mirror of
https://github.com/FFmpeg/FFmpeg.git
synced 2024-11-21 10:55:51 +02:00
34cbda3ee1
Mistakenly reintroduced in 4740fea7dd
.
449 lines
13 KiB
C
449 lines
13 KiB
C
/*
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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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#include <stdint.h>
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#include <string.h>
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#include "libavutil/avassert.h"
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#include "libavutil/error.h"
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#include "libavutil/fifo.h"
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#include "libavutil/mathematics.h"
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#include "libavutil/mem.h"
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#include "objpool.h"
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#include "sync_queue.h"
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typedef struct SyncQueueStream {
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AVFifo *fifo;
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AVRational tb;
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/* stream head: largest timestamp seen */
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int64_t head_ts;
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int limiting;
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/* no more frames will be sent for this stream */
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int finished;
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uint64_t frames_sent;
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uint64_t frames_max;
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} SyncQueueStream;
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struct SyncQueue {
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enum SyncQueueType type;
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/* no more frames will be sent for any stream */
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int finished;
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/* sync head: the stream with the _smallest_ head timestamp
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* this stream determines which frames can be output */
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int head_stream;
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/* the finished stream with the smallest finish timestamp or -1 */
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int head_finished_stream;
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// maximum buffering duration in microseconds
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int64_t buf_size_us;
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SyncQueueStream *streams;
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unsigned int nb_streams;
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// pool of preallocated frames to avoid constant allocations
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ObjPool *pool;
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};
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static void frame_move(const SyncQueue *sq, SyncQueueFrame dst,
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SyncQueueFrame src)
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{
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if (sq->type == SYNC_QUEUE_PACKETS)
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av_packet_move_ref(dst.p, src.p);
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else
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av_frame_move_ref(dst.f, src.f);
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}
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static int64_t frame_ts(const SyncQueue *sq, SyncQueueFrame frame)
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{
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return (sq->type == SYNC_QUEUE_PACKETS) ?
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frame.p->pts + frame.p->duration :
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frame.f->pts + frame.f->duration;
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}
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static int frame_null(const SyncQueue *sq, SyncQueueFrame frame)
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{
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return (sq->type == SYNC_QUEUE_PACKETS) ? (frame.p == NULL) : (frame.f == NULL);
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}
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static void finish_stream(SyncQueue *sq, unsigned int stream_idx)
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{
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SyncQueueStream *st = &sq->streams[stream_idx];
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st->finished = 1;
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if (st->limiting && st->head_ts != AV_NOPTS_VALUE) {
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/* check if this stream is the new finished head */
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if (sq->head_finished_stream < 0 ||
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av_compare_ts(st->head_ts, st->tb,
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sq->streams[sq->head_finished_stream].head_ts,
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sq->streams[sq->head_finished_stream].tb) < 0) {
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sq->head_finished_stream = stream_idx;
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}
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/* mark as finished all streams that should no longer receive new frames,
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* due to them being ahead of some finished stream */
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st = &sq->streams[sq->head_finished_stream];
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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SyncQueueStream *st1 = &sq->streams[i];
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if (st != st1 && st1->head_ts != AV_NOPTS_VALUE &&
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av_compare_ts(st->head_ts, st->tb, st1->head_ts, st1->tb) <= 0)
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st1->finished = 1;
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}
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}
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/* mark the whole queue as finished if all streams are finished */
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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if (!sq->streams[i].finished)
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return;
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}
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sq->finished = 1;
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}
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static void queue_head_update(SyncQueue *sq)
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{
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if (sq->head_stream < 0) {
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/* wait for one timestamp in each stream before determining
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* the queue head */
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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SyncQueueStream *st = &sq->streams[i];
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if (st->limiting && st->head_ts == AV_NOPTS_VALUE)
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return;
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}
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// placeholder value, correct one will be found below
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sq->head_stream = 0;
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}
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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SyncQueueStream *st_head = &sq->streams[sq->head_stream];
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SyncQueueStream *st_other = &sq->streams[i];
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if (st_other->limiting && st_other->head_ts != AV_NOPTS_VALUE &&
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av_compare_ts(st_other->head_ts, st_other->tb,
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st_head->head_ts, st_head->tb) < 0)
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sq->head_stream = i;
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}
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}
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/* update this stream's head timestamp */
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static void stream_update_ts(SyncQueue *sq, unsigned int stream_idx, int64_t ts)
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{
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SyncQueueStream *st = &sq->streams[stream_idx];
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if (ts == AV_NOPTS_VALUE ||
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(st->head_ts != AV_NOPTS_VALUE && st->head_ts >= ts))
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return;
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st->head_ts = ts;
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/* if this stream is now ahead of some finished stream, then
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* this stream is also finished */
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if (sq->head_finished_stream >= 0 &&
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av_compare_ts(sq->streams[sq->head_finished_stream].head_ts,
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sq->streams[sq->head_finished_stream].tb,
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ts, st->tb) <= 0)
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finish_stream(sq, stream_idx);
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/* update the overall head timestamp if it could have changed */
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if (st->limiting &&
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(sq->head_stream < 0 || sq->head_stream == stream_idx))
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queue_head_update(sq);
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}
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/* If the queue for the given stream (or all streams when stream_idx=-1)
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* is overflowing, trigger a fake heartbeat on lagging streams.
