63 ebp = 1 0x1223 64 rdi = r14 0x1226 65 goto 79 @ 0x11aa 0x11a4 66 ebp = ebp + 1 0x11a7 67 rdi = r15 0x11a7 68 goto 79 @ 0x11aa 0x1228 69 eax = (rbx - 0x64).d 0x1230 70 if (eax u> 0x383) then 83 @ 0x1262 else 85 @ 0x1232 0x1204 71 eax = zx.d(bl) 0x1207 72 ecx = eax * 0xcd 0x120d 73 ecx = ecx u>> 0xb 0x1210 74 edx = (rcx + rcx).d 0x1213 75 edx = (rdx + (rdx << 2)).d 0x1216 76 al = al - dl 0x121a 77 if (cl == al) then 58 @ 0x11a2 else 96 @ 0x121c 0x11e0 78 goto 42 @ 0x11f4 0x11aa 79 esi = ebx 0x11ac 80 eax = 0 0x11ae 81 call(0x1030) 0x11ae 82 goto 38 @ 0x11b3 0x1262 83 eax = (rbx - 0x3e8).d 0x126d 84 if (eax u> 0x2327) then 97 @ 0x12d0 else 99 @ 0x126f 0x1232 85 eax = zx.d(bx) 0x1235 86 ecx = eax * 0xcccd 0x123b 87 eax = eax u>> 2 0x123e 88 eax = eax * 0x147b 0x1244 89 eax = eax u>> 0x11 0x1247 90 ecx = ecx u>> 0x12 0x124a 91 ecx = ecx & 0xfffffffe 0x124d 92 ecx = (rcx + (rcx << 2)).d 0x1250 93 edx = ebx 0x1252 94 edx = edx - ecx 0x1257 95 if (ax == dx) then 58 @ 0x11a2 else 111 @ 0x125d 0x121c 96 goto 38 @ 0x11b3 0x12d0 97 eax = (rbx - 0x2710).d 0x12db 98 if (eax u> 0x15f8f) then 38 @ 0x11b3 else 112 @ 0x12e1 0x126f 99 eax = zx.d(bx) 0x1272 100 ecx = eax 0x1274 101 ecx = ecx u>> 3 0x1277 102 ecx = ecx * 0x20c5 0x127d 103 ecx = ecx u>> 0x14 0x1280 104 edx = eax * 0xcccd 0x1286 105 edx = edx u>> 0x12 0x1289 106 edx = edx & 0xfffffffe 0x128c 107 edx = (rdx + (rdx << 2)).d 0x128f 108 esi = ebx 0x1291 109 esi = esi - edx 0x1296 110 if (cx != si) then 38 @ 0x11b3 else 124 @ 0x129c 0x125d 111 goto 38 @ 0x11b3 0x12e1 112 eax = ebx 0x12e3 113 rcx = rax 0x12e6 114 rcx = rcx * r12 0x12ea 115 rcx = rcx u>> 0x2d 0x12ee 116 rdx = rax 0x12f1 117 rdx = rdx * r13 0x12f5 118 rdx = rdx u>> 0x23 0x12f9 119 edx = edx + edx 0x12fb 120 edx = (rdx + (rdx << 2)).d 0x12fe 121 esi = ebx 0x1300 122 esi = esi - edx 0x1304 123 if (ecx != esi) then 38 @ 0x11b3 else 139 @ 0x130a 0x129c 124 ecx = ecx * 0x3e8 0x12a2 125 edx = ebx 0x12a4 126 edx = edx - ecx 0x12a6 127 ecx = zx.d(dx) 0x12a9 128 ecx = ecx u>> 2 0x12ac 129 ecx = ecx * 0x147b 0x12b2 130 ecx = ecx u>> 0x11 0x12b5 131 edx = eax 0x12b7 132 edx = edx u>> 2 0x12ba 133 edx = edx * 0x147b 0x12c0 134 edx = edx u>> 0x11 0x12c3 135 edx = edx * 0x64 0x12c6 136 eax = eax - edx 0x12c8 137 eax = eax * 0xcd 0x12ce 138 goto 153 @ 0x133b 0x130a 139 ecx = ecx * 0x2710 0x1310 140 edx = ebx 0x1312 141 edx = edx - ecx 0x1314 142 ecx = zx.d(dx) 0x1317 143 ecx = ecx u>> 3 0x131a 144 ecx = ecx * 0x20c5 0x1320 145 ecx = ecx u>> 0x14 0x1323 146 rax = rax * 0x51eb851f 0x132a 147 rax = rax u>> 0x25 0x132e 148 eax = eax * 0x64 0x1331 149 edx = ebx 0x1333 150 edx = edx - eax 0x1335 151 eax = edx * 0xcd 0x1335 152 goto 153 @ 0x133b 0x133b 153 eax = zx.d(ax) 0x133e 154 eax = eax u>> 0xb 0x1344 155 if (cx == ax) then 58 @ 0x11a2 else 156 @ 0x134a 0x134a 156 goto 38 @ 0x11b3 int64_t _fini(): 0x1378 0 rsp = rsp - 8 0x137c 1 rsp = rsp + 8 0x1380 2 <return> jump(pop)	POJ_74
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) uint64_t strlen(char const* arg1): 0x1040 0 <return> tailcall([0x4020].q) char* gets(char* buf): 0x1050 0 <return> tailcall([0x4028].q) int32_t putchar(int32_t c): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1170 {"UAWAVAUATSH"} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) int32_t main(int32_t argc, char argv, char envp): 0x1170 0 push(rbp) 0x1171 1 push(r15) 0x1173 2 push(r14) 0x1175 3 push(r13) 0x1177 4 push(r12) 0x1179 5 push(rbx) 0x117a 6 rsp = rsp - 0x208 0x1181 7 rbx = rsp + 0x10 {var_228} 0x1186 8 rdi = rbx {var_228} 0x1189 9 eax = 0 0x118b 10 call(0x1050) 0x1190 11 rdi = rbx {var_228} 0x1193 12 call(0x1040) 0x1198 13 r15 = rax 0x119f 14 if (r15d s< 2) then 15 @ 0x11d8 else 16 @ 0x11a1 0x11d8 15 if (r15d s< 3) then 20 @ 0x12c5 else 28 @ 0x11de 0x11a1 16 ebp = (r15 - 1).d 0x11a5 17 r14 = 0x2004 {"%c%c\n"} 0x11ac 18 ebx = 0 0x11ae 19 goto 32 @ 0x11b5 0x12c5 20 rsp = rsp + 0x208 0x12cc 21 rbx = pop 0x12cd 22 r12 = pop 0x12cf 23 r13 = pop 0x12d1 24 r14 = pop 0x12d3 25 r15 = pop 0x12d5 26 rbp = pop 0x12d6 27 <return> jump(pop) 0x11de 28 r8d = r15d 0x11e1 29 r15d = 2 0x11e7 30 [rsp {var_238_1}].q = r8 0x11eb 31 goto 36 @ 0x11fd 0x11b5 32 esi = sx.d([rsp + rbx + 0x10].b) 0x11ba 33 edx = sx.d([rsp + rbx + 0x11].b) 0x11bf 34 rbx = rbx + 1 0x11c6 35 if (sil != dl) then 41 @ 0x11b3 else 42 @ 0x11c8 0x11fd 36 edi = 1 0x1202 37 rbp = rsp + 0x10 {var_228} 0x1207 38 r14d = 0 0x120a 39 r13 = r15 0x120d 40 goto 46 @ 0x1225 0x11b3 41 if (rbp == rbx) then 15 @ 0x11d8 else 32 @ 0x11b5 0x11c8 42 rdi = r14 0x11cb 43 eax = 0 0x11cd 44 call(0x1030) 0x11d2 45 goto 41 @ 0x11b3 0x1225 46 r9 = r14 + r15 0x1229 47 dl = [rsp + r14 + 0x10].b 0x122e 48 rcx = r14 0x1231 49 rax = r9 0x1239 50 if (dl != [rsp + r9 + 0x10].b) then 51 @ 0x1274 else 52 @ 0x123b 0x1274 51 if (eax s> ecx) then 55 @ 0x1210 else 60 @ 0x1276 0x123b 52 rdx = rdi 0x123e 53 rsi = r13 0x124b 54 goto 64 @ 0x1250 0x1210 55 r14 = r14 + 1 0x1214 56 r13 = r13 + 1 0x1218 57 rdi = rdi + 1 0x121c 58 rbp = rbp + 1 0x1223 59 if (r14 == r8) then 68 @ 0x11f0 else 46 @ 0x1225 0x1276 60 rbx = r9 0x1279 61 [rsp + 8 {var_230}].q = rdi 0x127e 62 r12d = 0 0x128b 63 goto 70 @ 0x1290 0x1250 64 rax = rsi - 1 0x1254 65 ebx = zx.d([rsp + rdx + 0x10].b) 0x1259 66 rcx = rdx + 1 0x1261 67 if (bl != [rsp + rsi + 0xf].b) then 74 @ 0x126e else 76 @ 0x1263 0x11f0 68 r15 = r15 + 1 0x11f7 69 if (r15 == r8) then 20 @ 0x12c5 else 36 @ 0x11fd 0x1290 70 edi = sx.d([rbp + r12].b) 0x1296 71 call(0x1060) 0x129b 72 r12 = r12 + 1 0x12a2 73 if (r15 != r12) then 70 @ 0x1290 else 80 @ 0x12a4 0x126e 74 rcx = rcx - 1 0x126e 75 goto 51 @ 0x1274 0x1263 76 cond:0 = rsi s> rdx 0x1266 77 rdx = rcx 0x1269 78 rsi = rax 0x126c 79 if (cond:0) then 64 @ 0x1250 else 74 @ 0x126e 0x12a4 80 esi = sx.d([rsp + rbx + 0x10].b) 0x12a9 81 rdi = 0x2006 {"%c\n"} 0x12b0 82 eax = 0 0x12b2 83 call(0x1030) 0x12b7 84 r8 = [rsp {var_238_1}].q 0x12bb 85 rdi = [rsp + 8 {var_230}].q 0x12c0 86 goto 55 @ 0x1210 int64_t _fini(): 0x12dc 0 rsp = rsp - 8 0x12e0 1 rsp = rsp + 8 0x12e4 2 <return> jump(pop)	POJ_49
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) void __cxa_finalize(void* d): 0x1040 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1054 0 ebp = 0 0x1056 1 r9 = rdx 0x1059 2 rsi = pop 0x105a 3 rdx = rsp {arg_8} 0x105d 4 rsp = rsp & 0xfffffffffffffff0 0x1061 5 push(rax) 0x1062 6 push(rsp) 0x1063 7 r8d = 0 0x1066 8 ecx = 0 0x1068 9 rdi = 0x1140 {"SH"} 0x106f 10 call([0x3ff8].q) 0x106f 11 noreturn void deregister_tm_clones(): 0x1080 0 rdi = 0x4030 {""} 0x1087 1 rax = 0x4030 {""} 0x1091 2 if (rax == rdi) then 3 @ 0x10a8 else 4 @ 0x1093 0x10a8 3 <return> jump(pop) 0x1093 4 rax = [0x3fd8].q 0x109d 5 if (rax == 0) then 3 @ 0x10a8 else 6 @ 0x109f 0x109f 6 <return> tailcall(rax) void register_tm_clones(): 0x10b0 0 rdi = 0x4030 {""} 0x10b7 1 rsi = 0x4030 {""} 0x10be 2 rsi = rsi - rdi 0x10c1 3 rax = rsi 0x10c4 4 rsi = rsi u>> 0x3f 0x10c8 5 rax = rax s>> 3 0x10cc 6 rsi = rsi + rax 0x10cf 7 rsi = rsi s>> 1 0x10d2 8 if (rsi == 0) then 9 @ 0x10e8 else 10 @ 0x10d4 0x10e8 9 <return> jump(pop) 0x10d4 10 rax = [0x3ff0].q 0x10de 11 if (rax == 0) then 9 @ 0x10e8 else 12 @ 0x10e0 0x10e0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x10fb 0 if ([0x4030].b != 0) then 1 @ 0x1128 else 2 @ 0x10fd 0x1128 1 <return> jump(pop) 0x10fd 2 push(rbp) 0x10fe 3 cond:0 = [0x3fe0].q == 0 0x1106 4 rbp = rsp {__saved_rbp} 0x1109 5 if (cond:0) then 6 @ 0x1117 else 10 @ 0x110b 0x1117 6 call(0x1080) 0x111c 7 [0x4030].b = 1 0x1123 8 rbp = pop 0x1124 9 <return> jump(pop) 0x110b 10 rdi = [0x4028].q 0x1112 11 call(0x1040) 0x1112 12 goto 6 @ 0x1117 int64_t frame_dummy(): 0x1134 0 <return> tailcall(0x10b0) int32_t main(int32_t argc, char argv, char envp): 0x1140 0 push(rbx) 0x1141 1 rbx = 0x2004 {"%d "} 0x1148 2 rdi = rbx 0x114b 3 esi = 5 0x1150 4 eax = 0 0x1152 5 call(0x1030) 0x1157 6 rdi = rbx 0x115a 7 esi = 2 0x115f 8 eax = 0 0x1161 9 call(0x1030) 0x1166 10 rdi = rbx 0x1169 11 esi = 1 0x116e 12 eax = 0 0x1170 13 call(0x1030) 0x1175 14 rdi = rbx 0x1178 15 esi = 3 0x117d 16 eax = 0 0x117f 17 call(0x1030) 0x1184 18 rdi = 0x2008 {"%d"} 0x118b 19 esi = 4 0x1190 20 eax = 0 0x1192 21 call(0x1030) 0x1197 22 eax = 0 0x1199 23 rbx = pop 0x119a 24 <return> jump(pop) int64_t _fini(): 0x11a0 0 rsp = rsp - 8 0x11a4 1 rsp = rsp + 8 0x11a8 2 <return> jump(pop)	POJ_41
