/* Test data race detection between floating point variables. */ #include <assert.h> #include <stdio.h> /* printf() */ #include <pthread.h> #include <unistd.h> /* sleep() */ /* Local functions declarations. */ static void* thread_func(void*); /* Local variables. */ /* s_mutex protects s_d3. */ static pthread_mutex_t s_mutex; static double s_d1; /* accessed before thread creation and in the created */ /* thread (not a race). */ static double s_d2; /* accessed in the created thread and after the join */ /* (not a race). */ static double s_d3; /* accessed simultaneously from both threads (race). */ static int s_debug = 0; static int s_do_printf = 0; static int s_use_mutex = 0; /* Function definitions. */ int main(int argc, char** argv) { int optchar; pthread_t threadid; while ((optchar = getopt(argc, argv, "dmp")) != EOF) { switch (optchar) { case 'd': s_debug = 1; break; case 'm': s_use_mutex = 1; break; case 'p': s_do_printf = 1; break; default: assert(0); } } pthread_mutex_init(&s_mutex, 0); /* * Switch to line-buffered mode, such that timing information can be * obtained for each printf() call with strace. */ setlinebuf(stdout); if (s_debug) { printf("&s_d1 = %p; &s_d2 = %p; &s_d3 = %p\n", &s_d1, &s_d2, &s_d3); } s_d1 = 1; s_d3 = 3; pthread_create(&threadid, 0, thread_func, 0); sleep(1); /* Wait until thread_func() finished. */ { if (s_use_mutex) pthread_mutex_lock(&s_mutex); s_d3++; if (s_use_mutex) pthread_mutex_unlock(&s_mutex); } /* Wait until the thread finished. */ pthread_join(threadid, 0); if (s_do_printf) printf("s_d2 = %g (should be 2)\n", s_d2); if (s_do_printf) printf("s_d3 = %g (should be 5)\n", s_d3); pthread_mutex_destroy(&s_mutex); return 0; } static void* thread_func(void* thread_arg) { if (s_do_printf) { printf("s_d1 = %g (should be 1)\n", s_d1); } s_d2 = 2; { if (s_use_mutex) pthread_mutex_lock(&s_mutex); s_d3++; if (s_use_mutex) pthread_mutex_unlock(&s_mutex); } return 0; }