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/*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef FFTOOLS_FFMPEG_H
#define FFTOOLS_FFMPEG_H
#include "config.h"
#include <stdatomic.h>
#include <stdint.h>
#include <stdio.h>
#include <signal.h>
#include "cmdutils.h"
#include "ffmpeg_sched.h"
fftools/ffmpeg: rework -shortest implementation The -shortest option (which finishes the output file at the time the shortest stream ends) is currently implemented by faking the -t option when an output stream ends. This approach is fragile, since it depends on the frames/packets being processed in a specific order. E.g. there are currently some situations in which the output file length will depend unpredictably on unrelated factors like encoder delay. More importantly, the present work aiming at splitting various ffmpeg components into different threads will make this approach completely unworkable, since the frames/packets will arrive in effectively random order. This commit introduces a "sync queue", which is essentially a collection of FIFOs, one per stream. Frames/packets are submitted to these FIFOs and are then released for further processing (encoding or muxing) when it is ensured that the frame in question will not cause its stream to get ahead of the other streams (the logic is similar to libavformat's interleaving queue). These sync queues are then used for encoding and/or muxing when the -shortest option is specified. A new option – -shortest_buf_duration – controls the maximum number of queued packets, to avoid runaway memory usage. This commit changes the results of the following tests: - copy-shortest[12]: the last audio frame is now gone. This is correct, since it actually outlasts the last video frame. - shortest-sub: the video packets following the last subtitle packet are now gone. This is also correct.
3 years ago
#include "sync_queue.h"
#include "libavformat/avformat.h"
#include "libavformat/avio.h"
#include "libavcodec/avcodec.h"
#include "libavcodec/bsf.h"
#include "libavfilter/avfilter.h"
#include "libavutil/avutil.h"
#include "libavutil/dict.h"
#include "libavutil/eval.h"
#include "libavutil/fifo.h"
#include "libavutil/hwcontext.h"
#include "libavutil/pixfmt.h"
#include "libavutil/rational.h"
#include "libavutil/thread.h"
#include "libavutil/threadmessage.h"
#include "libswresample/swresample.h"
// deprecated features
#define FFMPEG_OPT_QPHIST 1
#define FFMPEG_OPT_ADRIFT_THRESHOLD 1
#define FFMPEG_OPT_ENC_TIME_BASE_NUM 1
#define FFMPEG_OPT_TOP 1
#define FFMPEG_OPT_FORCE_KF_SOURCE_NO_DROP 1
#define FFMPEG_OPT_VSYNC_DROP 1
#define FFMPEG_OPT_VSYNC 1
#define FFMPEG_OPT_FILTER_SCRIPT 1
#define FFMPEG_ERROR_RATE_EXCEEDED FFERRTAG('E', 'R', 'E', 'D')
enum VideoSyncMethod {
VSYNC_AUTO = -1,
VSYNC_PASSTHROUGH,
VSYNC_CFR,
VSYNC_VFR,
VSYNC_VSCFR,
#if FFMPEG_OPT_VSYNC_DROP
VSYNC_DROP,
#endif
};
enum EncTimeBase {
ENC_TIME_BASE_DEMUX = -1,
ENC_TIME_BASE_FILTER = -2,
};
enum HWAccelID {
HWACCEL_NONE = 0,
HWACCEL_AUTO,
HWACCEL_GENERIC,
};
enum FrameOpaque {
FRAME_OPAQUE_SUB_HEARTBEAT = 1,
FRAME_OPAQUE_EOF,
FRAME_OPAQUE_SEND_COMMAND,
};
enum PacketOpaque {
PKT_OPAQUE_SUB_HEARTBEAT = 1,
PKT_OPAQUE_FIX_SUB_DURATION,
};
enum LatencyProbe {
LATENCY_PROBE_DEMUX,
LATENCY_PROBE_DEC_PRE,
LATENCY_PROBE_DEC_POST,
LATENCY_PROBE_FILTER_PRE,
LATENCY_PROBE_FILTER_POST,
LATENCY_PROBE_ENC_PRE,
LATENCY_PROBE_ENC_POST,
LATENCY_PROBE_NB,
};
typedef struct HWDevice {
