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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-6.8/] [gdb/] [testsuite/] [gdb.threads/] [linux-dp.c] - Rev 24
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/* linux-dp.c --- dining philosophers, on LinuxThreads Jim Blandy <jimb@cygnus.com> --- March 1999 */ /* It's okay to edit this file and shift line numbers around. The tests use gdb_get_line_number to find source locations, so they don't depend on having certain line numbers in certain places. */ #include <stdarg.h> #include <stdlib.h> #include <stdio.h> #include <pthread.h> #include <sys/time.h> #include <sys/types.h> /* The number of philosophers at the table. */ int num_philosophers; /* Mutex ordering - If you want to lock a mutex M, all the mutexes you have locked already must appear before M on this list. fork_mutex[0] fork_mutex[1] ... fork_mutex[num_philosophers - 1] stdout_mutex random_mutex */ /* You must hold this mutex while writing to stdout. */ pthread_mutex_t stdout_mutex; /* You must hold this mutex while calling any of the random number generation routines. */ pthread_mutex_t random_mutex; /* array of mutexes, one for each fork; fork_mutex[i] is to the left of philosopher i. A philosopher is holding fork i iff his/her thread has locked fork_mutex[i]. */ pthread_mutex_t *fork_mutex; /* array of threads, one representing each philosopher. */ pthread_t *philosophers; void * xmalloc (size_t n) { void *p = malloc (n); if (! p) { fprintf (stderr, "out of memory\n"); exit (2); } return p; } void shared_printf (char *format, ...) { va_list ap; va_start (ap, format); pthread_mutex_lock (&stdout_mutex); vprintf (format, ap); pthread_mutex_unlock (&stdout_mutex); va_end (ap); } int shared_random () { static unsigned int seed; int result; pthread_mutex_lock (&random_mutex); result = rand_r (&seed); pthread_mutex_unlock (&random_mutex); return result; } void my_usleep (long usecs) { struct timeval timeout; timeout.tv_sec = usecs / 1000000; timeout.tv_usec = usecs % 1000000; select (0, 0, 0, 0, &timeout); } void random_delay () { my_usleep ((shared_random () % 2000) * 100); } void print_philosopher (int n, char left, char right) { int i; shared_printf ("%*s%c %d %c\n", (n * 4) + 2, "", left, n, right); } void * philosopher (void *data) { int n = * (int *) data; print_philosopher (n, '_', '_'); #if 1 if (n == num_philosophers - 1) for (;;) { /* The last philosopher is different. He goes for his right fork first, so there is no cycle in the mutex graph. */ /* Grab the right fork. */ pthread_mutex_lock (&fork_mutex[(n + 1) % num_philosophers]); print_philosopher (n, '_', '!'); random_delay (); /* Then grab the left fork. */ pthread_mutex_lock (&fork_mutex[n]); print_philosopher (n, '!', '!'); random_delay (); print_philosopher (n, '_', '_'); pthread_mutex_unlock (&fork_mutex[n]); pthread_mutex_unlock (&fork_mutex[(n + 1) % num_philosophers]); random_delay (); } else #endif for (;;) { /* Grab the left fork. */ pthread_mutex_lock (&fork_mutex[n]); print_philosopher (n, '!', '_'); random_delay (); /* Then grab the right fork. */ pthread_mutex_lock (&fork_mutex[(n + 1) % num_philosophers]); print_philosopher (n, '!', '!'); random_delay (); print_philosopher (n, '_', '_'); pthread_mutex_unlock (&fork_mutex[n]); pthread_mutex_unlock (&fork_mutex[(n + 1) % num_philosophers]); random_delay (); } return (void *) 0; } int main (int argc, char **argv) { num_philosophers = 5; /* Set up the mutexes. */ { pthread_mutexattr_t ma; int i; pthread_mutexattr_init (&ma); pthread_mutex_init (&stdout_mutex, &ma); pthread_mutex_init (&random_mutex, &ma); fork_mutex = xmalloc (num_philosophers * sizeof (fork_mutex[0])); for (i = 0; i < num_philosophers; i++) pthread_mutex_init (&fork_mutex[i], &ma); pthread_mutexattr_destroy (&ma); } /* Set off the threads. */ { int i; int *numbers = xmalloc (num_philosophers * sizeof (*numbers)); pthread_attr_t ta; philosophers = xmalloc (num_philosophers * sizeof (*philosophers)); pthread_attr_init (&ta); for (i = 0; i < num_philosophers; i++) { numbers[i] = i; /* linuxthreads.exp: create philosopher */ pthread_create (&philosophers[i], &ta, philosopher, &numbers[i]); } pthread_attr_destroy (&ta); } /* linuxthreads.exp: info threads 2 */ sleep (1000000); /* Drink yourself into oblivion. */ for (;;) sleep (1000000); return 0; }
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