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/*
* Copyright 2013 The Emscripten Authors. All rights reserved.
* Emscripten is available under two separate licenses, the MIT license and the
* University of Illinois/NCSA Open Source License. Both these licenses can be
* found in the LICENSE file.
*/
/*
* This is a RANDOMLY GENERATED PROGRAM.
*
* Generator: csmith 2.2.0
* Git version: a8697aa
* Options: --no-volatiles --no-math64 --no-packed-struct --max-block-depth 2 --max-block-size 2 --max-expr-complexity 2 --max-funcs 2
* Seed: 3993484092
*/
#include "csmith.h"
static long __undefined;
/* --- Struct/Union Declarations --- */
struct S0 {
int16_t f0;
const int8_t f1;
int32_t f2;
const uint8_t f3;
unsigned f4 : 27;
uint32_t f5;
const int32_t f6;
int8_t f7;
uint32_t f8;
};
/* --- GLOBAL VARIABLES --- */
static int8_t g_5[8] = {0x8EL,0x8EL,0x8EL,0x8EL,0x8EL,0x8EL,0x8EL,0x8EL};
static int8_t *g_4 = &g_5[7];
static int32_t g_6[4][10] = {{0x158018D9L,1L,0L,0xA7EF5D87L,0xA7EF5D87L,0L,1L,0x158018D9L,0x158018D9L,1L},{0x158018D9L,0xA7EF5D87L,1L,1L,0xA7EF5D87L,0x158018D9L,0L,0L,0x158018D9L,0xA7EF5D87L},{0xA7EF5D87L,1L,1L,0xA7EF5D87L,0x158018D9L,0L,0L,0x158018D9L,0xA7EF5D87L,1L},{0xA7EF5D87L,0xA7EF5D87L,0L,1L,0x158018D9L,0x158018D9L,1L,0L,0xA7EF5D87L,0xA7EF5D87L}};
static int32_t g_11 = 0L;
static int32_t g_14[2][4] = {{0x69FF4CAAL,0x69FF4CAAL,0x69FF4CAAL,0x69FF4CAAL},{0x69FF4CAAL,0x69FF4CAAL,0x69FF4CAAL,0x69FF4CAAL}};
static int32_t *g_13 = &g_14[0][0];
static int32_t g_21 = 8L;
/* --- FORWARD DECLARATIONS --- */
static uint8_t func_1(void);
static int32_t func_2(int8_t * p_3);
/* --- FUNCTIONS --- */
/* ------------------------------------------ */
/*
* reads : g_4 g_6 g_11 g_21 g_14 g_5
* writes: g_6 g_11 g_13 g_14 g_21 g_5
*/
static uint8_t func_1(void)
{ /* block id: 0 */
int32_t *l_18 = &g_14[0][0];
(*l_18) = func_2(g_4);
for (g_11 = 24; (g_11 > 9); g_11 = safe_sub_func_int8_t_s_s(g_11, 8))
{ /* block id: 17 */
int32_t *l_24 = &g_21;
for (g_21 = (-6); (g_21 >= 8); g_21 = safe_add_func_int16_t_s_s(g_21, 9))
{ /* block id: 20 */
(*l_18) ^= ((void*)0 == l_24);
(*l_18) = ((*l_24) ^ 1L);
}
for (g_21 = 5; (g_21 >= 0); g_21 -= 1)
{ /* block id: 26 */
const struct S0 l_29[7][5] = {{{0xB1C2L,0x10L,0xA4AECA2AL,0x28L,485,4294967294UL,-1L,0x00L,0x971708C9L},{-5L,0xA5L,0x7FB6F8A3L,0UL,6341,1UL,0xA1BBDB81L,-1L,4294967286UL},{2L,7L,0x396434D1L,0xEAL,9469,0xEFE6B3E9L,0x2DA72DF2L,0x08L,9UL},{0x32E7L,-1L,-4L,5UL,7688,4294967292UL,0L,7L,7UL},{-5L,0xA5L,0x7FB6F8A3L,0UL,6341,1UL,0xA1BBDB81L,-1L,4294967286UL}},{{0xC6C8L,0xCDL,-8L,0xD2L,1855,0x1A504A86L,0x6A6C3430L,0L,0x372A7181L},{-2L,0x94L,-1L,255UL,5118,0UL,3L,0xBDL,2UL},{-10L,0x93L,1L,1UL,3983,4294967288UL,0xC0DB1B79L,7L,4294967293UL},{0x254FL,0xD2L,1L,1UL,8061,0xDF93C581L,0xDA77236CL,0x42L,1UL},{-2L,0x94L,-1L,255UL,