mirror of
https://github.com/librempeg/librempeg
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4adefa501c
Signed-off-by: Paul B Mahol <onemda@gmail.com>
478 lines
20 KiB
C
478 lines
20 KiB
C
/*
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* Inter-thread scheduling/synchronization.
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* Copyright (c) 2023 Anton Khirnov
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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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#ifndef FFTOOLS_FFMPEG_SCHED_H
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#define FFTOOLS_FFMPEG_SCHED_H
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#include <stddef.h>
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#include <stdint.h>
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#include "ffmpeg_utils.h"
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/*
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* This file contains the API for the transcode scheduler.
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*
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* Overall architecture of the transcoding process involves instances of the
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* following components:
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* - demuxers, each containing any number of demuxed streams; demuxed packets
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* belonging to some stream are sent to any number of decoders (transcoding)
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* and/or muxers (streamcopy);
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* - decoders, which receive encoded packets from some demuxed stream or
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* encoder, decode them, and send decoded frames to any number of filtergraph
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* inputs (audio/video) or encoders (subtitles);
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* - filtergraphs, each containing zero or more inputs (0 in case the
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* filtergraph contains a lavfi source filter), and one or more outputs; the
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* inputs and outputs need not have matching media types;
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* each filtergraph input receives decoded frames from some decoder;
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* filtered frames from each output are sent to some encoder;
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* - encoders, which receive decoded frames from some decoder (subtitles) or
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* some filtergraph output (audio/video), encode them, and send encoded
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* packets to any number of muxed streams or decoders;
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* - muxers, each containing any number of muxed streams; each muxed stream
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* receives encoded packets from some demuxed stream (streamcopy) or some
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* encoder (transcoding); those packets are interleaved and written out by the
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* muxer.
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*
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* There must be at least one muxer instance, otherwise the transcode produces
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* no output and is meaningless. Otherwise, in a generic transcoding scenario
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* there may be arbitrary number of instances of any of the above components,
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* interconnected in various ways.
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*
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* The code tries to keep all the output streams across all the muxers in sync
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* (i.e. at the same DTS), which is accomplished by varying the rates at which
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* packets are read from different demuxers and lavfi sources. Note that the
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* degree of control we have over synchronization is fundamentally limited - if
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* some demuxed streams in the same input are interleaved at different rates
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* than that at which they are to be muxed (e.g. because an input file is badly
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* interleaved, or the user changed their speed by mismatching amounts), then
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* there will be increasing amounts of buffering followed by eventual
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* transcoding failure.
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*
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* N.B. 1: there are meaningful transcode scenarios with no demuxers, e.g.
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* - encoding and muxing output from filtergraph(s) that have no inputs;
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* - creating a file that contains nothing but attachments and/or metadata.
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*
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* N.B. 2: a filtergraph output could, in principle, feed multiple encoders, but
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* this is unnecessary because the (a)split filter provides the same
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* functionality.
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*
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* The scheduler, in the above model, is the master object that oversees and
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* facilitates the transcoding process. The basic idea is that all instances
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* of the abovementioned components communicate only with the scheduler and not
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* with each other. The scheduler is then the single place containing the
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* knowledge about the whole transcoding pipeline.
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*/
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struct AVFrame;
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struct AVPacket;
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typedef struct Scheduler Scheduler;
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enum SchedulerNodeType {
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SCH_NODE_TYPE_NONE = 0,
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SCH_NODE_TYPE_DEMUX,
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SCH_NODE_TYPE_MUX,
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SCH_NODE_TYPE_DEC,
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SCH_NODE_TYPE_ENC,
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SCH_NODE_TYPE_FILTER_IN,
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SCH_NODE_TYPE_FILTER_OUT,
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};
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typedef struct SchedulerNode {
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enum SchedulerNodeType type;
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unsigned idx;
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unsigned idx_stream;
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} SchedulerNode;
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typedef int (*SchThreadFunc)(void *arg);
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#define SCH_DSTREAM(file, stream) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_DEMUX, \
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.idx = file, .idx_stream = stream }
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#define SCH_MSTREAM(file, stream) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_MUX, \
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.idx = file, .idx_stream = stream }
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#define SCH_DEC(decoder) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_DEC, \
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.idx = decoder }
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#define SCH_ENC(encoder) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_ENC, \
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.idx = encoder }
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#define SCH_FILTER_IN(filter, input) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_FILTER_IN, \
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.idx = filter, .idx_stream = input }
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#define SCH_FILTER_OUT(filter, output) \
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(SchedulerNode){ .type = SCH_NODE_TYPE_FILTER_OUT, \
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.idx = filter, .idx_stream = output }
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Scheduler *sch_alloc(void);
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void sch_free(Scheduler **sch);
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int sch_start(Scheduler *sch);
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int sch_stop(Scheduler *sch, int64_t *finish_ts);
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/**
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* Wait until transcoding terminates or the specified timeout elapses.
