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mpv/filters/f_decoder_wrapper.c

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/*
* This file is part of mpv.
*
* mpv 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.
*
* mpv 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 mpv. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <math.h>
#include <assert.h>
#include <libavutil/buffer.h>
#include <libavutil/rational.h>
#include "config.h"
#include "options/options.h"
#include "common/msg.h"
#include "options/m_config.h"
#include "osdep/timer.h"
#include "demux/demux.h"
#include "demux/packet.h"
#include "common/codecs.h"
#include "common/global.h"
#include "common/recorder.h"
#include "audio/aframe.h"
#include "video/out/vo.h"
#include "video/csputils.h"
#include "demux/stheader.h"
#include "f_decoder_wrapper.h"
#include "f_demux_in.h"
#include "filter_internal.h"
struct priv {
struct mp_filter *f;
struct mp_log *log;
struct m_config_cache *opt_cache;
struct sh_stream *header;
struct mp_codec_params *codec;
struct mp_decoder *decoder;
// Demuxer output.
struct mp_pin *demux;
// Last PTS from decoder (set with each vd_driver->decode() call)
double codec_pts;
int num_codec_pts_problems;
// Last packet DTS from decoder (passed through from source packets)
double codec_dts;
int num_codec_dts_problems;
// PTS or DTS of packet first read
double first_packet_pdts;
// There was at least one packet with nonsense timestamps.
// Intentionally not reset on seeks; its whole purpose is to enable faster
// future seeks.
int has_broken_packet_pts; // <0: uninitialized, 0: no problems, 1: broken
int has_broken_decoded_pts;
int packets_without_output; // number packets sent without frame received
// Final PTS of previously decoded frame
double pts;
struct mp_image_params dec_format, last_format, fixed_format;
double start_pts;
double start, end;
struct demux_packet *new_segment;
struct mp_frame packet;
bool packet_fed, preroll_discard;
size_t reverse_queue_byte_size;
struct mp_frame *reverse_queue;
int num_reverse_queue;
bool reverse_queue_complete;
struct mp_frame decoded_coverart;
int coverart_returned; // 0: no, 1: coverart frame itself, 2: EOF returned
struct mp_decoder_wrapper public;
};
// This resets only the decoder. Unlike a full reset(), this doesn't imply a
// seek reset. This distinction exists only when using timeline stuff (EDL and
// ordered chapters). timeline stuff needs to reset the decoder state, but keep
// some of the user-relevant state.
static void reset_decoder(struct priv *p)
{
p->first_packet_pdts = MP_NOPTS_VALUE;
p->start_pts = MP_NOPTS_VALUE;
p->codec_pts = MP_NOPTS_VALUE;
p->codec_dts = MP_NOPTS_VALUE;
p->num_codec_pts_problems = 0;
p->num_codec_dts_problems = 0;
p->has_broken_decoded_pts = 0;
p->packets_without_output = 0;
mp_frame_unref(&p->packet);
p->packet_fed = false;
p->preroll_discard = false;
talloc_free(p->new_segment);
p->new_segment = NULL;
p->start = p->end = MP_NOPTS_VALUE;
if (p->decoder)
mp_filter_reset(p->decoder->f);
}
static void reset(struct mp_filter *f)
{
struct priv *p = f->priv;
p->pts = MP_NOPTS_VALUE;
p->last_format = p->fixed_format = (struct mp_image_params){0};
p->public.dropped_frames = 0;
p->public.attempt_framedrops = 0;
p->public.pts_reset = false;
p->coverart_returned = 0;
for (int n = 0; n < p->num_reverse_queue; n++)
mp_frame_unref(&p->reverse_queue[n]);
p->num_reverse_queue = 0;
p->reverse_queue_byte_size = 0;
p->reverse_queue_complete = false;
reset_decoder(p);
}
int mp_decoder_wrapper_control(struct mp_decoder_wrapper *d,
enum dec_ctrl cmd, void *arg)
{
struct priv *p = d->f->priv;
if (p->decoder && p->decoder->control)
return p->decoder->control(p->decoder->f, cmd, arg);
return CONTROL_UNKNOWN;
}
static void destroy(struct mp_filter *f)
{
struct priv *p = f->priv;
if (p->decoder) {