const char *name;
enum AVHWDeviceType type;
AVBufferRef *device_ref;
} HWDevice;
enum ViewSpecifierType {
// no specifier given
VIEW_SPECIFIER_TYPE_NONE = 0,
// val is view index
VIEW_SPECIFIER_TYPE_IDX,
// val is view ID
VIEW_SPECIFIER_TYPE_ID,
// specify view by its position, val is AV_STEREO3D_VIEW_LEFT/RIGHT
VIEW_SPECIFIER_TYPE_POS,
// use all views, val is ignored
VIEW_SPECIFIER_TYPE_ALL,
};
typedef struct ViewSpecifier {
enum ViewSpecifierType type;
unsigned val;
} ViewSpecifier;
/* select an input stream for an output stream */
typedef struct StreamMap {
int disabled; /* 1 is this mapping is disabled by a negative map */
int file_index;
int stream_index;
char *linklabel; /* name of an output link, for mapping lavfi outputs */
ViewSpecifier vs;
} StreamMap;
typedef struct OptionsContext {
OptionGroup *g;
/* input/output options */
int64_t start_time;
int64_t start_time_eof;
int seek_timestamp;
const char *format;
SpecifierOptList codec_names;
SpecifierOptList audio_ch_layouts;
SpecifierOptList audio_channels;
SpecifierOptList audio_sample_rate;
SpecifierOptList frame_rates;
SpecifierOptList max_frame_rates;
SpecifierOptList frame_sizes;
SpecifierOptList frame_pix_fmts;
/* input options */
int64_t input_ts_offset;
int loop;
int rate_emu;
float readrate;
double readrate_initial_burst;
int accurate_seek;
int thread_queue_size;
int input_sync_ref;
int find_stream_info;
SpecifierOptList ts_scale;
SpecifierOptList dump_attachment;
SpecifierOptList hwaccels;
SpecifierOptList hwaccel_devices;
SpecifierOptList hwaccel_output_formats;
SpecifierOptList autorotate;
SpecifierOptList apply_cropping;
/* output options */
StreamMap *stream_maps;
int nb_stream_maps;
const char **attachments;
int nb_attachments;
int chapters_input_file;
int64_t recording_time;
int64_t stop_time;
int64_t limit_filesize;
float mux_preload;
float mux_max_delay;
fftools/ffmpeg: rework -shortest implementation The -shortest option (which finishes the output file at the time the shortest stream ends) is currently implemented by faking the -t option when an output stream ends. This approach is fragile, since it depends on the frames/packets being processed in a specific order. E.g. there are currently some situations in which the output file length will depend unpredictably on unrelated factors like encoder delay. More importantly, the present work aiming at splitting various ffmpeg components into different threads will make this approach completely unworkable, since the frames/packets will arrive in effectively random order. This commit introduces a "sync queue", which is essentially a collection of FIFOs, one per stream. Frames/packets are submitted to these FIFOs and are then released for further processing (encoding or muxing) when it is ensured that the frame in question will not cause its stream to get ahead of the other streams (the logic is similar to libavformat's interleaving queue). These sync queues are then used for encoding and/or muxing when the -shortest option is specified. A new option – -shortest_buf_duration – controls the maximum number of queued packets, to avoid runaway memory usage. This commit changes the results of the following tests: - copy-shortest[12]: the last audio frame is now gone. This is correct, since it actually outlasts the last video frame. - shortest-sub: the video packets following the last subtitle packet are now gone. This is also correct.