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*
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* @param timeout_us Amount of time in microseconds after which this function
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* will timeout.
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* @param transcode_ts Current transcode timestamp in AV_TIME_BASE_Q, for
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* informational purposes only.
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*
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* @retval 0 waiting timed out, transcoding is not finished
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* @retval 1 transcoding is finished
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*/
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int sch_wait(Scheduler *sch, uint64_t timeout_us, int64_t *transcode_ts);
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/**
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* Add a demuxer to the scheduler.
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*
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* @param func Function executed as the demuxer task.
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* @param ctx Demuxer state; will be passed to func and used for logging.
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*
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* @retval ">=0" Index of the newly-created demuxer.
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* @retval "<0" Error code.
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*/
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int sch_add_demux(Scheduler *sch, SchThreadFunc func, void *ctx);
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/**
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* Add a demuxed stream for a previously added demuxer.
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*
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* @param demux_idx index previously returned by sch_add_demux()
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*
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* @retval ">=0" Index of the newly-created demuxed stream.
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* @retval "<0" Error code.
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*/
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int sch_add_demux_stream(Scheduler *sch, unsigned demux_idx);
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/**
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* Add a decoder to the scheduler.
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*
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* @param func Function executed as the decoder task.
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* @param ctx Decoder state; will be passed to func and used for logging.
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* @param send_end_ts The decoder will return an end timestamp after flush packets
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* are delivered to it. See documentation for
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* sch_dec_receive() for more details.
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*
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* @retval ">=0" Index of the newly-created decoder.
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* @retval "<0" Error code.
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*/
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int sch_add_dec(Scheduler *sch, SchThreadFunc func, void *ctx,
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int send_end_ts);
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/**
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* Add a filtergraph to the scheduler.
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*
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* @param nb_inputs Number of filtergraph inputs.
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* @param nb_outputs number of filtergraph outputs
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* @param func Function executed as the filtering task.
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* @param ctx Filter state; will be passed to func and used for logging.
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*
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* @retval ">=0" Index of the newly-created filtergraph.
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* @retval "<0" Error code.
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*/
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int sch_add_filtergraph(Scheduler *sch, unsigned nb_inputs, unsigned nb_outputs,
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SchThreadFunc func, void *ctx);
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/**
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* Add a muxer to the scheduler.
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*
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* Note that muxer thread startup is more complicated than for other components,
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* because
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* - muxer streams fed by audio/video encoders become initialized dynamically at
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* runtime, after those encoders receive their first frame and initialize
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* themselves, followed by calling sch_mux_stream_ready()
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* - the header can be written after all the streams for a muxer are initialized
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* - we may need to write an SDP, which must happen
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* - AFTER all the headers are written
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* - BEFORE any packets are written by any muxer
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* - with all the muxers quiescent
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* To avoid complicated muxer-thread synchronization dances, we postpone
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* starting the muxer threads until after the SDP is written. The sequence of
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* events is then as follows:
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* - After sch_mux_stream_ready() is called for all the streams in a given muxer,
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* the header for that muxer is written (care is taken that headers for
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* different muxers are not written concurrently, since they write file
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* information to stderr). If SDP is not wanted, the muxer thread then starts
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* and muxing begins.
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* - When SDP _is_ wanted, no muxer threads start until the header for the last
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* muxer is written. After that, the SDP is written, after which all the muxer
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* threads are started at once.
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*
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* In order for the above to work, the scheduler needs to be able to invoke
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* just writing the header, which is the reason the init parameter exists.
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*
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* @param func Function executed as the muxing task.
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* @param init Callback that is called to initialize the muxer and write the
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* header. Called after sch_mux_stream_ready() is called for all the
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* streams in the muxer.
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* @param ctx Muxer state; will be passed to func/init and used for logging.
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* @param sdp_auto Determines automatic SDP writing - see sch_sdp_filename().
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* @param thread_queue_size number of packets that can be buffered before
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* sending to the muxer blocks
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*
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* @retval ">=0" Index of the newly-created muxer.
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* @retval "<0" Error code.
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*/
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int sch_add_mux(Scheduler *sch, SchThreadFunc func, int (*init)(void *),
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void *ctx, int sdp_auto, unsigned thread_queue_size);
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/**
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* Add a muxed stream for a previously added muxer.
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*
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* @param mux_idx index previously returned by sch_add_mux()
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*
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* @retval ">=0" Index of the newly-created muxed stream.
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* @retval "<0" Error code.
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*/
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int sch_add_mux_stream(Scheduler *sch, unsigned mux_idx);
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/**
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* Configure limits on packet buffering performed before the muxer task is
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* started.
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*
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* @param mux_idx index previously returned by sch_add_mux()
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* @param stream_idx_idx index previously returned by sch_add_mux_stream()
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* @param data_threshold Total size of the buffered packets' data after which
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* max_packets applies.
