/*
- Copyright (C) 2013 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2013-2014 Carl Hetherington <cth@carlh.net>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
#include "film.h"
#include "ffmpeg_decoder.h"
#include "ffmpeg_content.h"
-#include "still_image_decoder.h"
-#include "still_image_content.h"
+#include "image_decoder.h"
+#include "image_content.h"
#include "sndfile_decoder.h"
#include "sndfile_content.h"
#include "subtitle_content.h"
#include "playlist.h"
#include "job.h"
#include "image.h"
+#include "image_proxy.h"
#include "ratio.h"
#include "resampler.h"
+#include "log.h"
#include "scaler.h"
+#include "player_video_frame.h"
+#include "frame_rate_change.h"
+
+#define LOG_GENERAL(...) _film->log()->log (String::compose (__VA_ARGS__), Log::TYPE_GENERAL);
using std::list;
using std::cout;
using boost::weak_ptr;
using boost::dynamic_pointer_cast;
-//#define DEBUG_PLAYER 1
-
-class Piece
-{
-public:
- Piece (shared_ptr<Content> c)
- : content (c)
- , video_position (c->start ())
- , audio_position (c->start ())
- {}
-
- Piece (shared_ptr<Content> c, shared_ptr<Decoder> d)
- : content (c)
- , decoder (d)
- , video_position (c->start ())
- , audio_position (c->start ())
- {}
-
- shared_ptr<Content> content;
- shared_ptr<Decoder> decoder;
- Time video_position;
- Time audio_position;
-};
-
-#ifdef DEBUG_PLAYER
-std::ostream& operator<<(std::ostream& s, Piece const & p)
-{
- if (dynamic_pointer_cast<FFmpegContent> (p.content)) {
- s << "\tffmpeg ";
- } else if (dynamic_pointer_cast<StillImageContent> (p.content)) {
- s << "\tstill image";
- } else if (dynamic_pointer_cast<SndfileContent> (p.content)) {
- s << "\tsndfile ";
- }
-
- s << " at " << p.content->start() << " until " << p.content->end();
-
- return s;
-}
-#endif
-
Player::Player (shared_ptr<const Film> f, shared_ptr<const Playlist> p)
: _film (f)
, _playlist (p)
, _have_valid_pieces (false)
, _video_position (0)
, _audio_position (0)
- , _audio_buffers (f->dcp_audio_channels(), 0)
+ , _audio_merger (f->audio_channels(), bind (&Film::time_to_audio_frames, f.get(), _1), bind (&Film::audio_frames_to_time, f.get(), _1))
+ , _last_emit_was_black (false)
{
- _playlist->Changed.connect (bind (&Player::playlist_changed, this));
- _playlist->ContentChanged.connect (bind (&Player::content_changed, this, _1, _2, _3));
- _film->Changed.connect (bind (&Player::film_changed, this, _1));
- set_video_container_size (_film->container()->size (_film->full_frame ()));
+ _playlist_changed_connection = _playlist->Changed.connect (bind (&Player::playlist_changed, this));
+ _playlist_content_changed_connection = _playlist->ContentChanged.connect (bind (&Player::content_changed, this, _1, _2, _3));
+ _film_changed_connection = _film->Changed.connect (bind (&Player::film_changed, this, _1));
+ set_video_container_size (_film->frame_size ());
}
void
{
if (!_have_valid_pieces) {
setup_pieces ();
- _have_valid_pieces = true;
}
-#ifdef DEBUG_PLAYER
- cout << "= PASS\n";
-#endif
-
Time earliest_t = TIME_MAX;
shared_ptr<Piece> earliest;
enum {
} type = VIDEO;
for (list<shared_ptr<Piece> >::iterator i = _pieces.begin(); i != _pieces.end(); ++i) {
- if ((*i)->decoder->done ()) {