MP_VERBOSE(f, "Uninit decoder.\n");
talloc_free(p->decoder->f);
p->decoder = NULL;
}
reset(f);
mp_frame_unref(&p->decoded_coverart);
}
struct mp_decoder_list *video_decoder_list(void)
{
struct mp_decoder_list *list = talloc_zero(NULL, struct mp_decoder_list);
vd_lavc.add_decoders(list);
return list;
}
struct mp_decoder_list *audio_decoder_list(void)
{
struct mp_decoder_list *list = talloc_zero(NULL, struct mp_decoder_list);
ad_lavc.add_decoders(list);
return list;
}
bool mp_decoder_wrapper_reinit(struct mp_decoder_wrapper *d)
{
struct priv *p = d->f->priv;
struct MPOpts *opts = p->opt_cache->opts;
if (p->decoder)
talloc_free(p->decoder->f);
p->decoder = NULL;
reset_decoder(p);
p->has_broken_packet_pts = -10; // needs 10 packets to reach decision
const struct mp_decoder_fns *driver = NULL;
struct mp_decoder_list *list = NULL;
char *user_list = NULL;
if (p->codec->type == STREAM_VIDEO) {
driver = &vd_lavc;
user_list = opts->video_decoders;
} else if (p->codec->type == STREAM_AUDIO) {
driver = &ad_lavc;
user_list = opts->audio_decoders;
if (p->public.try_spdif && p->codec->codec) {
struct mp_decoder_list *spdif =
select_spdif_codec(p->codec->codec, opts->audio_spdif);
if (spdif->num_entries) {
driver = &ad_spdif;
list = spdif;
} else {
talloc_free(spdif);
}
}
}
if (!list) {
struct mp_decoder_list *full = talloc_zero(NULL, struct mp_decoder_list);
if (driver)
driver->add_decoders(full);
list = mp_select_decoders(p->log, full, p->codec->codec, user_list);
talloc_free(full);
}
mp_print_decoders(p->log, MSGL_V, "Codec list:", list);
for (int n = 0; n < list->num_entries; n++) {
struct mp_decoder_entry *sel = &list->entries[n];
MP_VERBOSE(p, "Opening decoder %s\n", sel->decoder);
p->decoder = driver->create(p->f, p->codec, sel->decoder);
if (p->decoder) {
p->public.decoder_desc =
talloc_asprintf(p, "%s (%s)", sel->decoder, sel->desc);
MP_VERBOSE(p, "Selected codec: %s\n", p->public.decoder_desc);
break;
}
MP_WARN(p, "Decoder init failed for %s\n", sel->decoder);
}
if (!p->decoder) {
MP_ERR(p, "Failed to initialize a decoder for codec '%s'.\n",
p->codec->codec ? p->codec->codec : "<?>");
}
talloc_free(list);
return !!p->decoder;
}
static bool is_valid_peak(float sig_peak)
{
return !sig_peak || (sig_peak >= 1 && sig_peak <= 100);
}
static void fix_image_params(struct priv *p,
struct mp_image_params *params)
{
struct mp_image_params m = *params;
struct mp_codec_params *c = p->codec;
struct MPOpts *opts = p->opt_cache->opts;
MP_VERBOSE(p, "Decoder format: %s\n", mp_image_params_to_str(params));
p->dec_format = *params;
// While mp_image_params normally always have to have d_w/d_h set, the
// decoder signals unknown bitstream aspect ratio with both set to 0.
bool use_container = true;
if (opts->aspect_method == 1 && m.p_w > 0 && m.p_h > 0) {
MP_VERBOSE(p, "Using bitstream aspect ratio.\n");
use_container = false;
}
if (use_container && c->par_w > 0 && c->par_h) {
MP_VERBOSE(p, "Using container aspect ratio.\n");
m.p_w = c->par_w;
m.p_h = c->par_h;
}
if (opts->movie_aspect >= 0) {
MP_VERBOSE(p, "Forcing user-set aspect ratio.\n");
if (opts->movie_aspect == 0) {
m.p_w = m.p_h = 1;
} else {
AVRational a = av_d2q(opts->movie_aspect, INT_MAX);
mp_image_params_set_dsize(&m, a.num, a.den);
}
}
// Assume square pixels if no aspect ratio is set at all.
if (m.p_w <= 0 || m.p_h <= 0)
m.p_w = m.p_h = 1;
m.rotate = p->codec->rotate;
m.stereo3d = p->codec->stereo_mode;
if (opts->video_rotate < 0) {
m.rotate = 0;
} else {
m.rotate = (m.rotate + opts->video_rotate) % 360;
}
mp_colorspace_merge(&m.color, &c->color);
// Sanitize the HDR peak. Sadly necessary
if (!is_valid_peak(m.color.sig_peak)) {
MP_WARN(p, "Invalid HDR peak in stream: %f\n", m.color.sig_peak);
m.color.sig_peak = 0.0;
}
// Guess missing colorspace fields from metadata. This guarantees all
// fields are at least set to legal values afterwards.