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* @param max_packets maximum Maximum number of buffered packets after
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* data_threshold is reached.
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*/
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void sch_mux_stream_buffering(Scheduler *sch, unsigned mux_idx, unsigned stream_idx,
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size_t data_threshold, int max_packets);
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/**
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* Signal to the scheduler that the specified muxed stream is initialized and
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* ready. Muxing is started once all the streams are ready.
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*/
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int sch_mux_stream_ready(Scheduler *sch, unsigned mux_idx, unsigned stream_idx);
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/**
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* Set the file path for the SDP.
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*
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* The SDP is written when either of the following is true:
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* - this function is called at least once
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* - sdp_auto=1 is passed to EVERY call of sch_add_mux()
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*/
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int sch_sdp_filename(Scheduler *sch, const char *sdp_filename);
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/**
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* Add an encoder to the scheduler.
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*
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* @param func Function executed as the encoding task.
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* @param ctx Encoder state; will be passed to func and used for logging.
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* @param open_cb This callback, if specified, will be called when the first
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* frame is obtained for this encoder. For audio encoders with a
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* fixed frame size (which use a sync queue in the scheduler to
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* rechunk frames), it must return that frame size on success.
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* Otherwise (non-audio, variable frame size) it should return 0.
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*
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* @retval ">=0" Index of the newly-created encoder.
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* @retval "<0" Error code.
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*/
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int sch_add_enc(Scheduler *sch, SchThreadFunc func, void *ctx,
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int (*open_cb)(void *func_arg, const struct AVFrame *frame));
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/**
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* Add an pre-encoding sync queue to the scheduler.
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*
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* @param buf_size_us Sync queue buffering size, passed to sq_alloc().
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* @param logctx Logging context for the sync queue. passed to sq_alloc().
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*
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* @retval ">=0" Index of the newly-created sync queue.
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* @retval "<0" Error code.
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*/
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int sch_add_sq_enc(Scheduler *sch, uint64_t buf_size_us, void *logctx);
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int sch_sq_add_enc(Scheduler *sch, unsigned sq_idx, unsigned enc_idx,
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int limiting, uint64_t max_frames);
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int sch_connect(Scheduler *sch, SchedulerNode src, SchedulerNode dst);
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enum DemuxSendFlags {
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/**
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* Treat the packet as an EOF for SCH_NODE_TYPE_MUX destinations
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* send normally to other types.
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*/
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DEMUX_SEND_STREAMCOPY_EOF = (1 << 0),
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};
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/**
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* Called by demuxer tasks to communicate with their downstreams. The following
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* may be sent:
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* - a demuxed packet for the stream identified by pkt->stream_index;
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* - demuxer discontinuity/reset (e.g. after a seek) - this is signalled by an
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* empty packet with stream_index=-1.
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*
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* @param demux_idx demuxer index
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* @param pkt A demuxed packet to send.
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* When flushing (i.e. pkt->stream_index=-1 on entry to this
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* function), on successful return pkt->pts/pkt->time_base will be
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* set to the maximum end timestamp of any decoded audio stream, or
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* AV_NOPTS_VALUE if no decoded audio streams are present.
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*
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* @retval "non-negative value" success
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* @retval AVERROR_EOF all consumers for the stream are done
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* @retval AVERROR_EXIT all consumers are done, should terminate demuxing
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* @retval "anoter negative error code" other failure
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*/
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int sch_demux_send(Scheduler *sch, unsigned demux_idx, struct AVPacket *pkt,
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unsigned flags);
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/**
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* Called by decoder tasks to receive a packet for decoding.
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*
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* @param dec_idx decoder index
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* @param pkt Input packet will be written here on success.
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*
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* An empty packet signals that the decoder should be flushed, but
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* more packets will follow (e.g. after seeking). When a decoder
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* created with send_end_ts=1 receives a flush packet, it must write
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* the end timestamp of the stream after flushing to
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* pkt->pts/time_base on the next call to this function (if any).
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*
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* @retval "non-negative value" success
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* @retval AVERROR_EOF no more packets will arrive, should terminate decoding
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* @retval "another negative error code" other failure
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*/
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int sch_dec_receive(Scheduler *sch, unsigned dec_idx, struct AVPacket *pkt);
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/**
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* Called by decoder tasks to send a decoded frame downstream.
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*
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* @param dec_idx Decoder index previously returned by sch_add_dec().
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* @param frame Decoded frame; on success it is consumed and cleared by this
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* function
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*
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* @retval ">=0" success
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* @retval AVERROR_EOF all consumers are done, should terminate decoding
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* @retval "another negative error code" other failure
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*/
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int sch_dec_send(Scheduler *sch, unsigned dec_idx, struct AVFrame *frame);
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/**
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* Called by filtergraph tasks to obtain frames for filtering. Will wait for a
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* frame to become available and return it in frame.
