FFmpeg
slicethread.c
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1 /*
2  * This file is part of FFmpeg.
3  *
4  * FFmpeg is free software; you can redistribute it and/or
5  * modify it under the terms of the GNU Lesser General Public
6  * License as published by the Free Software Foundation; either
7  * version 2.1 of the License, or (at your option) any later version.
8  *
9  * FFmpeg is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12  * Lesser General Public License for more details.
13  *
14  * You should have received a copy of the GNU Lesser General Public
15  * License along with FFmpeg; if not, write to the Free Software
16  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
17  */
18 
19 #include <stdatomic.h>
20 #include "cpu.h"
21 #include "internal.h"
22 #include "slicethread.h"
23 #include "mem.h"
24 #include "thread.h"
25 #include "avassert.h"
26 
27 #define MAX_AUTO_THREADS 16
28 
29 #if HAVE_PTHREADS || HAVE_W32THREADS || HAVE_OS2THREADS
30 
31 typedef struct WorkerContext {
35  pthread_t thread;
36  int done;
37 } WorkerContext;
38 
39 struct AVSliceThread {
40  WorkerContext *workers;
41  int nb_threads;
42  int nb_active_threads;
43  int nb_jobs;
44 
45  atomic_uint first_job;
46  atomic_uint current_job;
47  pthread_mutex_t done_mutex;
48  pthread_cond_t done_cond;
49  int done;
50  int finished;
51 
52  void *priv;
53  void (*worker_func)(void *priv, int jobnr, int threadnr, int nb_jobs, int nb_threads);
54  void (*main_func)(void *priv);
55 };
56 
57 static int run_jobs(AVSliceThread *ctx)
58 {
59  unsigned nb_jobs = ctx->nb_jobs;
60  unsigned nb_active_threads = ctx->nb_active_threads;
61  unsigned first_job = atomic_fetch_add_explicit(&ctx->first_job, 1, memory_order_acq_rel);
62  unsigned current_job = first_job;
63 
64  do {
65  ctx->worker_func(ctx->priv, current_job, first_job, nb_jobs, nb_active_threads);
66  } while ((current_job = atomic_fetch_add_explicit(&ctx->current_job, 1, memory_order_acq_rel)) < nb_jobs);
67 
68  return current_job == nb_jobs + nb_active_threads - 1;
69 }
70 
71 static void *attribute_align_arg thread_worker(void *v)
72 {
73  WorkerContext *w = v;
74  AVSliceThread *ctx = w->ctx;
75 
76  pthread_mutex_lock(&w->mutex);
77  pthread_cond_signal(&w->cond);
78 
79  while (1) {
80  w->done = 1;
81  while (w->done)
82  pthread_cond_wait(&w->cond, &w->mutex);
83 
84  if (ctx->finished) {
85  pthread_mutex_unlock(&w->mutex);
86  return NULL;
87  }
88 
89  if (run_jobs(ctx)) {
90  pthread_mutex_lock(&ctx->done_mutex);
91  ctx->done = 1;
92  pthread_cond_signal(&ctx->done_cond);
93  pthread_mutex_unlock(&ctx->done_mutex);
94  }
95  }
96 }
97 
98 int avpriv_slicethread_create(AVSliceThread **pctx, void *priv,
99  void (*worker_func)(void *priv, int jobnr, int threadnr, int nb_jobs, int nb_threads),
100  void (*main_func)(void *priv),
101  int nb_threads)
102 {
104  int nb_workers, i;
105  int ret;
106 
107  av_assert0(nb_threads >= 0);
108  if (!nb_threads) {
109  int nb_cpus = av_cpu_count();
110  if (nb_cpus > 1)
111  nb_threads = FFMIN(nb_cpus + 1, MAX_AUTO_THREADS);
112  else
113  nb_threads = 1;
114  }
115 
116  nb_workers = nb_threads;
117  if (!main_func)
118  nb_workers--;
119 
120  *pctx = ctx = av_mallocz(sizeof(*ctx));
121  if (!ctx)
122  return AVERROR(ENOMEM);
123 
124  if (nb_workers && !(ctx->workers = av_calloc(nb_workers, sizeof(*ctx->workers)))) {
125  av_freep(pctx);
126  return AVERROR(ENOMEM);
127  }
128 
129  ctx->priv = priv;
130  ctx->worker_func = worker_func;
131  ctx->main_func = main_func;
132  ctx->nb_threads = nb_threads;
133  ctx->nb_active_threads = 0;
134  ctx->nb_jobs = 0;
135  ctx->finished = 0;
136 
137  atomic_init(&ctx->first_job, 0);
138  atomic_init(&ctx->current_job, 0);
139  ret = pthread_mutex_init(&ctx->done_mutex, NULL);
140  if (ret) {
141  av_freep(&ctx->workers);
142  av_freep(pctx);
143  return AVERROR(ret);
144  }
145  ret = pthread_cond_init(&ctx->done_cond, NULL);
146  if (ret) {
147  ctx->nb_threads = main_func ? 0 : 1;
149  return AVERROR(ret);
150  }
151  ctx->done = 0;
152 
153  for (i = 0; i < nb_workers; i++) {
154  WorkerContext *w = &ctx->workers[i];
155  int ret;
156  w->ctx = ctx;
157  ret = pthread_mutex_init(&w->mutex, NULL);
158  if (ret) {
159  ctx->nb_threads = main_func ? i : i + 1;
161  return AVERROR(ret);
162  }
163  ret = pthread_cond_init(&w->cond, NULL);
164  if (ret) {
165  pthread_mutex_destroy(&w->mutex);
166  ctx->nb_threads = main_func ? i : i + 1;