mp_image_params_guess_csp(&m);
p->last_format = *params;
p->fixed_format = m;
}
void mp_decoder_wrapper_reset_params(struct mp_decoder_wrapper *d)
{
struct priv *p = d->f->priv;
p->last_format = (struct mp_image_params){0};
}
void mp_decoder_wrapper_get_video_dec_params(struct mp_decoder_wrapper *d,
struct mp_image_params *m)
{
struct priv *p = d->f->priv;
*m = p->dec_format;
}
// This code exists only because multimedia is so god damn crazy. In a sane
// world, the video decoder would always output a video frame with a valid PTS;
// this deals with cases where it doesn't.
static void crazy_video_pts_stuff(struct priv *p, struct mp_image *mpi)
{
// Note: the PTS is reordered, but the DTS is not. Both must be monotonic.
if (mpi->pts != MP_NOPTS_VALUE) {
if (mpi->pts < p->codec_pts)
p->num_codec_pts_problems++;
p->codec_pts = mpi->pts;
}
if (mpi->dts != MP_NOPTS_VALUE) {
if (mpi->dts <= p->codec_dts)
p->num_codec_dts_problems++;
p->codec_dts = mpi->dts;
}
if (p->has_broken_packet_pts < 0)
p->has_broken_packet_pts++;
if (p->num_codec_pts_problems)
p->has_broken_packet_pts = 1;
// If PTS is unset, or non-monotonic, fall back to DTS.
if ((p->num_codec_pts_problems > p->num_codec_dts_problems ||
mpi->pts == MP_NOPTS_VALUE) && mpi->dts != MP_NOPTS_VALUE)
mpi->pts = mpi->dts;
// Compensate for incorrectly using mpeg-style DTS for avi timestamps.
if (p->decoder && p->decoder->control && p->codec->avi_dts &&
mpi->pts != MP_NOPTS_VALUE && p->public.fps > 0)
{
int delay = -1;
p->decoder->control(p->decoder->f, VDCTRL_GET_BFRAMES, &delay);
mpi->pts -= MPMAX(delay, 0) / p->public.fps;
}
}
// Return true if the current frame is outside segment range.
static bool process_decoded_frame(struct priv *p, struct mp_frame *frame)
{
if (frame->type == MP_FRAME_EOF) {
// if we were just draining current segment, don't propagate EOF
if (p->new_segment)
mp_frame_unref(frame);
return true;
}
bool segment_ended = false;
if (frame->type == MP_FRAME_VIDEO) {
struct mp_image *mpi = frame->data;
crazy_video_pts_stuff(p, mpi);
struct demux_packet *ccpkt = new_demux_packet_from_buf(mpi->a53_cc);
if (ccpkt) {
av_buffer_unref(&mpi->a53_cc);
ccpkt->pts = mpi->pts;
ccpkt->dts = mpi->dts;
demuxer_feed_caption(p->header, ccpkt);
}
// Stop hr-seek logic.
