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mpv/demux/demux.c

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/*
* DEMUXER v2.5
*
* This file is part of MPlayer.
*
* MPlayer is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* MPlayer 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#define DEMUX_PRIV(x) x
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "config.h"
#include "mpvcore/options.h"
#include "mpvcore/av_common.h"
#include "talloc.h"
#include "mpvcore/mp_msg.h"
#include "stream/stream.h"
#include "demux.h"
#include "stheader.h"
#include "mf.h"
#include "audio/format.h"
#include <libavcodec/avcodec.h>
#if MP_INPUT_BUFFER_PADDING_SIZE < FF_INPUT_BUFFER_PADDING_SIZE
#error MP_INPUT_BUFFER_PADDING_SIZE is too small!
#endif
// Demuxer list
EDL: add support for new EDL file format The timeline code previously added to support Matroska ordered chapters allows constructing a playback timeline from segments picked from multiple source files. Add support for a new EDL format to make this machinery available for use with file formats other than Matroska and in a manner easier to use than creating files with ordered chapters. Unlike the old -edl option which specifies an additional file with edits to apply to the video file given as the main argument, the new EDL format is used by giving only the EDL file as the file to play; that file then contains the filename(s) to use as source files where actual video segments come from. Filename paths in the EDL file are ignored. Currently the source files are only searched for in the directory of the EDL file; support for a search path option will likely be added in the future. Format of the EDL files The first line in the file must be "mplayer EDL file, version 2". The rest of the lines belong to one of these classes: 1) lines specifying source files 2) empty lines 3) lines specifying timeline segments. Lines beginning with '<' specify source files. These lines first contain an identifier used to refer to the source file later, then the filename separated by whitespace. The identifier must start with a letter. Filenames that start or end with whitespace or contain newlines are not supported. On other lines '#' characters delimit comments. Lines that contain only whitespace after comments have been removed are ignored. Timeline segments must appear in the file in chronological order. Each segment has the following information associated with it: - duration - output start time - output end time (= output start time + duration) - source id (specifies the file the content of the segment comes from) - source start time (timestamp in the source file) - source end time (= source start time + duration) The output timestamps must form a continuous timeline from 0 to the end of the last segment, such that each new segment starts from the time the previous one ends at. Source files and times may change arbitrarily between segments. The general format for lines specifying timeline segments is [output time info] source_id [source time info] source_id must be an identifier defined on a '<' line. Both the time info parts consists of zero or more of the following elements: 1) timestamp 2) -timestamp 3) +duration 4) * 5) -* , where "timestamp" and "duration" are decimal numbers (computations are done with nanosecond precision). Whitespace around "+" and "-" is optional. 1) and 2) specify start and end time of the segment on output or source side. 3) specifies duration; the semantics are the same whether this appears on output or source side. 4) and 5) are ignored on the output side (they're always implicitly assumed). On the source side 4) specifies that the segment starts where the previous segment _using this source_ ended; if there was no previous segment time 0 is used. 5) specifies that the segment ends where the next segment using this source starts. Redundant information may be omitted. It will be filled in using the following rules: - output start for first segment is 0 - two of [output start, output end, duration] imply third - two of [source start, source end, duration] imply third - output start = output end of previous segment - output end = output start of next segment - if "*", source start = source end of earlier segment - if "-*", source end = source start of a later segment As a special rule, a last zero-duration segment without a source specification may appear. This will produce no corresponding segment in the resulting timeline, but can be used as syntax to specify the end time of the timeline (with effect equal to adding -time on the previous line). Examples: ----- begin ----- mplayer EDL file, version 2 < id1 filename 0 id1 123 100 id1 456 200 id1 789 300 ----- end ----- All segments come from the source file "filename". First segment (output time 0-100) comes from time 123-223, second 456-556, third 789-889. ----- begin ----- mplayer EDL file, version 2 < f filename f 60-120 f 600-660 f 30- 90 ----- end ----- Play first seconds 60-120 from the file, then 600-660, then 30-90. ----- begin ----- mplayer EDL file, version 2 < id1 filename1 < id2 filename2 +10 id1 * +10 id2 * +10 id1 * +10 id2 * +10 id1 * +10 id2 * ----- end ----- This plays time 0-10 from filename1, then 0-10 from filename1, then 10-20 from filename1, then 10-20 from filename2, then 20-30 from filename1, then 20-30 from filename2. ----- begin ----- mplayer EDL file, version 2 < t1 filename1 < t2 filename2 t1 * +2 # segment 1 +2 t2 100 # segment 2 t1 * # segment 3 t2 *-* # segment 4 t1 3 -* # segment 5 +0.111111 t2 102.5 # segment 6 7.37 t1 5 +1 # segment 7 ----- end ----- This rather pathological example illustrates the rules for filling in implied data. All the values can be determined by recursively applying the rules given above, and the full end result is this: +2 0-2 t1 0-2 # segment 1 +2 2-4 t2 100-102 # segment 2 +0.758889 4-4.758889 t1 2-2.758889 # segment 3 +0.5 4.4758889-5.258889 t2 102-102.5 # segment 4 +2 5.258889-7.258889 t1 3-5 # segment 5 +0.111111 7.258889-7.37 t2 102.5-102.611111 # segment 6 +1 7.37-8.37 t1 5-6 # segment 7
2011-02-14 11:05:35 +00:00
extern const struct demuxer_desc demuxer_desc_edl;
extern const struct demuxer_desc demuxer_desc_cue;
extern const demuxer_desc_t demuxer_desc_rawaudio;