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"UHH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(rbp) 0x1161 1 rbp = rsp {__saved_rbp} 0x1164 2 rsp = rsp - 0x1d0 0x116b 3 [rbp - 0xc {var_14}].d = 0 0x1172 4 [rbp - 0x10 {var_18}].d = 0 0x1179 5 rdi = rbp - 0x1b0 {var_1b8} 0x1180 6 esi = 0 0x1182 7 edx = 0x194 {""} 0x1187 8 call(0x1040) 0x118c 9 rdi = 0x201c {"%d"} 0x1193 10 rsi = rbp - 4 {var_c} 0x1197 11 al = 0 0x1199 12 call(0x1050) 0x119e 13 [rbp - 0x14 {var_1c}].d = 0 0x119e 14 goto 15 @ 0x11a5 0x11a5 15 eax = [rbp - 0x14 {var_1c}].d 0x11ab 16 if (eax s>= [rbp - 4 {var_c}].d) then 17 @ 0x128f else 19 @ 0x11b1 0x128f 17 [rbp - 0x14 {var_1c_1}].d = 0 0x128f 18 goto 70 @ 0x1296 0x11b1 19 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x11b5 20 rsi = 0x4050 {""} 0x11bc 21 rax = rax * 0x24 0x11c0 22 rsi = rsi + rax 0x11c3 23 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x11c7 24 rdx = 0x4050 {""} 0x11ce 25 rax = rax * 0x24 0x11d2 26 rdx = rdx + rax 0x11d5 27 rdx = rdx + 0x14 0x11d9 28 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x11dd 29 rcx = 0x4050 {""} 0x11e4 30 rax = rax * 0x24 0x11e8 31 rcx = rcx + rax 0x11eb 32 rcx = rcx + 0x18 0x11ef 33 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x11f3 34 r8 = 0x4050 {""} 0x11fa 35 rax = rax * 0x24 0x11fe 36 r8 = r8 + rax 0x1201 37 r8 = r8 + 0x1c 0x1205 38 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x1209 39 r9 = 0x4050 {""} 0x1210 40 rax = rax * 0x24 0x1214 41 r9 = r9 + rax 0x1217 42 r9 = r9 + 0x1c 0x121b 43 r9 = r9 + 1 0x121f 44 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x1223 45 r11 = 0x4050 {""} 0x122a 46 rax = rax * 0x24 0x122e 47 r11 = r11 + rax 0x1231 48 r11 = r11 + 0x1e 0x1235 49 rax = sx.q([rbp - 0x14 {var_1c}].d) 0x1239 50 r10 = 0x4050 {""} 0x1240 51 rax = rax * 0x24 0x1244 52 r10 = r10 + rax 0x1247 53 r10 = r10 + 0x1e 0x124b 54 r10 = r10 + 1 0x124f 55 rdi = sx.q([rbp - 0x14 {var_1c}].d) 0x1253 56 rax = 0x4050 {""} 0x125a 57 rdi = rdi * 0x24 0x125e 58 rax = rax + rdi 0x1261 59 rax = rax + 0x20 0x1265 60 rdi = 0x2004 {"%s%d%d%c%c%c%c%d"} 0x126c 61 [rsp {var_1d8_1}].q = r11 0x1270 62 [rsp + 8 {var_1d0_1}].q = r10 0x1275 63 [rsp + 0x10 {var_1c8_1}].q = rax 0x127a 64 al = 0 0x127c 65 call(0x1050) 0x1281 66 eax = [rbp - 0x14 {var_1c}].d 0x1284 67 eax = eax + 1 0x1287 68 [rbp - 0x14 {var_1c}].d = eax 0x128a 69 goto 15 @ 0x11a5 0x1296 70 eax = [rbp - 0x14 {var_1c_1}].d 0x129c 71 if (eax s>= [rbp - 4 {var_c}].d) then 72 @ 0x1332 else 74 @ 0x12a2 0x1332 72 [rbp - 0x14 {var_1c_2}].d = 0 0x1332 73 goto 109 @ 0x1339 0x12a2 74 rcx = sx.q([rbp - 0x14 {var_1c_1}].d) 0x12a6 75 rax = 0x4050 {""} 0x12ad 76 rcx = rcx * 0x24 0x12b1 77 rax = rax + rcx 0x12b4 78 edi = [rax + 0x14].d 0x12b7 79 rcx = sx.q([rbp - 0x14 {var_1c_1}].d) 0x12bb 80 rax = 0x4050 {""} 0x12c2 81 rcx = rcx * 0x24 0x12c6 82 rax = rax + rcx 0x12c9 83 esi = [rax + 0x18].d 0x12cc 84 rcx = sx.q([rbp - 0x14 {var_1c_1}].d) 0x12d0 85 rax = 0x4050 {""} 0x12d7 86 rcx = rcx * 0x24 0x12db 87 rax = rax + rcx 0x12de 88 cl = [rax + 0x1d].b 0x12e1 89 rdx = sx.q([rbp - 0x14 {var_1c_1}].d) 0x12e5 90 rax = 0x4050 {""} 0x12ec 91 rdx = rdx * 0x24 0x12f0 92 rax = rax + rdx 0x12f3 93 al = [rax + 0x1f].b 0x12f6 94 r8 = sx.q([rbp - 0x14 {var_1c_1}].d) 0x12fa 95 rdx = 0x4050 {""} 0x1301 96 r8 = r8 * 0x24 0x1305 97 rdx = rdx + r8 0x1308 98 r8d = [rdx + 0x20].d 0x130c 99 edx = sx.d(cl) 0x130f 100 ecx = sx.d(al) 0x1312 101 call(0x1400) 0x1317 102 ecx = eax 0x1319 103 rax = sx.q([rbp - 0x14 {var_1c_1}].d) 0x131d 104 [rbp + (rax << 2) - 0x1b0].d = ecx 0x1324 105 eax = [rbp - 0x14 {var_1c_1}].d 0x1327 106 eax = eax + 1 0x132a 107 [rbp - 0x14 {var_1c_1}].d = eax 0x132d 108 goto 70 @ 0x1296 0x1339 109 eax = [rbp - 0x14 {var_1c_2}].d 0x133f 110 if (eax s>= [rbp - 4 {var_c}].d) then 111 @ 0x1364 else 115 @ 0x1345 0x1364 111 eax = [rbp - 0x1b0 {var_1b8}].d 0x136a 112 [rbp - 8 {var_10}].d = eax 0x136d 113 [rbp - 0x14 {var_1c_3}].d = 1 0x136d 114 goto 123 @ 0x1374 0x1345 115 eax = [rbp - 0x10 {var_18}].d 0x1348 116 rcx = sx.q([rbp - 0x14 {var_1c_2}].d) 0x134c 117 eax = eax + [rbp + (rcx << 2) - 0x1b0].d 0x1353 118 [rbp - 0x10 {var_18}].d = eax 0x1356 119 eax = [rbp - 0x14 {var_1c_2}].d 0x1359 120 eax = eax + 1 0x135c 121 [rbp - 0x14 {var_1c_2}].d = eax 0x135f 122 goto 109 @ 0x1339 0x1374 123 eax = [rbp - 0x14 {var_1c_3}].d 0x137a 124 if (eax s>= [rbp - 4 {var_c}].d) then 125 @ 0x13bb else 140 @ 0x1380 0x13bb 125 rax = sx.q([rbp - 0xc {var_14}].d) 0x13bf 126 rsi = 0x4050 {""} 0x13c6 127 rax = rax * 0x24 0x13ca 128 rsi = rsi + rax 0x13cd 129 rdi = 0x2015 {"%s\n"} 0x13d4 130 al = 0 0x13d6 131 call(0x1030) 0x13db 132 esi = [rbp - 8 {var_10}].d 0x13de 133 edx = [rbp - 0x10 {var_18}].d 0x13e1 134 rdi = 0x2019 {"%d\n%d"} 0x13e8 135 al = 0 0x13ea 136 call(0x1030) 0x13ef 137 rsp = rsp + 0x1d0 0x13f6 138 rbp = pop 0x13f7 139 <return> jump(pop) 0x1380 140 rax = sx.q([rbp - 0x14 {var_1c_3}].d) 0x1384 141 eax = [rbp + (rax << 2) - 0x1b0].d 0x138e 142 if (eax s<= [rbp - 8 {var_10}].d) then 143 @ 0x13a8 else 144 @ 0x1394 0x13a8 143 goto 150 @ 0x13ad 0x1394 144 rax = sx.q([rbp - 0x14 {var_1c_3}].d) 0x1398 145 eax = [rbp + (rax << 2) - 0x1b0].d 0x139f 146 [rbp - 8 {var_10}].d = eax 0x13a2 147 eax = [rbp - 0x14 {var_1c_3}].d 0x13a5 148 [rbp - 0xc {var_14}].d = eax 0x13a5 149 goto 143 @ 0x13a8 0x13ad 150 eax = [rbp - 0x14 {var_1c_3}].d 0x13b0 151 eax = eax + 1 0x13b3 152 [rbp - 0x14 {var_1c_3}].d = eax 0x13b6 153 goto 123 @ 0x1374 uint64_t exin(int32_t arg1, int32_t arg2, char arg3, char arg4, int32_t arg5): 0x1400 0 push(rbp) 0x1401 1 rbp = rsp {__saved_rbp} 0x1404 2 al = cl 0x1406 3 cl = dl 0x1408 4 [rbp - 4 {var_c}].d = edi 0x140b 5 [rbp - 8 {var_10}].d = esi 0x140e 6 [rbp - 9 {var_11}].b = cl 0x1411 7 [rbp - 0xa {var_12}].b = al 0x1414 8 [rbp - 0x10 {var_18}].d = r8d 0x1418 9 [rbp - 0x14 {var_1c}].d = 0 0x1423 10 if ([rbp - 4 {var_c}].d s<= 0x50) then 11 @ 0x1442 else 12 @ 0x142d 0x1442 11 if ([rbp - 4 {var_c}].d s<= 0x55) then 13 @ 0x1461 else 14 @ 0x144c 0x142d 12 if ([rbp - 0x10 {var_18}].d s< 1) then 11 @ 0x1442 else 15 @ 0x1433 0x1461 13 if ([rbp - 4 {var_c}].d s<= 0x5a) then 19 @ 0x1476 else 20 @ 0x1467 0x144c 14 if ([rbp - 8 {var_10}].d s<= 0x50) then 13 @ 0x1461 else 24 @ 0x1452 0x1433 15 eax = [rbp - 0x14 {var_1c}].d 0x1436 16 eax = eax + 0x1f40 0x143b 17 [rbp - 0x14 {var_1c}].d = eax 0x143b 18 goto 11 @ 0x1442 0x1476 19 if ([rbp - 4 {var_c}].d s<= 0x55) then 28 @ 0x1498 else 29 @ 0x147c 0x1467 20 eax = [rbp - 0x14 {var_1c}].d 0x146a 21 eax = eax + 0x7d0 0x146f 22 [rbp - 0x14 {var_1c}].d = eax 0x146f 23 goto 19 @ 0x1476 0x1452 24 eax = [rbp - 0x14 {var_1c}].d 0x1455 25 eax = eax + 0xfa0 0x145a 26 [rbp - 0x14 {var_1c}].d = eax 0x145a 27 goto 13 @ 0x1461 0x1498 28 if ([rbp - 8 {var_10}].d s<= 0x50) then 31 @ 0x14b6 else 34 @ 0x149e 0x147c 29 eax = sx.d([rbp - 0xa {var_12}].b) 0x1483 30 if (eax != 0x59) then 28 @ 0x1498 else 36 @ 0x1489 0x14b6 31 eax = [rbp - 0x14 {var_1c}].d 0x14b9 32 rbp = pop 0x14ba 33 <return> jump(pop) 0x149e 34 eax = sx.d([rbp - 9 {var_11}].b) 0x14a5 35 if (eax != 0x59) then 31 @ 0x14b6 else 40 @ 0x14ab 0x1489 36 eax = [rbp - 0x14 {var_1c}].d 0x148c 37 eax = eax + 0x3e8 0x1491 38 [rbp - 0x14 {var_1c}].d = eax 0x1491 39 goto 28 @ 0x1498 0x14ab 40 eax = [rbp - 0x14 {var_1c}].d 0x14ae 41 eax = eax + 0x352 0x14b3 42 [rbp - 0x14 {var_1c}].d = eax 0x14b3 43 goto 31 @ 0x14b6 int64_t _fini(): 0x14c0 0 rsp = rsp - 8 0x14c4 1 rsp = rsp + 8 0x14c8 2 <return> jump(pop)	POJ_39