if (mpi->pts == MP_NOPTS_VALUE || mpi->pts >= p->start_pts)
p->start_pts = MP_NOPTS_VALUE;
if (mpi->pts != MP_NOPTS_VALUE) {
segment_ended = p->end != MP_NOPTS_VALUE && mpi->pts >= p->end;
if ((p->start != MP_NOPTS_VALUE && mpi->pts < p->start) ||
segment_ended)
{
mp_frame_unref(frame);
goto done;
}
}
} else if (frame->type == MP_FRAME_AUDIO) {
struct mp_aframe *aframe = frame->data;
mp_aframe_clip_timestamps(aframe, p->start, p->end);
double pts = mp_aframe_get_pts(aframe);
if (pts != MP_NOPTS_VALUE && p->start != MP_NOPTS_VALUE)
segment_ended = pts >= p->end;
if (mp_aframe_get_size(aframe) == 0) {
mp_frame_unref(frame);
goto done;
}
} else {
MP_ERR(p, "unknown frame type from decoder\n");
}
done:
return segment_ended;
}
static void correct_video_pts(struct priv *p, struct mp_image *mpi)
{
struct MPOpts *opts = p->opt_cache->opts;
mpi->pts *= p->public.play_dir;
if (!opts->correct_pts || mpi->pts == MP_NOPTS_VALUE) {
double fps = p->public.fps > 0 ? p->public.fps : 25;
if (opts->correct_pts) {
if (p->has_broken_decoded_pts <= 1) {
MP_WARN(p, "No video PTS! Making something up. Using "
"%f FPS.\n", fps);
if (p->has_broken_decoded_pts == 1)
MP_WARN(p, "Ignoring further missing PTS warnings.\n");
p->has_broken_decoded_pts++;
}
}
double frame_time = 1.0f / fps;
double base = p->first_packet_pdts;
mpi->pts = p->pts;
if (mpi->pts == MP_NOPTS_VALUE) {
mpi->pts = base == MP_NOPTS_VALUE ? 0 : base;
} else {
mpi->pts += frame_time;
}
}
p->pts = mpi->pts;
}
static void correct_audio_pts(struct priv *p, struct mp_aframe *aframe)
{
double dir = p->public.play_dir;
double frame_pts = mp_aframe_get_pts(aframe);
double frame_len = mp_aframe_duration(aframe);
if (frame_pts != MP_NOPTS_VALUE) {
if (dir < 0)
frame_pts = -(frame_pts + frame_len);
if (p->pts != MP_NOPTS_VALUE)
MP_STATS(p, "value %f audio-pts-err", p->pts - frame_pts);
double diff = fabs(p->pts - frame_pts);
// Attempt to detect jumps in PTS. Even for the lowest sample rates and
// with worst container rounded timestamp, this should be a margin more
// than enough.
if (p->pts != MP_NOPTS_VALUE && diff > 0.1) {
MP_WARN(p, "Invalid audio PTS: %f -> %f\n", p->pts, frame_pts);
if (diff >= 5)
p->public.pts_reset = true;
}
// Keep the interpolated timestamp if it doesn't deviate more
// than 1 ms from the real one. (MKV rounded timestamps.)
if (p->pts == MP_NOPTS_VALUE || diff > 0.001)
p->pts = frame_pts;
}
if (p->pts == MP_NOPTS_VALUE && p->header->missing_timestamps)
p->pts = 0;
mp_aframe_set_pts(aframe, p->pts);
if (p->pts != MP_NOPTS_VALUE)
p->pts += frame_len;
}
static void process_output_frame(struct priv *p, struct mp_frame frame)
{
if (frame.type == MP_FRAME_VIDEO) {
struct mp_image *mpi = frame.data;
correct_video_pts(p, mpi);
if (!mp_image_params_equal(&p->last_format, &mpi->params))
fix_image_params(p, &mpi->params);
mpi->params = p->fixed_format;
mpi->nominal_fps = p->public.fps;
} else if (frame.type == MP_FRAME_AUDIO) {
struct mp_aframe *aframe = frame.data;
if (p->public.play_dir < 0 && !mp_aframe_reverse(aframe))
MP_ERR(p, "Couldn't reverse audio frame.\n");
correct_audio_pts(p, aframe);
}
}
void mp_decoder_wrapper_set_start_pts(struct mp_decoder_wrapper *d, double pts)
{
struct priv *p = d->f->priv;
p->start_pts = pts;
}
static bool is_new_segment(struct priv *p, struct mp_frame frame)
{
if (frame.type != MP_FRAME_PACKET)
return false;
struct demux_packet *pkt = frame.data;
return (pkt->segmented && (pkt->start != p->start || pkt->end != p->end ||
pkt->codec != p->codec)) ||
(p->public.play_dir < 0 && pkt->back_restart && p->packet_fed);
}
static void feed_packet(struct priv *p)
{
if (!p->decoder || !mp_pin_in_needs_data(p->decoder->f->pins[0]))
return;
if (p->decoded_coverart.type)
return;
if (!p->packet.type && !p->new_segment) {
p->packet = mp_pin_out_read(p->demux);
if (!p->packet.type)
return;
if (p->packet.type != MP_FRAME_EOF && p->packet.type != MP_FRAME_PACKET) {
MP_ERR(p, "invalid frame type from demuxer\n");
mp_frame_unref(&p->packet);
mp_filter_internal_mark_failed(p->f);
return;
}
}
if (!p->packet.type)
return;
// Flush current data if the packet is a new segment.
if (is_new_segment(p, p->packet)) {
assert(!p->new_segment);
p->new_segment = p->packet.data;
p->packet = MP_EOF_FRAME;
}
assert(p->packet.type == MP_FRAME_PACKET || p->packet.type == MP_FRAME_EOF);
struct demux_packet *packet =
p->packet.type == MP_FRAME_PACKET ? p->packet.data : NULL;
// For video framedropping, including parts of the hr-seek logic.