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*
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* Filtergraphs that contain lavfi sources and do not currently require new
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* input frames should call this function as a means of rate control - then
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* in_idx should be set equal to nb_inputs on entry to this function.
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*
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* @param fg_idx Filtergraph index previously returned by sch_add_filtergraph().
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* @param[in,out] in_idx On input contains the index of the input on which a frame
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* is most desired. May be set to nb_inputs to signal that
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* the filtergraph does not need more input currently.
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*
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* On success, will be replaced with the input index of
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* the actually returned frame or EOF timestamp.
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*
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* @retval ">=0" Frame data or EOF timestamp was delivered into frame, in_idx
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* contains the index of the input it belongs to.
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* @retval AVERROR(EAGAIN) No frame was returned, the filtergraph should
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* resume filtering. May only be returned when
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* in_idx=nb_inputs on entry to this function.
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* @retval AVERROR_EOF No more frames will arrive, should terminate filtering.
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*/
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int sch_filter_receive(Scheduler *sch, unsigned fg_idx,
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unsigned *in_idx, struct AVFrame *frame);
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/**
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* Called by filter tasks to signal that a filter input will no longer accept input.
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*
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* @param fg_idx Filtergraph index previously returned from sch_add_filtergraph().
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* @param in_idx Index of the input to finish.
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*/
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void sch_filter_receive_finish(Scheduler *sch, unsigned fg_idx, unsigned in_idx);
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/**
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* Called by filtergraph tasks to send a filtered frame or EOF to consumers.
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*
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* @param fg_idx Filtergraph index previously returned by sch_add_filtergraph().
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* @param out_idx Index of the output which produced the frame.
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* @param frame The frame to send to consumers. When NULL, signals that no more
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* frames will be produced for the specified output. When non-NULL,
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* the frame is consumed and cleared by this function on success.
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*
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* @retval "non-negative value" success
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* @retval AVERROR_EOF all consumers are done
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* @retval "anoter negative error code" other failure
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*/
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int sch_filter_send(Scheduler *sch, unsigned fg_idx, unsigned out_idx,
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struct AVFrame *frame);
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int sch_filter_command(Scheduler *sch, unsigned fg_idx, struct AVFrame *frame);
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/**
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* Called by encoder tasks to obtain frames for encoding. Will wait for a frame
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* to become available and return it in frame.
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*
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* @param enc_idx Encoder index previously returned by sch_add_enc().
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* @param frame Newly-received frame will be stored here on success. Must be
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* clean on entrance to this function.
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*
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* @retval 0 A frame was successfully delivered into frame.
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* @retval AVERROR_EOF No more frames will be delivered, the encoder should
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* flush everything and terminate.
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*
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*/
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int sch_enc_receive(Scheduler *sch, unsigned enc_idx, struct AVFrame *frame);
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/**
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* Called by encoder tasks to send encoded packets downstream.
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*
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* @param enc_idx Encoder index previously returned by sch_add_enc().
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* @param pkt An encoded packet; it will be consumed and cleared by this
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* function on success.
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*
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* @retval 0 success
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* @retval "<0" Error code.
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*/
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int sch_enc_send (Scheduler *sch, unsigned enc_idx, struct AVPacket *pkt);
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/**
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* Called by muxer tasks to obtain packets for muxing. Will wait for a packet
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* for any muxed stream to become available and return it in pkt.
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*
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* @param mux_idx Muxer index previously returned by sch_add_mux().
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* @param pkt Newly-received packet will be stored here on success. Must be
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* clean on entrance to this function.
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*
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* @retval 0 A packet was successfully delivered into pkt. Its stream_index
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* corresponds to a stream index previously returned from
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* sch_add_mux_stream().
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* @retval AVERROR_EOF When pkt->stream_index is non-negative, this signals that
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* no more packets will be delivered for this stream index.
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* Otherwise this indicates that no more packets will be
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* delivered for any stream and the muxer should therefore
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* flush everything and terminate.
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*/
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int sch_mux_receive(Scheduler *sch, unsigned mux_idx, struct AVPacket *pkt);
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/**
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* Called by muxer tasks to signal that a stream will no longer accept input.
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*
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* @param stream_idx Stream index previously returned from sch_add_mux_stream().
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*/
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void sch_mux_receive_finish(Scheduler *sch, unsigned mux_idx, unsigned stream_idx);
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int sch_mux_sub_heartbeat_add(Scheduler *sch, unsigned mux_idx, unsigned stream_idx,
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unsigned dec_idx);
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int sch_mux_sub_heartbeat(Scheduler *sch, unsigned mux_idx, unsigned stream_idx,
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const AVPacket *pkt);
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#endif /* FFTOOLS_FFMPEG_SCHED_H */
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