+ if ((*i)->decoder->done () || (*i)->content->length_after_trim() == 0) {
continue;
}
- if (_video && dynamic_pointer_cast<VideoDecoder> ((*i)->decoder)) {
+ shared_ptr<VideoDecoder> vd = dynamic_pointer_cast<VideoDecoder> ((*i)->decoder);
+ shared_ptr<AudioDecoder> ad = dynamic_pointer_cast<AudioDecoder> ((*i)->decoder);
+
+ if (_video && vd) {
if ((*i)->video_position < earliest_t) {
earliest_t = (*i)->video_position;
earliest = *i;
}
}
- if (_audio && dynamic_pointer_cast<AudioDecoder> ((*i)->decoder)) {
+ if (_audio && ad && ad->has_audio ()) {
if ((*i)->audio_position < earliest_t) {
earliest_t = (*i)->audio_position;
earliest = *i;
}
if (!earliest) {
-#ifdef DEBUG_PLAYER
- cout << "no earliest piece.\n";
-#endif
-
flush ();
return true;
}
switch (type) {
case VIDEO:
if (earliest_t > _video_position) {
-#ifdef DEBUG_PLAYER
- cout << "no video here; emitting black frame (earliest=" << earliest_t << ", video_position=" << _video_position << ").\n";
-#endif
emit_black ();
} else {
-#ifdef DEBUG_PLAYER
- cout << "Pass " << *earliest << "\n";
-#endif
- earliest->decoder->pass ();
+ if (earliest->repeating ()) {
+ earliest->repeat (this);
+ } else {
+ earliest->decoder->pass ();
+ }
}
break;
case AUDIO:
if (earliest_t > _audio_position) {
-#ifdef DEBUG_PLAYER
- cout << "no audio here; emitting silence.\n";
-#endif
emit_silence (_film->time_to_audio_frames (earliest_t - _audio_position));
} else {
-#ifdef DEBUG_PLAYER
- cout << "Pass " << *earliest << "\n";
-#endif
earliest->decoder->pass ();
+
+ if (earliest->decoder->done()) {
+ shared_ptr<AudioContent> ac = dynamic_pointer_cast<AudioContent> (earliest->content);
+ assert (ac);
+ shared_ptr<Resampler> re = resampler (ac, false);
+ if (re) {
+ shared_ptr<const AudioBuffers> b = re->flush ();
+ if (b->frames ()) {
+ process_audio (
+ earliest,
+ b,
+ ac->audio_length() * ac->output_audio_frame_rate() / ac->content_audio_frame_rate(),
+ true
+ );
+ }
+ }
+ }
}
break;
}
-#ifdef DEBUG_PLAYER
- cout << "\tpost pass " << _video_position << " " << _audio_position << "\n";
-#endif
+ if (_audio) {
+ boost::optional<Time> audio_done_up_to;
+ for (list<shared_ptr<Piece> >::iterator i = _pieces.begin(); i != _pieces.end(); ++i) {
+ if ((*i)->decoder->done ()) {
+ continue;
+ }
+
+ shared_ptr<AudioDecoder> ad = dynamic_pointer_cast<AudioDecoder> ((*i)->decoder);
+ if (ad && ad->has_audio ()) {
+ audio_done_up_to = min (audio_done_up_to.get_value_or (TIME_MAX), (*i)->audio_position);
+ }
+ }
+ if (audio_done_up_to) {
+ TimedAudioBuffers<Time> tb = _audio_merger.pull (audio_done_up_to.get ());
+ Audio (tb.audio, tb.time);
+ _audio_position += _film->audio_frames_to_time (tb.audio->frames ());
+ }
+ }
+
return false;
}
+/** @param extra Amount of extra time to add to the content frame's time (for repeat) */
void
-Player::process_video (weak_ptr<Piece> weak_piece, shared_ptr<const Image> image, Eyes eyes, bool same, VideoContent::Frame frame)
+Player::process_video (weak_ptr<Piece> weak_piece, shared_ptr<const ImageProxy> image, Eyes eyes, Part part, bool same, VideoContent::Frame frame, Time extra)
{
+ /* Keep a note of what came in so that we can repeat it if required */
+ _last_incoming_video.weak_piece = weak_piece;
+ _last_incoming_video.image = image;