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(rbx) 0x1156 4 rsp = rsp - 0xe18 0x115d 5 rbx = rsp + 0x4b4 {var_984} 0x1165 6 r14 = 0x2004 {"%d%d"} 0x116c 7 ebp = 0 0x116e 8 goto 9 @ 0x1170 0x1170 9 rsi = rbx - 4 0x1174 10 rdi = r14 0x1177 11 rdx = rbx 0x117a 12 eax = 0 0x117c 13 call(0x1040) 0x1185 14 if ([rbx - 4].d != 0) then 15 @ 0x1192 else 16 @ 0x118a 0x1192 15 if (ebp u>= 0x12b) then 17 @ 0x119d else 20 @ 0x1194 0x118a 16 if ([rbx].d == 0) then 17 @ 0x119d else 15 @ 0x1192 0x119d 17 r14 = 0x2009 {"%d\n"} 0x11a4 18 r15d = 0 0x11a7 19 goto 23 @ 0x11ce 0x1194 20 ebp = ebp + 1 0x1197 21 rbx = rbx + 8 0x119b 22 goto 9 @ 0x1170 0x11ce 23 edi = [rsp + (r15 << 3) + 0x4b0].d 0x11d9 24 if (rdi != 0) then 25 @ 0x11ec else 26 @ 0x11e4 0x11ec 25 if (edi s<= 0) then 27 @ 0x1202 else 28 @ 0x11ee 0x11e4 26 if ([rsp + (r15 << 3) + 0x4b4].d == 0) then 30 @ 0x1308 else 25 @ 0x11ec 0x1202 27 if (edi s< 2) then 36 @ 0x12e2 else 37 @ 0x1208 0x11ee 28 eax = 0 0x11ee 29 goto 40 @ 0x11f0 0x1308 30 rsp = rsp + 0xe18 0x130f 31 rbx = pop 0x1310 32 r14 = pop 0x1312 33 r15 = pop 0x1314 34 rbp = pop 0x1315 35 <return> jump(pop) 0x12e2 36 if (edi s<= 0) then 44 @ 0x11bd else 46 @ 0x12e8 0x1208 37 ecx = [rsp + (r15 << 3) + 0x4b4].d 0x1210 38 esi = edi 0x1212 39 goto 48 @ 0x122e 0x11f0 40 rcx = rax + 1 0x11f4 41 [rsp + (rax << 2)].d = ecx 0x11f7 42 rax = rcx 0x11fd 43 if (rdi != rcx) then 40 @ 0x11f0 else 27 @ 0x1202 0x11bd 44 r15 = r15 + 1 0x11c8 45 if (r15 == 0x12c) then 30 @ 0x1308 else 23 @ 0x11ce 0x12e8 46 esi = 0 0x12ea 47 goto 62 @ 0x12f4 0x122e 48 eax = ecx 0x1230 49 temp2.d:temp3.d = sx.q(eax) 0x1230 50 edx = temp2.d 0x1230 51 eax = temp3.d 0x1231 52 temp4.d = edx 0x1231 53 temp5.d = eax 0x1231 54 temp0.d = divs.dp.d(temp4.d:temp5.d, esi) 0x1231 55 temp6.d = edx 0x1231 56 temp7.d = eax 0x1231 57 temp1.d = mods.dp.d(temp6.d:temp7.d, esi) 0x1231 58 eax = temp0.d 0x1231 59 edx = temp1.d 0x1233 60 eax = 0 0x1235 61 goto 63 @ 0x1249 0x12f4 62 if ([rsp + (rsi << 2)].d != -1) then 65 @ 0x11b0 else 70 @ 0x12fa 0x1249 63 ebp = [rsp + (rax << 2)].d 0x124e 64 if (ebp != edx) then 72 @ 0x1256 else 73 @ 0x1252 0x11b0 65 esi = esi + 1 0x11b3 66 rdi = r14 0x11b6 67 eax = 0 0x11b8 68 call(0x1030) 0x11b8 69 goto 44 @ 0x11bd 0x12fa 70 rsi = rsi + 1 0x1301 71 if (rdi != rsi) then 62 @ 0x12f4 else 74 @ 0x1303 0x1256 72 if (ebp != esi) then 75 @ 0x1240 else 77 @ 0x125a 0x1252 73 if (edx != 0) then 78 @ 0x125c else 72 @ 0x1256 0x1303 74 goto 44 @ 0x11bd 0x1240 75 rax = rax + 1 0x1247 76 if (rdi == rax) then 80 @ 0x1270 else 63 @ 0x1249 0x125a 77 if (edx != 0) then 75 @ 0x1240 else 78 @ 0x125c 0x125c 78 [rsp + (rax << 2)].d = -1 0x1263 79 goto 82 @ 0x1272 0x1270 80 eax = edi 0x1270 81 goto 82 @ 0x1272 0x1272 82 ebx = (rax + 1).d 0x1275 83 edx = 1 0x127c 84 if (ebx s>= edi) then 85 @ 0x12b2 else 86 @ 0x127e 0x12b2 85 if (eax == 0) then 90 @ 0x1220 else 94 @ 0x12b8 0x127e 86 edx = ebx 0x1280 87 rbp = rsp + (rdx << 2) 0x1284 88 edx = 1 0x1289 89 goto 97 @ 0x129f 0x1220 90 eax = (rsi - 1).d 0x1223 91 cond:0 = esi s<= 2 0x1226 92 esi = eax 0x1228 93 if (cond:0) then 36 @ 0x12e2 else 48 @ 0x122e 0x12b8 94 eax = eax 0x12ba 95 ebp = 0 0x12bc 96 goto 98 @ 0x12d1 0x129f 97 if ([rbp].d == -1) then 99 @ 0x1290 else 102 @ 0x12a1 0x12d1 98 if ([rsp + (rbp << 2)].d == -1) then 105 @ 0x12c0 else 107 @ 0x12d3 0x1290 99 rbp = rbp + 4 0x1294 100 ebx = ebx + 1 0x1299 101 if (edi s<= ebx) then 85 @ 0x12b2 else 97 @ 0x129f 0x12a1 102 [rbp].d = edx 0x12a4 103 edx = edx + 1 0x12a7 104 goto 99 @ 0x1290 0x12c0 105 rbp = rbp + 1 0x12c7 106 if (rax == rbp) then 90 @ 0x1220 else 98 @ 0x12d1 0x12d3 107 [rsp + (rbp << 2)].d = edx 0x12d6 108 edx = edx + 1 0x12d9 109 goto 105 @ 0x12c0 int64_t _fini(): 0x131c 0 rsp = rsp - 8 0x1320 1 rsp = rsp + 8 0x1324 2 <return> jump(pop)	POJ_79
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0x1b0 0x115c 4 r14 = 0x2005 {"%d"} 0x1163 5 rsi = rsp + 0xc {var_1bc} 0x1168 6 rdi = r14 0x116b 7 eax = 0 0x116d 8 call(0x1040) 0x1172 9 rbx = rsp + 0x10 {var_1b8} 0x1177 10 goto 11 @ 0x1180 0x1180 11 rdi = r14 0x1183 12 rsi = rbx 0x1186 13 eax = 0 0x1188 14 call(0x1040) 0x118d 15 rbx = rbx + 4 0x1191 16 rax = sx.q([rsp + 0xc {var_1bc}].d) 0x1196 17 rax = rsp + (rax << 2) 0x119a 18 rax = rax + 0xc 0x11a1 19 if (rbx u<= rax) then 11 @ 0x1180 else 20 @ 0x11a3 0x11a3 20 esi = [rax].d 0x11a5 21 rdi = 0x2005 {"%d"} 0x11ac 22 eax = 0 0x11ae 23 call(0x1030) 0x11b3 24 rax = sx.q([rsp + 0xc {var_1bc}].d) 0x11b8 25 rbx = rsp + (rax << 2) 0x11bc 26 rbx = rbx + 8 0x11c0 27 r15 = rsp + 0x10 {var_1b8} 0x11c8 28 if (rbx u< r15) then 29 @ 0x11f5 else 35 @ 0x11ca 0x11f5 29 eax = 0 0x11f7 30 rsp = rsp + 0x1b0 0x11fe 31 rbx = pop 0x11ff 32 r14 = pop 0x1201 33 r15 = pop 0x1203 34 <return> jump(pop) 0x11ca 35 r14 = 0x2004 {" %d"} 0x11db 36 goto 37 @ 0x11e0 0x11e0 37 esi = [rbx].d 0x11e2 38 rdi = r14 0x11e5 39 eax = 0 0x11e7 40 call(0x1030) 0x11ec 41 rbx = rbx - 4 0x11f3 42 if (rbx u>= r15) then 37 @ 0x11e0 else 29 @ 0x11f5 int64_t _fini(): 0x1208 0 rsp = rsp - 8 0x120c 1 rsp = rsp + 8 0x1210 2 <return> jump(pop)	POJ_47
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UAWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 push(r15) 0x1153 2 push(r14) 0x1155 3 push(rbx) 0x1156 4 rsp = rsp - 0x1b8 0x115d 5 rdi = 0x2010 {"%d"} 0x1164 6 r15d = 0 0x1167 7 rsi = rsp + 4 {var_1d4} 0x116c 8 eax = 0 0x116e 9 call(0x1040) 0x1173 10 eax = [rsp + 4 {var_1d4}].d 0x1179 11 if (eax s<= 0) then 12 @ 0x11af else 16 @ 0x117b 0x11af 12 esi = 0 0x11b4 13 edx = 0 0x11b9 14 ecx = 0 0x11c0 15 if (eax s<= 0) then 20 @ 0x120f else 61 @ 0x11c2 0x117b 16 rbx = rsp + 0x20 {var_1b8} 0x1180 17 r14 = 0x2010 {"%d"} 0x1187 18 ebp = 0 0x1189 19 goto 68 @ 0x1190 0x120f 20 xmm0.q = float.d(r15d) 0x1214 21 xmm1.q = float.d(eax) 0x1218 22 xmm0.q = xmm0.q f/ xmm1.q 0x121c 23 xmm2 = zx.o([0x2008].q) 0x1224 24 xmm0.q = xmm0.q f* xmm2.q 0x1228 25 xmm3.q = float.d(esi) 0x122c 26 xmm3.q = xmm3.q f/ xmm1.q 0x1230 27 xmm3.q = xmm3.q f* xmm2.q 0x1234 28 [rsp + 8 {var_1d0}].q = xmm3.q 0x123a 29 xmm3 = 0 0x123d 30 xmm3.q = float.d(edx) 0x1241 31 xmm3.q = xmm3.q f/ xmm1.q 0x1245 32 xmm3.q = xmm3.q f* xmm2.q 0x1249 33 [rsp + 0x10 {var_1c8}].q = xmm3.q 0x124f 34 xmm3 = 0 0x1252 35 xmm3.q = float.d(ecx) 0x1256 36 xmm3.q = xmm3.q f/ xmm1.q 0x125a 37 xmm3.q = xmm3.q f* xmm2.q 0x125e 38 [rsp + 0x18 {var_1c0}].q = xmm3.q 0x1264 39 rdi = 0x2013 {"1-18: %.2lf%\n"} 0x126b 40 al = 1 0x126d 41 call(0x1030) 0x1272 42 rdi = 0x2021 {"19-35: %.2lf%\n"} 0x1279 43 xmm0 = zx.o([rsp + 8 {var_1d0}].q) 0x127f 44 al = 1 0x1281 45 call(0x1030) 0x1286 46 rdi = 0x2030 {"36-60: %.2lf%\n"} 0x128d 47 xmm0 = zx.o([rsp + 0x10 {var_1c8}].q) 0x1293 48 al = 1 0x1295 49 call(0x1030) 0x129a 50 rdi = 0x203f {"60??: %.2lf%\n"} 0x12a1 51 xmm0 = zx.o([rsp + 0x18 {var_1c0}].q) 0x12a7 52 al = 1 0x12a9 53 call(0x1030) 0x12ae 54 eax = 0 0x12b0 55 rsp = rsp + 0x1b8 0x12b7 56 rbx = pop 0x12b8 57 r14 = pop 0x12ba 58 r15 = pop 0x12bc 59 rbp = pop 0x12bd 60 <return> jump(pop) 0x11c2 61 edi = eax 0x11c4 62 ebx = 0 0x11c6 63 ecx = 0 0x11c8 64 edx = 0 0x11ca 65 esi = 0 0x11cc 66 r15d = 0 0x11cf 67 goto 76 @ 0x11ed 0x1190 68 rdi = r14 0x1193 69 rsi = rbx 0x1196 70 eax = 0 0x1198 71 call(0x1040) 0x119d 72 rbp = rbp + 1 0x11a1 73 rax = sx.q([rsp + 4 {var_1d4}].d) 0x11a6 74 rbx = rbx + 4 0x11ad 75 if (rbp s< rax) then 68 @ 0x1190 else 12 @ 0x11af 0x11ed 76 ebp = [rsp + (rbx << 2) + 0x20].d 0x11f4 77 if (ebp s<= 0x12) then 78 @ 0x11e0 else 80 @ 0x11f9 0x11e0 78 r15d = r15d + 1 0x11e0 79 goto 81 @ 0x11e4 0x11f9 80 if (ebp s> 0x23) then 83 @ 0x1203 else 84 @ 0x11fb 0x11e4 81 rbx = rbx + 1 0x11eb 82 if (rdi == rbx) then 20 @ 0x120f else 76 @ 0x11ed 0x1203 83 if (ebp s> 0x3c) then 86 @ 0x120a else 88 @ 0x1205 0x11fb 84 esi = esi + 1 0x11fe 85 goto 81 @ 0x11e4 0x120a 86 ecx = ecx + 1 0x120d 87 goto 81 @ 0x11e4 0x1205 88 edx = edx + 1 0x1208 89 goto 81 @ 0x11e4 int64_t _fini(): 0x12c4 0 rsp = rsp - 8 0x12c8 1 rsp = rsp + 8 0x12cc 2 <return> jump(pop)	POJ_99