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*
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* @return 1 if heartbeat triggered, 0 otherwise
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*/
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static int overflow_heartbeat(SyncQueue *sq, int stream_idx)
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{
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SyncQueueStream *st;
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SyncQueueFrame frame;
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int64_t tail_ts = AV_NOPTS_VALUE;
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/* if no stream specified, pick the one that is most ahead */
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if (stream_idx < 0) {
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int64_t ts = AV_NOPTS_VALUE;
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for (int i = 0; i < sq->nb_streams; i++) {
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st = &sq->streams[i];
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if (st->head_ts != AV_NOPTS_VALUE &&
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(ts == AV_NOPTS_VALUE ||
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av_compare_ts(ts, sq->streams[stream_idx].tb,
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st->head_ts, st->tb) < 0)) {
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ts = st->head_ts;
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stream_idx = i;
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}
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}
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/* no stream has a timestamp yet -> nothing to do */
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if (stream_idx < 0)
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return 0;
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}
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st = &sq->streams[stream_idx];
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/* get the chosen stream's tail timestamp */
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for (size_t i = 0; tail_ts == AV_NOPTS_VALUE &&
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av_fifo_peek(st->fifo, &frame, 1, i) >= 0; i++)
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tail_ts = frame_ts(sq, frame);
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/* overflow triggers when the tail is over specified duration behind the head */
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if (tail_ts == AV_NOPTS_VALUE || tail_ts >= st->head_ts ||
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av_rescale_q(st->head_ts - tail_ts, st->tb, AV_TIME_BASE_Q) < sq->buf_size_us)
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return 0;
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/* signal a fake timestamp for all streams that prevent tail_ts from being output */
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tail_ts++;
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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SyncQueueStream *st1 = &sq->streams[i];
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int64_t ts;
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if (st == st1 || st1->finished ||
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(st1->head_ts != AV_NOPTS_VALUE &&
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av_compare_ts(tail_ts, st->tb, st1->head_ts, st1->tb) <= 0))
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continue;
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ts = av_rescale_q(tail_ts, st->tb, st1->tb);
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if (st1->head_ts != AV_NOPTS_VALUE)
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ts = FFMAX(st1->head_ts + 1, ts);
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stream_update_ts(sq, i, ts);
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}
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return 1;
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}
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int sq_send(SyncQueue *sq, unsigned int stream_idx, SyncQueueFrame frame)
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{
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SyncQueueStream *st;
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SyncQueueFrame dst;
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int64_t ts;
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int ret;
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av_assert0(stream_idx < sq->nb_streams);
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st = &sq->streams[stream_idx];
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av_assert0(st->tb.num > 0 && st->tb.den > 0);
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if (frame_null(sq, frame)) {
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finish_stream(sq, stream_idx);
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return 0;
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}
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if (st->finished)
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return AVERROR_EOF;
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ret = objpool_get(sq->pool, (void**)&dst);
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if (ret < 0)
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return ret;
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frame_move(sq, dst, frame);
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ts = frame_ts(sq, dst);
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ret = av_fifo_write(st->fifo, &dst, 1);
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if (ret < 0) {
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frame_move(sq, frame, dst);
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objpool_release(sq->pool, (void**)&dst);
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return ret;
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}
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stream_update_ts(sq, stream_idx, ts);
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st->frames_sent++;
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if (st->frames_sent >= st->frames_max)
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finish_stream(sq, stream_idx);
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return 0;
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}
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static int receive_for_stream(SyncQueue *sq, unsigned int stream_idx,
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SyncQueueFrame frame)
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{
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SyncQueueStream *st_head = sq->head_stream >= 0 ?
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&sq->streams[sq->head_stream] : NULL;
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SyncQueueStream *st;
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av_assert0(stream_idx < sq->nb_streams);
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st = &sq->streams[stream_idx];
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if (av_fifo_can_read(st->fifo)) {
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SyncQueueFrame peek;
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int64_t ts;
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int cmp = 1;
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av_fifo_peek(st->fifo, &peek, 1, 0);
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ts = frame_ts(sq, peek);
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/* check if this stream's tail timestamp does not overtake
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* the overall queue head */
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if (ts != AV_NOPTS_VALUE && st_head)
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cmp = av_compare_ts(ts, st->tb, st_head->head_ts, st_head->tb);
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/* We can release frames that do not end after the queue head.