+ _last_incoming_video.eyes = eyes;
+ _last_incoming_video.part = part;
+ _last_incoming_video.same = same;
+ _last_incoming_video.frame = frame;
+ _last_incoming_video.extra = extra;
+
shared_ptr<Piece> piece = weak_piece.lock ();
if (!piece) {
return;
shared_ptr<VideoContent> content = dynamic_pointer_cast<VideoContent> (piece->content);
assert (content);
- FrameRateConversion frc (content->video_frame_rate(), _film->dcp_video_frame_rate());
+ FrameRateChange frc (content->video_frame_rate(), _film->video_frame_rate());
if (frc.skip && (frame % 2) == 1) {
return;
}
- shared_ptr<Image> work_image = image->crop (content->crop(), true);
-
- libdcp::Size const image_size = content->ratio()->size (_video_container_size);
-
- work_image = work_image->scale_and_convert_to_rgb (image_size, _film->scaler(), true);
+ Time const relative_time = (frame * frc.factor() * TIME_HZ / _film->video_frame_rate());
+ if (content->trimmed (relative_time)) {
+ return;
+ }
- Time time = content->start() + (frame * frc.factor() * TIME_HZ / _film->dcp_video_frame_rate());
+ Time const time = content->position() + relative_time + extra - content->trim_start ();
+ libdcp::Size const image_size = content->scale().size (content, _video_container_size, _film->frame_size ());
+
+ shared_ptr<PlayerVideoFrame> pi (
+ new PlayerVideoFrame (
+ image,
+ content->crop(),
+ image_size,
+ _video_container_size,
+ _film->scaler(),
+ eyes,
+ part,
+ content->colour_conversion()
+ )
+ );
- if (_film->with_subtitles () && _out_subtitle.image && time >= _out_subtitle.from && time <= _out_subtitle.to) {
- work_image->alpha_blend (_out_subtitle.image, _out_subtitle.position);
+ if (_film->with_subtitles ()) {
+ for (list<Subtitle>::const_iterator i = _subtitles.begin(); i != _subtitles.end(); ++i) {
+ if (i->covers (time)) {
+ /* This may be true for more than one of _subtitles, but the last (latest-starting)
+ one is the one we want to use, so that's ok.
+ */
+ Position<int> const container_offset (
+ (_video_container_size.width - image_size.width) / 2,
+ (_video_container_size.height - image_size.width) / 2
+ );
+
+ pi->set_subtitle (i->out_image(), i->out_position() + container_offset);
+ }
+ }
}
- if (image_size != _video_container_size) {
- assert (image_size.width <= _video_container_size.width);
- assert (image_size.height <= _video_container_size.height);
- shared_ptr<Image> im (new Image (PIX_FMT_RGB24, _video_container_size, true));
- im->make_black ();
- im->copy (work_image, Position<int> ((_video_container_size.width - image_size.width) / 2, (_video_container_size.height - image_size.height) / 2));
- work_image = im;
+ /* Clear out old subtitles */
+ for (list<Subtitle>::iterator i = _subtitles.begin(); i != _subtitles.end(); ) {
+ list<Subtitle>::iterator j = i;
+ ++j;
+
+ if (i->ends_before (time)) {
+ _subtitles.erase (i);
+ }
+
+ i = j;
}
#ifdef DCPOMATIC_DEBUG
_last_video = piece->content;
-#endif
+#endif
- Video (work_image, eyes, same, time);
- time += TIME_HZ / _film->dcp_video_frame_rate();
+ Video (pi, same, time);
- if (frc.repeat) {
- Video (work_image, eyes, true, time);
- time += TIME_HZ / _film->dcp_video_frame_rate();
- }
+ _last_emit_was_black = false;