3 years ago
float shortest_buf_duration;
int shortest;
int bitexact;
int video_disable;
int audio_disable;
int subtitle_disable;
int data_disable;
// keys are stream indices
AVDictionary *streamid;
SpecifierOptList metadata;
SpecifierOptList max_frames;
SpecifierOptList bitstream_filters;
SpecifierOptList codec_tags;
SpecifierOptList sample_fmts;
SpecifierOptList qscale;
SpecifierOptList forced_key_frames;
SpecifierOptList fps_mode;
SpecifierOptList force_fps;
SpecifierOptList frame_aspect_ratios;
SpecifierOptList display_rotations;
SpecifierOptList display_hflips;
SpecifierOptList display_vflips;
SpecifierOptList rc_overrides;
SpecifierOptList intra_matrices;
SpecifierOptList inter_matrices;
SpecifierOptList chroma_intra_matrices;
#if FFMPEG_OPT_TOP
SpecifierOptList top_field_first;
#endif
SpecifierOptList metadata_map;
SpecifierOptList presets;
SpecifierOptList copy_initial_nonkeyframes;
SpecifierOptList copy_prior_start;
SpecifierOptList filters;
#if FFMPEG_OPT_FILTER_SCRIPT
SpecifierOptList filter_scripts;
#endif
SpecifierOptList reinit_filters;
SpecifierOptList fix_sub_duration;
SpecifierOptList fix_sub_duration_heartbeat;
SpecifierOptList canvas_sizes;
SpecifierOptList pass;
SpecifierOptList passlogfiles;
SpecifierOptList max_muxing_queue_size;
SpecifierOptList muxing_queue_data_threshold;
SpecifierOptList guess_layout_max;
SpecifierOptList apad;
SpecifierOptList discard;
SpecifierOptList disposition;
SpecifierOptList program;
SpecifierOptList stream_groups;
SpecifierOptList time_bases;
SpecifierOptList enc_time_bases;
SpecifierOptList autoscale;
SpecifierOptList bits_per_raw_sample;
SpecifierOptList enc_stats_pre;
SpecifierOptList enc_stats_post;
SpecifierOptList mux_stats;
SpecifierOptList enc_stats_pre_fmt;
SpecifierOptList enc_stats_post_fmt;
SpecifierOptList mux_stats_fmt;
} OptionsContext;
enum IFilterFlags {
IFILTER_FLAG_AUTOROTATE = (1 << 0),
IFILTER_FLAG_REINIT = (1 << 1),
IFILTER_FLAG_CFR = (1 << 2),
IFILTER_FLAG_CROP = (1 << 3),
};
typedef struct InputFilterOptions {
int64_t trim_start_us;
int64_t trim_end_us;
uint8_t *name;
/* When IFILTER_FLAG_CFR is set, the stream is guaranteed to be CFR with
* this framerate.
*
* Otherwise, this is an estimate that should not be relied upon to be
* accurate */
AVRational framerate;
unsigned crop_top;
unsigned crop_bottom;
unsigned crop_left;
unsigned crop_right;
int sub2video_width;
int sub2video_height;
// a combination of IFILTER_FLAG_*
unsigned flags;
AVFrame *fallback;
} InputFilterOptions;
enum OFilterFlags {
OFILTER_FLAG_DISABLE_CONVERT = (1 << 0),
// produce 24-bit audio
OFILTER_FLAG_AUDIO_24BIT = (1 << 1),
OFILTER_FLAG_AUTOSCALE = (1 << 2),
};
typedef struct OutputFilterOptions {
// Caller-provided name for this output
char *name;
// Codec used for encoding, may be NULL
const AVCodec *enc;
int64_t trim_start_us;
int64_t trim_duration_us;
int64_t ts_offset;
/* Desired output timebase.
* Numerator can be one of EncTimeBase values, or 0 when no preference.