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memcpy(void* arg1, void const* arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void qsort(void* b, uint64_t n, uint64_t s, __compar_fn_t cmp): 0x1060 0 <return> tailcall([0x4030].q) void __cxa_finalize(void* d): 0x1070 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1084 0 ebp = 0 0x1086 1 r9 = rdx 0x1089 2 rsi = pop 0x108a 3 rdx = rsp {arg_8} 0x108d 4 rsp = rsp & 0xfffffffffffffff0 0x1091 5 push(rax) 0x1092 6 push(rsp) 0x1093 7 r8d = 0 0x1096 8 ecx = 0 0x1098 9 rdi = 0x1190 {"UAWAVAUATSH."} 0x109f 10 call([0x3ff8].q) 0x109f 11 noreturn void deregister_tm_clones(): 0x10b0 0 rdi = 0x4048 {""} 0x10b7 1 rax = 0x4048 {""} 0x10c1 2 if (rax == rdi) then 3 @ 0x10d8 else 4 @ 0x10c3 0x10d8 3 <return> jump(pop) 0x10c3 4 rax = [0x3fd8].q 0x10cd 5 if (rax == 0) then 3 @ 0x10d8 else 6 @ 0x10cf 0x10cf 6 <return> tailcall(rax) void register_tm_clones(): 0x10e0 0 rdi = 0x4048 {""} 0x10e7 1 rsi = 0x4048 {""} 0x10ee 2 rsi = rsi - rdi 0x10f1 3 rax = rsi 0x10f4 4 rsi = rsi u>> 0x3f 0x10f8 5 rax = rax s>> 3 0x10fc 6 rsi = rsi + rax 0x10ff 7 rsi = rsi s>> 1 0x1102 8 if (rsi == 0) then 9 @ 0x1118 else 10 @ 0x1104 0x1118 9 <return> jump(pop) 0x1104 10 rax = [0x3ff0].q 0x110e 11 if (rax == 0) then 9 @ 0x1118 else 12 @ 0x1110 0x1110 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x112b 0 if ([0x4048].b != 0) then 1 @ 0x1158 else 2 @ 0x112d 0x1158 1 <return> jump(pop) 0x112d 2 push(rbp) 0x112e 3 cond:0 = [0x3fe0].q == 0 0x1136 4 rbp = rsp {__saved_rbp} 0x1139 5 if (cond:0) then 6 @ 0x1147 else 10 @ 0x113b 0x1147 6 call(0x10b0) 0x114c 7 [0x4048].b = 1 0x1153 8 rbp = pop 0x1154 9 <return> jump(pop) 0x113b 10 rdi = [0x4040].q 0x1142 11 call(0x1070) 0x1142 12 goto 6 @ 0x1147 int64_t frame_dummy(): 0x1164 0 <return> tailcall(0x10e0) uint64_t myfunc(int32_t* arg1, int32_t* arg2): 0x1170 0 eax = [rdi].d 0x1172 1 eax = eax - [rsi].d 0x1174 2 <return> jump(pop) uint64_t max(int32_t arg1, int32_t arg2): 0x1180 0 eax = esi 0x1184 1 if (edi s> esi) then 2 else 4 @ 0x1187 0x1184 2 eax = edi 0x1184 3 goto 4 @ 0x1187 0x1187 4 <return> jump(pop) int32_t main(int32_t argc, char argv, char envp): 0x1190 0 push(rbp) 0x1191 1 push(r15) 0x1193 2 push(r14) 0x1195 3 push(r13) 0x1197 4 push(r12) 0x1199 5 push(rbx) 0x119a 6 rsp = rsp - 0x2ef8 0x11a1 7 rdi = 0x2004 {"%d"} 0x11a8 8 rsi = rsp + 0xc {var_2f1c} 0x11ad 9 eax = 0 0x11af 10 call(0x1050) 0x11b4 11 esi = [rsp + 0xc {var_2f1c}].d 0x11ba 12 if (esi == 0) then 13 @ 0x1384 else 22 @ 0x11c0 0x1384 13 eax = 0 0x1386 14 rsp = rsp + 0x2ef8 0x138d 15 rbx = pop 0x138e 16 r12 = pop 0x1390 17 r13 = pop 0x1392 18 r14 = pop 0x1394 19 r15 = pop 0x1396 20 rbp = pop 0x1397 21 <return> jump(pop) 0x11c0 22 r13 = rsp + 0xfb0 {var_1f78} 0x11c8 23 r15 = 0x2004 {"%d"} 0x11cf 24 r14 = rsp + 0x10 {var_2f18} 0x11d4 25 r12 = 0x1170 {"+f."} 0x11db 26 goto 27 @ 0x1210 0x1210 27 if (esi s<= 0) then 28 @ 0x126f else 46 @ 0x1212 0x126f 28 edx = 4 0x1274 29 rdi = r13 {var_1f78} 0x1277 30 rcx = r12 0x127a 31 eax = 0 0x127c 32 call(0x1060) 0x1281 33 esi = [rsp + 0xc {var_2f1c}].d 0x1285 34 edx = 4 0x128a 35 rdi = r14 {var_2f18} 0x128d 36 rcx = r12 0x1290 37 eax = 0 0x1292 38 call(0x1060) 0x1297 39 rbp = sx.q([rsp + 0xc {var_2f1c}].d) 0x129c 40 rdi = rsp + (rbp << 2) 0x12a0 41 rdi = rdi + 0xfb0 0x12a7 42 rsi = r13 {var_1f78} 0x12aa 43 rdx = rbp 0x12ad 44 call(0x1040) 0x12b5 45 if (rbp s<= 0) then 50 @ 0x11e0 else 52 @ 0x12bb 0x1212 46 rbp = r14 {var_2f18} 0x1215 47 r14 = r13 {var_1f78} 0x1218 48 ebx = 0 0x121a 49 goto 59 @ 0x1220 0x11e0 50 esi = 0xf0000001 {""} 0x11e0 51 goto 67 @ 0x11e5 0x12bb 52 r8d = ebp 0x12be 53 ecx = r8d 0x12c1 54 ecx = ecx & 0xfffffffe 0x12c4 55 r9d = 0xf0000001 {""} 0x12ca 56 rdx = rsp + 0xfb4 {var_1f74} 0x12d2 57 r10d = 0 0x12d5 58 goto 76 @ 0x12fb 0x1220 59 rdi = r15 0x1223 60 rsi = r14 0x1226 61 eax = 0 0x1228 62 call(0x1050) 0x122d 63 rbx = rbx + 1 0x1231 64 rsi = sx.q([rsp + 0xc {var_2f1c}].d) 0x1236 65 r14 = r14 + 4 0x123d 66 if (rbx s< rsi) then 59 @ 0x1220 else 79 @ 0x123f 0x11e5 67 rdi = 0x2007 {"%d\n"} 0x11ec 68 eax = 0 0x11ee 69 call(0x1030) 0x11f3 70 rdi = r15 0x11f6 71 rsi = rsp + 0xc {var_2f1c} 0x11fb 72 eax = 0 0x11fd 73 call(0x1050) 0x1202 74 esi = [rsp + 0xc {var_2f1c}].d 0x1208 75 if (esi == 0) then 13 @ 0x1384 else 27 @ 0x1210 0x12fb 76 ebx = 0 0x12fd 77 esi = 0 0x1303 78 if (r8d == 1) then 82 @ 0x1358 else 83 @ 0x130f 0x123f 79 cond:0 = esi s<= 0 0x1241 80 r14 = rbp {var_2f18} 0x1244 81 if (cond:0) then 28 @ 0x126f else 84 @ 0x1246 0x1358 82 if ((r8b & 1) == 0) then 87 @ 0x12e3 else 88 @ 0x135a 0x130f 83 goto 93 @ 0x1310 0x1246 84 rbp = r14 {var_2f18} 0x1249 85 ebx = 0 0x124b 86 goto 97 @ 0x1250 0x12e3 87 if (r9d s> esi) then 105 else 107 @ 0x12e7 0x135a 88 rax = rbx + r10 0x135e 89 eax = [rsp + (rax << 2) + 0xfb0].d 0x1365 90 edi = (rsi - 0xc8).d 0x136b 91 ebp = [rsp + (rbx << 2) + 0x10].d 0x1371 92 if (eax s>= ebp) then 111 else 113 @ 0x1374 0x1310 93 eax = (rsi - 0xc8).d 0x1316 94 ebp = [rsp + (rbx << 2) + 0x10].d 0x131a 95 edi = [rdx + (rbx << 2) - 4].d 0x1320 96 if (edi s>= ebp) then 115 else 117 @ 0x1323 0x1250 97 rdi = r15 0x1253 98 rsi = rbp 0x1256 99 eax = 0 0x1258 100 call(0x1050) 0x125d 101 rbx = rbx + 1 0x1261 102 rsi = sx.q([rsp + 0xc {var_2f1c}].d) 0x1266 103 rbp = rbp + 4 0x126d 104 if (rbx s< rsi) then 97 @ 0x1250 else 28 @ 0x126f 0x12e3 105 esi = r9d 0x12e3 106 goto 107 @ 0x12e7 0x12e7 107 r10 = r10 + 1 0x12eb 108 rdx = rdx + 4 0x12ef 109 r9d = esi 0x12f5 110 if (r10 == r8) then 67 @ 0x11e5 else 76 @ 0x12fb 0x1371 111 edi = esi 0x1371 112 goto 113 @ 0x1374 0x1374 113 esi = (rdi + 0xc8).d 0x137c 114 if (eax s<= ebp) then 119 else 121 @ 0x137f 0x1320 115 eax = esi 0x1320 116 goto 117 @ 0x1323 0x1323 117 esi = (rax + 0xc8).d 0x132b 118 if (edi s<= ebp) then 122 else 124 @ 0x132e 0x137c 119 esi = edi 0x137c 120 goto 121 @ 0x137f 0x137f 121 goto 87 @ 0x12e3 0x132b 122 esi = eax 0x132b 123 goto 124 @ 0x132e 0x132e 124 eax = [rdx + (rbx << 2)].d 0x1331 125 edi = (rsi - 0xc8).d 0x1337 126 ebp = [rsp + (rbx << 2) + 0x14].d 0x133d 127 if (eax s>= ebp) then 128 else 130 @ 0x1340 0x133d 128 edi = esi 0x133d 129 goto 130 @ 0x1340 0x1340 130 esi = (rdi + 0xc8).d 0x1348 131 if (eax s<= ebp) then 132 else 134 @ 0x134b 0x1348 132 esi = edi 0x1348 133 goto 134 @ 0x134b 0x134b 134 rbx = rbx + 2 0x1352 135 if (rcx != rbx) then 93 @ 0x1310 else 82 @ 0x1358 int64_t _fini(): 0x139c 0 rsp = rsp - 8 0x13a0 1 rsp = rsp + 8 0x13a4 2 <return> jump(pop)	POJ_92