+ _video_position = piece->video_position = (time + TIME_HZ / _film->video_frame_rate());
- _video_position = piece->video_position = time;
+ if (frc.repeat > 1 && !piece->repeating ()) {
+ piece->set_repeat (_last_incoming_video, frc.repeat - 1);
+ }
}
+/** @param already_resampled true if this data has already been through the chain up to the resampler */
void
-Player::process_audio (weak_ptr<Piece> weak_piece, shared_ptr<const AudioBuffers> audio, AudioContent::Frame frame)
+Player::process_audio (weak_ptr<Piece> weak_piece, shared_ptr<const AudioBuffers> audio, AudioContent::Frame frame, bool already_resampled)
{
shared_ptr<Piece> piece = weak_piece.lock ();
if (!piece) {
shared_ptr<AudioContent> content = dynamic_pointer_cast<AudioContent> (piece->content);
assert (content);
- /* Resample */
- if (content->content_audio_frame_rate() != content->output_audio_frame_rate()) {
- shared_ptr<Resampler> r = resampler (content);
- audio = r->run (audio);
+ if (!already_resampled) {
+ /* Gain */
+ if (content->audio_gain() != 0) {
+ shared_ptr<AudioBuffers> gain (new AudioBuffers (audio));
+ gain->apply_gain (content->audio_gain ());
+ audio = gain;
+ }
+
+ /* Resample */
+ if (content->content_audio_frame_rate() != content->output_audio_frame_rate()) {
+ shared_ptr<Resampler> r = resampler (content, true);
+ pair<shared_ptr<const AudioBuffers>, AudioContent::Frame> ro = r->run (audio, frame);
+ audio = ro.first;
+ frame = ro.second;
+ }
}
+
+ Time const relative_time = _film->audio_frames_to_time (frame);
+ if (content->trimmed (relative_time)) {
+ return;
+ }
+
+ Time time = content->position() + (content->audio_delay() * TIME_HZ / 1000) + relative_time - content->trim_start ();
+
/* Remap channels */
- shared_ptr<AudioBuffers> dcp_mapped (new AudioBuffers (_film->dcp_audio_channels(), audio->frames()));
+ shared_ptr<AudioBuffers> dcp_mapped (new AudioBuffers (_film->audio_channels(), audio->frames()));
dcp_mapped->make_silent ();
- list<pair<int, libdcp::Channel> > map = content->audio_mapping().content_to_dcp ();
- for (list<pair<int, libdcp::Channel> >::iterator i = map.begin(); i != map.end(); ++i) {
- if (i->first < audio->channels() && i->second < dcp_mapped->channels()) {
- dcp_mapped->accumulate_channel (audio.get(), i->first, i->second);
+
+ AudioMapping map = content->audio_mapping ();
+ for (int i = 0; i < map.content_channels(); ++i) {
+ for (int j = 0; j < _film->audio_channels(); ++j) {
+ if (map.get (i, static_cast<libdcp::Channel> (j)) > 0) {
+ dcp_mapped->accumulate_channel (
+ audio.get(),
+ i,
+ static_cast<libdcp::Channel> (j),
+ map.get (i, static_cast<libdcp::Channel> (j))
+ );
+ }
}
}
audio = dcp_mapped;
- Time time = content->start() + (frame * TIME_HZ / _film->dcp_audio_frame_rate()) + (content->audio_delay() * TIME_HZ / 1000);
-
/* We must cut off anything that comes before the start of all time */
if (time < 0) {
- int const frames = - time * _film->dcp_audio_frame_rate() / TIME_HZ;
+ int const frames = - time * _film->audio_frame_rate() / TIME_HZ;
if (frames >= audio->frames ()) {
return;
}
time = 0;
}
- /* The time of this audio may indicate that some of our buffered audio is not going to
- be added to any more, so it can be emitted.