*/
AVRational output_tb;
AVDictionary *sws_opts;
AVDictionary *swr_opts;
const char *nb_threads;
// A combination of OFilterFlags.
unsigned flags;
int format;
int width;
int height;
enum AVColorSpace color_space;
enum AVColorRange color_range;
enum VideoSyncMethod vsync_method;
AVRational frame_rate;
AVRational max_frame_rate;
int sample_rate;
AVChannelLayout ch_layout;
const int *formats;
const int *sample_rates;
const AVChannelLayout *ch_layouts;
const AVRational *frame_rates;
const enum AVColorSpace *color_spaces;
const enum AVColorRange *color_ranges;
// for simple filtergraphs only, view specifier passed
// along to the decoder
const ViewSpecifier *vs;
} OutputFilterOptions;
typedef struct InputFilter {
struct FilterGraph *graph;
uint8_t *name;
} InputFilter;
typedef struct OutputFilter {
const AVClass *class;
struct FilterGraph *graph;
uint8_t *name;
/* for filters that are not yet bound to an output stream,
* this stores the output linklabel, if any */
int bound;
uint8_t *linklabel;
char *apad;
enum AVMediaType type;
atomic_uint_least64_t nb_frames_dup;
atomic_uint_least64_t nb_frames_drop;
} OutputFilter;
typedef struct FilterGraph {
const AVClass *class;
int index;
InputFilter **inputs;
int nb_inputs;
OutputFilter **outputs;
int nb_outputs;
} FilterGraph;
enum DecoderFlags {
DECODER_FLAG_FIX_SUB_DURATION = (1 << 0),
// input timestamps are unreliable (guessed by demuxer)
DECODER_FLAG_TS_UNRELIABLE = (1 << 1),
// decoder should override timestamps by fixed framerate
// from DecoderOpts.framerate
DECODER_FLAG_FRAMERATE_FORCED = (1 << 2),
#if FFMPEG_OPT_TOP
DECODER_FLAG_TOP_FIELD_FIRST = (1 << 3),
#endif
DECODER_FLAG_SEND_END_TS = (1 << 4),
// force bitexact decoding
DECODER_FLAG_BITEXACT = (1 << 5),
};
typedef struct DecoderOpts {
int flags;
char *name;
void *log_parent;
const AVCodec *codec;
const AVCodecParameters *par;
/* hwaccel options */
enum HWAccelID hwaccel_id;
enum AVHWDeviceType hwaccel_device_type;
char *hwaccel_device;
enum AVPixelFormat hwaccel_output_format;
AVRational time_base;
// Either forced (when DECODER_FLAG_FRAMERATE_FORCED is set) or
// estimated (otherwise) video framerate.
AVRational framerate;
} DecoderOpts;
typedef struct Decoder {
const AVClass *class;
enum AVMediaType type;
const uint8_t *subtitle_header;
int subtitle_header_size;
// number of frames/samples retrieved from the decoder
uint64_t frames_decoded;
uint64_t samples_decoded;
uint64_t decode_errors;
} Decoder;
typedef struct InputStream {
const AVClass *class;
/* parent source */
struct InputFile *file;
int index;
AVStream *st;
int user_set_discard;
/**
* Codec parameters - to be used by the decoding/streamcopy code.
* st->codecpar should not be accessed, because it may be modified
* concurrently by the demuxing thread.
*/
AVCodecParameters *par;
Decoder *decoder;
const AVCodec *dec;
/* framerate forced with -r */
AVRational framerate;
#if FFMPEG_OPT_TOP
int top_field_first;
#endif
int fix_sub_duration;
/* decoded data from this stream goes into all those filters
* currently video and audio only */
InputFilter **filters;
int nb_filters;
} InputStream;
typedef struct InputFile {
const AVClass *class;
int index;
AVFormatContext *ctx;
int64_t input_ts_offset;
int input_sync_ref;
/**
* Effective format start time based on enabled streams.