extern const demuxer_desc_t demuxer_desc_rawvideo;
extern const demuxer_desc_t demuxer_desc_tv;
extern const demuxer_desc_t demuxer_desc_mf;
extern const demuxer_desc_t demuxer_desc_matroska;
extern const demuxer_desc_t demuxer_desc_lavf;
extern const demuxer_desc_t demuxer_desc_libass;
extern const demuxer_desc_t demuxer_desc_subreader;
extern const demuxer_desc_t demuxer_desc_playlist;
/* Please do not add any new demuxers here. If you want to implement a new
* demuxer, add it to libavformat, except for wrappers around external
* libraries and demuxers requiring binary support. */
const demuxer_desc_t *const demuxer_list[] = {
EDL: add support for new EDL file format The timeline code previously added to support Matroska ordered chapters allows constructing a playback timeline from segments picked from multiple source files. Add support for a new EDL format to make this machinery available for use with file formats other than Matroska and in a manner easier to use than creating files with ordered chapters. Unlike the old -edl option which specifies an additional file with edits to apply to the video file given as the main argument, the new EDL format is used by giving only the EDL file as the file to play; that file then contains the filename(s) to use as source files where actual video segments come from. Filename paths in the EDL file are ignored. Currently the source files are only searched for in the directory of the EDL file; support for a search path option will likely be added in the future. Format of the EDL files The first line in the file must be "mplayer EDL file, version 2". The rest of the lines belong to one of these classes: 1) lines specifying source files 2) empty lines 3) lines specifying timeline segments. Lines beginning with '<' specify source files. These lines first contain an identifier used to refer to the source file later, then the filename separated by whitespace. The identifier must start with a letter. Filenames that start or end with whitespace or contain newlines are not supported. On other lines '#' characters delimit comments. Lines that contain only whitespace after comments have been removed are ignored. Timeline segments must appear in the file in chronological order. Each segment has the following information associated with it: - duration - output start time - output end time (= output start time + duration) - source id (specifies the file the content of the segment comes from) - source start time (timestamp in the source file) - source end time (= source start time + duration) The output timestamps must form a continuous timeline from 0 to the end of the last segment, such that each new segment starts from the time the previous one ends at. Source files and times may change arbitrarily between segments. The general format for lines specifying timeline segments is [output time info] source_id [source time info] source_id must be an identifier defined on a '<' line. Both the time info parts consists of zero or more of the following elements: 1) timestamp 2) -timestamp 3) +duration 4) * 5) -* , where "timestamp" and "duration" are decimal numbers (computations are done with nanosecond precision). Whitespace around "+" and "-" is optional. 1) and 2) specify start and end time of the segment on output or source side. 3) specifies duration; the semantics are the same whether this appears on output or source side. 4) and 5) are ignored on the output side (they're always implicitly assumed). On the source side 4) specifies that the segment starts where the previous segment _using this source_ ended; if there was no previous segment time 0 is used. 5) specifies that the segment ends where the next segment using this source starts. Redundant information may be omitted. It will be filled in using the following rules: - output start for first segment is 0 - two of [output start, output end, duration] imply third - two of [source start, source end, duration] imply third - output start = output end of previous segment - output end = output start of next segment - if "*", source start = source end of earlier segment - if "-*", source end = source start of a later segment As a special rule, a last zero-duration segment without a source specification may appear. This will produce no corresponding segment in the resulting timeline, but can be used as syntax to specify the end time of the timeline (with effect equal to adding -time on the previous line). Examples: ----- begin ----- mplayer EDL file, version 2 < id1 filename 0 id1 123 100 id1 456 200 id1 789 300 ----- end ----- All segments come from the source file "filename". First segment (output time 0-100) comes from time 123-223, second 456-556, third 789-889. ----- begin ----- mplayer EDL file, version 2 < f filename f 60-120 f 600-660 f 30- 90 ----- end ----- Play first seconds 60-120 from the file, then 600-660, then 30-90. ----- begin ----- mplayer EDL file, version 2 < id1 filename1 < id2 filename2 +10 id1 * +10 id2 * +10 id1 * +10 id2 * +10 id1 * +10 id2 * ----- end ----- This plays time 0-10 from filename1, then 0-10 from filename1, then 10-20 from filename1, then 10-20 from filename2, then 20-30 from filename1, then 20-30 from filename2. ----- begin ----- mplayer EDL file, version 2 < t1 filename1 < t2 filename2 t1 * +2 # segment 1 +2 t2 100 # segment 2 t1 * # segment 3 t2 *-* # segment 4 t1 3 -* # segment 5 +0.111111 t2 102.5 # segment 6 7.37 t1 5 +1 # segment 7 ----- end ----- This rather pathological example illustrates the rules for filling in implied data. All the values can be determined by recursively applying the rules given above, and the full end result is this: +2 0-2 t1 0-2 # segment 1 +2 2-4 t2 100-102 # segment 2 +0.758889 4-4.758889 t1 2-2.758889 # segment 3 +0.5 4.4758889-5.258889 t2 102-102.5 # segment 4 +2 5.258889-7.258889 t1 3-5 # segment 5 +0.111111 7.258889-7.37 t2 102.5-102.611111 # segment 6 +1 7.37-8.37 t1 5-6 # segment 7
2011-02-14 11:05:35 +00:00
&demuxer_desc_edl,
&demuxer_desc_cue,
&demuxer_desc_rawaudio,
&demuxer_desc_rawvideo,
#if HAVE_TV
&demuxer_desc_tv,
#endif
#if HAVE_LIBASS
&demuxer_desc_libass,
#endif
&demuxer_desc_matroska,
&demuxer_desc_lavf,
&demuxer_desc_mf,
&demuxer_desc_playlist,
// Pretty aggressive, so should be last.