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"AWAVSH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(r15) 0x1152 1 push(r14) 0x1154 2 push(rbx) 0x1155 3 rsp = rsp - 0xb0 0x115c 4 rdi = 0x2058 {"%d"} 0x1163 5 rsi = rsp + 0xc {var_bc} 0x1168 6 eax = 0 0x116a 7 call(0x1040) 0x116f 8 xmm0 = zx.o([0x2008].q) 0x117c 9 if ([rsp + 0xc {var_bc}].d s<= 0) then 10 @ 0x137d else 19 @ 0x1182 0x137d 10 rdi = 0x205b {"%.2lf"} 0x1384 11 al = 1 0x1386 12 call(0x1030) 0x138b 13 eax = 0 0x138d 14 rsp = rsp + 0xb0 0x1394 15 rbx = pop 0x1395 16 r14 = pop 0x1397 17 r15 = pop 0x1399 18 <return> jump(pop) 0x1182 19 r15 = rsp + 0x10 {var_b8} 0x1187 20 r14 = 0x2058 {"%d"} 0x118e 21 ebx = 0 0x118e 22 goto 23 @ 0x1190 0x1190 23 rdi = r14 0x1193 24 rsi = r15 0x1196 25 eax = 0 0x1198 26 call(0x1040) 0x119d 27 rbx = rbx + 1 0x11a1 28 rax = sx.q([rsp + 0xc {var_bc}].d) 0x11a6 29 r15 = r15 + 4 0x11ad 30 if (rbx s< rax) then 23 @ 0x1190 else 31 @ 0x11b1 0x11b1 31 if (eax s<= 0) then 32 @ 0x1302 else 34 @ 0x11b7 0x1302 32 xmm0 = zx.o([0x2008].q) 0x130a 33 goto 10 @ 0x137d 0x11b7 34 r15 = rsp + 0x38 {var_90} 0x11bc 35 r14 = 0x2058 {"%d"} 0x11c3 36 ebx = 0 0x11cf 37 goto 38 @ 0x11d0 0x11d0 38 rdi = r14 0x11d3 39 rsi = r15 0x11d6 40 eax = 0 0x11d8 41 call(0x1040) 0x11dd 42 rbx = rbx + 1 0x11e1 43 rax = sx.q([rsp + 0xc {var_bc}].d) 0x11e6 44 r15 = r15 + 4 0x11ed 45 if (rbx s< rax) then 38 @ 0x11d0 else 46 @ 0x11ef 0x11ef 46 eax = eax 0x11f3 47 if (eax s<= 0) then 32 @ 0x1302 else 48 @ 0x11f9 0x11f9 48 ecx = 0 0x11fb 49 xmm7 = zx.o([0x2010].q) 0x1203 50 xmm1 = zx.o([0x2018].q) 0x120b 51 xmm2 = zx.o([0x2020].q) 0x1213 52 xmm3 = zx.o([0x2028].q) 0x121b 53 xmm4 = zx.o([0x2030].q) 0x1223 54 xmm5 = zx.o([0x2038].q) 0x122b 55 xmm6 = zx.o([0x2040].q) 0x1233 56 xmm8 = zx.o([0x2048].q) 0x123c 57 xmm9 = zx.o([0x2050].q) 0x124f 58 goto 59 @ 0x1250 0x1250 59 edx = [rsp + (rcx << 2) + 0x38].d 0x1254 60 esi = (rdx - 0x5a).d 0x1257 61 xmm0 = xmm7 0x125e 62 if (esi u< 0xb) then 63 @ 0x12d0 else 65 @ 0x1260 0x12d0 63 [rsp + (rcx << 3) + 0x60].q = xmm0.q 0x12d0 64 goto 68 @ 0x12d6 0x1260 65 esi = (rdx - 0x55).d 0x1263 66 xmm0 = xmm1 0x126a 67 if (esi u< 5) then 63 @ 0x12d0 else 70 @ 0x126c 0x12d6 68 rcx = rcx + 1 0x12dd 69 if (rax != rcx) then 59 @ 0x1250 else 73 @ 0x12e3 0x126c 70 esi = (rdx - 0x52).d 0x126f 71 xmm0 = xmm2 0x1276 72 if (esi u< 3) then 63 @ 0x12d0 else 76 @ 0x1278 0x12e3 73 cond:0 = eax s<= 0 0x12e5 74 xmm0 = zx.o([0x2008].q) 0x12ed 75 if (cond:0) then 10 @ 0x137d else 79 @ 0x12f6 0x1278 76 esi = (rdx - 0x4e).d 0x127b 77 xmm0 = xmm3 0x1282 78 if (esi u< 4) then 63 @ 0x12d0 else 80 @ 0x1284 0x12f6 79 if (eax != 1) then 83 @ 0x130c else 89 @ 0x12f8 0x1284 80 esi = (rdx - 0x4b).d 0x1287 81 xmm0 = xmm4 0x128e 82 if (esi u< 3) then 63 @ 0x12d0 else 93 @ 0x1290 0x130c 83 esi = eax 0x130e 84 esi = esi & 0xfffffffe 0x1311 85 ecx = 0 0x1313 86 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x1317 87 edx = 0 0x1319 88 goto 96 @ 0x1320 0x12f8 89 ecx = 0 0x12fa 90 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12fe 91 edx = 0 0x1300 92 goto 110 @ 0x1359 0x1290 93 esi = (rdx - 0x48).d 0x1293 94 xmm0 = xmm5 0x129a 95 if (esi u< 3) then 63 @ 0x12d0 else 111 @ 0x129c 0x1320 96 edi = [rsp + (rcx << 2) + 0x10].d 0x1324 97 ebx = [rsp + (rcx << 2) + 0x14].d 0x1328 98 xmm1 = 0 0x132b 99 xmm1.q = float.d(edi) 0x132f 100 edx = edx + edi 0x1331 101 xmm1.q = xmm1.q f* fconvert.t([rsp + (rcx << 3) + 0x60].q) 0x1337 102 xmm1.q = xmm1.q f+ xmm0.q 0x133b 103 xmm0 = 0 0x133e 104 xmm0.q = float.d(ebx) 0x1342 105 xmm0.q = xmm0.q f* fconvert.t([rsp + (rcx << 3) + 0x68].q) 0x1348 106 edx = edx + ebx 0x134a 107 xmm0.q = xmm0.q f+ xmm1.q 0x134e 108 rcx = rcx + 2 0x1355 109 if (rsi != rcx) then 96 @ 0x1320 else 110 @ 0x1359 0x1359 110 if ((al & 1) == 0) then 114 @ 0x1372 else 118 @ 0x135b 0x129c 111 esi = edx 0x129e 112 esi = esi & 0xfffffffc 0x12a4 113 if (esi == 0x3c) then 125 @ 0x12bb else 127 @ 0x12a6 0x1372 114 xmm1 = 0 0x1375 115 xmm1.q = float.d(edx) 0x1379 116 xmm0.q = xmm0.q f/ xmm1.q 0x1379 117 goto 10 @ 0x137d 0x135b 118 eax = [rsp + (rcx << 2) + 0x10].d 0x135f 119 xmm1 = 0 0x1362 120 xmm1.q = float.d(eax) 0x1366 121 edx = edx + eax 0x1368 122 xmm1.q = xmm1.q f* fconvert.t([rsp + (rcx << 3) + 0x60].q) 0x136e 123 xmm0.q = xmm0.q f+ xmm1.q 0x136e 124 goto 114 @ 0x1372 0x12bb 125 xmm0 = xmm8 0x12c0 126 goto 63 @ 0x12d0 0x12a6 127 xmm0 = xmm6 0x12ad 128 if (esi == 0x44) then 63 @ 0x12d0 else 129 @ 0x12b2 0x12b2 129 if (esi != 0x40) then 130 @ 0x12c2 else 132 @ 0x12b4 0x12c2 130 xmm0 = _mm_xor_pd(xmm0, xmm0) 0x12c9 131 if (edx s> 0x3b) then 68 @ 0x12d6 else 134 @ 0x12cb 0x12b4 132 xmm0 = xmm9 0x12b9 133 goto 63 @ 0x12d0 0x12cb 134 goto 63 @ 0x12d0 int64_t _fini(): 0x13a0 0 rsp = rsp - 8 0x13a4 1 rsp = rsp + 8 0x13a8 2 <return> jump(pop)	POJ_83
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH@E"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x40 0x1158 3 [rbp - 4 {var_c}].d = 0 0x115f 4 rdi = 0x2004 {"%d %d %d %d %d %d"} 0x1166 5 rsi = rbp - 8 {var_10} 0x116a 6 rdx = rbp - 0xc {var_14} 0x116e 7 rcx = rbp - 0x10 {var_18} 0x1172 8 r8 = rbp - 0x14 {var_1c} 0x1176 9 r9 = rbp - 0x18 {var_20} 0x117a 10 rax = rbp - 0x1c {var_24} 0x117e 11 [rsp {var_48}].q = rax {var_24} 0x1182 12 al = 0 0x1184 13 call(0x1040) 0x1189 14 eax = [rbp - 8 {var_10}].d 0x118c 15 [rbp - 0x20 {var_28}].d = eax 0x118f 16 [rbp - 0x24 {var_2c}].d = 0 0x118f 17 goto 18 @ 0x1196 0x1196 18 eax = [rbp - 0x20 {var_28}].d 0x119c 19 if (eax s>= [rbp - 0x14 {var_1c}].d) then 20 @ 0x120c else 25 @ 0x11a2 0x120c 20 eax = [rbp - 0xc {var_14}].d 0x120f 21 eax = eax - 1 0x1212 22 eax = eax * 0x1e 0x1215 23 [rbp - 0x28 {var_30}].d = eax 0x121c 24 if ([rbp - 0xc {var_14}].d == 1) then 39 @ 0x122c else 42 @ 0x1226 0x11a2 25 eax = [rbp - 0x20 {var_28}].d 0x11a5 26 ecx = 4 0x11aa 27 temp2.d:temp3.d = sx.q(eax) 0x11aa 28 edx = temp2.d 0x11aa 29 eax = temp3.d 0x11ab 30 temp4.d = edx 0x11ab 31 temp5.d = eax 0x11ab 32 temp0.d = divs.dp.d(temp4.d:temp5.d, ecx) 0x11ab 33 temp6.d = edx 0x11ab 34 temp7.d = eax 0x11ab 35 temp1.d = mods.dp.d(temp6.d:temp7.d, ecx) 0x11ab 36 eax = temp0.d 0x11ab 37 edx = temp1.d 0x11b0 38 if (edx != 0) then 43 @ 0x11ca else 57 @ 0x11b6 0x122c 39 eax = [rbp - 0x28 {var_30}].d 0x122f 40 [rbp - 0x28 {var_30_1}].d = eax 0x1232 41 goto 71 @ 0x12dc 0x1226 42 if ([rbp - 0xc {var_14}].d != 3) then 85 @ 0x123b else 39 @ 0x122c 0x11ca 43 eax = [rbp - 0x20 {var_28}].d 0x11cd 44 ecx = 0x190 {""} 0x11d2 45 temp8.d:temp9.d = sx.q(eax) 0x11d2 46 edx = temp8.d 0x11d2 47 eax = temp9.d 0x11d3 48 temp10.d = edx 0x11d3 49 temp11.d = eax 0x11d3 50 temp0.d = divs.dp.d(temp10.d:temp11.d, ecx) 0x11d3 51 temp12.d = edx 0x11d3 52 temp13.d = eax 0x11d3 53 temp1.d = mods.dp.d(temp12.d:temp13.d, ecx) 0x11d3 54 eax = temp0.d 0x11d3 55 edx = temp1.d 0x11d8 56 if (edx != 0) then 86 @ 0x11ee else 90 @ 0x11de 0x11b6 57 eax = [rbp - 0x20 {var_28}].d 0x11b9 58 ecx = 0x64 {""} 0x11be 59 temp14.d:temp15.d = sx.q(eax) 0x11be 60 edx = temp14.d 0x11be 61 eax = temp15.d 0x11bf 62 temp16.d = edx 0x11bf 63 temp17.d = eax 0x11bf 64 temp0.d = divs.dp.d(temp16.d:temp17.d, ecx) 0x11bf 65 temp18.d = edx 0x11bf 66 temp19.d = eax 0x11bf 67 temp1.d = mods.dp.d(temp18.d:temp19.d, ecx) 0x11bf 68 eax = temp0.d 0x11bf 69 edx = temp1.d 0x11c4 70 if (edx != 0) then 90 @ 0x11de else 43 @ 0x11ca 0x12dc 71 eax = [rbp - 8 {var_10}].d 0x12df 72 ecx = 4 0x12e4 73 temp20.d:temp21.d = sx.q(eax) 0x12e4 74 edx = temp20.d 0x12e4 75 eax = temp21.d 0x12e5 76 temp22.d = edx 0x12e5 77 temp23.d = eax 0x12e5 78 temp0.d = divs.dp.d(temp22.d:temp23.d, ecx) 