*/
int64_t start_time_effective;
int64_t ts_offset;
/* user-specified start time in AV_TIME_BASE or AV_NOPTS_VALUE */
int64_t start_time;
/* streams that ffmpeg is aware of;
* there may be extra streams in ctx that are not mapped to an InputStream
* if new streams appear dynamically during demuxing */
InputStream **streams;
int nb_streams;
} InputFile;
enum forced_keyframes_const {
FKF_N,
FKF_N_FORCED,
FKF_PREV_FORCED_N,
FKF_PREV_FORCED_T,
FKF_T,
FKF_NB
};
#define ABORT_ON_FLAG_EMPTY_OUTPUT (1 << 0)
#define ABORT_ON_FLAG_EMPTY_OUTPUT_STREAM (1 << 1)
enum EncStatsType {
ENC_STATS_LITERAL = 0,
ENC_STATS_FILE_IDX,
ENC_STATS_STREAM_IDX,
ENC_STATS_FRAME_NUM,
ENC_STATS_FRAME_NUM_IN,
ENC_STATS_TIMEBASE,
ENC_STATS_TIMEBASE_IN,
ENC_STATS_PTS,
ENC_STATS_PTS_TIME,
ENC_STATS_PTS_IN,
ENC_STATS_PTS_TIME_IN,
ENC_STATS_DTS,
ENC_STATS_DTS_TIME,
ENC_STATS_SAMPLE_NUM,
ENC_STATS_NB_SAMPLES,
ENC_STATS_PKT_SIZE,
ENC_STATS_BITRATE,
ENC_STATS_AVG_BITRATE,
ENC_STATS_KEYFRAME,
};
typedef struct EncStatsComponent {
enum EncStatsType type;
uint8_t *str;
size_t str_len;
} EncStatsComponent;
typedef struct EncStats {
EncStatsComponent *components;
int nb_components;
AVIOContext *io;
pthread_mutex_t lock;
int lock_initialized;
} EncStats;
enum {
KF_FORCE_SOURCE = 1,
#if FFMPEG_OPT_FORCE_KF_SOURCE_NO_DROP
KF_FORCE_SOURCE_NO_DROP = 2,
#endif
};
typedef struct KeyframeForceCtx {
int type;
int64_t ref_pts;
// timestamps of the forced keyframes, in AV_TIME_BASE_Q
int64_t *pts;
int nb_pts;
int index;
AVExpr *pexpr;
double expr_const_values[FKF_NB];
int dropped_keyframe;
} KeyframeForceCtx;
typedef struct Encoder {
const AVClass *class;
AVCodecContext *enc_ctx;
// number of frames/samples sent to the encoder
uint64_t frames_encoded;
uint64_t samples_encoded;
} Encoder;
enum CroppingType {
CROP_DISABLED = 0,
CROP_ALL,
CROP_CODEC,
CROP_CONTAINER,
};
typedef struct OutputStream {
const AVClass *class;
enum AVMediaType type;
/* parent muxer */
struct OutputFile *file;
int index; /* stream index in the output file */
/* input stream that is the source for this output stream;
* may be NULL for streams with no well-defined source, e.g.
* attachments or outputs from complex filtergraphs */
InputStream *ist;
AVStream *st; /* stream in the output file */
Encoder *enc;
/* video only */
#if FFMPEG_OPT_TOP
int top_field_first;
#endif
int bitexact;
int bits_per_raw_sample;
AVRational frame_aspect_ratio;
KeyframeForceCtx kf;
const char *logfile_prefix;
FILE *logfile;
// simple filtergraph feeding this stream, if any
FilterGraph *fg_simple;
OutputFilter *filter;
char *attachment_filename;
/* stats */
// number of packets send to the muxer
atomic_uint_least64_t packets_written;
/* packet quality factor */
atomic_int quality;
EncStats enc_stats_pre;
EncStats enc_stats_post;
/*
* bool on whether this stream should be utilized for splitting
* subtitles utilizing fix_sub_duration at random access points.