168  return AVERROR(ret);
169  }
170  pthread_mutex_lock(&w->mutex);
171  w->done = 0;
172 
173  if (ret = pthread_create(&w->thread, NULL, thread_worker, w)) {
174  ctx->nb_threads = main_func ? i : i + 1;
175  pthread_mutex_unlock(&w->mutex);
176  pthread_cond_destroy(&w->cond);
177  pthread_mutex_destroy(&w->mutex);
179  return AVERROR(ret);
180  }
181 
182  while (!w->done)
183  pthread_cond_wait(&w->cond, &w->mutex);
184  pthread_mutex_unlock(&w->mutex);
185  }
186 
187  return nb_threads;
188 }
189 
190 void avpriv_slicethread_execute(AVSliceThread *ctx, int nb_jobs, int execute_main)
191 {
192  int nb_workers, i, is_last = 0;
193 
194  av_assert0(nb_jobs > 0);
195  ctx->nb_jobs = nb_jobs;
196  ctx->nb_active_threads = FFMIN(nb_jobs, ctx->nb_threads);
197  atomic_store_explicit(&ctx->first_job, 0, memory_order_relaxed);
198  atomic_store_explicit(&ctx->current_job, ctx->nb_active_threads, memory_order_relaxed);
199  nb_workers = ctx->nb_active_threads;
200  if (!ctx->main_func || !execute_main)
201  nb_workers--;
202 
203  for (i = 0; i < nb_workers; i++) {
204  WorkerContext *w = &ctx->workers[i];
205  pthread_mutex_lock(&w->mutex);
206  w->done = 0;
207  pthread_cond_signal(&w->cond);
208  pthread_mutex_unlock(&w->mutex);
209  }
210 
211  if (ctx->main_func && execute_main)
212  ctx->main_func(ctx->priv);
213  else
214  is_last = run_jobs(ctx);
215 
216  if (!is_last) {
217  pthread_mutex_lock(&ctx->done_mutex);
218  while (!ctx->done)
219  pthread_cond_wait(&ctx->done_cond, &ctx->done_mutex);
220  ctx->done = 0;
221  pthread_mutex_unlock(&ctx->done_mutex);
222  }
223 }
224 
226 {
228  int nb_workers, i;
229 
230  if (!pctx || !*pctx)
231  return;
232 
233  ctx = *pctx;
234  nb_workers = ctx->nb_threads;
235  if (!ctx->main_func)
236  nb_workers--;
237 
238  ctx->finished = 1;
239  for (i = 0; i < nb_workers; i++) {
240  WorkerContext *w = &ctx->workers[i];
241  pthread_mutex_lock(&w->mutex);
242  w->done = 0;
243  pthread_cond_signal(&w->cond);
244  pthread_mutex_unlock(&w->mutex);
245  }
246 
247  for (i = 0; i < nb_workers; i++) {
248  WorkerContext *w = &ctx->workers[i];
249  pthread_join(w->thread, NULL);
250  pthread_cond_destroy(&w->cond);
251  pthread_mutex_destroy(&w->mutex);
252  }
253 
254  pthread_cond_destroy(&ctx->done_cond);
255  pthread_mutex_destroy(&ctx->done_mutex);
256  av_freep(&ctx->workers);
257  av_freep(pctx);
258 }
259 
260 #else /* HAVE_PTHREADS || HAVE_W32THREADS || HAVE_OS32THREADS */
261 
263  void (*worker_func)(void *priv, int jobnr, int threadnr, int nb_jobs, int nb_threads),
264  void (*main_func)(void *priv),
265  int nb_threads)
266 {
267  *pctx = NULL;
268  return AVERROR(ENOSYS);
269 }
270 
271 void avpriv_slicethread_execute(AVSliceThread *ctx, int nb_jobs, int execute_main)
272 {
273  av_assert0(0);
274 }
275 
277 {
278  av_assert0(!pctx || !*pctx);
279 }
280 
281 #endif /* HAVE_PTHREADS || HAVE_W32THREADS || HAVE_OS32THREADS */
pthread_mutex_t
_fmutex pthread_mutex_t
Definition: os2threads.h:53
pthread_join
static av_always_inline int pthread_join(pthread_t thread, void **value_ptr)
Definition: os2threads.h:94
AVERROR
Filter the word “frame” indicates either a video frame or a group of audio as stored in an AVFrame structure Format for each input and each output the list of supported formats For video that means pixel format For audio that means channel sample they are references to shared objects When the negotiation mechanism computes the intersection of the formats supported at each end of a all references to both lists are replaced with a reference to the intersection And when a single format is eventually chosen for a link amongst the remaining all references to the list are updated That means that if a filter requires that its input and output have the same format amongst a supported all it has to do is use a reference to the same list of formats query_formats can leave some formats unset and return AVERROR(EAGAIN) to cause the negotiation mechanism toagain later. That can be used by filters with complex requirements to use the format negotiated on one link to set the formats supported on another. Frame references ownership and permissions
thread.h
pthread_mutex_init
static av_always_inline int pthread_mutex_init(pthread_mutex_t *mutex, const pthread_mutexattr_t *attr)
Definition: os2threads.h:104
avpriv_slicethread_execute
void avpriv_slicethread_execute(AVSliceThread *ctx, int nb_jobs, int execute_main)
Execute slice threading.