&demuxer_desc_subreader,
/* Please do not add any new demuxers here. If you want to implement a new
* demuxer, add it to libavformat, except for wrappers around external
* libraries and demuxers requiring binary support. */
NULL
};
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struct demux_stream {
int selected; // user wants packets from this stream
int eof; // end of demuxed stream? (true if all buffer empty)
int packs; // number of packets in buffer
int bytes; // total bytes of packets in buffer
struct demux_packet *head;
struct demux_packet *tail;
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};
static void add_stream_chapters(struct demuxer *demuxer);
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static void ds_free_packs(struct demux_stream *ds)
{
demux_packet_t *dp = ds->head;
while (dp) {
demux_packet_t *dn = dp->next;
free_demux_packet(dp);
dp = dn;
}
ds->head = ds->tail = NULL;
ds->packs = 0; // !!!!!
ds->bytes = 0;
ds->eof = 0;
}
static void packet_destroy(void *ptr)
{
struct demux_packet *dp = ptr;
talloc_free(dp->avpacket);
free(dp->allocation);
}
static struct demux_packet *create_packet(size_t len)
{
if (len > 1000000000) {
mp_msg(MSGT_DEMUXER, MSGL_FATAL, "Attempt to allocate demux packet "
"over 1 GB!\n");
abort();
}
struct demux_packet *dp = talloc(NULL, struct demux_packet);
talloc_set_destructor(dp, packet_destroy);
*dp = (struct demux_packet) {
.len = len,
.pts = MP_NOPTS_VALUE,
.duration = -1,
.stream_pts = MP_NOPTS_VALUE,
};
return dp;
}
struct demux_packet *new_demux_packet(size_t len)
{
struct demux_packet *dp = create_packet(len);
dp->buffer = malloc(len + MP_INPUT_BUFFER_PADDING_SIZE);
if (!dp->buffer) {
mp_msg(MSGT_DEMUXER, MSGL_FATAL, "Memory allocation failure!\n");
abort();
}
memset(dp->buffer + len, 0, MP_INPUT_BUFFER_PADDING_SIZE);
dp->allocation = dp->buffer;
return dp;
}
// data must already have suitable padding, and does not copy the data
struct demux_packet *new_demux_packet_fromdata(void *data, size_t len)
{
struct demux_packet *dp = create_packet(len);
dp->buffer = data;
return dp;
}
struct demux_packet *new_demux_packet_from(void *data, size_t len)
{
struct demux_packet *dp = new_demux_packet(len);
memcpy(dp->buffer, data, len);
return dp;
}
void resize_demux_packet(struct demux_packet *dp, size_t len)
{
if (len > 1000000000) {
mp_msg(MSGT_DEMUXER, MSGL_FATAL, "Attempt to realloc demux packet "
"over 1 GB!\n");
abort();
}
assert(dp->allocation);
dp->buffer = realloc(dp->buffer, len + MP_INPUT_BUFFER_PADDING_SIZE);
if (!dp->buffer) {
mp_msg(MSGT_DEMUXER, MSGL_FATAL, "Memory allocation failure!\n");
abort();
}
memset(dp->buffer + len, 0, MP_INPUT_BUFFER_PADDING_SIZE);
dp->len = len;
dp->allocation = dp->buffer;
}
void free_demux_packet(struct demux_packet *dp)
{
talloc_free(dp);
}
static void destroy_avpacket(void *pkt)
{
av_free_packet(pkt);
}
struct demux_packet *demux_copy_packet(struct demux_packet *dp)
{
struct demux_packet *new = NULL;
// No av_copy_packet() in Libav
#if LIBAVCODEC_VERSION_MICRO >= 100
if (dp->avpacket) {
assert(dp->buffer == dp->avpacket->data);
assert(dp->len == dp->avpacket->size);
AVPacket *newavp = talloc_zero(NULL, AVPacket);
talloc_set_destructor(newavp, destroy_avpacket);
av_init_packet(newavp);
if (av_copy_packet(newavp, dp->avpacket) < 0)
abort();
new = new_demux_packet_fromdata(newavp->data, newavp->size);
new->avpacket = newavp;
}
#endif
if (!new) {
new = new_demux_packet(dp->len);
memcpy(new->buffer, dp->buffer, new->len);
}
new->pts = dp->pts;
new->duration = dp->duration;
new->stream_pts = dp->stream_pts;
return new;
}
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struct sh_stream *new_sh_stream(demuxer_t *demuxer, enum stream_type type)
{
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if (demuxer->num_streams > MAX_SH_STREAMS) {
mp_msg(MSGT_DEMUXER, MSGL_WARN, "Too many streams.");
return NULL;
}
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int demuxer_id = 0;
for (int n = 0; n < demuxer->num_streams; n++) {
if (demuxer->streams[n]->type == type)
demuxer_id++;
}
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struct sh_stream *sh = talloc_ptrtype(demuxer, sh);
*sh = (struct sh_stream) {
.type = type,
.demuxer = demuxer,
.index = demuxer->num_streams,
.demuxer_id = demuxer_id, // may be overwritten by demuxer
.opts = demuxer->opts,
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.ds = talloc_zero(sh, struct demux_stream),
};
MP_TARRAY_APPEND(demuxer, demuxer->streams, demuxer->num_streams, sh);
switch (sh->type) {
case STREAM_VIDEO: {
struct sh_video *sht = talloc_zero(demuxer, struct sh_video);
sht->gsh = sh;
sht->opts = sh->opts;
sh->video = sht;
break;
}
case STREAM_AUDIO: {
struct sh_audio *sht = talloc_zero(demuxer, struct sh_audio);
sht->gsh = sh;
sht->opts = sh->opts;
sh->audio = sht;
break;
}
case STREAM_SUB: {
struct sh_sub *sht = talloc_zero(demuxer, struct sh_sub);
sht->gsh = sh;
sht->opts = sh->opts;
sh->sub = sht;
break;
}
default: assert(false);
}
sh->ds->selected = demuxer->stream_autoselect;
return sh;
}
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static void free_sh_sub(sh_sub_t *sh)
{
free(sh->extradata);
}
static void free_sh_audio(sh_audio_t *sh)
{
free(sh->wf);
free(sh->codecdata);
}
static void free_sh_video(sh_video_t *sh)
{
free(sh->bih);
}
static void free_sh_stream(struct sh_stream *sh)
{
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ds_free_packs(sh->ds);
switch (sh->type) {
case STREAM_AUDIO: free_sh_audio(sh->audio); break;
case STREAM_VIDEO: free_sh_video(sh->video); break;
case STREAM_SUB: free_sh_sub(sh->sub); break;
default: abort();
}
}
void free_demuxer(demuxer_t *demuxer)
{
if (!demuxer)
return;
if (demuxer->desc->close)
demuxer->desc->close(demuxer);
// free streams:
for (int n = 0; n < demuxer->num_streams; n++)
free_sh_stream(demuxer->streams[n]);
talloc_free(demuxer);
}
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static const char *stream_type_name(enum stream_type type)
{
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switch (type) {
case STREAM_VIDEO: return "video";
case STREAM_AUDIO: return "audio";
case STREAM_SUB: return "sub";
default: return "unknown";
}
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}
static int count_packs(struct demuxer *demux, enum stream_type type)
{
int c = 0;
for (int n = 0; n < demux->num_streams; n++)
c += demux->streams[n]->type == type ? demux->streams[n]->ds->packs : 0;
return c;
}
static int count_bytes(struct demuxer *demux, enum stream_type type)
{
int c = 0;
for (int n = 0; n < demux->num_streams; n++)
c += demux->streams[n]->type == type ? demux->streams[n]->ds->bytes : 0;
return c;
}
// Returns the same value as demuxer->fill_buffer: 1 ok, 0 EOF/not selected.