*/
unsigned int fix_sub_duration_heartbeat;
} OutputStream;
typedef struct OutputFile {
const AVClass *class;
int index;
const char *url;
OutputStream **streams;
int nb_streams;
int64_t recording_time; ///< desired length of the resulting file in microseconds == AV_TIME_BASE units
int64_t start_time; ///< start time in microseconds == AV_TIME_BASE units
int bitexact;
} OutputFile;
// optionally attached as opaque_ref to decoded AVFrames
typedef struct FrameData {
// demuxer-estimated dts in AV_TIME_BASE_Q,
// to be used when real dts is missing
int64_t dts_est;
// properties that come from the decoder
struct {
uint64_t frame_num;
int64_t pts;
AVRational tb;
} dec;
AVRational frame_rate_filter;
int bits_per_raw_sample;
int64_t wallclock[LATENCY_PROBE_NB];
AVCodecParameters *par_enc;
} FrameData;
extern InputFile **input_files;
extern int nb_input_files;
extern OutputFile **output_files;
extern int nb_output_files;
// complex filtergraphs
extern FilterGraph **filtergraphs;
extern int nb_filtergraphs;
// standalone decoders (not tied to demuxed streams)
extern Decoder **decoders;
extern int nb_decoders;
extern char *vstats_filename;
extern float dts_delta_threshold;
extern float dts_error_threshold;
extern enum VideoSyncMethod video_sync_method;
extern float frame_drop_threshold;
extern int do_benchmark;
extern int do_benchmark_all;
extern int do_hex_dump;
extern int do_pkt_dump;
extern int copy_ts;
extern int start_at_zero;
extern int copy_tb;
extern int debug_ts;
extern int exit_on_error;
extern int abort_on_flags;
extern int print_stats;
extern int64_t stats_period;
extern int stdin_interaction;
extern AVIOContext *progress_avio;
extern float max_error_rate;
extern char *filter_nbthreads;
extern int filter_complex_nbthreads;
extern int vstats_version;
extern int auto_conversion_filters;
extern const AVIOInterruptCB int_cb;
extern const OptionDef options[];
extern HWDevice *filter_hw_device;
extern atomic_uint nb_output_dumped;
extern int ignore_unknown_streams;
extern int copy_unknown_streams;
extern int recast_media;
extern FILE *vstats_file;
void term_init(void);
void term_exit(void);
void show_usage(void);
int check_avoptions_used(const AVDictionary *opts, const AVDictionary *opts_used,
void *logctx, int decode);
int assert_file_overwrite(const char *filename);
int find_codec(void *logctx, const char *name,
enum AVMediaType type, int encoder, const AVCodec **codec);
int parse_and_set_vsync(const char *arg, int *vsync_var, int file_idx, int st_idx, int is_global);
int filtergraph_is_simple(const FilterGraph *fg);
int fg_create_simple(FilterGraph **pfg,
InputStream *ist,
char *graph_desc,
Scheduler *sch, unsigned sched_idx_enc,
const OutputFilterOptions *opts);
int fg_finalise_bindings(void);
/**
* Get our axiliary frame data attached to the frame, allocating it
* if needed.
*/
FrameData *frame_data(AVFrame *frame);
const FrameData *frame_data_c(AVFrame *frame);
FrameData *packet_data (AVPacket *pkt);
const FrameData *packet_data_c(AVPacket *pkt);
int ofilter_bind_enc(OutputFilter *ofilter,
unsigned sched_idx_enc,
const OutputFilterOptions *opts);
/**
* Create a new filtergraph in the global filtergraph list.
*
* @param graph_desc Graph description; an av_malloc()ed string, filtergraph
* takes ownership of it.
*/
int fg_create(FilterGraph **pfg, char *graph_desc, Scheduler *sch);
void fg_free(FilterGraph **pfg);
void fg_send_command(FilterGraph *fg, double time, const char *target,
const char *command, const char *arg, int all_filters);
int ffmpeg_parse_options(int argc, char **argv, Scheduler *sch);
void enc_stats_write(OutputStream *ost, EncStats *es,
const AVFrame *frame, const AVPacket *pkt,
uint64_t frame_num);
HWDevice *hw_device_get_by_name(const char *name);
HWDevice *hw_device_get_by_type(enum AVHWDeviceType type);
int hw_device_init_from_string(const char *arg, HWDevice **dev);
int hw_device_init_from_type(enum AVHWDeviceType type,
const char *device,
HWDevice **dev_out);
void hw_device_free_all(void);
/**
* Get a hardware device to be used with this filtergraph.
