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libavcodec
pthread_slice.c
Go to the documentation of this file.
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/*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/**
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* @file
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* Slice multithreading support functions
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* @see doc/multithreading.txt
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*/
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#include "config.h"
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#if HAVE_PTHREADS
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#include <pthread.h>
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#elif HAVE_W32THREADS
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#include "
compat/w32pthreads.h
"
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#elif HAVE_OS2THREADS
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#include "
compat/os2threads.h
"
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#endif
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#include "
avcodec.h
"
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#include "
internal.h
"
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#include "
pthread_internal.h
"
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#include "
thread.h
"
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#include "
libavutil/common.h
"
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#include "
libavutil/cpu.h
"
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#include "
libavutil/mem.h
"
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typedef
int (
action_func
)(
AVCodecContext
*
c
,
void
*
arg
);
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typedef
int (
action_func2
)(
AVCodecContext
*
c
,
void
*
arg
,
int
jobnr,
int
threadnr);
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typedef
struct
SliceThreadContext
{
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pthread_t
*
workers
;
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action_func
*
func
;
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action_func2
*
func2
;
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void
*
args
;
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int
*
rets
;
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int
rets_count
;
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int
job_count
;
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int
job_size
;
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pthread_cond_t
last_job_cond
;
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pthread_cond_t
current_job_cond
;
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pthread_mutex_t
current_job_lock
;
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unsigned
current_execute
;
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int
current_job
;
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int
done
;
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int
*
entries
;
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int
entries_count
;
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int
thread_count
;
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pthread_cond_t
*
progress_cond
;
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pthread_mutex_t
*
progress_mutex
;
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}
SliceThreadContext
;
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static
void
* attribute_align_arg
worker
(
void
*
v
)
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{
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AVCodecContext
*avctx =
v
;
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SliceThreadContext
*
c
= avctx->
internal
->
thread_ctx
;
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unsigned
last_execute = 0;
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int
our_job = c->
job_count
;
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int
thread_count = avctx->
thread_count
;
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int
self_id;
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pthread_mutex_lock
(&c->
current_job_lock
);
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self_id = c->
current_job
++;
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for
(;;){
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while
(our_job >= c->
job_count
) {
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if
(c->
current_job
== thread_count + c->
job_count
)
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pthread_cond_signal
(&c->
last_job_cond
);
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while
(last_execute == c->
current_execute
&& !c->
done
)
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pthread_cond_wait
(&c->
current_job_cond
, &c->
current_job_lock
);
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last_execute = c->
current_execute
;
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our_job = self_id;
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if
(c->
done
) {
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pthread_mutex_unlock
(&c->
current_job_lock
);
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return
NULL;
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}
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}
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pthread_mutex_unlock
(&c->
current_job_lock
);
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c->
rets
[our_job%c->
rets_count
] = c->
func
? c->
func
(avctx, (
char
*)c->
args
+ our_job*c->
job_size
):
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c->
func2
(avctx, c->
args
, our_job, self_id);
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pthread_mutex_lock
(&c->
current_job_lock
);
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our_job = c->
current_job
++;
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}
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}
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void
ff_slice_thread_free
(
AVCodecContext
*avctx)
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{
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SliceThreadContext
*
c
= avctx->
internal
->
thread_ctx
;
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int
i;
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pthread_mutex_lock
(&c->
current_job_lock
);
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c->
done
= 1;
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pthread_cond_broadcast
(&c->
current_job_cond
);
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pthread_mutex_unlock
(&c->
current_job_lock
);
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for
(i=0; i<avctx->
thread_count
; i++)
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pthread_join
(c->
workers
[i], NULL);
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pthread_mutex_destroy
(&c->
current_job_lock
);
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pthread_cond_destroy
(&c->
current_job_cond
);
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pthread_cond_destroy
(&c->
last_job_cond
);
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av_free
(c->
workers
);
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av_freep
(&avctx->
internal
->
thread_ctx
);
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}
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127
static
av_always_inline
void
thread_park_workers
(
SliceThreadContext
*
c
,
int
thread_count)
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{
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while
(c->
current_job
!= thread_count + c->
job_count
)
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pthread_cond_wait
(&c->
last_job_cond
, &c->
current_job_lock
);
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pthread_mutex_unlock
(&c->
current_job_lock
);
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}
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static
int
thread_execute
(
AVCodecContext
*avctx,
action_func
*
func
,
void
*
arg
,
int
*
ret
,
int
job_count,
int
job_size)
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{
136
SliceThreadContext
*
c
= avctx->
internal
->
thread_ctx
;
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int
dummy_ret;
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if
(!(avctx->
active_thread_type
&
FF_THREAD_SLICE
) || avctx->
thread_count
<= 1)
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return
avcodec_default_execute
