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FFmpeg/libavfilter/pthread.c

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  1. /*

  2.  *

  3.  * This file is part of Libav.

  4.  *

  5.  * Libav is free software; you can redistribute it and/or

  6.  * modify it under the terms of the GNU Lesser General Public

  7.  * License as published by the Free Software Foundation; either

  8.  * version 2.1 of the License, or (at your option) any later version.

  9.  *

  10.  * Libav is distributed in the hope that it will be useful,

  11.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  12.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  13.  * Lesser General Public License for more details.

  14.  *

  15.  * You should have received a copy of the GNU Lesser General Public

  16.  * License along with Libav; if not, write to the Free Software

  17.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  18.  */

  19. 

  20. /**

  21.  * @file

  22.  * Libavfilter multithreading support

  23.  */

  24. 

  25. #include "config.h"

  26. 

  27. #include "libavutil/common.h"

  28. #include "libavutil/cpu.h"

  29. #include "libavutil/mem.h"

  30. 

  31. #include "avfilter.h"

  32. #include "internal.h"

  33. #include "thread.h"

  34. 

  35. #if HAVE_PTHREADS

  36. #include <pthread.h>

  37. #elif HAVE_W32THREADS

  38. #include "compat/w32pthreads.h"

  39. #endif

  40. 

  41. typedef struct ThreadContext {

  42.     AVFilterGraph *graph;

  43. 

  44.     int nb_threads;

  45.     pthread_t *workers;

  46.     avfilter_action_func *func;

  47. 

  48.     /* per-execute perameters */

  49.     AVFilterContext *ctx;

  50.     void *arg;

  51.     int   *rets;

  52.     int nb_rets;

  53.     int nb_jobs;

  54. 

  55.     pthread_cond_t last_job_cond;

  56.     pthread_cond_t current_job_cond;

  57.     pthread_mutex_t current_job_lock;

  58.     int current_job;

  59.     unsigned int current_execute;

  60.     int done;

  61. } ThreadContext;

  62. 

  63. static void* attribute_align_arg worker(void *v)

  64. {

  65.     ThreadContext *c = v;

  66.     int our_job      = c->nb_jobs;

  67.     int nb_threads   = c->nb_threads;

  68.     unsigned int last_execute = 0;

  69.     int self_id;

  70. 

  71.     pthread_mutex_lock(&c->current_job_lock);

  72.     self_id = c->current_job++;

  73.     for (;;) {

  74.         while (our_job >= c->nb_jobs) {

  75.             if (c->current_job == nb_threads + c->nb_jobs)

  76.                 pthread_cond_signal(&c->last_job_cond);

  77. 

  78.             while (last_execute == c->current_execute && !c->done)

  79.                 pthread_cond_wait(&c->current_job_cond, &c->current_job_lock);

  80.             last_execute = c->current_execute;

  81.             our_job = self_id;

  82. 

  83.             if (c->done) {

  84.                 pthread_mutex_unlock(&c->current_job_lock);

  85.                 return NULL;

  86.             }

  87.         }

  88.         pthread_mutex_unlock(&c->current_job_lock);

  89. 

  90.         c->rets[our_job % c->nb_rets] = c->func(c->ctx, c->arg, our_job, c->nb_jobs);

  91. 

  92.         pthread_mutex_lock(&c->current_job_lock);

  93.         our_job = c->current_job++;

  94.     }

  95. }

  96. 

  97. static void slice_thread_uninit(ThreadContext *c)

  98. {

  99.     int i;

  100. 

  101.     pthread_mutex_lock(&c->current_job_lock);

  102.     c->done = 1;

  103.     pthread_cond_broadcast(&c->current_job_cond);

  104.     pthread_mutex_unlock(&c->current_job_lock);

  105. 

  106.     for (i = 0; i < c->nb_threads; i++)

  107.          pthread_join(c->workers[i], NULL);

  108. 

  109.     pthread_mutex_destroy(&c->current_job_lock);

  110.     pthread_cond_destroy(&c->current_job_cond);

  111.     pthread_cond_destroy(&c->last_job_cond);

  112.     av_freep(&c->workers);

  113. }

  114. 

  115. static void slice_thread_park_workers(ThreadContext *c)

  116. {

  117.     while (c->current_job != c->nb_threads + c->nb_jobs)

  118.         pthread_cond_wait(&c->last_job_cond, &c->current_job_lock);

  119.     pthread_mutex_unlock(&c->current_job_lock);

  120. }

  121. 