int demuxer_add_packet(demuxer_t *demuxer, struct sh_stream *stream,
demux_packet_t *dp)
{
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struct demux_stream *ds = stream ? stream->ds : NULL;
if (!dp || !ds || !ds->selected) {
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talloc_free(dp);
return 0;
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}
ds->packs++;
ds->bytes += dp->len;
if (ds->tail) {
// next packet in stream
ds->tail->next = dp;
ds->tail = dp;
} else {
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// first packet in stream
ds->head = ds->tail = dp;
}
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mp_dbg(MSGT_DEMUXER, MSGL_DBG2,
"DEMUX: Append packet to %s, len=%d pts=%5.3f pos=%"PRIu64" "
"[packs: A=%d V=%d S=%d]\n", stream_type_name(stream->type),
dp->len, dp->pts, dp->pos, count_packs(demuxer, STREAM_AUDIO),
count_packs(demuxer, STREAM_VIDEO), count_packs(demuxer, STREAM_SUB));
return 1;
}
static bool demux_check_queue_full(demuxer_t *demux)
{
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for (int n = 0; n < demux->num_streams; n++) {
struct sh_stream *sh = demux->streams[n];
if (sh->ds->packs > MAX_PACKS || sh->ds->bytes > MAX_PACK_BYTES)
goto overflow;
}
return false;
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overflow:
if (!demux->warned_queue_overflow) {
mp_tmsg(MSGT_DEMUXER, MSGL_ERR, "\nToo many packets in the demuxer "
"packet queue (video: %d packets in %d bytes, audio: %d "
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"packets in %d bytes, sub: %d packets in %d bytes).\n",
count_packs(demux, STREAM_VIDEO), count_bytes(demux, STREAM_VIDEO),
count_packs(demux, STREAM_AUDIO), count_bytes(demux, STREAM_AUDIO),
count_packs(demux, STREAM_SUB), count_bytes(demux, STREAM_SUB));
mp_tmsg(MSGT_DEMUXER, MSGL_HINT, "Maybe you are playing a non-"
"interleaved stream/file or the codec failed?\n");
}
demux->warned_queue_overflow = true;
return true;
}
// return value:
// 0 = EOF or no stream found or invalid type
// 1 = successfully read a packet
static int demux_fill_buffer(demuxer_t *demux)
{
return demux->desc->fill_buffer ? demux->desc->fill_buffer(demux) : 0;
}
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static void ds_get_packets(struct sh_stream *sh)
{
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struct demux_stream *ds = sh->ds;
demuxer_t *demux = sh->demuxer;
mp_dbg(MSGT_DEMUXER, MSGL_DBG3, "ds_get_packets (%s) called\n",
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stream_type_name(sh->type));
while (1) {
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if (ds->head) {
/* The code below can set ds->eof to 1 when another stream runs
* out of buffer space. That makes sense because in that situation
* the calling code should not count on being able to demux more
* packets from this stream.
* If however the situation improves and we're called again
* despite the eof flag then it's better to clear it to avoid
* weird behavior. */
ds->eof = 0;
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return;
}
if (demux_check_queue_full(demux))
break;
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if (!demux_fill_buffer(demux))
break; // EOF
}
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mp_msg(MSGT_DEMUXER, MSGL_V, "ds_get_packets: EOF reached (stream: %s)\n",
stream_type_name(sh->type));
ds->eof = 1;
}
// Read a packet from the given stream. The returned packet belongs to the
// caller, who has to free it with talloc_free(). Might block. Returns NULL
// on EOF.
struct demux_packet *demux_read_packet(struct sh_stream *sh)
{
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struct demux_stream *ds = sh ? sh->ds : NULL;
if (ds) {
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ds_get_packets(sh);
struct demux_packet *pkt = ds->head;
if (pkt) {
ds->head = pkt->next;
pkt->next = NULL;
if (!ds->head)
ds->tail = NULL;
ds->bytes -= pkt->len;
ds->packs--;
if (pkt->stream_pts != MP_NOPTS_VALUE)
sh->demuxer->stream_pts = pkt->stream_pts;
return pkt;
}
}
return NULL;
}
// Return the pts of the next packet that demux_read_packet() would return.