0x12e5 79 temp24.d = edx 0x12e5 80 temp25.d = eax 0x12e5 81 temp1.d = mods.dp.d(temp24.d:temp25.d, ecx) 0x12e5 82 eax = temp0.d 0x12e5 83 edx = temp1.d 0x12ea 84 if (edx != 0) then 94 @ 0x1304 else 108 @ 0x12f0 0x123b 85 if ([rbp - 0xc {var_14}].d == 2) then 122 @ 0x1255 else 126 @ 0x1245 0x11ee 86 eax = [rbp - 0x24 {var_2c}].d 0x11f1 87 eax = eax + 0x16d 0x11f6 88 [rbp - 0x24 {var_2c}].d = eax 0x11f6 89 goto 127 @ 0x11f9 0x11de 90 eax = [rbp - 0x24 {var_2c}].d 0x11e1 91 eax = eax + 0x16e 0x11e6 92 [rbp - 0x24 {var_2c}].d = eax 0x11e9 93 goto 127 @ 0x11f9 0x1304 94 eax = [rbp - 8 {var_10}].d 0x1307 95 ecx = 0x190 {""} 0x130c 96 temp26.d:temp27.d = sx.q(eax) 0x130c 97 edx = temp26.d 0x130c 98 eax = temp27.d 0x130d 99 temp28.d = edx 0x130d 100 temp29.d = eax 0x130d 101 temp0.d = divs.dp.d(temp28.d:temp29.d, ecx) 0x130d 102 temp30.d = edx 0x130d 103 temp31.d = eax 0x130d 104 temp1.d = mods.dp.d(temp30.d:temp31.d, ecx) 0x130d 105 eax = temp0.d 0x130d 106 edx = temp1.d 0x1312 107 if (edx != 0) then 128 @ 0x1327 else 129 @ 0x1318 0x12f0 108 eax = [rbp - 8 {var_10}].d 0x12f3 109 ecx = 0x64 {""} 0x12f8 110 temp32.d:temp33.d = sx.q(eax) 0x12f8 111 edx = temp32.d 0x12f8 112 eax = temp33.d 0x12f9 113 temp34.d = edx 0x12f9 114 temp35.d = eax 0x12f9 115 temp0.d = divs.dp.d(temp34.d:temp35.d, ecx) 0x12f9 116 temp36.d = edx 0x12f9 117 temp37.d = eax 0x12f9 118 temp1.d = mods.dp.d(temp36.d:temp37.d, ecx) 0x12f9 119 eax = temp0.d 0x12f9 120 edx = temp1.d 0x12fe 121 if (edx != 0) then 129 @ 0x1318 else 94 @ 0x1304 0x1255 122 eax = [rbp - 0x28 {var_30}].d 0x1258 123 eax = eax + 1 0x125b 124 [rbp - 0x28 {var_30_1}].d = eax 0x125e 125 goto 132 @ 0x12d7 0x1245 126 if ([rbp - 0xc {var_14}].d == 4) then 122 @ 0x1255 else 133 @ 0x124f 0x11f9 127 goto 134 @ 0x11fe 0x1327 128 if ([rbp - 0xc {var_14}].d s<= 2) then 138 @ 0x1336 else 139 @ 0x132d 0x1318 129 eax = [rbp - 0x28 {var_30_1}].d 0x131b 130 [rbp - 0x28 {var_30_1}].d = eax 0x131e 131 goto 143 @ 0x133b 0x12d7 132 goto 71 @ 0x12dc 0x124f 133 if ([rbp - 0xc {var_14}].d != 5) then 148 @ 0x1267 else 122 @ 0x1255 0x11fe 134 eax = [rbp - 0x20 {var_28}].d 0x1201 135 eax = eax + 1 0x1204 136 [rbp - 0x20 {var_28}].d = eax 0x1207 137 goto 18 @ 0x1196 0x1336 138 goto 143 @ 0x133b 0x132d 139 eax = [rbp - 0x28 {var_30_1}].d 0x1330 140 eax = eax - 1 0x1333 141 [rbp - 0x28 {var_30_1}].d = eax 0x1333 142 goto 138 @ 0x1336 0x133b 143 eax = [rbp - 0x18 {var_20}].d 0x133e 144 eax = eax - 1 0x1341 145 eax = eax * 0x1e 0x1344 146 [rbp - 0x2c {var_34}].d = eax 0x134b 147 if ([rbp - 0x18 {var_20}].d == 1) then 149 @ 0x135b else 152 @ 0x1355 0x1267 148 if ([rbp - 0xc {var_14}].d == 6) then 153 @ 0x1277 else 157 @ 0x1271 0x135b 149 eax = [rbp - 0x2c {var_34}].d 0x135e 150 [rbp - 0x2c {var_34_1}].d = eax 0x1361 151 goto 158 @ 0x140b 0x1355 152 if ([rbp - 0x18 {var_20}].d != 3) then 172 @ 0x136a else 149 @ 0x135b 0x1277 153 eax = [rbp - 0x28 {var_30}].d 0x127a 154 eax = eax + 2 0x127d 155 [rbp - 0x28 {var_30_1}].d = eax 0x1280 156 goto 173 @ 0x12d2 0x1271 157 if ([rbp - 0xc {var_14}].d != 7) then 174 @ 0x1289 else 153 @ 0x1277 0x140b 158 eax = [rbp - 0x14 {var_1c}].d 0x140e 159 ecx = 4 0x1413 160 temp38.d:temp39.d = sx.q(eax) 0x1413 161 edx = temp38.d 0x1413 162 eax = temp39.d 0x1414 163 temp40.d = edx 0x1414 164 temp41.d = eax 0x1414 165 temp0.d = divs.dp.d(temp40.d:temp41.d, ecx) 0x1414 166 temp42.d = edx 0x1414 167 temp43.d = eax 0x1414 168 temp1.d = mods.dp.d(temp42.d:temp43.d, ecx) 0x1414 169 eax = temp0.d 0x1414 170 edx = temp1.d 0x1419 171 if (edx != 0) then 175 @ 0x1433 else 189 @ 0x141f 0x136a 172 if ([rbp - 0x18 {var_20}].d == 2) then 203 @ 0x1384 else 207 @ 0x1374 0x12d2 173 goto 132 @ 0x12d7 0x1289 174 if ([rbp - 0xc {var_14}].d != 8) then 208 @ 0x12a1 else 209 @ 0x128f 0x1433 175 eax = [rbp - 0x14 {var_1c}].d 0x1436 176 ecx = 0x190 {""} 0x143b 177 temp44.d:temp45.d = sx.q(eax) 0x143b 178 edx = temp44.d 0x143b 179 eax = temp45.d 0x143c 180 temp46.d = edx 0x143c 181 temp47.d = eax 0x143c 182 temp0.d = divs.dp.d(temp46.d:temp47.d, ecx) 0x143c 183 temp48.d = edx 0x143c 184 temp49.d = eax 0x143c 185 temp1.d = mods.dp.d(temp48.d:temp49.d, ecx) 0x143c 186 eax = temp0.d 0x143c 187 edx = temp1.d 0x1441 188 if (edx != 0) then 213 @ 0x1456 else 214 @ 0x1447 0x141f 189 eax = [rbp - 0x14 {var_1c}].d 0x1422 190 ecx = 0x64 {""} 0x1427 191 temp50.d:temp51.d = sx.q(eax) 0x1427 192 edx = temp50.d 0x1427 193 eax = temp51.d 0x1428 194 temp52.d = edx 0x1428 195 temp53.d = eax 0x1428 196 temp0.d = divs.dp.d(temp52.d:temp53.d, ecx) 0x1428 197 temp54.d = edx 0x1428 198 temp55.d = eax 0x1428 199 temp1.d = mods.dp.d(temp54.d:temp55.d, ecx) 0x1428 200 eax = temp0.d 0x1428 201 edx = temp1.d 0x142d 202 if (edx != 0) then 214 @ 0x1447 else 175 @ 0x1433 0x1384 203 eax = [rbp - 0x2c {var_34}].d 0x1387 204 eax = eax + 1 0x138a 205 [rbp - 0x2c {var_34_1}].d = eax 0x138d 206 goto 217 @ 0x1406 0x1374 207 if ([rbp - 0x18 {var_20}].d == 4) then 203 @ 0x1384 else 218 @ 0x137e 0x12a1 208 if ([rbp - 0xc {var_14}].d == 9) then 219 @ 0x12b1 else 223 @ 0x12ab 0x128f 209 eax = [rbp - 0x28 {var_30}].d 0x1292 210 eax = eax + 3 0x1295 211 [rbp - 0x28 {var_30_1}].d = eax 0x1298 212 goto 224 @ 0x12cd 0x1456 213 if ([rbp - 0x18 {var_20}].d s<= 2) then 225 @ 0x1465 else 226 @ 0x145c 0x1447 214 eax = [rbp - 0x2c {var_34_1}].d 0x144a 215 [rbp - 0x2c {var_34_1}].d = eax 0x144d 216 goto 230 @ 0x146a 0x1406 217 goto 158 @ 0x140b 0x137e 218 if ([rbp - 0x18 {var_20}].d != 5) then 246 @ 0x1396 else 203 @ 0x1384 0x12b1 219 eax = [rbp - 0x28 {var_30}].d 0x12b4 220 eax = eax + 4 0x12b7 221 [rbp - 0x28 {var_30_1}].d = eax 0x12ba 222 goto 247 @ 0x12c8 0x12ab 223 if ([rbp - 0xc {var_14}].d != 0xa) then 248 @ 0x12bf else 219 @ 0x12b1 0x12cd 224 goto 173 @ 0x12d2 0x1465 225 goto 230 @ 0x146a 0x145c 226 eax = [rbp - 0x2c {var_34_1}].d 0x145f 227 eax = eax - 1 0x1462 228 [rbp - 0x2c {var_34_1}].d = eax 0x1462 229 goto 225 @ 0x1465 0x146a 230 eax = [rbp - 0x1c {var_24}].d 0x146d 231 eax = eax - [rbp - 0x10 {var_18}].d 0x1470 232 [rbp - 0x30 {var_38}].d = eax 0x1473 233 eax = [rbp - 0x24 {var_2c}].d 0x1476 234 eax = eax - [rbp - 0x28 {var_30_1}].d 0x1479 235 eax = eax + [rbp - 0x2c {var_34_1}].d 0x147c 236 eax = eax + [rbp - 0x30 {var_38}].d 0x147f 237 [rbp - 0x34 {var_3c}].d = eax 0x1482 238 esi = [rbp - 0x34 {var_3c}].d 0x1485 239 rdi = 0x2016 {"%d\n"} 0x148c 240 al = 0 0x148e 241 call(0x1030) 0x1493 242 eax = 0 0x1495 243 rsp = rsp + 0x40 0x1499 244 rbp = pop 0x149a 245 <return> jump(pop) 0x1396 246 if ([rbp - 0x18 {var_20}].d == 6) then 252 @ 0x13a6 else 256 @ 0x13a0 0x12c8 247 goto 224 @ 0x12cd 0x12bf 248 eax = [rbp - 0x28 {var_30}].d 0x12c2 249 eax = eax + 5 0x12c5 250 [rbp - 0x28 {var_30_1}].d = eax 0x12c5 251 goto 247 @ 0x12c8 0x13a6 252 eax = [rbp - 0x2c {var_34}].d 0x13a9 253 eax = eax + 2 0x13ac 254 [rbp - 0x2c {var_34_1}].d = eax 0x13af 255 goto 257 @ 0x1401 0x13a0 256 if ([rbp - 0x18 {var_20}].d != 7) then 258 @ 0x13b8 else 252 @ 0x13a6 0x1401 257 goto 217 @ 0x1406 0x13b8 258 if ([rbp - 0x18 {var_20}].d != 8) then 259 @ 0x13d0 else 260 @ 0x13be 0x13d0 259 if ([rbp - 0x18 {var_20}].d == 9) then 264 @ 0x13e0 else 268 @ 0x13da 0x13be 260 eax = [rbp - 0x2c {var_34}].d 0x13c1 261 eax = eax + 3 0x13c4 262 [rbp - 0x2c {var_34_1}].d = eax 0x13c7 263 goto 269 @ 0x13fc 0x13e0 264 eax = [rbp - 0x2c {var_34}].d 0x13e3 265 eax = eax + 4 0x13e6 266 [rbp - 0x2c {var_34_1}].d = eax 0x13e9 267 goto 270 @ 0x13f7 0x13da 268 if ([rbp - 0x18 {var_20}].d != 0xa) then 271 @ 0x13ee else 264 @ 0x13e0 0x13fc 269 goto 257 @ 0x1401 0x13f7 270 goto 269 @ 0x13fc 0x13ee 271 eax = [rbp - 0x2c {var_34}].d 0x13f1 272 eax = eax + 5 0x13f4 273 [rbp - 0x2c {var_34_1}].d = eax 0x13f4 274 goto 270 @ 0x13f7 int64_t _fini(): 0x14a0 0 rsp = rsp - 8 0x14a4 1 rsp = rsp + 8 0x14a8 2 <return> jump(pop)	POJ_80