5118,0UL,3L,0xBDL,2UL}},{{3L,0xC4L,0x293E9FC6L,255UL,4667,2UL,0x4CA9A92EL,8L,6UL},{0xB1C2L,0x10L,0xA4AECA2AL,0x28L,485,4294967294UL,-1L,0x00L,0x971708C9L},{2L,7L,0x396434D1L,0xEAL,9469,0xEFE6B3E9L,0x2DA72DF2L,0x08L,9UL},{-5L,0xA5L,0x7FB6F8A3L,0UL,6341,1UL,0xA1BBDB81L,-1L,4294967286UL},{-5L,0xA5L,0x7FB6F8A3L,0UL,6341,1UL,0xA1BBDB81L,-1L,4294967286UL}},{{-10L,0x93L,1L,1UL,3983,4294967288UL,0xC0DB1B79L,7L,4294967293UL},{0xC6C8L,0xCDL,-8L,0xD2L,1855,0x1A504A86L,0x6A6C3430L,0L,0x372A7181L},{0xAF73L,7L,0x2A224D52L,0x10L,5709,0UL,0x3A9A7891L,-1L,0x7C6C5FB3L},{-2L,0x94L,-1L,255UL,5118,0UL,3L,0xBDL,2UL},{-2L,0x94L,-1L,255UL,5118,0UL,3L,0xBDL,2UL}},{{2L,7L,0x396434D1L,0xEAL,9469,0xEFE6B3E9L,0x2DA72DF2L,0x08L,9UL},{3L,0xC4L,0x293E9FC6L,255UL,4667,2UL,0x4CA9A92EL,8L,6UL},{0x32E7L,-1L,-4L,5UL,7688,4294967292UL,0L,7L,7UL},{0xB1C2L,0x10L,0xA4AECA2AL,0x28L,485,4294967294UL,-1L,0x00L,0x971708C9L},{0xB1C2L,0x10L,0xA4AECA2AL,0x28L,485,4294967294UL,-1L,0x00L,0x971708C9L}},{{0xAF73L,7L,0x2A224D52L,0x10L,5709,0UL,0x3A9A7891L,-1L,0x7C6C5FB3L},{0xC6C8L,0xCDL,-8L,0xD2L,1855,0x1A504A86L,0x6A6C3430L,0L,0x372A7181L},{0x254FL,0xD2L,1L,1UL,8061,0xDF93C581L,0xDA77236CL,0x42L,1UL},{0xC6C8L,0xCDL,-8L,0xD2L,1855,0x1A504A86L,0x6A6C3430L,0L,0x372A7181L},{0xC6C8L,0xCDL,-8L,0xD2L,1855,0x1A504A86L,0x6A6C3430L,0L,0x372A7181L}},{{0x32E7L,-1L,-4L,5UL,7688,4294967292UL,0L,7L,7UL},{3L,0xC4L,0x293E9FC6L,255UL,4667,2UL,0x4CA9A92EL,8L,6UL},{-5L,0xA5L,0x7FB6F8A3L,0UL,6341,1UL,0xA1BBDB81L,-1L,4294967286UL},{0xB1C2L,0x10L,0xA4AECA2AL,0x28L,485,4294967294UL,-1L,0x00L,0x971708C9L},{3L,0xC4L,0x293E9FC6L,255UL,4667,2UL,0x4CA9A92EL,8L,6UL}}};
int i, j;
(*l_18) = (safe_mod_func_uint8_t_u_u((((safe_mul_func_int8_t_s_s((g_5[g_21] = (*g_4)), 0xFDL)) | g_14[1][2]) <= (*l_18)), 254UL));
(*l_18) = (((l_29[4][2] , (void*)0) != &g_14[0][0]) <= l_29[4][2].f1);
}
}
return (*l_18);
}
/* ------------------------------------------ */
/*
* reads : g_6 g_11
* writes: g_6 g_11 g_13
*/
static int32_t func_2(int8_t * p_3)
{ /* block id: 1 */
uint32_t l_15[4][3][4] = {{{0x1943EC3EL,8UL,1UL,0x58E7EA1BL},{0x1943EC3EL,2UL,0x58E7EA1BL,4294967292UL},{0UL,1UL,0UL,4294967293UL}},{{0x4898D08FL,1UL,0x4898D08FL,4294967292UL},{0UL,0x1943EC3EL,4294967292UL,0x4898D08FL},{2UL,4294967293UL,4294967292UL,0UL}},{{0UL,0x1943EC3EL,8UL,0x1943EC3EL},{4294967292UL,0x58E7EA1BL,0x1943EC3EL,0x1943EC3EL},{0x1943EC3EL,0x58E7EA1BL,0x4898D08FL,2UL}},{{1UL,0UL,8UL,8UL},{0x4898D08FL,1UL,8UL,0UL},{0x58E7EA1BL,4294967292UL,0x58E7EA1BL,0x1943EC3EL}}};
int i, j, k;
for (g_6[2][7] = (-24); (g_6[2][7] >= (-7)); g_6[2][7] = safe_add_func_uint32_t_u_u(g_6[2][7], 1))
{ /* block id: 4 */
int32_t *l_9 = (void*)0;
int32_t *l_10 = &g_11;
(*l_10) &= 0x1B35D569L;
for (g_11 = 0; (g_11 <= 7); g_11 += 1)
{ /* block id: 8 */
int32_t **l_12[6] = {&l_10,&l_10,&l_10,&l_10,&l_10,&l_10};