// Might block. Sometimes used to force a packet read, without removing any
// packets from the queue.
double demux_get_next_pts(struct sh_stream *sh)
{
if (sh && sh->ds->selected) {
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ds_get_packets(sh);
if (sh->ds->head)
return sh->ds->head->pts;
}
return MP_NOPTS_VALUE;
}
// Return whether a packet is queued. Never blocks, never forces any reads.
bool demux_has_packet(struct sh_stream *sh)
{
2013-07-11 17:20:25 +00:00
return sh && sh->ds->head;
}
// Same as demux_has_packet, but to be called internally by demuxers, as
// opposed to the user of the demuxer.
bool demuxer_stream_has_packets_queued(struct demuxer *d, struct sh_stream *stream)
{
return demux_has_packet(stream);
}
// Return whether EOF was returned with an earlier packet read.
bool demux_stream_eof(struct sh_stream *sh)
{
2013-07-11 17:20:25 +00:00
return !sh || sh->ds->eof;
}
// ====================================================================
void demuxer_help(void)
{
int i;
mp_msg(MSGT_DEMUXER, MSGL_INFO, "Available demuxers:\n");
mp_msg(MSGT_DEMUXER, MSGL_INFO, " demuxer: info:\n");
mp_msg(MSGT_IDENTIFY, MSGL_INFO, "ID_DEMUXERS\n");
for (i = 0; demuxer_list[i]; i++) {
mp_msg(MSGT_DEMUXER, MSGL_INFO, "%10s %s\n",
demuxer_list[i]->name, demuxer_list[i]->desc);
}
}
static const char *d_level(enum demux_check level)
{
switch (level) {
case DEMUX_CHECK_FORCE: return "force";
case DEMUX_CHECK_UNSAFE: return "unsafe";
case DEMUX_CHECK_REQUEST:return "request";
case DEMUX_CHECK_NORMAL: return "normal";
}
abort();
}
static struct demuxer *open_given_type(struct MPOpts *opts,
const struct demuxer_desc *desc,
struct stream *stream,
struct demuxer_params *params,
enum demux_check check)
{
struct demuxer *demuxer = talloc_ptrtype(NULL, demuxer);
*demuxer = (struct demuxer) {
.desc = desc,
.type = desc->type,
.stream = stream,
.stream_pts = MP_NOPTS_VALUE,
.seekable = (stream->flags & MP_STREAM_SEEK) == MP_STREAM_SEEK &&
stream->end_pos > 0,
.accurate_seek = true,
.filepos = -1,
.opts = opts,
.filename = talloc_strdup(demuxer, stream->url),
.metadata = talloc_zero(demuxer, struct mp_tags),
};
demuxer->params = params; // temporary during open()
stream_seek(stream, stream->start_pos);
mp_msg(MSGT_DEMUXER, MSGL_V, "Trying demuxer: %s (force-level: %s)\n",
desc->name, d_level(check));
int ret = demuxer->desc->open(demuxer, check);
if (ret >= 0) {
demuxer->params = NULL;
if (demuxer->filetype)
mp_tmsg(MSGT_DEMUXER, MSGL_INFO, "Detected file format: %s (%s)\n",
demuxer->filetype, desc->desc);
else
mp_tmsg(MSGT_DEMUXER, MSGL_INFO, "Detected file format: %s\n",
desc->desc);
if (stream_manages_timeline(demuxer->stream)) {
// Incorrect, but fixes some behavior with DVD/BD
demuxer->ts_resets_possible = false;
// Doesn't work, because stream_pts is a "guess".
demuxer->accurate_seek = false;
}
add_stream_chapters(demuxer);
demuxer_sort_chapters(demuxer);
demux_info_update(demuxer);
// Pretend we can seek if we can't seek, but there's a cache.
if (!demuxer->seekable && stream->uncached_stream) {
mp_msg(MSGT_DEMUXER, MSGL_WARN,
"File is not seekable, but there's a cache: enabling seeking.\n");
demuxer->seekable = true;
}
return demuxer;
}
free_demuxer(demuxer);
return NULL;
}
static const int d_normal[] = {DEMUX_CHECK_NORMAL, DEMUX_CHECK_UNSAFE, -1};
static const int d_request[] = {DEMUX_CHECK_REQUEST, -1};
static const int d_force[] = {DEMUX_CHECK_FORCE, -1};
struct demuxer *demux_open(struct stream *stream, char *force_format,
struct demuxer_params *params, struct MPOpts *opts)
{
const int *check_levels = d_normal;
const struct demuxer_desc *check_desc = NULL;
if (!force_format)
force_format = stream->demuxer;
if (force_format && force_format[0]) {
check_levels = d_request;
if (force_format[0] == '+') {
force_format += 1;
check_levels = d_force;
}
for (int n = 0; demuxer_list[n]; n++) {
if (strcmp(demuxer_list[n]->name, force_format) == 0)
check_desc = demuxer_list[n];
}
if (!check_desc) {
mp_msg(MSGT_DEMUXER, MSGL_ERR, "Demuxer %s does not exist.\n",
force_format);
return NULL;
}
}
// Peek this much data to avoid that stream_read() run by some demuxers
// or stream filters will flush previous peeked data.
stream_peek(stream, STREAM_BUFFER_SIZE);
// Test demuxers from first to last, one pass for each check_levels[] entry
for (int pass = 0; check_levels[pass] != -1; pass++) {
enum demux_check level = check_levels[pass];
for (int n = 0; demuxer_list[n]; n++) {
const struct demuxer_desc *desc = demuxer_list[n];
if (!check_desc || desc == check_desc) {
struct demuxer *demuxer = open_given_type(opts, desc, stream,
params, level);
if (demuxer)
return demuxer;
}
}
}
return NULL;
}
void demux_flush(demuxer_t *demuxer)
{
2013-07-11 17:20:25 +00:00
for (int n = 0; n < demuxer->num_streams; n++)
ds_free_packs(demuxer->streams[n]->ds);
demuxer->warned_queue_overflow = false;
}
int demux_seek(demuxer_t *demuxer, float rel_seek_secs, int flags)
{
if (!demuxer->seekable) {
mp_tmsg(MSGT_DEMUXER, MSGL_WARN, "Cannot seek in this file.\n");
return 0;
}
if (rel_seek_secs == MP_NOPTS_VALUE && (flags & SEEK_ABSOLUTE))
return 0;
// clear demux buffers:
demux_flush(demuxer);
/* HACK: assume any demuxer used with these streams can cope with
* the stream layer suddenly seeking to a different position under it
* (nothing actually implements DEMUXER_CTRL_RESYNC now).