- */
-
- if (time > _audio_position) {
- /* We can emit some audio from our buffers */
- OutputAudioFrame const N = _film->time_to_audio_frames (time - _audio_position);
- if (N > _audio_buffers.frames()) {
- /* We need some extra silence before whatever is in the buffers */
- _audio_buffers.ensure_size (N);
- _audio_buffers.move (0, N - _audio_buffers.frames(), _audio_buffers.frames ());
- _audio_buffers.make_silent (0, _audio_buffers.frames());
- _audio_buffers.set_frames (N);
- }
- assert (N <= _audio_buffers.frames());
- shared_ptr<AudioBuffers> emit (new AudioBuffers (_audio_buffers.channels(), N));
- emit->copy_from (&_audio_buffers, N, 0, 0);
- Audio (emit, _audio_position);
- _audio_position = piece->audio_position = time + _film->audio_frames_to_time (N);
-
- /* And remove it from our buffers */
- if (_audio_buffers.frames() > N) {
- _audio_buffers.move (N, 0, _audio_buffers.frames() - N);
- }
- _audio_buffers.set_frames (_audio_buffers.frames() - N);
- }
-
- /* Now accumulate the new audio into our buffers */
- _audio_buffers.ensure_size (_audio_buffers.frames() + audio->frames());
- _audio_buffers.accumulate_frames (audio.get(), 0, 0, audio->frames ());
- _audio_buffers.set_frames (_audio_buffers.frames() + audio->frames());
+ _audio_merger.push (audio, time);
+ piece->audio_position += _film->audio_frames_to_time (audio->frames ());
}
void
Player::flush ()
{
- if (_audio_buffers.frames() > 0) {
- shared_ptr<AudioBuffers> emit (new AudioBuffers (_audio_buffers.channels(), _audio_buffers.frames()));
- emit->copy_from (&_audio_buffers, _audio_buffers.frames(), 0, 0);
- Audio (emit, _audio_position);
- _audio_position += _film->audio_frames_to_time (_audio_buffers.frames ());
- _audio_buffers.set_frames (0);
+ TimedAudioBuffers<Time> tb = _audio_merger.flush ();
+ if (_audio && tb.audio) {
+ Audio (tb.audio, tb.time);
+ _audio_position += _film->audio_frames_to_time (tb.audio->frames ());
}
- while (_video_position < _audio_position) {
+ while (_video && _video_position < _audio_position) {
emit_black ();
}
- while (_audio_position < _video_position) {
+ while (_audio && _audio_position < _video_position) {
emit_silence (_film->time_to_audio_frames (_video_position - _audio_position));
}
{
if (!_have_valid_pieces) {
setup_pieces ();
- _have_valid_pieces = true;
}
if (_pieces.empty ()) {
if (!vc) {
continue;
}
-
- Time s = t - vc->start ();
+
+ /* s is the offset of t from the start position of this content */
+ Time s = t - vc->position ();
s = max (static_cast<Time> (0), s);
- s = min (vc->length(), s);
+ s = min (vc->length_after_trim(), s);
- (*i)->video_position = (*i)->audio_position = vc->start() + s;
+ /* Hence set the piece positions to the `global' time */
+ (*i)->video_position = (*i)->audio_position = vc->position() + s;
- FrameRateConversion frc (vc->video_frame_rate(), _film->dcp_video_frame_rate());
- /* Here we are converting from time (in the DCP) to a frame number in the content.
- Hence we need to use the DCP's frame rate and the double/skip correction, not
- the source's rate.