(avctx, func, arg, ret, job_count, job_size);
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if
(job_count <= 0)
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return
0;
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145
pthread_mutex_lock
(&c->
current_job_lock
);
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c->
current_job
= avctx->
thread_count
;
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c->
job_count
= job_count;
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c->
job_size
= job_size;
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c->
args
=
arg
;
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c->
func
=
func
;
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if
(ret) {
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c->
rets
=
ret
;
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c->
rets_count
= job_count;
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}
else
{
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c->
rets
= &dummy_ret;
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c->
rets_count
= 1;
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}
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c->
current_execute
++;
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pthread_cond_broadcast
(&c->
current_job_cond
);
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thread_park_workers
(c, avctx->
thread_count
);
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return
0;
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}
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167
static
int
thread_execute2
(
AVCodecContext
*avctx,
action_func2
* func2,
void
*
arg
,
int
*
ret
,
int
job_count)
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{
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SliceThreadContext
*
c
= avctx->
internal
->
thread_ctx
;
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c->
func2
= func2;
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return
thread_execute
(avctx, NULL, arg, ret, job_count, 0);
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}
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int
ff_slice_thread_init
(
AVCodecContext
*avctx)
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{
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int
i;
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SliceThreadContext
*
c
;
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int
thread_count = avctx->
thread_count
;
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#if HAVE_W32THREADS
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w32thread_init
();
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#endif
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if
(!thread_count) {
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int
nb_cpus =
av_cpu_count
();
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if
(avctx->
height
)
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nb_cpus =
FFMIN
(nb_cpus, (avctx->
height
+15)/16);
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// use number of cores + 1 as thread count if there is more than one
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if
(nb_cpus > 1)
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thread_count = avctx->
thread_count
=
FFMIN
(nb_cpus + 1,
MAX_AUTO_THREADS
);
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else
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thread_count = avctx->
thread_count
= 1;
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}
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if
(thread_count <= 1) {
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avctx->
active_thread_type
= 0;
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return
0;
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}
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c =
av_mallocz
(
sizeof
(
SliceThreadContext
));
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if
(!c)
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return
-1;
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c->
workers
=
av_mallocz_array
(thread_count,
sizeof
(
pthread_t
));
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if
(!c->
workers
) {
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av_free
(c);
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return
-1;
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}
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avctx->
internal
->
thread_ctx
=
c
;
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c->
current_job
= 0;
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c->
job_count
= 0;
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c->
job_size
= 0;
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c->
done
= 0;
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pthread_cond_init
(&c->
current_job_cond
, NULL);
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pthread_cond_init
(&c->
last_job_cond
, NULL);
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pthread_mutex_init
(&c->
current_job_lock
, NULL);
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pthread_mutex_lock
(&c->
current_job_lock
);
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for
(i=0; i<thread_count; i++) {
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if
(
pthread_create
(&c->
workers
[i], NULL,
worker
, avctx)) {
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avctx->
thread_count
= i;
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pthread_mutex_unlock
(&c->
current_job_lock
);
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ff_thread_free
(avctx);
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return
-1;
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}
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}
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thread_park_workers
(c, thread_count);
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230
avctx->
execute
=
thread_execute
;
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avctx->
execute2
=
thread_execute2
;
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return
0;
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}
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235
void
ff_thread_report_progress2
(
AVCodecContext
*avctx,
int
field,
int
thread,
int
n
)
236
{
237
SliceThreadContext
*p = avctx->
internal
->
thread_ctx
;
238
int
*entries = p->
entries
;
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pthread_mutex_lock
(&p->
progress_mutex
[thread]);
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entries[field] +=
n
;
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pthread_cond_signal
(&p->
progress_cond
[thread]);
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pthread_mutex_unlock
(&p->
progress_mutex
[thread]);
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}
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void
ff_thread_await_progress2
(
AVCodecContext
*avctx,
int
field,
int
thread,
int
shift
)
247
{
248
SliceThreadContext
*p = avctx->
internal
->
thread_ctx
;
249
int
*entries = p->
entries
;
250
251
if
(!entries || !field)
return
;
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253
thread = thread ? thread - 1 : p->
thread_count
- 1;
254
255
pthread_mutex_lock
(&p->
progress_mutex
[thread]);
256
while
((entries[field - 1] - entries[field]) < shift){
257
pthread_cond_wait
(&p->
progress_cond
[thread], &p->
progress_mutex
[thread]);
258
}
259
pthread_mutex_unlock
(&p->
progress_mutex
[thread]);
260
}
261
262
int
ff_alloc_entries
(
AVCodecContext
*avctx,
int
count
)
263
{
264
int
i;
265
266
if
(avctx->
active_thread_type
&
FF_THREAD_SLICE
) {
267
SliceThreadContext
*p = avctx->
internal
->
thread_ctx
;
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p->
thread_count
= avctx->
thread_count
;
269
p->
entries
=
av_mallocz_array
(count,
sizeof
(
int
));
270
271
if
(!p->
entries
) {
272
return
AVERROR
(ENOMEM);
273
}
274
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p->
entries_count
=
count
;
276
p->
progress_mutex
=
av_malloc_array
(p->
thread_count
,
sizeof
(
pthread_mutex_t
));
277
p->
progress_cond
=
av_malloc_array
(p->
thread_count
,
sizeof
(
pthread_cond_t
));
278
279
for
(i = 0; i < p->
thread_count
; i++) {
280
pthread_mutex_init
(&p->
progress_mutex
[i], NULL);
281
pthread_cond_init
(&p->
progress_cond
[i], NULL);
282
}
283
}
284
285
return
0;
286
}
287
288
void
ff_reset_entries
(
AVCodecContext
*avctx)
289
{
290
SliceThreadContext
*p = avctx->
internal
->
thread_ctx
;
291
memset(p->
entries
, 0, p->
entries_count
*
sizeof
(
int
));
292
}
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