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* Frames with no timestamps are just passed through with no conditions.
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*/
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if (cmp <= 0 || ts == AV_NOPTS_VALUE) {
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frame_move(sq, frame, peek);
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objpool_release(sq->pool, (void**)&peek);
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av_fifo_drain2(st->fifo, 1);
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return 0;
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}
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}
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return (sq->finished || (st->finished && !av_fifo_can_read(st->fifo))) ?
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AVERROR_EOF : AVERROR(EAGAIN);
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}
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static int receive_internal(SyncQueue *sq, int stream_idx, SyncQueueFrame frame)
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{
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int nb_eof = 0;
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int ret;
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/* read a frame for a specific stream */
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if (stream_idx >= 0) {
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ret = receive_for_stream(sq, stream_idx, frame);
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return (ret < 0) ? ret : stream_idx;
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}
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/* read a frame for any stream with available output */
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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ret = receive_for_stream(sq, i, frame);
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if (ret == AVERROR_EOF || ret == AVERROR(EAGAIN)) {
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nb_eof += (ret == AVERROR_EOF);
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continue;
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}
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return (ret < 0) ? ret : i;
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}
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return (nb_eof == sq->nb_streams) ? AVERROR_EOF : AVERROR(EAGAIN);
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}
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int sq_receive(SyncQueue *sq, int stream_idx, SyncQueueFrame frame)
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{
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int ret = receive_internal(sq, stream_idx, frame);
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/* try again if the queue overflowed and triggered a fake heartbeat
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* for lagging streams */
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if (ret == AVERROR(EAGAIN) && overflow_heartbeat(sq, stream_idx))
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ret = receive_internal(sq, stream_idx, frame);
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return ret;
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}
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int sq_add_stream(SyncQueue *sq, int limiting)
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{
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SyncQueueStream *tmp, *st;
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tmp = av_realloc_array(sq->streams, sq->nb_streams + 1, sizeof(*sq->streams));
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if (!tmp)
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return AVERROR(ENOMEM);
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sq->streams = tmp;
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st = &sq->streams[sq->nb_streams];
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memset(st, 0, sizeof(*st));
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st->fifo = av_fifo_alloc2(1, sizeof(SyncQueueFrame), AV_FIFO_FLAG_AUTO_GROW);
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if (!st->fifo)
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return AVERROR(ENOMEM);
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/* we set a valid default, so that a pathological stream that never
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* receives even a real timebase (and no frames) won't stall all other
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* streams forever; cf. overflow_heartbeat() */
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st->tb = (AVRational){ 1, 1 };
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st->head_ts = AV_NOPTS_VALUE;
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st->frames_max = UINT64_MAX;
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st->limiting = limiting;
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return sq->nb_streams++;
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}
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void sq_set_tb(SyncQueue *sq, unsigned int stream_idx, AVRational tb)
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{
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SyncQueueStream *st;
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av_assert0(stream_idx < sq->nb_streams);
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st = &sq->streams[stream_idx];
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av_assert0(!av_fifo_can_read(st->fifo));
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if (st->head_ts != AV_NOPTS_VALUE)
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st->head_ts = av_rescale_q(st->head_ts, st->tb, tb);
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st->tb = tb;
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}
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void sq_limit_frames(SyncQueue *sq, unsigned int stream_idx, uint64_t frames)
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{
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SyncQueueStream *st;
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av_assert0(stream_idx < sq->nb_streams);
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st = &sq->streams[stream_idx];
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st->frames_max = frames;
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if (st->frames_sent >= st->frames_max)
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finish_stream(sq, stream_idx);
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}
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SyncQueue *sq_alloc(enum SyncQueueType type, int64_t buf_size_us)
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{
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SyncQueue *sq = av_mallocz(sizeof(*sq));
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if (!sq)
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return NULL;
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sq->type = type;
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sq->buf_size_us = buf_size_us;
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sq->head_stream = -1;
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sq->head_finished_stream = -1;
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sq->pool = (type == SYNC_QUEUE_PACKETS) ? objpool_alloc_packets() :
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objpool_alloc_frames();
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if (!sq->pool) {
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av_freep(&sq);
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return NULL;
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}
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return sq;
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}
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void sq_free(SyncQueue **psq)
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{
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SyncQueue *sq = *psq;
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if (!sq)
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return;
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for (unsigned int i = 0; i < sq->nb_streams; i++) {
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SyncQueueFrame frame;
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while (av_fifo_read(sq->streams[i].fifo, &frame, 1) >= 0)
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objpool_release(sq->pool, (void**)&frame);
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av_fifo_freep2(&sq->streams[i].fifo);
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}
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av_freep(&sq->streams);
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objpool_free(&sq->pool);
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av_freep(psq);
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}
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