- */
- VideoContent::Frame f = s * _film->dcp_video_frame_rate() / (frc.factor() * TIME_HZ);
- dynamic_pointer_cast<VideoDecoder>((*i)->decoder)->seek (f, accurate);
+ /* And seek the decoder */
+ dynamic_pointer_cast<VideoDecoder>((*i)->decoder)->seek (
+ vc->time_to_content_video_frames (s + vc->trim_start ()), accurate
+ );
+
+ (*i)->reset_repeat ();
}
_video_position = _audio_position = t;
-
+
/* XXX: don't seek audio because we don't need to... */
}
for (ContentList::iterator i = content.begin(); i != content.end(); ++i) {
+ if (!(*i)->paths_valid ()) {
+ continue;
+ }
+
shared_ptr<Piece> piece (new Piece (*i));
/* XXX: into content? */
if (fc) {
shared_ptr<FFmpegDecoder> fd (new FFmpegDecoder (_film, fc, _video, _audio));
- fd->Video.connect (bind (&Player::process_video, this, piece, _1, _2, _3, _4));
- fd->Audio.connect (bind (&Player::process_audio, this, piece, _1, _2));
- fd->Subtitle.connect (bind (&Player::process_subtitle, this, piece, _1, _2, _3, _4));
+ fd->Video.connect (bind (&Player::process_video, this, weak_ptr<Piece> (piece), _1, _2, _3, _4, _5, 0));
+ fd->Audio.connect (bind (&Player::process_audio, this, weak_ptr<Piece> (piece), _1, _2, false));
+ fd->Subtitle.connect (bind (&Player::process_subtitle, this, weak_ptr<Piece> (piece), _1, _2, _3, _4));
+ fd->seek (fc->time_to_content_video_frames (fc->trim_start ()), true);
piece->decoder = fd;
}
- shared_ptr<const StillImageContent> ic = dynamic_pointer_cast<const StillImageContent> (*i);
+ shared_ptr<const ImageContent> ic = dynamic_pointer_cast<const ImageContent> (*i);
if (ic) {
- shared_ptr<StillImageDecoder> id;
+ bool reusing = false;
- /* See if we can re-use an old StillImageDecoder */
+ /* See if we can re-use an old ImageDecoder */
for (list<shared_ptr<Piece> >::const_iterator j = old_pieces.begin(); j != old_pieces.end(); ++j) {
- shared_ptr<StillImageDecoder> imd = dynamic_pointer_cast<StillImageDecoder> ((*j)->decoder);
+ shared_ptr<ImageDecoder> imd = dynamic_pointer_cast<ImageDecoder> ((*j)->decoder);
if (imd && imd->content() == ic) {
- id = imd;
+ piece = *j;
+ reusing = true;
}
}
- if (!id) {
- id.reset (new StillImageDecoder (_film, ic));
- id->Video.connect (bind (&Player::process_video, this, piece, _1, _2, _3, _4));
+ if (!reusing) {
+ shared_ptr<ImageDecoder> id (new ImageDecoder (_film, ic));
+ id->Video.connect (bind (&Player::process_video, this, weak_ptr<Piece> (piece), _1, _2, _3, _4, _5, 0));
+ piece->decoder = id;
}
-
- piece->decoder = id;
}
shared_ptr<const SndfileContent> sc = dynamic_pointer_cast<const SndfileContent> (*i);
if (sc) {
shared_ptr<AudioDecoder> sd (new SndfileDecoder (_film, sc));
- sd->Audio.connect (bind (&Player::process_audio, this, piece, _1, _2));
+ sd->Audio.connect (bind (&Player::process_audio, this, weak_ptr<Piece> (piece), _1, _2, false));
piece->decoder = sd;
}
_pieces.push_back (piece);
}
-#ifdef DEBUG_PLAYER
- cout << "=== Player setup:\n";
- for (list<shared_ptr<Piece> >::iterator i = _pieces.begin(); i != _pieces.end(); ++i) {
- cout << *(i->get()) << "\n";
- }
-#endif
+ _have_valid_pieces = true;
}
void
}
if (
- property == ContentProperty::START || property == ContentProperty::LENGTH ||
- property == VideoContentProperty::VIDEO_CROP || property == VideoContentProperty::VIDEO_RATIO