if (p->decoder->control) {
double start_pts = p->start_pts;
if (p->start != MP_NOPTS_VALUE && (start_pts == MP_NOPTS_VALUE ||
p->start > start_pts))
start_pts = p->start;
int framedrop_type = 0;
if (p->public.attempt_framedrops)
framedrop_type = 1;
if (start_pts != MP_NOPTS_VALUE && packet && p->public.play_dir > 0 &&
packet->pts < start_pts - .005 && !p->has_broken_packet_pts)
framedrop_type = 2;
p->decoder->control(p->decoder->f, VDCTRL_SET_FRAMEDROP, &framedrop_type);
}
if (p->public.recorder_sink)
mp_recorder_feed_packet(p->public.recorder_sink, packet);
double pkt_pts = packet ? packet->pts : MP_NOPTS_VALUE;
double pkt_dts = packet ? packet->dts : MP_NOPTS_VALUE;
if (pkt_pts == MP_NOPTS_VALUE)
p->has_broken_packet_pts = 1;
if (packet && packet->dts == MP_NOPTS_VALUE && !p->codec->avi_dts)
packet->dts = packet->pts;
double pkt_pdts = pkt_pts == MP_NOPTS_VALUE ? pkt_dts : pkt_pts;
if (p->first_packet_pdts == MP_NOPTS_VALUE)
p->first_packet_pdts = pkt_pdts;
if (packet && packet->back_preroll) {
p->preroll_discard = true;
packet->pts = packet->dts = MP_NOPTS_VALUE;
}
mp_pin_in_write(p->decoder->f->pins[0], p->packet);
p->packet_fed = true;
p->packet = MP_NO_FRAME;
p->packets_without_output += 1;
}
static void enqueue_backward_frame(struct priv *p, struct mp_frame frame)
{
bool eof = frame.type == MP_FRAME_EOF;
if (!eof) {
struct MPOpts *opts = p->opt_cache->opts;
uint64_t queue_size = 0;
switch (p->header->type) {
case STREAM_VIDEO: queue_size = opts->video_reverse_size; break;
case STREAM_AUDIO: queue_size = opts->audio_reverse_size; break;
}
if (p->reverse_queue_byte_size >= queue_size) {
MP_ERR(p, "Reversal queue overflow, discarding frame.\n");
mp_frame_unref(&frame);
return;
}
p->reverse_queue_byte_size += mp_frame_approx_size(frame);
}
// Note: EOF (really BOF) is propagated, but not reversed.
MP_TARRAY_INSERT_AT(p, p->reverse_queue, p->num_reverse_queue,
eof ? 0 : p->num_reverse_queue, frame);
p->reverse_queue_complete = eof;
}
static void read_frame(struct priv *p)
{
struct mp_pin *pin = p->f->ppins[0];
struct mp_frame frame = {0};
if (!p->decoder || !mp_pin_in_needs_data(pin))
return;
if (p->decoded_coverart.type) {
if (p->coverart_returned == 0) {
mp_pin_in_write(pin, mp_frame_ref(p->decoded_coverart));
p->coverart_returned = 1;
} else if (p->coverart_returned == 1) {
mp_pin_in_write(pin, MP_EOF_FRAME);
p->coverart_returned = 2;
}
return;
}
if (p->reverse_queue_complete && p->num_reverse_queue) {
frame = p->reverse_queue[p->num_reverse_queue - 1];
p->num_reverse_queue -= 1;
goto output_frame;
}
p->reverse_queue_complete = false;
frame = mp_pin_out_read(p->decoder->f->pins[1]);
if (!frame.type)
return;
if (p->header->attached_picture && frame.type == MP_FRAME_VIDEO) {
p->decoded_coverart = frame;
mp_filter_internal_mark_progress(p->f);
return;
}
if (p->public.attempt_framedrops) {
int dropped = MPMAX(0, p->packets_without_output - 1);
p->public.attempt_framedrops =
MPMAX(0, p->public.attempt_framedrops - dropped);
p->public.dropped_frames += dropped;
}
p->packets_without_output = 0;
if (p->preroll_discard && frame.type != MP_FRAME_EOF) {
double ts = mp_frame_get_pts(frame);
if (ts == MP_NOPTS_VALUE) {
mp_frame_unref(&frame);
mp_filter_internal_mark_progress(p->f);
return;
}
p->preroll_discard = false;
}
bool segment_ended = process_decoded_frame(p, &frame);
if (p->public.play_dir < 0 && frame.type) {
enqueue_backward_frame(p, frame);
frame = MP_NO_FRAME;
}
// If there's a new segment, start it as soon as we're drained/finished.
