/* * This is a RANDOMLY GENERATED PROGRAM. * * Generator: csmith 2.2.0 * Git version: a8697aa * Options: --no-volatiles --no-math64 --no-packed-struct * Seed: 4255021480 */ #include "csmith.h" static long __undefined; /* --- Struct/Union Declarations --- */ union U0 { uint32_t f0; uint32_t f1; uint16_t f2; int32_t f3; int16_t f4; }; union U1 { int32_t f0; int8_t f1; }; union U2 { signed f0 : 31; uint8_t f1; }; /* --- GLOBAL VARIABLES --- */ static union U2 g_9[5] = {{5L},{5L},{5L},{5L},{5L}}; static int32_t g_11 = 0xE5C285CEL; static const int32_t *g_16 = &g_11; static uint8_t g_66[1] = {0xC8L}; static uint8_t g_71 = 255UL; static int32_t g_75 = 0xD78BEA8EL; static int8_t g_76[5] = {0x1AL,0x1AL,0x1AL,0x1AL,0x1AL}; static int16_t g_77 = 0x065BL; static uint32_t g_78[7][9] = {{0x1A9F1398L,0xB1F15F1DL,0x4BD9F5B6L,0x1A9F1398L,0x8559CE79L,0xA768FB0CL,0xB1AAE879L,4294967293UL,0x8559CE79L},{0x8327BC4AL,0xF31BC463L,8UL,7UL,1UL,7UL,1UL,0x00823388L,1UL},{0x9C36DE1FL,0x19045039L,0xA768FB0CL,0x9C36DE1FL,0xB1F15F1DL,4294967293UL,4294967293UL,0x7078C3FCL,0x8559CE79L},{0x6E6AF575L,0x6E6AF575L,1UL,0x8327BC4AL,7UL,1UL,0x00823388L,0x00823388L,1UL},{0x8559CE79L,0x19045039L,0x9C36DE1FL,0x1A9F1398L,4294967293UL,0x9C36DE1FL,4294967291UL,4294967293UL,0xB1F15F1DL},{0x6E6AF575L,1UL,0x8327BC4AL,0x24791A13L,0x00823388L,1UL,0x24791A13L,0x6E6AF575L,7UL},{0x19045039L,0xA768FB0CL,0x19045039L,0x7078C3FCL,0x7078C3FCL,0xB1AAE879L,0x8559CE79L,0x7078C3FCL,0xA768FB0CL}}; static int32_t *g_83[8][10] = {{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11}}; static int32_t **g_82 = &g_83[0][9]; static int32_t g_102 = 0xFD02F95CL; static uint16_t g_135 = 65534UL; static int32_t g_144 = 0x2D1F4F54L; static const uint16_t g_160 = 1UL; static union U0 g_181 = {4294967292UL}; static union U0 *g_183 = &g_181; static union U1 g_202 = {0xD13A1308L}; static union U1 *g_201 = &g_202; static int16_t g_209 = 2L; static int32_t g_211 = 0xAD8558D5L; static uint16_t g_231 = 65527UL; static union U1 *g_261 = &g_202; static union U2 *g_282 = (void*)0; static union U2 **g_281 = &g_282; static const int16_t g_328 = 2L; static int8_t g_390 = 0x65L; static int32_t g_468 = 0x425A7515L; static int32_t **g_537 = &g_83[6][2]; static uint32_t g_547 = 0UL; static const uint32_t g_573 = 4294967288UL; static const uint32_t g_575 = 4294967291UL; static const uint32_t *g_574 = &g_575; static int16_t g_582 = 0x5594L; static union U0 **g_587 = &g_183; static union U0 ***g_586 = &g_587; static uint16_t *g_593 = &g_231; static uint16_t **g_592 = &g_593; static const union U1 g_649 = {-1L}; static const union U1 *g_648 = &g_649; static int16_t g_666 = 0xB689L; static uint32_t g_668 = 2UL; static union U2 ***g_691 = &g_281; static union U2 *** const *g_690 = &g_691; static int32_t g_756 = 0x25866B22L; static uint8_t g_860 = 0x3DL; static uint16_t g_894 = 0xD1D4L; static const int32_t g_947 = 2L; static uint16_t g_966[5][3] = {{1UL,1UL,0x3378L},{1UL,1UL,1UL},{65535UL,0x3378L,1UL},{1UL,1UL,0x3378L},{1UL,0x3378L,65535UL}}; static int8_t *g_1030 = (void*)0; static int8_t **g_1029 = &g_1030; static union U1 g_1059[9][9] = {{{2L},{9L},{1L},{9L},{2L},{2L},{2L},{1L},{1L}},{{5L},{0x9B1D2FFCL},{0x256D147CL},{0x9B1D2FFCL},{5L},{0x9B1D2FFCL},{5L},{0x256D147CL},{0x256D147CL}},{{9L},{2L},{2L},{2L},{9L},{1L},{9L},{2L},{9L}},{{0x9B1D2FFCL},{5L},{5L},{5L},{0x9B1D2FFCL},{0x256D147CL},{0x256D147CL},{5L},{0x9B1D2FFCL}},{{1L},{9L},{1L},{9L},{2L},{2L},{2L},{9L},{1L}},{{5L},{0x9B1D2FFCL},{0x256D147CL},{0x9B1D2FFCL},{5L},{5L},{5L},{0x256D147CL},{0x256D147CL}},{{9L},{1L},{2L},{2L},{9L},{1L},{9L},{2L},{2L}},{{0x9B1D2FFCL},{5L},{5L},{5L},{0x9B1D2FFCL},{0x256D147CL},{0x9B1D2FFCL},{5L},{0x9B1D2FFCL}},{{1L},{9L},{9L},{9L},{2L},{2L},{2L},{9L},{1L}}}; static int32_t g_1124 = 0L; static int16_t g_1254 = 5L; static int32_t g_1294 = 0x5FC158E7L; static uint32_t *g_1326 = &g_78[4][2]; static int16_t *g_1346[7] = {&g_209,&g_582,&g_209,&g_582,&g_1254,&g_1254,&g_1254}; static union U0 *g_1354 = &g_181; static uint16_t g_1418 = 0x7548L; static int8_t * const **g_1432 = (void*)0; static union U1 **g_1483[6] = {&g_261,&g_261,&g_261,&g_261,&g_261,&g_261}; static int8_t g_1501 = (-1L); static const int8_t *g_1582[8] = {(void*)0,(void*)0,(void*)0,&g_1059[4][2].f1,(void*)0,(void*)0,(void*)0,(void*)0}; static const int8_t **g_1581 = &g_1582[6]; static const int8_t ***g_1580 = &g_1581; static uint8_t g_1597 = 1UL; static int32_t g_1613 = 0L; static uint8_t **g_1628 = (void*)0; static int32_t ** const *g_1630 = &g_82; static int32_t ** const **g_1629 = &g_1630; static int16_t g_1665[1] = {(-8L)}; /* --- FORWARD DECLARATIONS --- */ static int16_t func_1(void); static const int32_t * func_2(uint8_t p_3, union U2 p_4, int32_t * p_5, union U0 p_6, const union U1 p_7); static int32_t func_19(int32_t p_20); static const union U1 func_23(const int32_t * p_24, int8_t p_25, uint8_t