Definition: slicethread.c:271
w
uint8_t w
Definition: llviddspenc.c:38
AVSliceThread
struct AVSliceThread AVSliceThread
Definition: slicethread.h:22
avpriv_slicethread_create
int avpriv_slicethread_create(AVSliceThread **pctx, void *priv, void(*worker_func)(void *priv, int jobnr, int threadnr, int nb_jobs, int nb_threads), void(*main_func)(void *priv), int nb_threads)
Create slice threading context.
Definition: slicethread.c:262
avassert.h
av_assert0
#define av_assert0(cond)
assert() equivalent, that is always enabled.
Definition: avassert.h:40
ctx
AVFormatContext * ctx
Definition: movenc.c:48
MAX_AUTO_THREADS
#define MAX_AUTO_THREADS
Definition: slicethread.c:27
pthread_create
static av_always_inline int pthread_create(pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine)(void *), void *arg)
Definition: os2threads.h:80
NULL
#define NULL
Definition: coverity.c:32
worker_func
static void worker_func(void *priv, int jobnr, int threadnr, int nb_jobs, int nb_threads)
Definition: pthread_slice.c:70
pthread_mutex_unlock
#define pthread_mutex_unlock(a)
Definition: ffprobe.c:81
av_cpu_count
int av_cpu_count(void)
Definition: cpu.c:209
attribute_align_arg
#define attribute_align_arg
Definition: internal.h:50
cpu.h
atomic_fetch_add_explicit
#define atomic_fetch_add_explicit(object, operand, order)
Definition: stdatomic.h:149
pthread_t
Definition: os2threads.h:44
pthread_cond_destroy
static av_always_inline int pthread_cond_destroy(pthread_cond_t *cond)
Definition: os2threads.h:144
slicethread.h
pthread_mutex_destroy
static av_always_inline int pthread_mutex_destroy(pthread_mutex_t *mutex)
Definition: os2threads.h:112
i
#define i(width, name, range_min, range_max)
Definition: cbs_h2645.c:255
internal.h
atomic_store_explicit
#define atomic_store_explicit(object, desired, order)
Definition: stdatomic.h:90
FFMIN
#define FFMIN(a, b)
Definition: macros.h:49
main_func
int() main_func(AVCodecContext *c)
Definition: pthread_slice.c:42
av_mallocz
void * av_mallocz(size_t size)
Allocate a memory block with alignment suitable for all memory accesses (including vectors if availab...
Definition: mem.c:254
pthread_cond_t
Definition: os2threads.h:58
av_calloc
void * av_calloc(size_t nmemb, size_t size)
Definition: mem.c:262
ret
ret
Definition: filter_design.txt:187
pthread_cond_signal
static av_always_inline int pthread_cond_signal(pthread_cond_t *cond)
Definition: os2threads.h:152
atomic_uint
intptr_t atomic_uint
Definition: stdatomic.h:56
pthread_cond_wait
static av_always_inline int pthread_cond_wait(pthread_cond_t *cond, pthread_mutex_t *mutex)
Definition: os2threads.h:192
mem.h
av_freep
#define av_freep(p)
Definition: tableprint_vlc.h:34
avpriv_slicethread_free
void avpriv_slicethread_free(AVSliceThread **pctx)
Destroy slice threading context.
Definition: slicethread.c:276
pthread_cond_init
static av_always_inline int pthread_cond_init(pthread_cond_t *cond, const pthread_condattr_t *attr)
Definition: os2threads.h:133
atomic_init
#define atomic_init(obj, value)
Definition: stdatomic.h:33
cond
int(* cond)(enum AVPixelFormat pix_fmt)
Definition: pixdesc_query.c:28
mutex
static AVMutex mutex
Definition: log.c:46
pthread_mutex_lock
#define pthread_mutex_lock(a)
Definition: ffprobe.c:77