function test() { var r1, r2; r1 = 0; f(r1); r1 += 1; r2 = r1 + 2; g(r1, r2); f(r1); r1 = cheez(); r2 = r1 + 2; g(r2, r2); r2 = 200; r2 = 203; r2 = 205; r1 = 208; c(r2); while (f()) { r2 = 5; r1 = 12; gg(r2, r1 * 2); r1 = 100; gg(r1, 20); } r1 = f(), r2 = 100, r2 = 1e3, r2 = 1e5; f(r1()); } function primes() { var r1, r2, r3, r4, r5, r6, r7; r1 = 2; r2 = 0; $_$2 : while (1) { r3 = r1 | 0; r4 = _sqrtf(r3); r3 = 2; $_$4 : while (1) { r5 = r3 | 0; r6 = r5 < r4; if (!r6) { r7 = 1; break $_$4; } r6 = (r1 | 0) % (r3 | 0); r5 = (r6 | 0) == 0; if (r5) { r7 = 0; break $_$4; } r5 = r3 + 1 | 0; r3 = r5; } r3 = r7 + r2 | 0; r4 = r1 + 1 | 0; r5 = (r3 | 0) < 1e5; if (r5) { r1 = r4; r2 = r3; } else { break $_$2; } } r2 = _printf(STRING_TABLE.__str | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r1, tempInt)); return 1; return null; } function atomic() { var r1, r2, r3, r4; r1 = STACKTOP; STACKTOP += 4; r2 = r1 >> 2; HEAP32[r2] = 10; r3 = (tempValue = HEAP32[r2], HEAP32[r2] == 10 && (HEAP32[r2] = 7), tempValue); r4 = (r3 | 0) == 10 & 1; r3 = HEAP32[r2]; r2 = _printf(STRING_TABLE.__str | 0, (tempInt = STACKTOP, STACKTOP += 8, HEAP32[tempInt >> 2] = r3, HEAP32[tempInt + 4 >> 2] = r4, tempInt)); STACKTOP = r1; return 0; return null; } function fcntl_open() { var r1, r2, r3, r4, r5, r6, r7, r8, r9, r10, r11, r12, r13, r14, r15, r16, r17; r1 = STACKTOP; STACKTOP += 84; r2 = r1; r3 = r1 + 72; r4 = r3 | 0; for (r5 = STRING_TABLE.__ZZ4mainE16nonexistent_name | 0, r6 = r4, r7 = r5 + 12; r5 < r7; r5++, r6++) { HEAP8[r6] = HEAP8[r5]; } r5 = (r2 + 8 | 0) >> 2; r8 = r2 >> 2; r9 = r3 + 9 | 0; r10 = r3 + 10 | 0; r3 = 0; while (1) { r11 = HEAP32[__ZZ4mainE5modes + (r3 << 2) >> 2]; r12 = r11 | 512; r13 = r3 + 97 & 255; r14 = 0; while (1) { r15 = (r14 & 1 | 0) == 0 ? r11 : r12; r16 = (r14 & 2 | 0) == 0 ? r15 : r15 | 2048; r15 = (r14 & 4 | 0) == 0 ? r16 : r16 | 1024; r16 = (r14 & 8 | 0) == 0 ? r15 : r15 | 8; r15 = _printf(STRING_TABLE.__str | 0, (tempInt = STACKTOP, STACKTOP += 8, HEAP32[tempInt >> 2] = r3, HEAP32[tempInt + 4 >> 2] = r14, tempInt)); r15 = _open(STRING_TABLE.__str2 | 0, r16, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = 511, tempInt)); r17 = (r15 | 0) != -1 & 1; r15 = _printf(STRING_TABLE.__str1 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r17, tempInt)); r17 = ___errno(); r15 = HEAP32[r17 >> 2]; r17 = _printf(STRING_TABLE.__str3 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); r15 = _stat(STRING_TABLE.__str2 | 0, r2); r15 = HEAP32[r5] & -512; r17 = _printf(STRING_TABLE.__str4 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); for (r6 = r8, r7 = r6 + 18; r6 < r7; r6++) { HEAP32[r6] = 0; } r15 = _putchar(10); r15 = ___errno(); HEAP32[r15 >> 2] = 0; r15 = _printf(STRING_TABLE.__str6 | 0, (tempInt = STACKTOP, STACKTOP += 8, HEAP32[tempInt >> 2] = r3, HEAP32[tempInt + 4 >> 2] = r14, tempInt)); r15 = _open(STRING_TABLE.