* The returned reference is owned by the callee, the caller
* must ref it explicitly for long-term use.
*/
AVBufferRef *hw_device_for_filter(void);
/**
* Create a standalone decoder.
*/
int dec_create(const OptionsContext *o, const char *arg, Scheduler *sch);
/**
* @param dec_opts Dictionary filled with decoder options. Its ownership
* is transferred to the decoder.
* @param param_out If non-NULL, media properties after opening the decoder
* are written here.
*
* @retval ">=0" non-negative scheduler index on success
* @retval "<0" an error code on failure
*/
int dec_init(Decoder **pdec, Scheduler *sch,
AVDictionary **dec_opts, const DecoderOpts *o,
AVFrame *param_out);
void dec_free(Decoder **pdec);
/*
* Called by filters to connect decoder's output to given filtergraph input.
*
* @param opts filtergraph input options, to be filled by this function
*/
int dec_filter_add(Decoder *dec, InputFilter *ifilter, InputFilterOptions *opts,
const ViewSpecifier *vs, SchedulerNode *src);
/*
* For multiview video, request output of the view(s) determined by vs.
* May be called multiple times.
*
* If this function is never called, only the base view is output. If it is
* called at least once, only the views requested are output.
*
* @param src scheduler node from which the frames corresponding vs
* will originate
*/
int dec_request_view(Decoder *dec, const ViewSpecifier *vs,
SchedulerNode *src);
int enc_alloc(Encoder **penc, const AVCodec *codec,
Scheduler *sch, unsigned sch_idx, void *log_parent);
void enc_free(Encoder **penc);
int enc_open(void *opaque, const AVFrame *frame);
int enc_loopback(Encoder *enc);
/*
* Initialize muxing state for the given stream, should be called
* after the codec/streamcopy setup has been done.
*
* Open the muxer once all the streams have been initialized.
*/
int of_stream_init(OutputFile *of, OutputStream *ost,
const AVCodecContext *enc_ctx);
int of_write_trailer(OutputFile *of);
int of_open(const OptionsContext *o, const char *filename, Scheduler *sch);
void of_free(OutputFile **pof);
void of_enc_stats_close(void);
int64_t of_filesize(OutputFile *of);
int ifile_open(const OptionsContext *o, const char *filename, Scheduler *sch);
void ifile_close(InputFile **f);
int ist_use(InputStream *ist, int decoding_needed,
const ViewSpecifier *vs, SchedulerNode *src);
int ist_filter_add(InputStream *ist, InputFilter *ifilter, int is_simple,
const ViewSpecifier *vs, InputFilterOptions *opts,
SchedulerNode *src);
/**
* Find an unused input stream of given type.
*/
InputStream *ist_find_unused(enum AVMediaType type);
/* iterate over all input streams in all input files;
* pass NULL to start iteration */
InputStream *ist_iter(InputStream *prev);
/* iterate over all output streams in all output files;
* pass NULL to start iteration */
OutputStream *ost_iter(OutputStream *prev);
void update_benchmark(const char *fmt, ...);
const char *opt_match_per_type_str(const SpecifierOptList *sol,
char mediatype);
void opt_match_per_stream_str(void *logctx, const SpecifierOptList *sol,
AVFormatContext *fc, AVStream *st, const char **out);
void opt_match_per_stream_int(void *logctx, const SpecifierOptList *sol,
AVFormatContext *fc, AVStream *st, int *out);
void opt_match_per_stream_int64(void *logctx, const SpecifierOptList *sol,
AVFormatContext *fc, AVStream *st, int64_t *out);
void opt_match_per_stream_dbl(void *logctx, const SpecifierOptList *sol,
AVFormatContext *fc, AVStream *st, double *out);
int view_specifier_parse(const char **pspec, ViewSpecifier *vs);
int muxer_thread(void *arg);
int encoder_thread(void *arg);
#endif /* FFTOOLS_FFMPEG_H */