if (segment_ended && p->new_segment) {
struct demux_packet *new_segment = p->new_segment;
p->new_segment = NULL;
reset_decoder(p);
if (new_segment->segmented) {
if (p->codec != new_segment->codec) {
p->codec = new_segment->codec;
if (!mp_decoder_wrapper_reinit(&p->public))
mp_filter_internal_mark_failed(p->f);
}
p->start = new_segment->start;
p->end = new_segment->end;
}
p->reverse_queue_byte_size = 0;
p->reverse_queue_complete = p->num_reverse_queue > 0;
p->packet = MAKE_FRAME(MP_FRAME_PACKET, new_segment);
mp_filter_internal_mark_progress(p->f);
}
if (!frame.type) {
mp_filter_internal_mark_progress(p->f); // make it retry
return;
}
output_frame:
process_output_frame(p, frame);
mp_pin_in_write(pin, frame);
}
static void process(struct mp_filter *f)
{
struct priv *p = f->priv;
m_config_cache_update(p->opt_cache);
feed_packet(p);
read_frame(p);
}
static const struct mp_filter_info decode_wrapper_filter = {
.name = "decode",
.priv_size = sizeof(struct priv),
.process = process,
.reset = reset,
.destroy = destroy,
};
struct mp_decoder_wrapper *mp_decoder_wrapper_create(struct mp_filter *parent,
struct sh_stream *src)
{
struct mp_filter *f = mp_filter_create(parent, &decode_wrapper_filter);
if (!f)
return NULL;
struct priv *p = f->priv;
struct mp_decoder_wrapper *w = &p->public;
p->opt_cache = m_config_cache_alloc(p, f->global, GLOBAL_CONFIG);
p->log = f->log;
p->f = f;
p->header = src;
p->codec = p->header->codec;
w->f = f;
w->play_dir = 1;
struct MPOpts *opts = p->opt_cache->opts;
mp_filter_add_pin(f, MP_PIN_OUT, "out");
if (p->header->type == STREAM_VIDEO) {
p->log = f->log = mp_log_new(f, parent->log, "!vd");
p->public.fps = src->codec->fps;
MP_VERBOSE(p, "Container reported FPS: %f\n", p->public.fps);
if (opts->force_fps) {
p->public.fps = opts->force_fps;
MP_INFO(p, "FPS forced to %5.3f.\n", p->public.fps);
MP_INFO(p, "Use --no-correct-pts to force FPS based timing.\n");
}
} else if (p->header->type == STREAM_AUDIO) {
p->log = f->log = mp_log_new(f, parent->log, "!ad");
}
struct mp_filter *demux = mp_demux_in_create(f, p->header);
if (!demux)
goto error;
p->demux = demux->pins[0];
reset(f);
return w;
error:
talloc_free(f);
return NULL;
}
void lavc_process(struct mp_filter *f, bool *eof_flag,
bool (*send)(struct mp_filter *f, struct demux_packet *pkt),
bool (*receive)(struct mp_filter *f, struct mp_frame *res))
{
if (!mp_pin_in_needs_data(f->ppins[1]))
return;
struct mp_frame frame = {0};
if (!receive(f, &frame)) {
if (!*eof_flag)
mp_pin_in_write(f->ppins[1], MP_EOF_FRAME);
*eof_flag = true;
} else if (frame.type) {
*eof_flag = false;
mp_pin_in_write(f->ppins[1], frame);
} else {
// Need to feed a packet.
frame = mp_pin_out_read(f->ppins[0]);
struct demux_packet *pkt = NULL;
if (frame.type == MP_FRAME_PACKET) {
pkt = frame.data;
} else if (frame.type != MP_FRAME_EOF) {
if (frame.type) {
MP_ERR(f, "unexpected frame type\n");
mp_frame_unref(&frame);
mp_filter_internal_mark_failed(f);
}
return;
}
if (!send(f, pkt)) {
// Should never happen, but can happen with broken decoders.
MP_WARN(f, "could not consume packet\n");
mp_pin_out_unread(f->ppins[0], frame);
mp_filter_wakeup(f);
return;
}
talloc_free(pkt);
mp_filter_internal_mark_progress(f);
}
}
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