*/
struct stream *stream = demuxer->stream;
if (stream_manages_timeline(stream)) {
double pts;
if (flags & SEEK_ABSOLUTE)
pts = 0.0f;
else {
if (demuxer->stream_pts == MP_NOPTS_VALUE)
goto dmx_seek;
pts = demuxer->stream_pts;
}
if (flags & SEEK_FACTOR) {
double tmp = 0;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_TIME_LENGTH,
&tmp) == STREAM_UNSUPPORTED)
goto dmx_seek;
pts += tmp * rel_seek_secs;
} else
pts += rel_seek_secs;
if (stream_control(demuxer->stream, STREAM_CTRL_SEEK_TO_TIME, &pts)
!= STREAM_UNSUPPORTED) {
demux_control(demuxer, DEMUXER_CTRL_RESYNC, NULL);
return 1;
}
}
dmx_seek:
if (demuxer->desc->seek)
demuxer->desc->seek(demuxer, rel_seek_secs, flags);
return 1;
}
void mp_tags_set_str(struct mp_tags *tags, const char *key, const char *value)
{
mp_tags_set_bstr(tags, bstr0(key), bstr0(value));
}
void mp_tags_set_bstr(struct mp_tags *tags, bstr key, bstr value)
{
for (int n = 0; n < tags->num_keys; n++) {
if (bstrcasecmp0(key, tags->keys[n]) == 0) {
talloc_free(tags->values[n]);
tags->values[n] = talloc_strndup(tags, value.start, value.len);
return;
}
}
MP_RESIZE_ARRAY(tags, tags->keys, tags->num_keys + 1);
MP_RESIZE_ARRAY(tags, tags->values, tags->num_keys + 1);
tags->keys[tags->num_keys] = talloc_strndup(tags, key.start, key.len);
tags->values[tags->num_keys] = talloc_strndup(tags, value.start, value.len);
tags->num_keys++;
}
char *mp_tags_get_str(struct mp_tags *tags, const char *key)
{
return mp_tags_get_bstr(tags, bstr0(key));
}
char *mp_tags_get_bstr(struct mp_tags *tags, bstr key)
{
for (int n = 0; n < tags->num_keys; n++) {
if (bstrcasecmp0(key, tags->keys[n]) == 0)
return tags->values[n];
}
return NULL;
}
int demux_info_add(demuxer_t *demuxer, const char *opt, const char *param)
{
return demux_info_add_bstr(demuxer, bstr0(opt), bstr0(param));
}
int demux_info_add_bstr(demuxer_t *demuxer, struct bstr opt, struct bstr param)
{
char *oldval = mp_tags_get_bstr(demuxer->metadata, opt);
if (oldval) {
if (bstrcmp0(param, oldval) == 0)
return 0;
mp_tmsg(MSGT_DEMUX, MSGL_INFO, "Demuxer info %.*s changed to %.*s\n",
BSTR_P(opt), BSTR_P(param));
}
mp_tags_set_bstr(demuxer->metadata, opt, param);
return 1;
}
int demux_info_print(demuxer_t *demuxer)
{
struct mp_tags *info = demuxer->metadata;
int n;
if (!info || !info->num_keys)
return 0;
mp_tmsg(MSGT_DEMUX, MSGL_INFO, "Clip info:\n");
for (n = 0; n < info->num_keys; n++) {
mp_msg(MSGT_DEMUX, MSGL_INFO, " %s: %s\n", info->keys[n],
info->values[n]);
mp_msg(MSGT_IDENTIFY, MSGL_INFO, "ID_CLIP_INFO_NAME%d=%s\n", n,
info->keys[n]);
mp_msg(MSGT_IDENTIFY, MSGL_INFO, "ID_CLIP_INFO_VALUE%d=%s\n", n,
info->values[n]);
}
mp_msg(MSGT_IDENTIFY, MSGL_INFO, "ID_CLIP_INFO_N=%d\n", n);
return 0;
}
char *demux_info_get(demuxer_t *demuxer, const char *opt)
{
return mp_tags_get_str(demuxer->metadata, opt);
}
void demux_info_update(struct demuxer *demuxer)
{
demux_control(demuxer, DEMUXER_CTRL_UPDATE_INFO, NULL);
// Take care of stream metadata as well
char **meta;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_METADATA, &meta) > 0) {
for (int n = 0; meta[n + 0]; n += 2)
demux_info_add(demuxer, meta[n + 0], meta[n + 1]);
talloc_free(meta);
}
}
int demux_control(demuxer_t *demuxer, int cmd, void *arg)
{
if (demuxer->desc->control)
return demuxer->desc->control(demuxer, cmd, arg);
return DEMUXER_CTRL_NOTIMPL;
}
struct sh_stream *demuxer_stream_by_demuxer_id(struct demuxer *d,
enum stream_type t, int id)
{
for (int n = 0; n < d->num_streams; n++) {
struct sh_stream *s = d->streams[n];
if (s->type == t && s->demuxer_id == id)
return d->streams[n];
Make audio stream index handling saner in stream switching The handling of audio stream numbering was handled in the stream selection property was a total mess. The most important issue was confusion between values used as index for demuxer->audio_streams[] array (consistently stored in demuxer->audio->id) and values stored in sh_audio->aid and used as "-aid N" option values. Now demuxer audio switch control functions and demuxer_switch_audio() are supposed to return the new value for the "-aid" option (internal MPEG demuxers still don't; the demuxer requirement could perhaps be dropped as it can be easily calculated afterwards). That is also the value returned for the "switch_audio" property. The main changes are: - Make command.c mp_property_audio() consistently use and return the "-aid" values. Before it used that as input but the array index as output, with extra mess related to demuxer_switch_audio() return value. Don't modify the audio_id option field any more. - Make demuxer_switch_audio() always return "-aid" values (like it takes as input). There are two changes for this: picking this return value in case the demuxer doesn't support switching, and overriding demuxer return value (for internal MPEG demuxers). - Make demux_lavf return "-aid" values from DEMUXER_CTRL_SWITCH_AUDIO code. This isn't actually necessary because of the override part above. Here's some history of the relevant behavior that I looked up: * For most demuxers array index and "-aid" values are the same. At least demux_mkv, (some of?) the internal MPEG demuxers and demux_ogg have differed for a long time. demux_ogg doesn't matter because it doesn't support stream switching. * Old code seemed to assume that demuxer_switch_audio() return value was array index, but this wasn't true at least for demux_mkv. * In svn r19951 reimar mostly removed use of the return value. * In r20162 ptt added mp_property_audio(). This set the global audio_id variable (-aid option value) to the return value of demuxer_switch_audio() and treated the global as the persistent value of the property, apparently assuming that it would be set to the "-aid" value, not array index. This was false for internal MPEG. * In r30124 reimar changed the property code so that even though it still modified the option value it didn't use that as the value of the property any more; instead it incorrectly used the array index. This meant that for demux_mkv the return value didn't match -aid any more (though input still did, so setting the property and querying it didn't match as they used different value systems). * In r31129 aurel made demux_lavf changes that resulted in its -aid and array index values no longer matching either. He didn't change the return value from audio switch when changing -aid, so it now matched array index only. The latter part didn't cause additional problems from r20162 though because either choice would have been broken anyway after r30124 as long as they weren't the same value.