p_26, const union U0 p_27, const int32_t * p_28); static const int32_t * func_29(int32_t ** p_30, int32_t * p_31, int32_t * p_32, uint32_t p_33); static int32_t * func_36(int32_t ** p_37); static int32_t ** func_38(int16_t p_39, int8_t p_40, union U2 p_41, union U0 p_42); static int8_t func_45(uint8_t p_46, uint16_t p_47, union U2 p_48, int32_t ** p_49, const uint32_t p_50); static int8_t func_55(uint8_t p_56, union U1 p_57, int32_t * p_58, uint8_t p_59); static int32_t * func_61(int16_t p_62, const int32_t ** p_63); /* --- FUNCTIONS --- */ /* ------------------------------------------ */ /* * reads : g_9 g_9.f0 g_11 g_16 g_66 g_71 g_78 g_82 g_77 g_181.f4 g_209 g_202.f0 g_181.f2 g_144 g_83 g_201 g_202 g_537 g_102 g_76 g_231 g_582 g_586 g_575 g_592 g_593 g_468 g_202.f1 g_261 g_649.f0 g_183 g_181 g_574 g_547 g_666 g_668 g_894 g_1124 g_587 g_181.f0 g_1630 g_281 g_282 g_690 g_691 * writes: g_16 g_66 g_71 g_78 g_76 g_181.f4 g_144 g_547 g_390 g_135 g_83 g_75 g_102 g_11 g_574 g_586 g_231 g_468 g_77 g_209 g_648 g_1124 g_181.f0 g_183 g_282 g_202 */ static int16_t func_1(void) { /* block id: 0 */ int8_t l_8 = 0xD2L; int32_t *l_10 = &g_11; union U0 l_12[3] = {{0xC63C4078L},{0xC63C4078L},{0xC63C4078L}}; const union U1 l_13 = {0x54DBBE56L}; const int32_t *l_15 = &l_12[2].f3; const int32_t **l_14[1]; union U2 **l_1476[1]; union U1 ** const l_1484 = &g_261; int16_t l_1489 = (-3L); int32_t l_1490[4][9][7] = {{{0x7722092EL,0xE7360E5FL,0x6D151BE1L,6L,(-5L),8L,0x348F7672L},{0x09844A68L,(-1L),(-9L),1L,0xFFB9EB74L,0xB7C332CFL,0x6178C1E9L},{0L,0x4AEF49C4L,0x579BFEBAL,0x1115582EL,0x1724644DL,1L,0x9A5CF446L},{0xB336F930L,1L,1L,0L,0x3AF81339L,9L,0xB12F7DAAL},{0x61FAFD88L,6L,9L,0xA08F10A1L,0x06B6F60EL,0xFFB9EB74L,0xEAFC93F5L},{6L,0xA08F10A1L,0x06B6F60EL,(-8L),(-7L),0xB12F7DAAL,0xB4CB5279L},{(-5L),(-2L),0xBA853D88L,(-8L),0L,0xDE8A14BCL,0xE7360E5FL},{0xF7A455E7L,0x579BFEBAL,0xEAFC93F5L,0xA08F10A1L,0x1DE7A7EEL,0x348F7672L,(-1L)},{0x579BFEBAL,(-2L),0xDE8A14BCL,0L,0xCC05669DL,0xCC05669DL,0x1E6C6902L}},{{0x3AF81339L,(-7L),(-1L),0x1115582EL,(-2L),0xCB6A97FAL,(-5L)},{3L,(-1L),(-2L),1L,0xEAFC93F5L,0x781D787BL,0x85A2F7F1L},{0x1E6C6902L,0x781D787BL,(-9L),6L,1L,(-7L),1L},{0x579BFEBAL,8L,0x09844A68L,0xE7360E5FL,0x6178C1E9L,0x3AF81339L,1L},{0x348F7672L,(-1L),(-9L),0x566121C2L,4L,0x06B6F60EL,0xCC05669DL},{1L,0x9A5CF446L,(-2L),0L,0x1115582EL,0x1724644DL,0x1115582EL},{0x09844A68L,0x579BFEBAL,(-1L),0x1724644DL,0xC388F8C3L,0xF7A455E7L,0L},{9L,0xA34E9BADL,0xDE8A14BCL,0L,0xF7A455E7L,0x29ABAF8CL,(-1L)},{(-1L),1L,0xEAFC93F5L,1L,1L,2L,9L}},{{(-1L),0x1DE7A7EEL,3L,0x7BF25D80L,(-7L),9L,0x348F7672L},{0xEAFC93F5L,0x1DE7A7EEL,0x7722092EL,0xA34E9BADL,8L,9L,2L},{(-1L),1L,0x0CEE732EL,6L,2L,0x9E61483AL,0x9E61483AL},{0xBA853D88L,0xA34E9BADL,0x6EC18B86L,0xCE872C2BL,0xA34E9BADL,(-1L),0x3AF81339L},{(-7L),0x579BFEBAL,0L,5L,0xEB035C34L,0x6EC18B86L,0x7722092EL},{0x6D151BE1L,0xBBCB4E5FL,0xA34E9BADL,(-1L),(-1L),0xEAFC93F5L,9L},{1L,0x9E61483AL,0xB336F930L,0xAA26BCE5L,0x566121C2L,0x9E61483AL,0xEB035C34L},{2L,0x85A2F7F1L,0xEAC2EEC8L,0xEAFC93F5L,0xBBCB4E5FL,0xB4CB5279L,0x1E6C6902L},{1L,0xFFB9EB74L,0x7722092EL,(-1L),0x96B34700L,0x1FBA7239L,0xB336F930L}},{{0x6D151BE1L,0xC388F8C3L,0x1579862BL,0x06B6F60EL,0x1E6C6902L,0x06B6F60EL,2L},{(-7L),0x09844A68L,2L,0xB4CB5279L,5L,1L,(-1L)},{3L,2L,(-1L),0xEB035C34L,(-1L),0xC388F8C3L,0x85A2F7F1L},{0x4EC6A0E7L,0L,1L,0x3AF81339L,0x7BF25D80L,(-1L),0L},{(-1L),(-1L),0x3AF81339L,(-8L),4L,0x61FAFD88L,0L},{4L,0x929F3853L,0xCB6A97FAL,0L,0xAA26BCE5L,0xCE872C2BL,0x85A2F7F1L},{0x566121C2L,0x4AEF49C4L,6L,0x4EC6A0E7L,(-1L),(-1L),(-1L)},{0x61FAFD88L,0x29ABAF8CL,0xE7360E5FL,0xE7360E5FL,0L,(-2L),2L},{0xB4CB5279L,(-2L),0x1DE7A7EEL,0xE7360E5FL,0xDE8A14BCL,0L,(-8L)}}}; int32_t l_1499 = 0L; int32_t l_1503 = 1L; uint32_t l_1505[3][5][2] = {{{4294967289UL,1UL},{0UL,1UL},{4294967289UL,1UL},{0UL,1UL},{4294967289UL,1UL}},{{0UL,1UL},{4294967289UL,1UL},{0UL,1UL},{4294967289UL,1UL},{0UL,1UL}},{{4294967289UL,1UL},{0UL,1UL},{4294967289UL,1UL},{0UL,1UL},{4294967289UL,1UL}}}; int32_t l_1530 = (-3L); int32_t l_1550 = 5L; int32_t l_1557 = 5L; union U1 *l_1563 = &g_1059[6][4]; uint32_t l_1622 = 0x24618042L; uint16_t l_1656 = 1UL; uint8_t *l_1682[9][4] = {{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]},{&g_66[0],&g_66[0],&g_66[0],&g_66[0]}}; uint8_t **l_1681 = &l_1682[8][2]; int32_t l_1684 = 0L; int i, j, k; for (i = 0; i < 1; i++) l_14[i] = &l_15; for (i = 0; i < 1; i++) l_1476[i] = (void*)0; g_16 = func_2(l_8, g_9[0], l_10, l_12[2], l_13); for (l_8 = 0; (l_8 < 3); l_8 = safe_add_func_int16_t_s_s(l_8, 8)) { /* block id: 6 */ int32_t l_1456 = 0L; int32_t l_1493 = (-5L); int32_t l_1494 = 0xCC45616AL; int32_t l_1498 = 0xF676537EL; int32_t l_1502[5]; int8_t l_1525 = (-1L); const int8_t l_1562 = 8L; const uint32_t **l_1594 = &g_574; union U1 l_1610 = {1L}; union U2 l_1654 = {2L}; uint32_t l_1685 = 0x72C9CEDCL; int i; for (i = 0; i < 5; i++) l_1502[i] = (-1L); if (func_19(g_9[0].f0)) { /* block id: 926 */ int8_t l_1454 = 0xD7L; int32_t l_1457[6][4] = {{0x7FED4B30L,1L,0x7FED4B30L,1L},{0x7FED4B30L,1L,0x7FED4B30L,1L},{0x7FED4B30L,1L,0x7FED4B30L,1L},{0x7FED4B30L,1L,0x7FED4B30L,1L},{0x7FED4B30L,1L,0x7FED4B30L,1L},{0x7FED4B30L,1L,0x7FED4B30L,1L}}; const int32_t *l_1466 = &g_468; uint16_t l_1488[6]; union U2 ***l_1529[9] = {&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0],&l_1476[0]}; int16_t l_1546 = 0x676EL; const union U0 l_1565 = {4294967292UL}; union U1 *l_1571 = &g_1059[4][2]; uint32_t *l_1591 = &l_1505[0][0][0]; int8_t l_1658 = 3L; int16_t l_1659 = 0xE414L; uint32_t l_1660 = 0x579CC0EBL; uint32_t l_1666 = 0xE040432BL; uint32_t l_1671 = 0xF8DE41A5L; union U1 *l_1672 = (void*)0; union U1 *l_1673[3]; union U1 *l_1674 = &g_202; int i, j; for (i = 0; i < 6; i++) l_1488[i] = 8UL; for (i = 0; i < 3; i++) l_1673[i] = (void*)0; for (g_144 = 0; (g_144 <= 0); g_144 += 1) { /* block id: 929 */ int16_t *l_1455[10] = {&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4,&l_12[2].f4}; uint8_t *l_1463 = &g_860; const int32_t **l_1487 = &l_15; int32_t l_1496 = (-2L); int32_t l_1497 = 0xC7FAF769L; union U2 l_1538 = {-1L}; const int8_t l_1539[6][6][7] = {{{0L,0x75L,2L,(-6L),(-6L),0xD3L,0x75L},{0x84L,0L,0x69L,0L,0x84L,0xF4L,7L},{0L,0L,0x75L,0xD3L,(-6L),0L,0x75L},{0xC1L,0x6CL,0x92L,0xF4L,0xC1L,0xF4L,0x92L},{1L,2L,0x75L,0L,(-6L),0xD3L,0xD3L},{0x84L,0L,7L,0xF4L,7L,0x6CL,0x84L}},{{1L,1L,0x75L,2L,0L,0L,0x75L},{0L,0L,0x92L,0x6CL,0L,0L,0L},{1L,0x75L,0xD3L,0L,(-6L),0x75L,0xD3L},{0x84L,0xF4L,0x84L,0L,0x84L,0L,7L},{(-6L),1L,0x75L,0x75L,0L,0L,2L},{0x92L,0x6CL,0xC1L,0L,0xC1L,0x6CL,0L}},{{(-6L),0xD3L,0xD3L,0L,1L,0x75L,0xD3L},{0x69L,0x6CL,7L,0x6CL,0x69L,0x6CL,0x69L},{(-6L),1L,2L,0x75L,0L,(-6L),0xD3L},{0L,0L,0L,0x6CL,0x92L,0x6CL,0xC1L},{0L,0xD3L,0xD3L,(-6L),0L,0x75L,0x75L},{7L,0xF4L,0x69L,0x6CL,0x84L,0xF4L,0x69L}},{{(-6L),0L,2L,0x75L,(-6L),1L,2L},{0x92L,0xF4L,0xC1L,0xF4L,0x92L,0xF4L,0x92L},{0L,0xD3L,0x75L,1L,1L,2L,2L},{0x69L,0L,0x69L,0xF4L,7L,0xF4L,0x69L},{1L,0L,2L,2L,1L,(-6L),0xD3L},{0xC1L,0L,0x92L,0xF4L,0L,0L,0x92L}},{{0L,0x75L,2L,(-6L),0L,0xD3L,0x75L},{0x84L,0L,0x84L,0L,7L,0xF4L,7L},{1L,0L,0xD3L,0xD3L,(-6L),1L,0x75L},{0x92L,0x6CL,0x92L,0L,0xC1L,0L,0x92L},{(-6L),0x75L,0x75L,1L,(-6L),2L,0xD3L},{0x84L,0x6CL,7L,0L,7L,0x6CL,7L}},{{1L,(-6L),0x75L,2L,1L,0L,0xD3L},{0L,0x6CL,0L,0x6CL,0xC1L,0L,0xC1L},{(-6L),0x75L,2L,0L,0L,0xD3L,0xD3L},{7L,0xF4L,7L,0L,0x84L,0x6CL,7L},{0L,1L,0xD3L,0xD3L,0L,1L,2L},{0L,0xF4L,0xC1L,0x6CL,0xC1L,0xF4L,0xC1L}}}; union U1 *l_1570 = &g_1059[4][2]; union U0 l_1593 = {1UL}; int i, j, k; } if ((*g_16)) { /* block id: 1007 */ union U1 *l_1599 = &g_1059[4][2]; int32_t l_1604 = 0L; union U2 l_1625 = {0x22466E4EL}; uint8_t *l_1627 = (void*)0; uint8_t **l_1626 = &l_1627; uint32_t l_1631[4][8] = {{4294967287UL,1UL,4294967288UL,0x1CF551D9L,4294967287UL,0xFC67C7A4L,0UL,1UL},{4294967288UL,4294967288UL,0xD89884B8L,0x1CF551D9L,0xD89884B8L,4294967288UL,0xD89884B8L,4294967287UL},{0UL,0xFC67C7A4L,4294967287UL,4294967287UL,0xD89884B8L,0x8D4BD049L,1UL,4294967288UL},{0x8D4BD049L,4294967287UL,4294967287UL,1UL,0xFC67C7A4L,1UL,4294967287UL,1UL}}; int i, j; for (g_71 = 0; (g_71 != 40); ++g_71) { /* block id: 1010 */ const int32_t l_1606 = 1L; } } else { /* block id: 1031 */ int8_t l_1655 = 0x2AL; union U2 l_1661 = {-9L}; int32_t *l_1662 = &l_12[2].f3; int32_t *l_1663[9] = {&l_1493,&l_1493,&l_1493,&l_1493,&l_1493,&l_1493,&l_1493,&l_1493,&l_1493}; int32_t l_1664 = 0L; int i; for (g_181.f0 = (-24); (g_181.f0 <= 30); ++g_181.f0) { /* block id: 1034 */ uint16_t l_1641 = 65535UL; int8_t *l_1642[7] = {&l_1610.f1,(void*)0,&g_1059[4][2].f1,&g_1059[4][2].f1,&g_1059[4][2].f1,&l_1610.f1,&l_1610.f1}; int32_t l_1643 = 4L; uint8_t *l_1657 = &l_1654.f1; int i; (*g_587) = &l_12[0]; g_16 = func_2(((((((void*)0 == (*g_1630)) >= (safe_mul_func_int8_t_s_s((l_1643 = l_1641), (((((safe_add_func_uint32_t_u_u((0L < ((safe_add_func_uint16_t_u_u((*g_593), 0xF41FL)) != (safe_sub_func_uint8_t_u_u(((*l_1657) = ((safe_div_func_uint16_t_u_u(((((func_45(l_1641, l_1493, (l_1654 = l_1654), &l_10, (*l_1466)) ^ l_1655) || 0x95L) >= l_1656) < (*g_593)), l_1610.f0)) == 0x3CL)), l_1658)))), l_1493)) , 6L) , (*l_15)) && l_1659) || l_1641)))) , l_1654.f1) , l_1502[1]) <= l_1660), l_1661, &l_1530, l_12[2], (*g_201)); if (l_1641) continue; } (*l_10) ^= (*l_1466); l_1666++; if ((*l_10)) break; } for (g_547 = 0; (g_547 == 3); g_547 = safe_add_func_uint8_t_u_u(g_547, 8)) { /* block id: 1048 */ (***g_690) = (*g_281); l_1493 ^= l_1494; } g_16 = func_2(l_1671, l_1654, &l_1503, l_12[2], ((*l_1674) = l_1610)); } else { /* block id: 1054 */ int8_t l_1683 = 0x9CL; l_1502[1] = (safe_div_func_int32_t_s_s((safe_sub_func_int8_t_s_s(l_1562, (safe_rshift_func_uint16_t_u_u((1UL | (((void*)0 == l_1681) | (+l_1683))), 2)))), l_1684)); if (l_1610.f1) continue; } return