+ property == ContentProperty::POSITION || property == ContentProperty::LENGTH ||
+ property == ContentProperty::TRIM_START || property == ContentProperty::TRIM_END ||
+ property == VideoContentProperty::VIDEO_FRAME_TYPE
) {
_have_valid_pieces = false;
Changed (frequent);
- } else if (property == SubtitleContentProperty::SUBTITLE_OFFSET || property == SubtitleContentProperty::SUBTITLE_SCALE) {
- update_subtitle ();
+ } else if (
+ property == SubtitleContentProperty::SUBTITLE_X_OFFSET ||
+ property == SubtitleContentProperty::SUBTITLE_Y_OFFSET ||
+ property == SubtitleContentProperty::SUBTITLE_SCALE
+ ) {
+
+ for (list<Subtitle>::iterator i = _subtitles.begin(); i != _subtitles.end(); ++i) {
+ i->update (_film, _video_container_size);
+ }
+
Changed (frequent);
- } else if (property == VideoContentProperty::VIDEO_FRAME_TYPE) {
- cout << "vft change.\n";
+
+ } else if (
+ property == VideoContentProperty::VIDEO_CROP || property == VideoContentProperty::VIDEO_SCALE ||
+ property == VideoContentProperty::VIDEO_FRAME_RATE
+ ) {
+
+ Changed (frequent);
+
+ } else if (property == ContentProperty::PATH) {
+
+ _have_valid_pieces = false;
Changed (frequent);
}
}
Player::set_video_container_size (libdcp::Size s)
{
_video_container_size = s;
- _black_frame.reset (new Image (PIX_FMT_RGB24, _video_container_size, true));
- _black_frame->make_black ();
+
+ shared_ptr<Image> im (new Image (PIX_FMT_RGB24, _video_container_size, true));
+ im->make_black ();
+
+ _black_frame.reset (
+ new PlayerVideoFrame (
+ shared_ptr<ImageProxy> (new RawImageProxy (im, _film->log ())),
+ Crop(),
+ _video_container_size,
+ _video_container_size,
+ Scaler::from_id ("bicubic"),
+ EYES_BOTH,
+ PART_WHOLE,
+ ColourConversion ()
+ )
+ );
}
shared_ptr<Resampler>
-Player::resampler (shared_ptr<AudioContent> c)
+Player::resampler (shared_ptr<AudioContent> c, bool create)
{
map<shared_ptr<AudioContent>, shared_ptr<Resampler> >::iterator i = _resamplers.find (c);
if (i != _resamplers.end ()) {
return i->second;
}
-
+
+ if (!create) {
+ return shared_ptr<Resampler> ();
+ }
+
+ LOG_GENERAL (
+ "Creating new resampler for %1 to %2 with %3 channels", c->content_audio_frame_rate(), c->output_audio_frame_rate(), c->audio_channels()
+ );
+
shared_ptr<Resampler> r (new Resampler (c->content_audio_frame_rate(), c->output_audio_frame_rate(), c->audio_channels()));
_resamplers[c] = r;
return r;
#ifdef DCPOMATIC_DEBUG
_last_video.reset ();
#endif
-
- /* XXX: use same here */
- Video (_black_frame, EYES_BOTH, false, _video_position);
+
+ Video (_black_frame, _last_emit_was_black, _video_position);
_video_position += _film->video_frames_to_time (1);
+ _last_emit_was_black = true;
}
void
Player::emit_silence (OutputAudioFrame most)
{
- OutputAudioFrame N = min (most, _film->dcp_audio_frame_rate() / 2);
- shared_ptr<AudioBuffers> silence (new AudioBuffers (_film->dcp_audio_channels(), N));
+ if (most == 0) {
+ return;
+ }
+
+ OutputAudioFrame N = min (most, _film->audio_frame_rate() / 2);
+ shared_ptr<AudioBuffers> silence (new AudioBuffers (_film->audio_channels(), N));
silence->make_silent ();
Audio (silence, _audio_position);
_audio_position += _film->audio_frames_to_time (N);
last time we were run.
