/* * thread-pool.c * * A thread pool implementation * * (c) 2006-2010 Thomas White * * Part of CrystFEL - crystallography with a FEL * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include "utils.h" /* ---------------------------------- Range --------------------------------- */ enum { TASK_READY, TASK_RUNNING, TASK_FINISHED, }; struct task_queue_range { pthread_mutex_t lock; int n_tasks; int *status; int n_done; void (*work)(int, void *); void *work_args; const char *text; }; static void *range_worker(void *pargsv) { struct task_queue_range *q = pargsv; do { int i; int found = 0; int mytask = -1; /* Get a task */ pthread_mutex_lock(&q->lock); for ( i=0; in_tasks; i++ ) { if ( q->status[i] == TASK_READY ) { mytask = i; found = 1; q->status[i] = TASK_RUNNING; break; } } pthread_mutex_unlock(&q->lock); /* No more tasks? */ if ( !found ) break; q->work(mytask, q->work_args); /* Mark this task as done, update totals etc */ pthread_mutex_lock(&q->lock); q->status[mytask] = TASK_FINISHED; q->n_done++; if ( q->text != NULL ) { progress_bar(q->n_done, q->n_tasks, q->text); } pthread_mutex_unlock(&q->lock); } while ( 1 ); return NULL; } void run_thread_range(int n_tasks, int n_threads, const char *text, void (*work)(int, void *), void *work_args) { pthread_t *workers; int i; struct task_queue_range q; /* The nation of CrystFEL prides itself on having 0% unemployment. */ if ( n_threads > n_tasks ) n_threads = n_tasks; workers = malloc(n_threads * sizeof(pthread_t)); q.status = malloc(n_tasks * sizeof(int)); pthread_mutex_init(&q.lock, NULL); q.n_tasks = n_tasks; q.work = work; q.work_args = work_args; q.n_done = 0; q.text = text; for ( i=0; ilock); if ( (q->max) && (q->n_started >= q->max) ) { pthread_mutex_unlock(&q->lock); break; } task = q->get_task(q->queue_args); /* No more tasks? */ if ( task == NULL ) { pthread_mutex_unlock(&q->lock); break; } /* Find a cookie */ for ( i=0; in_cookies; i++ ) { if ( q->cookies[i] == 0 ) { mycookie = i; found = 1; q->cookies[i] = 1; break; } } assert(found); q->n_started++; pthread_mutex_unlock(&q->lock); q->work(task, mycookie); /* Update totals, release cookie etc */ pthread_mutex_lock(&q->lock); q->n_completed++; q->cookies[mycookie] = 0; pthread_mutex_unlock(&q->lock); } while ( 1 ); return NULL; } int run_threads(int n_threads, void (*work)(void *, int), void *(*get_task)(void *), void *queue_args, int max) { pthread_t *workers; int i; struct task_queue q; workers = malloc(n_threads * sizeof(pthread_t)); pthread_mutex_init(&q.lock, NULL); q.work = work; q.get_task = get_task; q.queue_args = queue_args; q.n_started = 0; q.n_completed = 0; q.max = max; q.n_cookies = n_threads; q.cookies = malloc(q.n_cookies * sizeof(int)); for ( i=0; i