l_1685; } return (*l_10); } /* ------------------------------------------ */ /* * reads : * writes: */ static const int32_t * func_2(uint8_t p_3, union U2 p_4, int32_t * p_5, union U0 p_6, const union U1 p_7) { /* block id: 1 */ return &g_11; } /* ------------------------------------------ */ /* * reads : g_9.f0 g_11 g_16 g_66 g_71 g_78 g_9 g_82 g_77 g_181.f4 g_209 g_202.f0 g_181.f2 g_144 g_83 g_201 g_202 g_537 g_75 g_102 g_76 g_231 g_582 g_586 g_575 g_592 g_593 g_468 g_202.f1 g_261 g_649.f0 g_183 g_181 g_574 g_666 g_668 g_894 g_1124 g_587 g_547 * writes: g_16 g_66 g_71 g_78 g_76 g_181.f4 g_144 g_547 g_390 g_135 g_83 g_75 g_102 g_11 g_574 g_586 g_231 g_468 g_77 g_209 g_648 g_1124 */ static int32_t func_19(int32_t p_20) { /* block id: 7 */ int32_t *l_35 = &g_11; int32_t **l_34 = &l_35; union U1 l_60 = {0xAD4F6C55L}; int8_t *l_84 = &g_76[2]; union U2 l_85 = {-1L}; union U0 l_86 = {4294967295UL}; int32_t *l_1453 = &g_1124; (*l_1453) |= ((safe_mod_func_uint8_t_u_u((func_23(func_29(l_34, (p_20 , func_36(func_38(g_9[0].f0, ((*l_84) = ((safe_mul_func_int16_t_s_s((((**l_34) && func_45(p_20, (safe_mod_func_uint32_t_u_u(((safe_lshift_func_int8_t_s_s(0xC8L, (func_55(p_20, l_60, func_61((((*g_16) && 0x04518073L) > 0x36L), &g_16), g_11) , (-1L)))) , p_20), g_9[0].f0)), g_9[3], g_82, p_20)) , (**l_34)), g_77)) || (**l_34))), l_85, l_86))), &g_468, p_20), p_20, p_20, l_86, (*l_34)) , 249UL), g_894)) > p_20); (*l_35) = p_20; (*g_537) = ((***g_586) , (*g_82)); return (*g_16); } /* ------------------------------------------ */ /* * reads : g_201 g_202 * writes: */ static const union U1 func_23(const int32_t * p_24, int8_t p_25, uint8_t p_26, const union U0 p_27, const int32_t * p_28) { /* block id: 460 */ uint16_t l_675 = 0UL; uint8_t *l_684 = &g_9[0].f1; union U2 l_685 = {0x88367F2CL}; int32_t **l_686 = (void*)0; int8_t *l_687[7]; int32_t l_688 = 0xF0B46BC5L; union U0 ****l_689 = (void*)0; const union U2 *l_695[6] = {&l_685,&l_685,&l_685,&l_685,&l_685,&l_685}; const union U2 **l_694 = &l_695[5]; const union U2 ***l_693 = &l_694; const union U2 ****l_692 = &l_693; int32_t *l_696 = &g_11; int32_t *l_697 = &l_688; union U0 **l_709 = &g_183; int8_t * const *l_716 = (void*)0; union U0 l_718 = {4294967292UL}; const union U1 l_725 = {0xCF474642L}; union U2 l_762 = {-3L}; union U0 l_770 = {4294967292UL}; int32_t l_810 = 0x0514C231L; int32_t l_851[10] = {0L,0L,0L,0L,0L,0L,0L,0L,0L,0L}; int32_t l_867[5][10][3] = {{{0x9279772DL,(-1L),2L},{0x08D29043L,0xE1F44506L,0x08D29043L},{0xAAC8A26EL,0xE1B3EFFAL,(-3L)},{0xE1F44506L,1L,0x87B510FDL},{0x6D1F2783L,(-3L),0L},{0x27ECB6E8L,0xE8274EACL,0x08D29043L},{0x6D1F2783L,0xC659668AL,0xDCD37698L},{0x8C0733A2L,0x87B510FDL,6L},{0x2820589CL,0xB311FE06L,0x97A0EB8CL},{(-1L),0x4EAB465CL,0xB3893D4FL}},{{(-3L),(-1L),(-1L)},{0x411C5323L,0xBDBD4C74L,1L},{0xB311FE06L,0xDCD37698L,0xDCD37698L},{0x411C5323L,0x8C0733A2L,0xF779865EL},{0x2E256168L,2L,(-5L)},{0x63F4CD2EL,0xBDBD4C74L,0xF779865EL},{0xAAC8A26EL,1L,(-1L)},{1L,0x4EAB465CL,0x8C0733A2L},{(-1L),0xAAC8A26EL,(-1L)},{0x87B510FDL,(-2L),0xEEE97BECL}},{{(-3L),4L,0xC659668AL},{0x27ECB6E8L,0x903B8919L,(-1L)},{6L,(-7L),0xC659668AL},{0xE8274EACL,0xE1F44506L,0x4EAB465CL},{4L,0xC659668AL,0x7F0FCA53L},{0x27ECB6E8L,0x8C0733A2L,1L},{(-1L),0xAAC8A26EL,(-3L)},{(-2L),6L,0x4ED03EDAL},{0x124AF2F5L,(-3L),(-1L)},{1L,(-8L),0xEEE97BECL}},{{0x9279772DL,(-1L),0x9279772DL},{(-1L),0x87B510FDL,1L},{(-1L),0x7F0FCA53L,0L},{0x633BE4BDL,0x27ECB6E8L,0L},{0xAAC8A26EL,(-3L),(-5L)},{0x633BE4BDL,0x903B8919L,0x0402175AL},{2L,(-7L),(-1L)},{0xB3893D4FL,0xC995347EL,0x411C5323L},{(-3L),0x97A0EB8CL,0xDCD37698L},{4L,(-8L),0xB3893D4FL}},{{0xE1B3EFFAL,0xC659668AL,0x7F0FCA53L},{0xC995347EL,0xBB8ED630L,0x0402175AL},{0xE1B3EFFAL,2L,6L},{4L,0xEEE97BECL,0xE1F44506L},{(-5L),0xC659668AL,0L},{(-1L),0x63F4CD2EL,0xBB8ED630L},{0x7F0FCA53L,0x6D1F2783L,2L},{0xBB8ED630L,(-1L),0x4EAB465CL},{(-7L),(-7L),0x6D1F2783L},{4L,(-2L),6L}}}; uint8_t l_959 = 0xE4L; const uint16_t *l_1006[2]; const uint16_t * const *l_1005 = &l_1006[1]; union U2 l_1009 = {0x4A992D0AL}; int16_t *l_1022 = &g_181.f4; const int16_t l_1023 = 0L; const uint8_t l_1024 = 0x99L; int8_t l_1025 = 0x25L; const int32_t l_1026[2][7][1] = {{{0x218A56C6L},{0L},{0x218A56C6L},{0L},{0x218A56C6L},{0L},{0x218A56C6L}},{{0L},{0x218A56C6L},{0L},{0x218A56C6L},{0L},{0x218A56C6L},{0L}}}; uint8_t l_1035 = 3UL; int8_t l_1120 = (-1L); union U2 l_1121 = {0x9CB199ABL}; int16_t l_1125[3]; uint8_t l_1133 = 0xB6L; uint16_t l_1172 = 65535UL; uint16_t **l_1215 = &g_593; uint32_t l_1276 = 4UL; int16_t l_1302 = 0x0B16L; uint16_t l_1332 = 0x101DL; uint32_t * const *l_1364 = &g_1326; uint32_t l_1392 = 4294967295UL; uint32_t l_1397 = 0x52BECEE6L; uint8_t l_1433 = 0x91L; int i, j, k; for (i = 0; i < 7; i++) l_687[i] = &g_390; for (i = 0; i < 2; i++) l_1006[i] = &l_770.f2; for (i = 0; i < 3; i++) l_1125[i] = (-9L); return (*g_201); } /* ------------------------------------------ */ /* * reads : g_75 g_181.f4 g_78 g_102 g_11 g_76 g_231 g_582 g_209 g_586 g_575 g_592 g_593 g_537 g_83 g_82 g_468 g_66 g_202.f1 g_71 g_77 g_16 g_261 g_202 g_649.f0 g_183 g_181 g_9 g_574 g_666 g_668 g_547 * writes: g_75 g_181.f4 g_102 g_135 g_11 g_574 g_586 g_231 g_468 g_83 g_390 g_16 g_66 g_71 g_78 g_547 g_77 g_209 g_648 */ static const int32_t * func_29(int32_t ** p_30, int32_t * p_31, int32_t * p_32, uint32_t p_33) { /* block id: 356 */ int32_t l_563[3]; union U2 ***l_623[10][4][1]; const union U1 *l_647 = &g_202; int32_t l_660 = 0x63F79464L; union U0 l_661 = {1UL}; int32_t **l_667 = (void*)0; int i, j, k; for (i = 0; i < 3; i++) l_563[i] = 0xBA602EADL; for (i = 0; i < 10; i++) { for (j = 0; j < 4; j++) { for (k = 0; k < 1; k++) l_623[i][j][k] = (void*)0; } } for (g_75 = (-22); (g_75 >= (-9)); g_75 = safe_add_func_int8_t_s_s(g_75, 8)) { /* block id: 359 */ uint32_t l_584 = 1UL; uint8_t l_607 = 0xA7L; uint16_t l_610 = 0x2FA4L; int32_t **l_637 = &g_83[6][8]; const int32_t **l_638 = &g_16; uint16_t *l_644 = &g_135; union U1 *l_650 = &g_202; union U2 l_651 = {4L}; for (g_181.f4 = 6; (g_181.f4 >= 2); g_181.f4 -= 1) { /* block id: 362 */ union U2 *l_567 = &g_9[0]; int32_t * const *l_581[1]; int16_t l_585 = 0x9959L; const int32_t **l_599 = &g_16; union U1 l_633 = {0L}; int i, j; for (i = 0; i < 1; i++) l_581[i] = &g_83[0][9]; if (g_78[g_181.f4][g_181.f4]) { /* block id: 363 */ const int32_t *l_561[5]; union U2 l_583 = {0x0E2EE145L}; int i; for (i = 0; i < 5; i++) l_561[i] = &g_11; for (g_102 = 0; (g_102 <= 6); g_102 += 1) { /* block id: 366 */ const int32_t **l_562[7][9][2] = {{{(void*)0,(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],&l_561[4]},{&l_561[0],&l_561[2]},{&l_561[2],&l_561[0]},{(void*)0,&l_561[2]},{&l_561[2],&l_561[4]},{&l_561[0],(void*)0},{(void*)0,&l_561[0]}},{{&l_561[2],&l_561[2]},{&l_561[2],(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],(void*)0},{&l_561[0],(void*)0},{&l_561[2],&l_561[4]},{&l_561[2],&l_561[2]}},{{&l_561[0],&l_561[4]},{&l_561[2],&l_561[2]},{(void*)0,&l_561[4]},{&l_561[2],&l_561[2]},{&l_561[0],(void*)0},{&l_561[0],&l_561[2]},{&l_561[2],&l_561[0]},{&l_561[2],(void*)0},{&l_561[2],&l_561[0]}},{{&l_561[2],(void*)0},{&l_561[2],&l_561[4]},{&l_561[2],(void*)0},{&l_561[0],(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],&l_561[4]},{(void*)0,&l_561[2]},{&l_561[2],&l_561[0]},{&l_561[0],&l_561[2]}},{{&l_561[2],&l_561[4]},{(void*)0,(void*)0},{&l_561[0],&l_561[0]},{&l_561[2],&l_561[2]},{&l_561[2],(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],(void*)0}},{{(void*)0,(void*)0},{&l_561[2],&l_561[0]},{&l_561[2],&l_561[2]},{(void*)0,&l_561[4]},{(void*)0,&l_561[2]},{&l_561[0],&l_561[4]},{&l_561[2],&l_561[2]},{(void*)0,(void*)0},{(void*)0,&l_561[2]}},{{&l_561[2],&l_561[0]},{&l_561[2],(void*)0},{&l_561[2],(void*)0},{&l_561[2],(void*)0},{&l_561[2],&l_561[4]},{&l_561[2],(void*)0},{(void*)0,(void*)0},{&l_561[2],&l_561[2]},{&l_561[2],&l_561[4]}}}; int i, j, k; l_561[2] = (g_78[g_102][(g_181.f4 + 2)] , l_561[2]); } for (g_135 = 0; (g_135 <= 6); g_135 += 1) { /* block id: 385 */ uint16_t *l_578[9] = {(void*)0,(void*)0,(void*)0,(void*)0,(void*)0,(void*)0,(void*)0,(void*)0,(void*)0}; uint16_t **l_591 = &l_578[5]; int i; if (l_563[1]) break; if (((**p_30) = (**p_30))) { /* block id: 388 */ const uint32_t *l_570 = (void*)0; const uint32_t *l_572 = &g_573; const uint32_t **l_571[7][6] = {{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572},{&l_572,&l_572,&l_572,&l_572,&l_572,&l_572}}; union U0 ****l_588 = &g_586; uint8_t *l_594 = &l_583.f1; union U2 l_595 = {0L}; int i, j; l_584 = (((safe_rshift_func_uint16_t_u_s((((p_32 == (g_574 = (l_570 = &g_547))) ^ ((**p_30) = (0UL & (safe_div_func_int8_t_s_s(g_76[3], g_231))))) > g_78[g_181.f4][g_181.f4]), 1)) & (l_578[6] != (func_45((safe_mul_func_uint16_t_u_u((((l_581[0] == &p_31) >= 0x707B488DL) <= g_76[3]), p_33)), g_582, l_583, &g_83[0][9], p_33) , &g_135))) && p_33); (**p_30) &= (((g_209 , 65535UL) || l_585) && (func_45((((*l_588) = g_586) == &g_587), ((*g_593) &= (((&g_82 != &p_30) ^ (l_563[0] = ((*l_594) = (safe_mul_func_int8_t_s_s(g_575, (l_591 == g_592)))))) <= 0x9676L)), l_595, &g_83[0][9], l_584) && l_563[2])); return (*g_537); } else { /* block id: 399 */ if (l_563[0]) break; } if ((**p_30)) { /* block id: 402 */ return (*g_82); } else { /* block id: 404 */ (*p_32) = ((**p_30) &= 0L); } } return (*p_30); } else { /* block id: 410 */ uint32_t l_601 = 4294967293UL; int16_t l_606 = 0x86ADL; uint32_t *l_618 = &g_547; int16_t *l_619 = &g_77; union U2 * const **l_622 = (void*)0; union U2 ****l_624[6][1]; int32_t l_625 = 7L; int i, j; for (i = 0; i < 6; i++) { for (j = 0; j < 1; j++) l_624[i][j] = &l_623[6][0][0]; } (*g_537) = (*g_537); for (g_390 = 0; (g_390 <= 6); g_390 += 1) { /* block id: 414 */ const union U0 *l_596[8] = {&g_181,&g_181,&g_181,&g_181,&g_181,&g_181,&g_181,&g_181}; const union U0 **l_597 = &l_596[7]; union U1 l_598 = {0xBA0F4ADFL}; int32_t l_600 = (-8L); const uint16_t l_604 = 0x3537L; int i; (*l_597) = l_596[7]; if (func_55(((*p_32) && 0xDACB73B6L), l_598, func_61((+(l_563[2] & p_33)), l_599), g_202.f1)) { /* block id: 416 */ uint8_t l_605 = 0x27L; l_601--; if (l_601) break; l_605 = l_604; } else { /* block id: 420 */ if (l_606) break; if (l_607) break; (*p_32) = (0x66L || 251UL); (**p_30) ^= (g_77 & l_584); } (**p_30) ^= l_563[0]; (**p_30) ^= (*p_32); } (**p_30) = ((safe_div_func_uint8_t_u_u(l_610, (safe_div_func_int16_t_s_s((g_209 = (safe_unary_minus_func_uint8_t_u(((safe_mod_func_int16_t_s_s(((*l_619) = (((*l_618) = (safe_add_func_uint32_t_u_u(p_33, l_606))) & (l_610 >= 254UL))), 0xFB78L)) == (*p_32))))), (safe_mul_func_int16_t_s_s((((l_622 == (l_623[2][1][0] = l_623[6][0][0])) <= 5L) , (-7L)), 0x2D99L)))))) < 0x64L); for (g_547 = 0; (g_547 <= 6); g_547 += 1) { /* block id: 436 */ union U1 l_634 = {0x8542DBDAL}; union U2 l_636 = {1L}; uint32_t l_639 = 0x3777B03DL; for (g_71 = 0; (g_71 <= 6); g_71 += 1) { /* block id: 439 */ l_625 = (**p_30); } for (g_77 = 0; (g_77 <= 6); g_77 += 1) { /* block id: 444 */ union U2 l_626 = {0x7E9C8075L}; int32_t *l_635 = &g_102; } return (*g_82); } } } (*l_638) = func_2(((safe_mul_func_int16_t_s_s(g_231, ((((((**l_638) , (**p_30)) <= (((*l_644) = p_33) > (safe_div_func_uint32_t_u_u(func_55(g_78[6][6], (*g_261), (*l_637), ((((g_648 = l_647) == l_650) & g_582) && 1L)), (**p_30))))) >= 0x11L) != 0x1AC1L) | 4294967290UL))) , g_649.f0), l_651, (*g_82), (*g_183), (*l_650)); } (**p_30) |= (func_45(((+((safe_mod_func_uint8_t_u_u(l_563[0], (safe_mul_func_int8_t_s_s((safe_add_func_int16_t_s_s((-2L), func_45((safe_mul_func_int16_t_s_s((l_660 = l_563[2]), p_33)), (*g_593), ((l_661 , (safe_add_func_uint16_t_u_u(0UL, (safe_lshift_func_uint8_t_u_u(p_33, 5))))) , (((p_33 ^ 0xBAEAL) & g_202.f1) , g_9[2])), &g_83[0][9], (*g_574)))), l_563[2])))) != 7UL)) & g_666), (**g_592), g_9[0], l_667, p_33) <= g_668); return (*p_30); } /* ------------------------------------------ */ /* * reads : g_181.f4 g_209 g_202.f0 g_11 g_181.f2 g_144 g_83 g_201 g_202 g_537 * writes: g_181.f4 g_144 g_547 g_390 g_135 g_66 g_16 g_83 */ static int32_t * func_36(int32_t ** p_37) { /* block id: 342 */ int16_t *l_541[5] = {&g_77,&g_77,&g_77,&g_77,&g_77}; int32_t l_542 = 1L; int32_t l_543 = 1L; int32_t *l_544 = &g_144; union U0 l_545 = {0x4F299A70L}; uint32_t *l_546 = &g_547; int8_t *l_548 = &g_390; uint16_t *l_549 = &g_135; uint32_t l_550 = 1UL; union U2 l_551[10][4] = {{{-1L},{-1L},{0x1487E6D1L},{0x1487E6D1L}},{{0x008F65D1L},{-1L},{0x1487E6D1L},{-1L}},{{-1L},{1L},{-1L},{7L}},{{0x9D8FA7ECL},{1L},{0x9D8FA7ECL},{-1L}},{{-1L},{0x008F65D1L},{-1L},{0x9D8FA7ECL}},{{-1L},{7L},{-1L},{-1L}},{{-1L},{0x008F65D1L},{-1L},{0x008F65D1L}},{{-1L},{1L},{0x008F65D1L},{0x1487E6D1L}},{{0x1487E6D1L},{0x1487E6D1L},{-1L},{-1L}},{{0x9D8FA7ECL},{-1L},{-1L},{-1L}}}; int32_t *l_552[5][10] = {{&g_144,&l_543,&l_543,&l_542,&l_543,&l_543,&g_11,&l_545.f3,&l_542,&l_542},{&l_542,&l_545.f3,&l_543,&l_545.f3,&l_545.f3,&g_144,&l_545.f3,&g_468,&l_543,&l_542},{&g_468,&l_542,&g_144,&l_545.f3,&l_543,&g_468,&l_545.f3,&g_11,&l_545.f3,&g_468},{&l_542,&l_545.f3,&l_545.f3,&l_545.f3,&l_542,&l_545.f3,&g_11,&l_545.f3,&l_543,&g_144},{&l_542,&l_543,&g_468,&l_545.f3,&g_11,&g_468,&g_468,&l_545.f3,&g_144,&g_11}}; uint32_t l_553 = 8UL; uint8_t *l_554 = &g_66[0]; uint16_t l_557[3]; int i, j; for (i = 0; i < 3; i++) l_557[i] = 3UL; (*l_544) = (((func_45(((safe_mod_func_int16_t_s_s((l_542 &= (g_181.f4 &= 0x1366L)), l_543)) & (l_543 | (((*l_544) = 0x6B1D3010L) == ((l_545 , 0xF9L) < (((*l_546) = l_543) >= ((65535UL >= ((*l_549) = (((*l_548) = g_209) || g_202.f0))) ^ l_550)))))), g_11, l_551[7][0], p_37, l_545.f3) || g_181.f2) == l_545.f0) == g_11); l_553 ^= (*l_544); if (g_144) goto lbl_558; lbl_558: g_16 = func_2(((*l_554) = (*l_544)), l_551[8][3], (*p_37), (((safe_lshift_func_uint16_t_u_u((((&g_181 == (l_545 , &g_181)) == (*l_544)) <= 65526UL), 3)) ^ ((!((*l_544) | l_557[1])) <= (*l_544))) , l_545), (*g_201)); (*g_537) = (*p_37); return (*g_537); } /* ------------------------------------------ */ /* * reads : g_11 g_77 g_16 g_71 g_82 * writes: */ static int32_t ** func_38(int16_t p_39, int8_t p_40, union U2 p_41, union U0 p_42) { /* block id: 19 */ union U2 l_87 = {-6L}; int16_t l_92 = 0x69BAL; int32_t *l_101[5][9][5] = {{{&g_102,&g_11,&g_11,&g_11,(void*)0},{(void*)0,&g_102,(void*)0,&g_102,&g_102},{(void*)0,(void*)0,&g_102,&g_11,&g_11},{&g_11,&g_11,(void*)0,&g_11,&g_11},{&g_102,&g_11,&g_102,&g_11,&g_102},{&g_102,&g_11,&g_102,&g_11,(void*)0},{&g_11,&g_102,(void*)0,&g_11,&g_102},{&g_102,&g_102,&g_102,(void*)0,&g_11},{&g_102,&g_102,&g_11,&g_11,(void*)0}},{{&g_102,(void*)0,&g_11,&g_11,(void*)0},{&g_102,&g_102,&g_102,&g_11,&g_11},{&g_11,&g_11,&g_11,&g_11,&g_102},{&g_11,&g_102,&g_11,&g_11,&g_102},{&g_102,&g_11,&g_102,&g_102,&g_102},{(void*)0,&g_102,&g_102,&g_11,&g_11},{&g_11,&g_102,&g_102,(void*)0,&g_11},{&g_11,&g_102,(void*)0,(void*)0,&g_11},{(void*)0,&g_102,&g_102,&g_11,&g_11}},{{&g_102,&g_11,&g_102,&g_11,&g_11},{&g_102,&g_102,&g_102,&g_102,&g_11},{&g_102,&g_102,&g_11,&g_102,&g_102},{&g_11,(void*)0,&g_102,&g_102,&g_102},{&g_11,&g_11,&g_11,&g_102,&g_102},{&g_102,&g_11,&g_102,&g_102,&g_11},{&g_102,&g_102,&g_102,&g_102,(void*)0},{&g_102,(void*)0,(void*)0,&g_11,&g_102},{&g_102,&g_102,(void*)0,(void*)0,&g_11}},{{&g_102,(void*)0,&g_11,&g_102,&g_11},{&g_102,&g_102,(void*)0,&g_102,&g_102},{&g_102,(void*)0,(void*)0,&g_11,&g_102},{&g_102,&g_11,&g_11,(void*)0,&g_11},{&g_102,(void*)0,&g_102,&g_11,(void*)0},{&g_11,&g_102,&g_102,&g_102,(void*)0},{&g_11,&g_11,&g_102,&g_102,&g_102},{&g_102,&g_11,&g_11,&g_102,&g_102},{&g_102,&g_102,&g_11,&g_11,&g_102}},{{(void*)0,&g_11,&g_102,(void*)0,&g_102},{(void*)0,&g_11,&g_102,&g_102,&g_102},{&g_102,&g_102,&g_102,&g_102,&g_11},{&g_102,&g_11,&g_102,&g_11,&g_102},{&g_11,&g_11,&g_102,&g_11,&g_102},{&g_11,&g_102,&g_102,&g_11,&g_102},{(void*)0,(void*)0,(void*)0,&g_102,&g_102},{(void*)0,&g_102,(void*)0,&g_11,&g_102},{&g_11,&g_102,&g_102,&g_102,&g_102}}}; uint32_t l_103 = 0xBDDE1E78L; int8_t l_114 = 0xFAL; uint32_t l_158 = 7UL; union U0 *l_180 = &g_181; union U1 l_193 = {1L}; int32_t *l_196 = &g_102; uint32_t l_212 = 0xCC8533B4L; uint16_t l_263 = 0x3F35L; int32_t **l_294 = (void*)0; int32_t ***l_295 = (void*)0; int32_t ***l_296 = (void*)0; int32_t ***l_297 = &g_82; const int32_t **l_298[9] = {&g_16,&g_16,&g_16,&g_16,&g_16,&g_16,&g_16,&g_16,&g_16}; union U2 **l_324 = &g_282; union U2 **l_325 = &g_282; union U1 l_467 = {0x564CF22EL}; uint32_t l_497 = 0xAD274BE0L; int32_t l_502[2]; int16_t l_536 = 7L; int i, j, k; for (i = 0; i < 2; i++) l_502[i] = 1L; l_103 |= ((((l_87 , p_42) , p_42) , ((g_11 != g_11) != (safe_lshift_func_uint16_t_u_s((g_77 , (safe_mul_func_int8_t_s_s((l_92 < l_92), (safe_mul_func_uint16_t_u_u((safe_lshift_func_uint8_t_u_u(((safe_div_func_int32_t_s_s((safe_div_func_int16_t_s_s((((p_41.f0 = p_42.f4) | (*g_16)) == 0xF910L), g_71)), 0xBA0E3889L)) | 0UL), l_92)), l_92))))), 9)))) ^ 0x556CL); return (*l_297); } /* ------------------------------------------ */ /* * reads : * writes: */ static int8_t func_45(uint8_t p_46, uint16_t p_47, union U2 p_48, int32_t ** p_49, const uint32_t p_50) { /* block id: 16 */ return p_50; } /* ------------------------------------------ */ /* * reads : g_71 g_78 * writes: g_71 g_78 */ static int8_t func_55(uint8_t p_56, union U1 p_57, int32_t * p_58, uint8_t p_59) { /* block id: 12 */ int16_t l_69 = 1L; int32_t *l_70[8] = {&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11,&g_11}; int8_t l_74[4][7] = {{4L,4L,4L,4L,4L,4L,4L},{5L,(-5L),5L,(-5L),5L,(-5L),5L},{4L,4L,4L,4L,4L,4L,4L},{5L,(-5L),5L,(-5L),5L,(-5L),5L}}; int32_t l_81 = 1L; int i, j; g_71++; ++g_78[2][2]; return l_81; } /* ------------------------------------------ */ /* * reads : g_66 * writes: g_16 g_66 */ static int32_t * func_61(int16_t p_62, const int32_t ** p_63) { /* block id: 8 */ int32_t *l_64 = &g_11; int32_t *l_65[1]; int i; for (i = 0; i < 1; i++) l_65[i] = &g_11; (*p_63) = l_64; ++g_66[0]; return l_64; } /* ---------------------------------------- */ int main (int argc, char* argv[]) { int i, j; int print_hash_value = 0; if (argc == 2 && strcmp(argv[1], "1") == 0) print_hash_value = 1; platform_main_begin(); crc32_gentab(); func_1(); for (i = 0; i < 5; i++) { transparent_crc(g_9[i].f0, "g_9[i].f0", print_hash_value); if (print_hash_value) printf("index = [%d]\n", i); } transparent_crc(g_11, "g_11", print_hash_value); for (i = 0; i < 1; i++) { transparent_crc(g_66[i], "g_66[i]", print_hash_value); if (print_hash_value) printf("index = [%d]\n", i); } transparent_crc(g_71, "g_71", print_hash_value); transparent_crc(g_75, "g_75", print_hash_value); for (i = 0; i < 5; i++) { transparent_crc(g_76[i], "g_76[i]", print_hash_value); if (print_hash_value) printf("index = [%d]\n", i); } transparent_crc(g_77, "g_77", print_hash_value); for (i = 0; i < 7; i++) { for (j = 0; j < 9; j++) { transparent_crc(g_78[i][j], "g_78[i][j]", print_hash_value); if (print_hash_value) printf("index = [%d][%d]\n", i, j); } } transparent_crc(g_102, "g_102", print_hash_value); transparent_crc(g_135, "g_135", print_hash_value); transparent_crc(g_144, "g_144", print_hash_value); transparent_crc(g_160, "g_160", print_hash_value); transparent_crc(g_181.f2, "g_181.f2", print_hash_value); transparent_crc(g_181.f4, "g_181.f4", print_hash_value); transparent_crc(g_202.f0, "g_202.f0", print_hash_value); transparent_crc(g_202.f1, "g_202.f1", print_hash_value); transparent_crc(g_209, "g_209", print_hash_value); transparent_crc(g_211, "g_211", print_hash_value); transparent_crc(g_231, "g_231", print_hash_value); transparent_crc(g_328, "g_328", print_hash_value); transparent_crc(g_390, "g_390", print_hash_value); transparent_crc(g_468, "g_468", print_hash_value); transparent_crc(g_547, "g_547", print_hash_value); transparent_crc(g_573, "g_573", print_hash_value); transparent_crc(g_575, "g_575", print_hash_value); transparent_crc(g_582, "g_582", print_hash_value); transparent_crc(g_649.f0, "g_649.f0", print_hash_value); transparent_crc(g_649.f1, "g_649.f1", print_hash_value); transparent_crc(g_666, "g_666", print_hash_value); transparent_crc(g_668, "g_668", print_hash_value); transparent_crc(g_756, "g_756", print_hash_value); transparent_crc(g_860, "g_860", print_hash_value); transparent_crc(g_894, "g_894", print_hash_value); transparent_crc(g_947, "g_947", print_hash_value); for (i = 0; i < 5; i++) { for (j = 0; j < 3; j++) { transparent_crc(g_966[i][j], "g_966[i][j]", print_hash_value); if (print_hash_value) printf("index = [%d][%d]\n", i, j); } } for (i = 0; i < 9; i++) { for (j = 0; j < 9; j++) { transparent_crc(g_1059[i][j].f0, "g_1059[i][j].f0", print_hash_value); transparent_crc(g_1059[i][j].f1, "g_1059[i][j].f1", print_hash_value); if (print_hash_value) printf("index = [%d][%d]\n", i, j); } } transparent_crc(g_1124, "g_1124", print_hash_value); transparent_crc(g_1254, "g_1254", print_hash_value); transparent_crc(g_1294, "g_1294", print_hash_value); transparent_crc(g_1418, "g_1418", print_hash_value); transparent_crc(g_1501, "g_1501", print_hash_value); transparent_crc(g_1597, "g_1597", print_hash_value); transparent_crc(g_1613, "g_1613", print_hash_value); for (i = 0; i < 1; i++) { transparent_crc(g_1665[i], "g_1665[i]", print_hash_value); if (print_hash_value) printf("index = [%d]\n", i); } platform_main_end(crc32_context ^ 0xFFFFFFFFUL, print_hash_value); return 0; } /************************ statistics ************************* XXX max struct depth: 0 breakdown: depth: 0, occurrence: 592 XXX total union variables: 93 XXX non-zero bitfields defined in structs: 1 XXX zero bitfields defined in structs: 0 XXX const bitfields defined in structs: 0 XXX volatile bitfields defined in structs: 0 XXX structs with bitfields in the program: 68 breakdown: indirect level: 0, occurrence: 51 indirect level: 1, occurrence: 5 indirect level: 2, occurrence: 5 indirect level: 3, occurrence: 5 indirect level: 4, occurrence: 2 XXX full-bitfields structs in the program: 0 breakdown: XXX times a bitfields struct's address is taken: 23 XXX times a bitfields struct on LHS: 4 XXX times a bitfields struct on RHS: 99 XXX times a single bitfield on LHS: 18 XXX times a single bitfield on RHS: 43 XXX max expression depth: 41 breakdown: depth: 1, occurrence: 83 depth: 2, occurrence: 20 depth: 6, occurrence: 1 depth: 7, occurrence: 2 depth: 9, occurrence: 1 depth: 16, occurrence: 1 depth: 17, occurrence: 1 depth: 19, occurrence: 1 depth: 20, occurrence: 1 depth: 23, occurrence: 1 depth: 24, occurrence: 1 depth: 25, occurrence: 1 depth: 26, occurrence: 1 depth: 35, occurrence: 1 depth: 41, occurrence: 1 XXX total number of pointers: 403 XXX times a variable address is taken: 932 XXX times a pointer is dereferenced on RHS: 354 breakdown: depth: 1, occurrence: 286 depth: 2, occurrence: 54 depth: 3, occurrence: 10 depth: 4, occurrence: 4 XXX times a pointer is dereferenced on LHS: 297 breakdown: depth: 1, occurrence: 272 depth: 2, occurrence: 21 depth: 3, occurrence: 4 XXX times a pointer is compared with null: 26 XXX times a pointer is compared with address of another variable: 7 XXX times a pointer is compared with another pointer: 10 XXX times a pointer is qualified to be dereferenced: 6446 XXX max dereference level: 4 breakdown: level: 0, occurrence: 0 level: 1, occurrence: 1057 level: 2, occurrence: 375 level: 3, occurrence: 48 level: 4, occurrence: 15 XXX number of pointers point to pointers: 164 XXX number of pointers point to scalars: 201 XXX number of pointers point to structs: 0 XXX percent of pointers has null in alias set: 31 XXX average alias set size: 1.41 XXX times a non-volatile is read: 2062 XXX times a non-volatile is write: 900 XXX times a volatile is read: 0 XXX times read thru a pointer: 0 XXX times a volatile is write: 0 XXX times written thru a pointer: 0 XXX times a volatile is available for access: 0 XXX percentage of non-volatile access: 100 XXX forward jumps: 1 XXX backward jumps: 12 XXX stmts: 80 XXX max block depth: 5 breakdown: depth: 0, occurrence: 27 depth: 1, occurrence: 4 depth: 2, occurrence: 7 depth: 3, occurrence: 14 depth: 4, occurrence: 14 depth: 5, occurrence: 14 XXX percentage a fresh-made variable is used: 18.2 XXX percentage an existing variable is used: 81.8 FYI: the random generator makes assumptions about the integer size. See platform.info for more details. ********************* end of statistics **********************/