__str7 | 0, r16, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = 511, tempInt)); r17 = (r15 | 0) != -1 & 1; r15 = _printf(STRING_TABLE.__str1 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r17, tempInt)); r17 = ___errno(); r15 = HEAP32[r17 >> 2]; r17 = _printf(STRING_TABLE.__str3 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); r15 = _stat(STRING_TABLE.__str7 | 0, r2); r15 = HEAP32[r5] & -512; r17 = _printf(STRING_TABLE.__str4 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); for (r6 = r8, r7 = r6 + 18; r6 < r7; r6++) { HEAP32[r6] = 0; } r15 = _putchar(10); r15 = ___errno(); HEAP32[r15 >> 2] = 0; HEAP8[r9] = r13; HEAP8[r10] = r14 + 97 & 255; r15 = _printf(STRING_TABLE.__str8 | 0, (tempInt = STACKTOP, STACKTOP += 8, HEAP32[tempInt >> 2] = r3, HEAP32[tempInt + 4 >> 2] = r14, tempInt)); r15 = _open(r4, r16, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = 511, tempInt)); r17 = (r15 | 0) != -1 & 1; r15 = _printf(STRING_TABLE.__str1 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r17, tempInt)); r17 = ___errno(); r15 = HEAP32[r17 >> 2]; r17 = _printf(STRING_TABLE.__str3 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); r15 = _stat(r4, r2); r15 = HEAP32[r5] & -512; r17 = _printf(STRING_TABLE.__str4 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r15, tempInt)); for (r6 = r8, r7 = r6 + 18; r6 < r7; r6++) { HEAP32[r6] = 0; } r16 = _putchar(10); r16 = ___errno(); HEAP32[r16 >> 2] = 0; r16 = r14 + 1 | 0; if ((r16 | 0) == 16) { break; } r14 = r16; } r14 = r3 + 1 | 0; if ((r14 | 0) == 3) { break; } r3 = r14; } r3 = _puts(STRING_TABLE._str | 0); r3 = _creat(STRING_TABLE.__str10 | 0, 511); r6 = (r3 | 0) != -1 & 1; r3 = _printf(STRING_TABLE.__str1 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r6, tempInt)); r6 = ___errno(); r3 = HEAP32[r6 >> 2]; r6 = _printf(STRING_TABLE.__str3 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r3, tempInt)); STACKTOP = r1; return 0; return null; } function ex() { var r1, r2; r1 = STACKTOP; STACKTOP += 4; r2 = r1; r1 = _puts(STRING_TABLE._str17 | 0); r1 = r2 | 0; r2 = 0; while (1) { r1 = _printf(STRING_TABLE.__str15 | 0, (tempInt = STACKTOP, STACKTOP += 4, HEAP32[tempInt >> 2] = r2, tempInt)); ((function() { try { __THREW__ = false; return __Z5magici(r2); } catch (e) { if (typeof e != "number") throw e; if (ABORT) throw e; __THREW__ = true; return null; } }))(); } } function switchey(r1) { var r2, r3, r4, r5, r6, r7, r8, r9; r2 = 5; while (1) { switch (r1 = f(r1, r2)) { case 1: g(r2); r3 = r1 + 1; r1--; break; case 2: g(r2 * 2); r4 = r1 + 22; r5 = r4 + 5; r1 -= 20; break; default: r6 = r1 + 22; r7 = r4 + 5; ch(r6, r7 * r4); throw 99; } } r8 = r1 + 1; p(r2, r8); r9 = r1 + 2; pp(r9); } function __ZN14NetworkAddressC1EPKcti(r1) { __ZN14NetworkAddressC2EPKcti(r1); return; }