2010-05-22 05:19:23 +00:00
}
return NULL;
}
void demuxer_switch_track(struct demuxer *demuxer, enum stream_type type,
struct sh_stream *stream)
{
assert(!stream || stream->type == type);
2013-07-11 17:20:25 +00:00
for (int n = 0; n < demuxer->num_streams; n++) {
struct sh_stream *cur = demuxer->streams[n];
if (cur->type == type)
demuxer_select_track(demuxer, cur, cur == stream);
}
}
void demuxer_select_track(struct demuxer *demuxer, struct sh_stream *stream,
bool selected)
{
// don't flush buffers if stream is already selected / unselected
if (stream->ds->selected != selected) {
stream->ds->selected = selected;
ds_free_packs(stream->ds);
demux_control(demuxer, DEMUXER_CTRL_SWITCHED_TRACKS, NULL);
2013-07-11 17:20:25 +00:00
}
}
void demuxer_enable_autoselect(struct demuxer *demuxer)
{
demuxer->stream_autoselect = true;
}
bool demuxer_stream_is_selected(struct demuxer *d, struct sh_stream *stream)
{
2013-07-11 17:20:25 +00:00
return stream && stream->ds->selected;
}
int demuxer_add_attachment(demuxer_t *demuxer, struct bstr name,
struct bstr type, struct bstr data)
{
if (!(demuxer->num_attachments % 32))
demuxer->attachments = talloc_realloc(demuxer, demuxer->attachments,
struct demux_attachment,
demuxer->num_attachments + 32);
struct demux_attachment *att =
demuxer->attachments + demuxer->num_attachments;
att->name = talloc_strndup(demuxer->attachments, name.start, name.len);
att->type = talloc_strndup(demuxer->attachments, type.start, type.len);
att->data = talloc_size(demuxer->attachments, data.len);
memcpy(att->data, data.start, data.len);
att->data_size = data.len;
return demuxer->num_attachments++;
}
static int chapter_compare(const void *p1, const void *p2)
{
struct demux_chapter *c1 = (void *)p1;
struct demux_chapter *c2 = (void *)p2;
if (c1->start > c2->start)
return 1;
else if (c1->start < c2->start)
return -1;
return c1->original_index > c2->original_index ? 1 :-1; // never equal
}
void demuxer_sort_chapters(demuxer_t *demuxer)
{
qsort(demuxer->chapters, demuxer->num_chapters,
sizeof(struct demux_chapter), chapter_compare);
}
int demuxer_add_chapter(demuxer_t *demuxer, struct bstr name,
uint64_t start, uint64_t end, uint64_t demuxer_id)
{
struct demux_chapter new = {
.original_index = demuxer->num_chapters,
.start = start,
.end = end,
.name = name.len ? bstrdup0(demuxer, name) : NULL,
.metadata = talloc_zero(demuxer, struct mp_tags),
.demuxer_id = demuxer_id,
};
mp_tags_set_bstr(new.metadata, bstr0("TITLE"), name);
MP_TARRAY_APPEND(demuxer, demuxer->chapters, demuxer->num_chapters, new);
return 0;
}
void demuxer_add_chapter_info(struct demuxer *demuxer, uint64_t demuxer_id,
bstr key, bstr value)
{
for (int n = 0; n < demuxer->num_chapters; n++) {
struct demux_chapter *ch = &demuxer->chapters[n];
if (ch->demuxer_id == demuxer_id) {
mp_tags_set_bstr(ch->metadata, key, value);
return;
}
}
}
static void add_stream_chapters(struct demuxer *demuxer)
{
if (demuxer->num_chapters)
return;
int num_chapters = demuxer_chapter_count(demuxer);
for (int n = 0; n < num_chapters; n++) {
double p = n;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_CHAPTER_TIME, &p)
!= STREAM_OK)
return;
demuxer_add_chapter(demuxer, bstr0(""), p * 1e9, 0, 0);
}
}
/**
* \brief demuxer_seek_chapter() seeks to a chapter in two possible ways:
* either using the demuxer->chapters structure set by the demuxer
* or asking help to the stream layer (e.g. dvd)
* \param chapter - chapter number wished - 0-based
* \param seek_pts set by the function to the pts to seek to (if demuxer->chapters is set)
* \return -1 on error, current chapter if successful
*/
int demuxer_seek_chapter(demuxer_t *demuxer, int chapter, double *seek_pts)
{
int ris = STREAM_UNSUPPORTED;
if (demuxer->num_chapters == 0)
ris = stream_control(demuxer->stream, STREAM_CTRL_SEEK_TO_CHAPTER,
&chapter);
if (ris != STREAM_UNSUPPORTED) {
demux_flush(demuxer);
demux_control(demuxer, DEMUXER_CTRL_RESYNC, NULL);
// exit status may be ok, but main() doesn't have to seek itself
// (because e.g. dvds depend on sectors, not on pts)
*seek_pts = -1.0;
return chapter;
} else {
if (chapter >= demuxer->num_chapters)
return -1;
if (chapter < 0)
chapter = 0;
*seek_pts = demuxer->chapters[chapter].start / 1e9;
