// This file is part of the SV-Benchmarks collection of verification tasks: // https://gitlab.com/sosy-lab/benchmarking/sv-benchmarks // // SPDX-FileCopyrightText: 2021 F. Schuessele // SPDX-FileCopyrightText: 2021 D. Klumpp // // SPDX-License-Identifier: LicenseRef-BSD-3-Clause-Attribution-Vandikas typedef unsigned long int pthread_t; union pthread_attr_t { char __size[36]; long int __align; }; typedef union pthread_attr_t pthread_attr_t; extern void __assert_fail(const char *__assertion, const char *__file, unsigned int __line, const char *__function) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__noreturn__)); void reach_error() { __assert_fail("0", "parallel-bakery-4.wvr.c", 21, __extension__ __PRETTY_FUNCTION__); } extern int pthread_create (pthread_t *__restrict __newthread, const pthread_attr_t *__restrict __attr, void *(*__start_routine) (void *), void *__restrict __arg) __attribute__ ((__nothrow__)) __attribute__ ((__nonnull__ (1, 3))); extern int pthread_join (pthread_t __th, void **__thread_return); extern int __VERIFIER_nondet_int(void); extern _Bool __VERIFIER_nondet_bool(void); extern void __VERIFIER_atomic_begin(); extern void __VERIFIER_atomic_end(); extern void abort(void); void assume_abort_if_not(int cond) { if(!cond) {abort();} } _Bool e1, e2, e3, e4; int n1, n2, n3, n4, i, i1, i2, i3, i4; void* thread1() { __VERIFIER_atomic_begin(); e1 = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n1 = (n1 < n2) ? n2 : n1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n1 = (n1 < n3) ? n3 : n1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n1 = (n1 < n4) ? n4 : n1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n1++; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); e1 = 0; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e2); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n2 != 0 ) && ( ( n2 < n1 ) || ( ( n2 == n1 ) && ( 2 < 1 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e3); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n3 != 0 ) && ( ( n3 < n1 ) || ( ( n3 == n1 ) && ( 3 < 1 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e4); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n4 != 0 ) && ( ( n4 < n1 ) || ( ( n4 == n1 ) && ( 4 < 1 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i1 = i; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i = i1 + 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n1 = 0; __VERIFIER_atomic_end(); return 0; } void* thread2() { __VERIFIER_atomic_begin(); e2 = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n2 = (n2 < n1) ? n1 : n2; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n2 = (n2 < n3) ? n3 : n2; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n2 = (n2 < n4) ? n4 : n2; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n2++; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); e2 = 0; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e1); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n1 != 0 ) && ( ( n1 < n2 ) || ( ( n1 == n2 ) && ( 1 < 2 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e3); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n3 != 0 ) && ( ( n3 < n2 ) || ( ( n3 == n2 ) && ( 3 < 2 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e4); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n4 != 0 ) && ( ( n4 < n2 ) || ( ( n4 == n2 ) && ( 4 < 2 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i2 = i; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i = i2 + 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n2 = 0; __VERIFIER_atomic_end(); return 0; } void* thread3() { __VERIFIER_atomic_begin(); e3 = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n3 = (n3 < n1) ? n1 : n3; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n3 = (n3 < n2) ? n2 : n3; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n3 = (n3 < n4) ? n4 : n3; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n3++; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); e3 = 0; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e1); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n1 != 0 ) && ( ( n1 < n3 ) || ( ( n1 == n3 ) && ( 1 < 3 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e2); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n2 != 0 ) && ( ( n2 < n3 ) || ( ( n2 == n3 ) && ( 2 < 3 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e4); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n4 != 0 ) && ( ( n4 < n3 ) || ( ( n4 == n3 ) && ( 4 < 3 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i3 = i; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i = i3 + 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n3 = 0; __VERIFIER_atomic_end(); return 0; } void* thread4() { __VERIFIER_atomic_begin(); e4 = 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n4 = (n4 < n1) ? n1 : n4; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n4 = (n4 < n2) ? n2 : n4; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n4 = (n4 < n3) ? n3 : n4; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n4++; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); e4 = 0; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e1); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n1 != 0 ) && ( ( n1 < n4 ) || ( ( n1 == n4 ) && ( 1 < 4 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e2); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n2 != 0 ) && ( ( n2 < n4 ) || ( ( n2 == n4 ) && ( 2 < 4 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not(!e3); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); assume_abort_if_not( !( ( n3 != 0 ) && ( ( n3 < n4 ) || ( ( n3 == n4 ) && ( 3 < 4 ) ) ) ) ); __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i4 = i; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); i = i4 + 1; __VERIFIER_atomic_end(); __VERIFIER_atomic_begin(); n4 = 0; __VERIFIER_atomic_end(); return 0; } int main() { pthread_t t1, t2, t3, t4; // initialize global variables e1 = __VERIFIER_nondet_bool(); e2 = __VERIFIER_nondet_bool(); e3 = __VERIFIER_nondet_bool(); e4 = __VERIFIER_nondet_bool(); n1 = __VERIFIER_nondet_int(); n2 = __VERIFIER_nondet_int(); n3 = __VERIFIER_nondet_int(); n4 = __VERIFIER_nondet_int(); i = __VERIFIER_nondet_int(); i1 = __VERIFIER_nondet_int(); i2 = __VERIFIER_nondet_int(); i3 = __VERIFIER_nondet_int(); i4 = __VERIFIER_nondet_int(); // main method assume_abort_if_not( ( i == 0 ) && ( e1 == 0 ) && ( e2 == 0 ) && ( e3 == 0 ) && ( e4 == 0 ) && ( n1 == 0 ) && ( n2 == 0 ) && ( n3 == 0 ) && ( n4 == 0 ) ); pthread_create(&t1, 0, thread1, 0); pthread_create(&t2, 0, thread2, 0); pthread_create(&t3, 0, thread3, 0); pthread_create(&t4, 0, thread4, 0); pthread_join(t1, 0); pthread_join(t2, 0); pthread_join(t3, 0); pthread_join(t4, 0); assume_abort_if_not( i != 4 ); reach_error(); return 0; }