extern void abort(void); void assume_abort_if_not(int cond) { if(!cond) {abort();} } extern _Bool __VERIFIER_nondet_bool(void); extern void abort(void); #include void reach_error() { assert(0); } void __VERIFIER_assert(int expression) { if (!expression) { ERROR: {reach_error();abort();} }; return; } extern void __VERIFIER_atomic_begin(); extern void __VERIFIER_atomic_end(); #include #include #ifndef TRUE #define TRUE (_Bool)1 #endif #ifndef FALSE #define FALSE (_Bool)0 #endif #ifndef NULL #define NULL ((void*)0) #endif #ifndef FENCE #define FENCE(x) ((void)0) #endif #ifndef IEEE_FLOAT_EQUAL #define IEEE_FLOAT_EQUAL(x,y) (x==y) #endif #ifndef IEEE_FLOAT_NOTEQUAL #define IEEE_FLOAT_NOTEQUAL(x,y) (x!=y) #endif void * P0(void *arg); void * P1(void *arg); void * P2(void *arg); void fence(); void isync(); void lwfence(); int __unbuffered_cnt; int __unbuffered_cnt = 0; int __unbuffered_p0_EAX; int __unbuffered_p0_EAX = 0; int __unbuffered_p2_EAX; int __unbuffered_p2_EAX = 0; int __unbuffered_p2_EBX; int __unbuffered_p2_EBX = 0; _Bool main$tmp_guard0; _Bool main$tmp_guard1; int x; int x = 0; int y; int y = 0; int z; int z = 0; _Bool z$flush_delayed; int z$mem_tmp; _Bool z$r_buff0_thd0; _Bool z$r_buff0_thd1; _Bool z$r_buff0_thd2; _Bool z$r_buff0_thd3; _Bool z$r_buff1_thd0; _Bool z$r_buff1_thd1; _Bool z$r_buff1_thd2; _Bool z$r_buff1_thd3; _Bool z$read_delayed; int *z$read_delayed_var; int z$w_buff0; _Bool z$w_buff0_used; int z$w_buff1; _Bool z$w_buff1_used; _Bool weak$$choice0; _Bool weak$$choice2; void * P0(void *arg) { __VERIFIER_atomic_begin(); z$w_buff1 = z$w_buff0; z$w_buff0 = 1; z$w_buff1_used = z$w_buff0_used; z$w_buff0_used = TRUE; __VERIFIER_assert(!(z$w_buff1_used && z$w_buff0_used)); z$r_buff1_thd0 = z$r_buff0_thd0; z$r_buff1_thd1 = z$r_buff0_thd1; z$r_buff1_thd2 = z$r_buff0_thd2; z$r_buff1_thd3 = z$r_buff0_thd3; z$r_buff0_thd1 = TRUE; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); __unbuffered_p0_EAX = x; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); z = z$w_buff0_used && z$r_buff0_thd1 ? z$w_buff0 : (z$w_buff1_used && z$r_buff1_thd1 ? z$w_buff1 : z); z$w_buff0_used = z$w_buff0_used && z$r_buff0_thd1 ? FALSE : z$w_buff0_used; z$w_buff1_used = z$w_buff0_used && z$r_buff0_thd1 || z$w_buff1_used && z$r_buff1_thd1 ? FALSE : z$w_buff1_used; z$r_buff0_thd1 = z$w_buff0_used && z$r_buff0_thd1 ? FALSE : z$r_buff0_thd1; z$r_buff1_thd1 = z$w_buff0_used && z$r_buff0_thd1 || z$w_buff1_used && z$r_buff1_thd1 ? FALSE : z$r_buff1_thd1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); __unbuffered_cnt = __unbuffered_cnt + 1; __VERIFIER_atomic_end(); return 0; } void * P1(void *arg) { __VERIFIER_atomic_begin(); x = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); y = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); z = z$w_buff0_used && z$r_buff0_thd2 ? z$w_buff0 : (z$w_buff1_used && z$r_buff1_thd2 ? z$w_buff1 : z); z$w_buff0_used = z$w_buff0_used && z$r_buff0_thd2 ? FALSE : z$w_buff0_used; z$w_buff1_used = z$w_buff0_used && z$r_buff0_thd2 || z$w_buff1_used && z$r_buff1_thd2 ? FALSE : z$w_buff1_used; z$r_buff0_thd2 = z$w_buff0_used && z$r_buff0_thd2 ? FALSE : z$r_buff0_thd2; z$r_buff1_thd2 = z$w_buff0_used && z$r_buff0_thd2 || z$w_buff1_used && z$r_buff1_thd2 ? FALSE : z$r_buff1_thd2; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); __unbuffered_cnt = __unbuffered_cnt + 1; __VERIFIER_atomic_end(); return 0; } void * P2(void *arg) { __VERIFIER_atomic_begin(); y = 2; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); __unbuffered_p2_EAX = y; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); weak$$choice0 = __VERIFIER_nondet_bool(); weak$$choice2 = __VERIFIER_nondet_bool(); z$flush_delayed = weak$$choice2; z$mem_tmp = z; z = !z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z : (z$w_buff0_used && z$r_buff0_thd3 ? z$w_buff0 : z$w_buff1); z$w_buff0 = weak$$choice2 ? z$w_buff0 : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$w_buff0 : (z$w_buff0_used && z$r_buff0_thd3 ? z$w_buff0 : z$w_buff0)); z$w_buff1 = weak$$choice2 ? z$w_buff1 : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$w_buff1 : (z$w_buff0_used && z$r_buff0_thd3 ? z$w_buff1 : z$w_buff1)); z$w_buff0_used = weak$$choice2 ? z$w_buff0_used : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$w_buff0_used : (z$w_buff0_used && z$r_buff0_thd3 ? FALSE : z$w_buff0_used)); z$w_buff1_used = weak$$choice2 ? z$w_buff1_used : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$w_buff1_used : (z$w_buff0_used && z$r_buff0_thd3 ? FALSE : FALSE)); z$r_buff0_thd3 = weak$$choice2 ? z$r_buff0_thd3 : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$r_buff0_thd3 : (z$w_buff0_used && z$r_buff0_thd3 ? FALSE : z$r_buff0_thd3)); z$r_buff1_thd3 = weak$$choice2 ? z$r_buff1_thd3 : (!z$w_buff0_used || !z$r_buff0_thd3 && !z$w_buff1_used || !z$r_buff0_thd3 && !z$r_buff1_thd3 ? z$r_buff1_thd3 : (z$w_buff0_used && z$r_buff0_thd3 ? FALSE : FALSE)); __unbuffered_p2_EBX = z; z = z$flush_delayed ? z$mem_tmp : z; z$flush_delayed = FALSE; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); z = z$w_buff0_used && z$r_buff0_thd3 ? z$w_buff0 : (z$w_buff1_used && z$r_buff1_thd3 ? z$w_buff1 : z); z$w_buff0_used = z$w_buff0_used && z$r_buff0_thd3 ? FALSE : z$w_buff0_used; z$w_buff1_used = z$w_buff0_used && z$r_buff0_thd3 || z$w_buff1_used && z$r_buff1_thd3 ? FALSE : z$w_buff1_used; z$r_buff0_thd3 = z$w_buff0_used && z$r_buff0_thd3 ? FALSE : z$r_buff0_thd3; z$r_buff1_thd3 = z$w_buff0_used && z$r_buff0_thd3 || z$w_buff1_used && z$r_buff1_thd3 ? FALSE : z$r_buff1_thd3; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); __unbuffered_cnt = __unbuffered_cnt + 1; __VERIFIER_atomic_end(); return 0; } void fence() { } void isync() { } void lwfence() { } int main() { pthread_t t657; pthread_create(&t657, NULL, P0, NULL); pthread_t t658; pthread_create(&t658, NULL, P1, NULL); pthread_t t659; pthread_create(&t659, NULL, P2, NULL); __VERIFIER_atomic_begin(); main$tmp_guard0 = __unbuffered_cnt == 3; __VERIFIER_atomic_end(); assume_abort_if_not(main$tmp_guard0); __VERIFIER_atomic_begin(); z = z$w_buff0_used && z$r_buff0_thd0 ? z$w_buff0 : (z$w_buff1_used && z$r_buff1_thd0 ? z$w_buff1 : z); z$w_buff0_used = z$w_buff0_used && z$r_buff0_thd0 ? FALSE : z$w_buff0_used; z$w_buff1_used = z$w_buff0_used && z$r_buff0_thd0 || z$w_buff1_used && z$r_buff1_thd0 ? FALSE : z$w_buff1_used; z$r_buff0_thd0 = z$w_buff0_used && z$r_buff0_thd0 ? FALSE : z$r_buff0_thd0; z$r_buff1_thd0 = z$w_buff0_used && z$r_buff0_thd0 || z$w_buff1_used && z$r_buff1_thd0 ? FALSE : z$r_buff1_thd0; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); /* Program proven to be relaxed for X86, model checker says YES. */ main$tmp_guard1 = !(y == 2 && __unbuffered_p0_EAX == 0 && __unbuffered_p2_EAX == 2 && __unbuffered_p2_EBX == 0); __VERIFIER_atomic_end(); /* Program proven to be relaxed for X86, model checker says YES. */ __VERIFIER_assert(main$tmp_guard1); return 0; }