return chapter;
}
}
int demuxer_get_current_chapter(demuxer_t *demuxer, double time_now)
{
int chapter = -2;
if (!demuxer->num_chapters || !demuxer->chapters) {
if (stream_control(demuxer->stream, STREAM_CTRL_GET_CURRENT_CHAPTER,
&chapter) == STREAM_UNSUPPORTED)
chapter = -2;
} else {
uint64_t now = time_now * 1e9 + 0.5;
for (chapter = demuxer->num_chapters - 1; chapter >= 0; --chapter) {
if (demuxer->chapters[chapter].start <= now)
break;
}
}
return chapter;
}
char *demuxer_chapter_name(demuxer_t *demuxer, int chapter)
{
if (demuxer->num_chapters && demuxer->chapters) {
if (chapter >= 0 && chapter < demuxer->num_chapters
&& demuxer->chapters[chapter].name)
return talloc_strdup(NULL, demuxer->chapters[chapter].name);
}
return NULL;
}
double demuxer_chapter_time(demuxer_t *demuxer, int chapter)
{
if (demuxer->num_chapters && demuxer->chapters && chapter >= 0
&& chapter < demuxer->num_chapters) {
return demuxer->chapters[chapter].start / 1e9;
}
return -1.0;
}
int demuxer_chapter_count(demuxer_t *demuxer)
{
if (!demuxer->num_chapters || !demuxer->chapters) {
int num_chapters = 0;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_NUM_CHAPTERS,
&num_chapters) == STREAM_UNSUPPORTED)
num_chapters = 0;
return num_chapters;
} else
return demuxer->num_chapters;
}
double demuxer_get_time_length(struct demuxer *demuxer)
{
double len;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_TIME_LENGTH, &len) > 0)
return len;
// <= 0 means DEMUXER_CTRL_NOTIMPL or DEMUXER_CTRL_DONTKNOW
if (demux_control(demuxer, DEMUXER_CTRL_GET_TIME_LENGTH, &len) > 0)
return len;
return -1;
}
double demuxer_get_start_time(struct demuxer *demuxer)
{
double time;
if (stream_control(demuxer->stream, STREAM_CTRL_GET_START_TIME, &time) > 0)
return time;
if (demux_control(demuxer, DEMUXER_CTRL_GET_START_TIME, &time) > 0)
return time;
return 0;
}
int demuxer_angles_count(demuxer_t *demuxer)
{
int ris, angles = -1;
ris = stream_control(demuxer->stream, STREAM_CTRL_GET_NUM_ANGLES, &angles);
if (ris == STREAM_UNSUPPORTED)
return -1;
return angles;
}
int demuxer_get_current_angle(demuxer_t *demuxer)
{
int ris, curr_angle = -1;
ris = stream_control(demuxer->stream, STREAM_CTRL_GET_ANGLE, &curr_angle);
if (ris == STREAM_UNSUPPORTED)
return -1;
return curr_angle;
}
int demuxer_set_angle(demuxer_t *demuxer, int angle)
{
int ris, angles = -1;
angles = demuxer_angles_count(demuxer);
if ((angles < 1) || (angle > angles))
return -1;
demux_flush(demuxer);
ris = stream_control(demuxer->stream, STREAM_CTRL_SET_ANGLE, &angle);
if (ris == STREAM_UNSUPPORTED)
return -1;
demux_control(demuxer, DEMUXER_CTRL_RESYNC, NULL);
return angle;
}
static int packet_sort_compare(const void *p1, const void *p2)
{
struct demux_packet *c1 = *(struct demux_packet **)p1;
struct demux_packet *c2 = *(struct demux_packet **)p2;
if (c1->pts > c2->pts)
return 1;
else if (c1->pts < c2->pts)
return -1;
return 0;
}
void demux_packet_list_sort(struct demux_packet **pkts, int num_pkts)
{
qsort(pkts, num_pkts, sizeof(struct demux_packet *), packet_sort_compare);
}
void demux_packet_list_seek(struct demux_packet **pkts, int num_pkts,
int *current, float rel_seek_secs, int flags)
{
double ref_time = 0;
if (*current >= 0 && *current < num_pkts) {
ref_time = pkts[*current]->pts;
} else if (*current == num_pkts && num_pkts > 0) {
ref_time = pkts[num_pkts - 1]->pts + pkts[num_pkts - 1]->duration;
}
if (flags & SEEK_ABSOLUTE)
ref_time = 0;
if (flags & SEEK_FACTOR) {
ref_time += demux_packet_list_duration(pkts, num_pkts) * rel_seek_secs;
} else {
ref_time += rel_seek_secs;
}
// Could do binary search, but it's probably not worth the complexity.
int last_index = 0;
for (int n = 0; n < num_pkts; n++) {
if (pkts[n]->pts > ref_time)
break;
last_index = n;
}
*current = last_index;
}
double demux_packet_list_duration(struct demux_packet **pkts, int num_pkts)
{
if (num_pkts > 0)
return pkts[num_pkts - 1]->pts + pkts[num_pkts - 1]->duration;
return 0;
}
struct demux_packet *demux_packet_list_fill(struct demux_packet **pkts,
int num_pkts, int *current)
{
if (*current < 0)
*current = 0;
if (*current >= num_pkts)
return NULL;
struct demux_packet *new = talloc(NULL, struct demux_packet);
*new = *pkts[*current];
*current += 1;
return new;
}