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t getchar(): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x11b0 {"AWAVAUATSHA"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int64_t down(uint64_t arg1): 0x1163 0 if (rdi s<= 0) then 1 @ 0x11aa else 3 @ 0x1165 0x11aa 1 eax = 0 0x11ac 2 <return> jump(pop) 0x1165 3 rcx = rdi 0x1168 4 eax = 0 0x116a 5 r8 = -0x3333333333333333 0x117e 6 goto 7 @ 0x1180 0x1180 7 rsi = rax + (rax << 2) 0x1184 8 rax = rcx 0x1187 9 rdx:rax = mulu.dp.q(rax, r8) 0x118a 10 rdx = rdx u>> 3 0x118e 11 rax = rdx + rdx 0x1192 12 rax = rax + (rax << 2) 0x1196 13 rdi = rcx 0x1199 14 rdi = rdi - rax 0x119c 15 rax = rdi + (rsi << 1) 0x11a0 16 cond:0 = rcx u> 9 0x11a4 17 rcx = rdx 0x11a7 18 if (cond:0) then 7 @ 0x1180 else 19 @ 0x11a9 0x11a9 19 <return> jump(pop) int32_t main(int32_t argc, char argv, char envp): 0x11b0 0 push(r15) 0x11b2 1 push(r14) 0x11b4 2 push(r13) 0x11b6 3 push(r12) 0x11b8 4 push(rbx) 0x11b9 5 rsp = rsp - 0x10 0x11bd 6 r13d = 1 0x11c3 7 r14 = 0x2008 {"%d"} 0x11ca 8 r15 = rsp + 8 {var_30} 0x11cf 9 rbx = -0x3333333333333333 0x11d9 10 r12 = 0x200b {"%d\n"} 0x11e0 11 goto 12 @ 0x1218 0x1218 12 rdi = r14 0x121b 13 rsi = r15 {var_30} 0x121e 14 eax = 0 0x1220 15 call(0x1050) 0x1225 16 r8 = [rsp + 8 {var_30}].q 0x122a 17 rdi = r8 0x122d 18 temp0.q = r8 0x122d 19 cond:0 = temp0.q != 0 0x1230 20 if (temp0.q s< 0) then 21 @ 0x1240 else 23 @ 0x1232 0x1240 21 rdi = neg.q(rdi) 0x1240 22 goto 24 @ 0x1243 0x1232 23 if (cond:0) then 24 @ 0x1243 else 26 @ 0x1234 0x1243 24 eax = 0 0x124f 25 goto 27 @ 0x1250 0x1234 26 goto 39 @ 0x11f0 0x1250 27 rsi = rax + (rax << 2) 0x1254 28 rax = rdi 0x1257 29 rdx:rax = mulu.dp.q(rax, rbx) 0x125a 30 rdx = rdx u>> 3 0x125e 31 rax = rdx + rdx 0x1262 32 rax = rax + (rax << 2) 0x1266 33 rcx = rdi 0x1269 34 rcx = rcx - rax 0x126c 35 rax = rcx + (rsi << 1) 0x1270 36 cond:1 = rdi u> 9 0x1274 37 rdi = rdx 0x1277 38 if (cond:1) then 27 @ 0x1250 else 41 @ 0x1279 0x11f0 39 eax = 0 0x11f0 40 goto 42 @ 0x11f2 0x1279 41 goto 42 @ 0x11f2 0x11f2 42 rsi = rax 0x11f5 43 rsi = neg.q(rsi) 0x11fb 44 if (r8 s>= 0) then 45 else 47 @ 0x11ff 0x11fb 45 rsi = rax 0x11fb 46 goto 47 @ 0x11ff 0x11ff 47 [rsp + 8 {var_30}].q = rsi 0x1204 48 rdi = r12 0x1207 49 eax = 0 0x1209 50 call(0x1030) 0x120e 51 r13 = r13 + 1 0x1216 52 if (r13 == 7) then 53 @ 0x127e else 12 @ 0x1218 0x127e 53 eax = 0 0x1280 54 call(0x1040) 0x1285 55 eax = 0 0x1287 56 call(0x1040) 0x128c 57 eax = 0 0x128e 58 rsp = rsp + 0x10 0x1292 59 rbx = pop 0x1293 60 r12 = pop 0x1295 61 r13 = pop 0x1297 62 r14 = pop 0x1299 63 r15 = pop 0x129b 64 <return> jump(pop) int64_t _fini(): 0x12a0 0 rsp = rsp - 8 0x12a4 1 rsp = rsp + 8 0x12a8 2 <return> jump(pop)	POJ_44
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int32_t scanf(char const* format, ...): 0x1040 0 <return> tailcall([0x4020].q) void __cxa_finalize(void* d): 0x1050 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1064 0 ebp = 0 0x1066 1 r9 = rdx 0x1069 2 rsi = pop 0x106a 3 rdx = rsp {arg_8} 0x106d 4 rsp = rsp & 0xfffffffffffffff0 0x1071 5 push(rax) 0x1072 6 push(rsp) 0x1073 7 r8d = 0 0x1076 8 ecx = 0 0x1078 9 rdi = 0x1150 {"UHH"} 0x107f 10 call([0x3ff8].q) 0x107f 11 noreturn void deregister_tm_clones(): 0x1090 0 rdi = 0x4038 {""} 0x1097 1 rax = 0x4038 {""} 0x10a1 2 if (rax == rdi) then 3 @ 0x10b8 else 4 @ 0x10a3 0x10b8 3 <return> jump(pop) 0x10a3 4 rax = [0x3fd8].q 0x10ad 5 if (rax == 0) then 3 @ 0x10b8 else 6 @ 0x10af 0x10af 6 <return> tailcall(rax) void register_tm_clones(): 0x10c0 0 rdi = 0x4038 {""} 0x10c7 1 rsi = 0x4038 {""} 0x10ce 2 rsi = rsi - rdi 0x10d1 3 rax = rsi 0x10d4 4 rsi = rsi u>> 0x3f 0x10d8 5 rax = rax s>> 3 0x10dc 6 rsi = rsi + rax 0x10df 7 rsi = rsi s>> 1 0x10e2 8 if (rsi == 0) then 9 @ 0x10f8 else 10 @ 0x10e4 0x10f8 9 <return> jump(pop) 0x10e4 10 rax = [0x3ff0].q 0x10ee 11 if (rax == 0) then 9 @ 0x10f8 else 12 @ 0x10f0 0x10f0 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x110b 0 if ([0x4038].b != 0) then 1 @ 0x1138 else 2 @ 0x110d 0x1138 1 <return> jump(pop) 0x110d 2 push(rbp) 0x110e 3 cond:0 = [0x3fe0].q == 0 0x1116 4 rbp = rsp {__saved_rbp} 0x1119 5 if (cond:0) then 6 @ 0x1127 else 10 @ 0x111b 0x1127 6 call(0x1090) 0x112c 7 [0x4038].b = 1 0x1133 8 rbp = pop 0x1134 9 <return> jump(pop) 0x111b 10 rdi = [0x4030].q 0x1122 11 call(0x1050) 0x1122 12 goto 6 @ 0x1127 int64_t frame_dummy(): 0x1144 0 <return> tailcall(0x10c0) int32_t main(int32_t argc, char argv, char envp): 0x1150 0 push(rbp) 0x1151 1 rbp = rsp {__saved_rbp} 0x1154 2 rsp = rsp - 0x80 0x115b 3 [rbp - 0x7c {var_84}].d = 0 0x115b 4 goto 5 @ 0x1166 0x1166 5 if ([rbp - 0x7c {var_84}].d s>= 5) then 6 @ 0x11c6 else 17 @ 0x116c 0x11c6 6 rdi = 0x2004 {"%d%d"} 0x11cd 7 rsi = rbp - 0x74 {var_7c} 0x11d1 8 rdx = rbp - 0x78 {var_80} 0x11d5 9 al = 0 0x11d7 10 call(0x1040) 0x11dc 11 rdi = rbp - 0x70 {var_78} 0x11e0 12 esi = [rbp - 0x74 {var_7c}].d 0x11e3 13 edx = [rbp - 0x78 {var_80}].d 0x11e6 14 call(0x12a0) 0x11eb 15 [rbp - 0x7c {var_84_1}].d = eax 0x11f2 16 if ([rbp - 0x7c {var_84_1}].d != 0) then 19 @ 0x120a else 20 @ 0x11f8 0x116c 17 [rbp - 0x80 {var_88_1}].d = 0 0x116c 18 goto 24 @ 0x1177 0x120a 19 if ([rbp - 0x7c {var_84_1}].d == 0) then 25 @ 0x128f else 28 @ 0x1210 0x11f8 20 rdi = 0x2009 {"error"} 0x11ff 21 al = 0 0x1201 22 call(0x1030) 0x1201 23 goto 19 @ 0x120a 0x1177 24 if ([rbp - 0x80 {var_88_1}].d s>= 5) then 30 @ 0x11b3 else 31 @ 0x117d 0x128f 25 rsp = rsp + 0x80 0x1296 26 rbp = pop 0x1297 27 <return> jump(pop) 0x1210 28 [rbp - 0x7c {var_84_2}].d = 0 0x1210 29 goto 45 @ 0x121b 0x11b3 30 goto 46 @ 0x11b8 0x117d 31 rax = sx.q([rbp - 0x7c {var_84}].d) 0x1181 32 rsi = rbp - 0x70 {var_78} 0x1185 33 rax = rax * 0x14 0x1189 34 rsi = rsi + rax 0x118c 35 rax = sx.q([rbp - 0x80 {var_88_1}].d) 0x1190 36 rax = rax << 2 0x1194 37 rsi = rsi + rax 0x1197 38 rdi = 0x2006 {"%d"} 0x119e 39 al = 0 0x11a0 40 call(0x1040) 0x11a5 41 eax = [rbp - 0x80 {var_88_1}].d 0x11a8 42 eax = eax + 1 0x11ab 43 [rbp - 0x80 {var_88_1}].d = eax 0x11ae 44 goto 24 @ 0x1177 0x121b 45 if ([rbp - 0x7c {var_84_2}].d s>= 5) then 50 @ 0x128a else 51 @ 0x1221 0x11b8 46 eax = [rbp - 0x7c {var_84}].d 0x11bb 47 eax = eax + 1 0x11be 48 [rbp - 0x7c {var_84}].d = eax 0x11c1 49 goto 5 @ 0x1166 0x128a 50 goto 25 @ 0x128f 0x1221 51 [rbp - 0x80 {var_88_2}].d = 0 0x1221 52 goto 53 @ 0x122c 0x122c 53 if ([rbp - 0x80 {var_88_2}].d s>= 5) then 54 @ 0x1277 else 55 @ 0x1232 0x1277 54 goto 65 @ 0x127c 0x1232 55 rcx = sx.q([rbp - 0x7c {var_84_2}].d) 0x1236 56 rax = rbp - 0x70 {var_78} 0x123a 57 rcx = rcx * 0x14 0x123e 58 rax = rax + rcx 0x1241 59 rcx = sx.q([rbp - 0x80 {var_88_2}].d) 0x1245 60 esi = [rax + (rcx << 2)].d 0x1248 61 ecx = [rbp - 0x80 {var_88_2}].d 0x124b 62 edx = 0xa {""} 0x1250 63 eax = 0x20 {"@"} 0x1258 64 if (ecx s< 4) then 69 else 71 @ 0x125b 0x127c 65 eax = [rbp - 0x7c {var_84_2}].d 0x127f 66 eax = eax + 1 0x1282 67 [rbp - 0x7c {var_84_2}].d = eax 0x1285 68 goto 45 @ 0x121b 0x1258 69 edx = eax 0x1258 70 goto 71 @ 0x125b 0x125b 71 rdi = 0x200f {"%d%c"} 0x1262 72 al = 0 0x1264 73 call(0x1030) 0x1269 74 eax = [rbp - 0x80 {var_88_2}].d 0x126c 75 eax = eax + 1 0x126f 76 [rbp - 0x80 {var_88_2}].d = eax 0x1272 77 goto 53 @ 0x122c uint64_t huanh(int64_t arg1, int32_t arg2, int32_t arg3): 0x12a0 0 push(rbp) 0x12a1 1 rbp = rsp {__saved_rbp} 0x12a4 2 [rbp - 0x10 {var_18}].q = rdi 0x12a8 3 [rbp - 0x14 {var_1c}].d = esi 0x12ab 4 [rbp - 0x18 {var_20}].d = edx 0x12b2 5 if ([rbp - 0x14 {var_1c}].d s>= 5) then 6 @ 0x135f else 8 @ 0x12bc 0x135f 6 [rbp - 4 {var_c}].d = 0 0x135f 7 goto 9 @ 0x1366 0x12bc 8 if ([rbp - 0x14 {var_1c}].d s< 0) then 6 @ 0x135f else 12 @ 0x12c6 0x1366 9 eax = [rbp - 4 {var_c}].d 0x1369 10 rbp = pop 0x136a 11 <return> jump(pop) 0x12c6 12 if ([rbp - 0x18 {var_20}].d s>= 5) then 6 @ 0x135f else 13 @ 0x12d0 0x12d0 13 if ([rbp - 0x18 {var_20}].d s< 0) then 6 @ 0x135f else 14 @ 0x12d6 0x12d6 14 [rbp - 0x1c {var_24_1}].d = 0 0x12d6 15 goto 16 @ 0x12e1 0x12e1 16 if ([rbp - 0x1c {var_24_1}].d s>= 5) then 17 @ 0x1353 else 19 @ 0x12e7 0x1353 17 [rbp - 4 {var_c}].d = 1 0x135a 18 goto 9 @ 0x1366 0x12e7 19 rax = [rbp - 0x10 {var_18}].q 0x12eb 20 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x12ef 21 rcx = rcx * 0x14 0x12f3 22 rax = rax + rcx 0x12f6 23 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x12fa 24 eax = [rax + (rcx << 2)].d 0x12fd 25 [rbp - 0x20 {var_28_1}].d = eax 0x1300 26 rax = [rbp - 0x10 {var_18}].q 0x1304 27 rcx = sx.q([rbp - 0x18 {var_20}].d) 0x1308 28 rcx = rcx * 0x14 0x130c 29 rax = rax + rcx 0x130f 30 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x1313 31 edx = [rax + (rcx << 2)].d 0x1316 32 rax = [rbp - 0x10 {var_18}].q 0x131a 33 rcx = sx.q([rbp - 0x14 {var_1c}].d) 0x131e 34 rcx = rcx * 0x14 0x1322 35 rax = rax + rcx 0x1325 36 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x1329 37 [rax + (rcx << 2)].d = edx 0x132c 38 edx = [rbp - 0x20 {var_28_1}].d 0x132f 39 rax = [rbp - 0x10 {var_18}].q 0x1333 40 rcx = sx.q([rbp - 0x18 {var_20}].d) 0x1337 41 rcx = rcx * 0x14 0x133b 42 rax = rax + rcx 0x133e 43 rcx = sx.q([rbp - 0x1c {var_24_1}].d) 0x1342 44 [rax + (rcx << 2)].d = edx 0x1345 45 eax = [rbp - 0x1c {var_24_1}].d 0x1348 46 eax = eax + 1 0x134b 47 [rbp - 0x1c {var_24_1}].d = eax 0x134e 48 goto 16 @ 0x12e1 int64_t _fini(): 0x1370 0 rsp = rsp - 8 0x1374 1 rsp = rsp + 8 0x1378 2 <return> jump(pop)	POJ_81
void _init(): 0x1004 0 rsp = rsp - 8 0x1008 1 rax = [0x3fe8].q 0x1012 2 if (rax == 0) then 3 @ 0x1016 else 5 @ 0x1014 0x1016 3 rsp = rsp + 8 0x101a 4 <return> jump(pop) 0x1014 5 call(rax) 0x1014 6 goto 3 @ 0x1016 int32_t printf(char const* format, ...): 0x1030 0 <return> tailcall([0x4018].q) int64_t sub_1036(): 0x1036 0 push(zx.q(0)) 0x103b 1 goto 2 @ 0x1020 0x1020 2 push([0x4008].q) 0x1026 3 jump([0x4010].q) int64_t memset(void* arg1, int32_t arg2, uint64_t arg3): 0x1040 0 <return> tailcall([0x4020].q) int32_t scanf(char const* format, ...): 0x1050 0 <return> tailcall([0x4028].q) void __cxa_finalize(void* d): 0x1060 0 <return> tailcall([0x3fe0].q) int64_t _start(int64_t arg1, int64_t arg2, void (* arg3)()) __noreturn: 0x1074 0 ebp = 0 0x1076 1 r9 = rdx 0x1079 2 rsi = pop 0x107a 3 rdx = rsp {arg_8} 0x107d 4 rsp = rsp & 0xfffffffffffffff0 0x1081 5 push(rax) 0x1082 6 push(rsp) 0x1083 7 r8d = 0 0x1086 8 ecx = 0 0x1088 9 rdi = 0x1160 {"AWAVATSH"} 0x108f 10 call([0x3ff8].q) 0x108f 11 noreturn void deregister_tm_clones(): 0x10a0 0 rdi = 0x4040 {""} 0x10a7 1 rax = 0x4040 {""} 0x10b1 2 if (rax == rdi) then 3 @ 0x10c8 else 4 @ 0x10b3 0x10c8 3 <return> jump(pop) 0x10b3 4 rax = [0x3fd8].q 0x10bd 5 if (rax == 0) then 3 @ 0x10c8 else 6 @ 0x10bf 0x10bf 6 <return> tailcall(rax) void register_tm_clones(): 0x10d0 0 rdi = 0x4040 {""} 0x10d7 1 rsi = 0x4040 {""} 0x10de 2 rsi = rsi - rdi 0x10e1 3 rax = rsi 0x10e4 4 rsi = rsi u>> 0x3f 0x10e8 5 rax = rax s>> 3 0x10ec 6 rsi = rsi + rax 0x10ef 7 rsi = rsi s>> 1 0x10f2 8 if (rsi == 0) then 9 @ 0x1108 else 10 @ 0x10f4 0x1108 9 <return> jump(pop) 0x10f4 10 rax = [0x3ff0].q 0x10fe 11 if (rax == 0) then 9 @ 0x1108 else 12 @ 0x1100 0x1100 12 <return> tailcall(rax) void __do_global_dtors_aux(): 0x111b 0 if ([0x4040].b != 0) then 1 @ 0x1148 else 2 @ 0x111d 0x1148 1 <return> jump(pop) 0x111d 2 push(rbp) 0x111e 3 cond:0 = [0x3fe0].q == 0 0x1126 4 rbp = rsp {__saved_rbp} 0x1129 5 if (cond:0) then 6 @ 0x1137 else 10 @ 0x112b 0x1137 6 call(0x10a0) 0x113c 7 [0x4040].b = 1 0x1143 8 rbp = pop 0x1144 9 <return> jump(pop) 0x112b 10 rdi = [0x4038].q 0x1132 11 call(0x1060) 0x1132 12 goto 6 @ 0x1137 int64_t frame_dummy(): 0x1154 0 <return> tailcall(0x10d0) int32_t main(int32_t argc, char argv, char envp): 0x1160 0 push(r15) 0x1162 1 push(r14) 0x1164 2 push(r12) 0x1166 3 push(rbx) 0x1167 4 rsp = rsp - 0x1d4d8 0x116e 5 rdi = 0x2007 {"%d"} 0x1175 6 rsi = rsp + 0xc {var_1d4ec} 0x117a 7 eax = 0 0x117c 8 call(0x1050) 0x1181 9 edx = [rsp + 0xc {var_1d4ec}].d 0x1187 10 if (edx s<= 0) then 11 @ 0x1199 else 16 @ 0x1189 0x1199 11 rbx = rsp + 0x13890 {var_9c68} 0x11a1 12 r14 = rsp + 0x9c50 {var_138a8} 0x11a9 13 r15 = 0x2004 {"%d %d"} 0x11b0 14 r12d = 0 0x11b3 15 goto 21 @ 0x11d5 0x1189 16 rdx = rdx << 2 0x118d 17 rdi = rsp + 0x10 {var_1d4e8} 0x1192 18 esi = 0 0x1194 19 call(0x1040) 0x1194 20 goto 11 @ 0x1199 0x11d5 21 rdi = r15 0x11d8 22 rsi = rbx 0x11db 23 rdx = r14 0x11de 24 eax = 0 0x11e0 25 call(0x1050) 0x11e8 26 if ([rbx].d != 0) then 27 @ 0x11c7 else 28 @ 0x11ee 0x11c7 27 if (r12d u> 0x270e) then 29 @ 0x11f9 else 31 @ 0x11c9 0x11ee 28 if ([r14].d == 0) then 29 @ 0x11f9 else 35 @ 0x11f7 0x11f9 29 eax = (r12 + 1).d 0x1201 30 if (r12d == 0) then 36 @ 0x12df else 38 @ 0x1207 0x11c9 31 r12d = r12d + 1 0x11cd 32 rbx = rbx + 4 0x11d1 33 r14 = r14 + 4 0x11d1 34 goto 21 @ 0x11d5 0x11f7 35 if (r12d u< 0x270f) then 31 @ 0x11c9 else 29 @ 0x11f9 0x12df 36 ecx = 0 0x12e3 37 if ((al & 1) != 0) then 42 @ 0x1257 else 47 @ 0x12e9 0x1207 38 edx = eax 0x1209 39 edx = edx & 0xfffffffe 0x120c 40 ecx = 0 0x120e 41 goto 48 @ 0x1210 0x1257 42 rax = sx.q([rsp + (rcx << 2) + 0x9c50].d) 0x125f 43 [rsp + (rax << 2) + 0x10].d = [rsp + (rax << 2) + 0x10].d + 1 0x1264 44 rax = sx.q([rsp + (rcx << 2) + 0x13890].d) 0x126c 45 [rsp + (rax << 2) + 0x10].d = -0x2710 0x126c 46 goto 58 @ 0x1274 0x12e9 47 goto 58 @ 0x1274 0x1210 48 rsi = sx.q([rsp + (rcx << 2) + 0x9c50].d) 0x1218 49 [rsp + (rsi << 2) + 0x10].d = [rsp + (rsi << 2) + 0x10].d + 1 0x121d 50 rsi = sx.q([rsp + (rcx << 2) + 0x13890].d) 0x1225 51 [rsp + (rsi << 2) + 0x10].d = -0x2710 0x122d 52 rsi = sx.q([rsp + (rcx << 2) + 0x9c54].d) 0x1235 53 [rsp + (rsi << 2) + 0x10].d = [rsp + (rsi << 2) + 0x10].d + 1 0x123a 54 rsi = sx.q([rsp + (rcx << 2) + 0x13894].d) 0x1242 55 [rsp + (rsi << 2) + 0x10].d = -0x2710 0x124a 56 rcx = rcx + 2 0x1251 57 if (rdx != rcx) then 48 @ 0x1210 else 60 @ 0x1255 0x1274 58 eax = [rsp + 0xc {var_1d4ec}].d 0x127a 59 if (eax s<= 0) then 61 @ 0x12c0 else 65 @ 0x127c 0x1255 60 if ((al & 1) == 0) then 58 @ 0x1274 else 42 @ 0x1257 0x12c0 61 rdi = 0x200e {"NOT FOUND"} 0x12c7 62 eax = 0 0x12c9 63 call(0x1030) 0x12c9 64 goto 69 @ 0x12ce 0x127c 65 r14 = 0x200a {"%d\n"} 0x1283 66 ebx = 0 0x1285 67 ecx = 0 0x1287 68 goto 76 @ 0x129c 0x12ce 69 eax = 0 0x12d0 70 rsp = rsp + 0x1d4d8 0x12d7 71 rbx = pop 0x12d8 72 r12 = pop 0x12da 73 r14 = pop 0x12dc 74 r15 = pop 0x12de 75 <return> jump(pop) 0x129c 76 edx = (rax - 1).d 0x12a3 77 if ([rsp + (rbx << 2) + 0x10].d != edx) then 78 @ 0x1290 else 81 @ 0x12a5 0x1290 78 rbx = rbx + 1 0x1294 79 rdx = sx.q(eax) 0x129a 80 if (rbx s>= rdx) then 88 @ 0x12be else 76 @ 0x129c 0x12a5 81 rdi = r14 0x12a8 82 esi = ebx 0x12aa 83 eax = 0 0x12ac 84 call(0x1030) 0x12b1 85 ecx = 1 0x12b6 86 eax = [rsp + 0xc {var_1d4ec}].d 0x12ba 87 goto 78 @ 0x1290 0x12be 88 if (ecx != 0) then 69 @ 0x12ce else 61 @ 0x12c0 int64_t _fini(): 0x12f0 0 rsp = rsp - 8 0x12f4 1 rsp = rsp + 8 0x12f8 2 <return> jump(pop)	POJ_89

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