  122. static int thread_execute(AVFilterContext *ctx, avfilter_action_func *func,

  123.                           void *arg, int *ret, int nb_jobs)

  124. {

  125.     ThreadContext *c = ctx->graph->internal->thread;

  126.     int dummy_ret;

  127. 

  128.     if (nb_jobs <= 0)

  129.         return 0;

  130. 

  131.     pthread_mutex_lock(&c->current_job_lock);

  132. 

  133.     c->current_job = c->nb_threads;

  134.     c->nb_jobs     = nb_jobs;

  135.     c->ctx         = ctx;

  136.     c->arg         = arg;

  137.     c->func        = func;

  138.     if (ret) {

  139.         c->rets    = ret;

  140.         c->nb_rets = nb_jobs;

  141.     } else {

  142.         c->rets    = &dummy_ret;

  143.         c->nb_rets = 1;

  144.     }

  145.     c->current_execute++;

  146. 

  147.     pthread_cond_broadcast(&c->current_job_cond);

  148. 

  149.     slice_thread_park_workers(c);

  150. 

  151.     return 0;

  152. }

  153. 

  154. static int thread_init_internal(ThreadContext *c, int nb_threads)

  155. {

  156.     int i, ret;

  157. 

  158.     if (!nb_threads) {

  159.         int nb_cpus = av_cpu_count();

  160.         av_log(c->graph, AV_LOG_DEBUG, "Detected %d logical cores.\n", nb_cpus);

  161.         // use number of cores + 1 as thread count if there is more than one

  162.         if (nb_cpus > 1)

  163.             nb_threads = nb_cpus + 1;

  164.         else

  165.             nb_threads = 1;

  166.     }

  167. 

  168.     if (nb_threads <= 1)

  169.         return 1;

  170. 

  171.     c->nb_threads = nb_threads;

  172.     c->workers = av_mallocz(sizeof(*c->workers) * nb_threads);

  173.     if (!c->workers)

  174.         return AVERROR(ENOMEM);

  175. 

  176.     c->current_job = 0;

  177.     c->nb_jobs     = 0;

  178.     c->done        = 0;

  179. 

  180.     pthread_cond_init(&c->current_job_cond, NULL);

  181.     pthread_cond_init(&c->last_job_cond,    NULL);

  182. 

  183.     pthread_mutex_init(&c->current_job_lock, NULL);

  184.     pthread_mutex_lock(&c->current_job_lock);

  185.     for (i = 0; i < nb_threads; i++) {

  186.         ret = pthread_create(&c->workers[i], NULL, worker, c);

  187.         if (ret) {

  188.            pthread_mutex_unlock(&c->current_job_lock);

  189.            c->nb_threads = i;

  190.            slice_thread_uninit(c);

  191.            return AVERROR(ret);

  192.         }

  193.     }

  194. 

  195.     slice_thread_park_workers(c);

  196. 

  197.     return c->nb_threads;

  198. }

  199. 

  200. int ff_graph_thread_init(AVFilterGraph *graph)

  201. {

  202.     int ret;

  203. 

  204. #if HAVE_W32THREADS

  205.     w32thread_init();

  206. #endif

  207. 

  208.     if (graph->nb_threads == 1) {

  209.         graph->thread_type = 0;

  210.         return 0;

  211.     }

  212. 

  213.     graph->internal->thread = av_mallocz(sizeof(ThreadContext));

  214.     if (!graph->internal->thread)

  215.         return AVERROR(ENOMEM);

  216. 

  217.     ret = thread_init_internal(graph->internal->thread, graph->nb_threads);

  218.     if (ret <= 1) {

  219.         av_freep(&graph->internal->thread);

  220.         graph->thread_type = 0;

  221.         graph->nb_threads  = 1;

  222.         return (ret < 0) ? ret : 0;

  223.     }

  224.     graph->nb_threads = ret;

  225. 

  226.     graph->internal->thread_execute = thread_execute;

  227. 

  228.     return 0;

  229. }

  230. 

  231. void ff_graph_thread_free(AVFilterGraph *graph)

  232. {

  233.     if (graph->internal->thread)

  234.         slice_thread_uninit(graph->internal->thread);

  235.     av_freep(&graph->internal->thread);

  236. }