*/
- if (p == Film::SCALER || p == Film::WITH_SUBTITLES || p == Film::CONTAINER) {
+ if (p == Film::SCALER || p == Film::WITH_SUBTITLES || p == Film::CONTAINER || p == Film::VIDEO_FRAME_RATE) {
Changed (false);
}
}
void
Player::process_subtitle (weak_ptr<Piece> weak_piece, shared_ptr<Image> image, dcpomatic::Rect<double> rect, Time from, Time to)
{
- _in_subtitle.piece = weak_piece;
- _in_subtitle.image = image;
- _in_subtitle.rect = rect;
- _in_subtitle.from = from;
- _in_subtitle.to = to;
-
- update_subtitle ();
+ if (!image) {
+ /* A null image means that we should stop any current subtitles at `from' */
+ for (list<Subtitle>::iterator i = _subtitles.begin(); i != _subtitles.end(); ++i) {
+ i->set_stop (from);
+ }
+ } else {
+ _subtitles.push_back (Subtitle (_film, _video_container_size, weak_piece, image, rect, from, to));
+ }
}
-void
-Player::update_subtitle ()
+/** Re-emit the last frame that was emitted, using current settings for crop, ratio, scaler and subtitles.
+ * @return false if this could not be done.
+ */
+bool
+Player::repeat_last_video ()
{
- shared_ptr<Piece> piece = _in_subtitle.piece.lock ();
- if (!piece) {
- return;
- }
-
- if (!_in_subtitle.image) {
- _out_subtitle.image.reset ();
- return;
+ if (!_last_incoming_video.image || !_have_valid_pieces) {
+ return false;
}
- shared_ptr<SubtitleContent> sc = dynamic_pointer_cast<SubtitleContent> (piece->content);
- assert (sc);
-
- dcpomatic::Rect<double> in_rect = _in_subtitle.rect;
- libdcp::Size scaled_size;
-
- in_rect.y += sc->subtitle_offset ();
-
- /* We will scale the subtitle up to fit _video_container_size, and also by the additional subtitle_scale */
- scaled_size.width = in_rect.width * _video_container_size.width * sc->subtitle_scale ();
- scaled_size.height = in_rect.height * _video_container_size.height * sc->subtitle_scale ();
-
- /* Then we need a corrective translation, consisting of two parts:
- *
- * 1. that which is the result of the scaling of the subtitle by _video_container_size; this will be
- * rect.x * _video_container_size.width and rect.y * _video_container_size.height.
- *
- * 2. that to shift the origin of the scale by subtitle_scale to the centre of the subtitle; this will be
- * (width_before_subtitle_scale * (1 - subtitle_scale) / 2) and
- * (height_before_subtitle_scale * (1 - subtitle_scale) / 2).
- *
- * Combining these two translations gives these expressions.
- */
-
- _out_subtitle.position.x = rint (_video_container_size.width * (in_rect.x + (in_rect.width * (1 - sc->subtitle_scale ()) / 2)));
- _out_subtitle.position.y = rint (_video_container_size.height * (in_rect.y + (in_rect.height * (1 - sc->subtitle_scale ()) / 2)));
-
- _out_subtitle.image = _in_subtitle.image->scale (libdcp::Size (scaled_size.width, scaled_size.height), Scaler::from_id ("bicubic"), true);
- _out_subtitle.from = _in_subtitle.from + piece->content->start ();
- _out_subtitle.to = _in_subtitle.to + piece->content->start ();
+ process_video (
+ _last_incoming_video.weak_piece,
+ _last_incoming_video.image,
+ _last_incoming_video.eyes,
+ _last_incoming_video.part,
+ _last_incoming_video.same,
+ _last_incoming_video.frame,
+ _last_incoming_video.extra
+ );
+
+ return true;
}