int i;
g_13 = l_9;
l_15[1][2][0]--;
}
}
return l_15[0][1][1];
}
/* ---------------------------------------- */
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 < 8; i++)
{
transparent_crc(g_5[i], "g_5[i]", print_hash_value);
if (print_hash_value) printf("index = [%d]\n", i);
}
for (i = 0; i < 4; i++)
{
for (j = 0; j < 10; j++)
{
transparent_crc(g_6[i][j], "g_6[i][j]", print_hash_value);
if (print_hash_value) printf("index = [%d][%d]\n", i, j);
}
}
transparent_crc(g_11, "g_11", print_hash_value);
for (i = 0; i < 2; i++)
{
for (j = 0; j < 4; j++)
{
transparent_crc(g_14[i][j], "g_14[i][j]", print_hash_value);
if (print_hash_value) printf("index = [%d][%d]\n", i, j);
}
}
transparent_crc(g_21, "g_21", print_hash_value);
platform_main_end(crc32_context ^ 0xFFFFFFFFUL, print_hash_value);
return 0;
}
/************************ statistics *************************
XXX max struct depth: 1
breakdown:
depth: 0, occurrence: 4
depth: 1, occurrence: 1
XXX total union variables: 0
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: 1
breakdown:
indirect level: 0, occurrence: 1
XXX full-bitfields structs in the program: 0
breakdown:
XXX times a bitfields struct's address is taken: 0
XXX times a bitfields struct on LHS: 0
XXX times a bitfields struct on RHS: 1
XXX times a single bitfield on LHS: 0
XXX times a single bitfield on RHS: 0
XXX max expression depth: 6
breakdown:
depth: 1, occurrence: 13
depth: 2, occurrence: 8
depth: 4, occurrence: 1
depth: 6, occurrence: 1
XXX total number of pointers: 8
XXX times a variable address is taken: 8
XXX times a pointer is dereferenced on RHS: 4
breakdown:
depth: 1, occurrence: 4
XXX times a pointer is dereferenced on LHS: 6
breakdown:
depth: 1, occurrence: 6
XXX times a pointer is compared with null: 1
XXX times a pointer is compared with address of another variable: 0
XXX times a pointer is compared with another pointer: 0
XXX times a pointer is qualified to be dereferenced: 39
XXX max dereference level: 1
breakdown:
level: 0, occurrence: 0
level: 1, occurrence: 16
XXX number of pointers point to pointers: 1
XXX number of pointers point to scalars: 7
XXX number of pointers point to structs: 0
XXX percent of pointers has null in alias set: 25
XXX average alias set size: 1.12
XXX times a non-volatile is read: 20
XXX times a non-volatile is write: 20
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: 0
XXX backward jumps: 0
XXX stmts: 15
XXX max block depth: 2
breakdown:
depth: 0, occurrence: 5
depth: 1, occurrence: 4
depth: 2, occurrence: 6
XXX percentage a fresh-made variable is used: 23.8
XXX percentage an existing variable is used: 76.2
FYI: the random generator makes assumptions about the integer size. See platform.info for more details.
********************* end of statistics **********************/
|
