scummvm/video/video_decoder.cpp

867 lines
23 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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 the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "video/video_decoder.h"
#include "audio/audiostream.h"
#include "audio/mixer.h" // for kMaxChannelVolume
#include "common/rational.h"
#include "common/file.h"
#include "common/system.h"
#include "graphics/palette.h"
namespace Video {
VideoDecoder::VideoDecoder() {
_startTime = 0;
_dirtyPalette = false;
_palette = 0;
_playbackRate = 0;
_audioVolume = Audio::Mixer::kMaxChannelVolume;
_audioBalance = 0;
_pauseLevel = 0;
_needsUpdate = false;
_lastTimeChange = 0;
_endTime = 0;
_endTimeSet = false;
_nextVideoTrack = 0;
_mainAudioTrack = 0;
// Find the best format for output
_defaultHighColorFormat = g_system->getScreenFormat();
if (_defaultHighColorFormat.bytesPerPixel == 1)
_defaultHighColorFormat = Graphics::PixelFormat(4, 8, 8, 8, 8, 8, 16, 24, 0);
}
void VideoDecoder::close() {
if (isPlaying())
stop();
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
delete *it;
_tracks.clear();
_internalTracks.clear();
_externalTracks.clear();
_dirtyPalette = false;
_palette = 0;
_startTime = 0;
_audioVolume = Audio::Mixer::kMaxChannelVolume;
_audioBalance = 0;
_pauseLevel = 0;
_needsUpdate = false;
_lastTimeChange = 0;
_endTime = 0;
_endTimeSet = false;
_nextVideoTrack = 0;
_mainAudioTrack = 0;
}
bool VideoDecoder::loadFile(const Common::String &filename) {
Common::File *file = new Common::File();
if (!file->open(filename)) {
delete file;
return false;
}
return loadStream(file);
}
bool VideoDecoder::needsUpdate() const {
return hasFramesLeft() && getTimeToNextFrame() == 0;
}
void VideoDecoder::pauseVideo(bool pause) {
if (pause) {
_pauseLevel++;
// We can't go negative
} else if (_pauseLevel) {
_pauseLevel--;
// Do nothing
} else {
return;
}
if (_pauseLevel == 1 && pause) {
_pauseStartTime = g_system->getMillis(); // Store the starting time from pausing to keep it for later
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
(*it)->pause(true);
} else if (_pauseLevel == 0) {
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
(*it)->pause(false);
_startTime += (g_system->getMillis() - _pauseStartTime);
}
}
void VideoDecoder::resetPauseStartTime() {
if (isPaused())
_pauseStartTime = g_system->getMillis();
}
void VideoDecoder::setVolume(byte volume) {
_audioVolume = volume;
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)*it)->setVolume(_audioVolume);
}
void VideoDecoder::setBalance(int8 balance) {
_audioBalance = balance;
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)*it)->setBalance(_audioBalance);
}
bool VideoDecoder::isVideoLoaded() const {
return !_tracks.empty();
}
uint16 VideoDecoder::getWidth() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo)
return ((VideoTrack *)*it)->getWidth();
return 0;
}
uint16 VideoDecoder::getHeight() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo)
return ((VideoTrack *)*it)->getHeight();
return 0;
}
Graphics::PixelFormat VideoDecoder::getPixelFormat() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo)
return ((VideoTrack *)*it)->getPixelFormat();
return Graphics::PixelFormat();
}
const Graphics::Surface *VideoDecoder::decodeNextFrame() {
_needsUpdate = false;
readNextPacket();
// If we have no next video track at this point, there shouldn't be
// any frame available for us to display.
if (!_nextVideoTrack)
return 0;
const Graphics::Surface *frame = _nextVideoTrack->decodeNextFrame();
if (_nextVideoTrack->hasDirtyPalette()) {
_palette = _nextVideoTrack->getPalette();
_dirtyPalette = true;
}
// Look for the next video track here for the next decode.
findNextVideoTrack();
return frame;
}
bool VideoDecoder::setReverse(bool reverse) {
// Can only reverse video-only videos
if (reverse && hasAudio())
return false;
// Attempt to make sure all the tracks are in the requested direction
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++) {
if ((*it)->getTrackType() == Track::kTrackTypeVideo && ((VideoTrack *)*it)->isReversed() != reverse) {
if (!((VideoTrack *)*it)->setReverse(reverse))
return false;
_needsUpdate = true; // force an update
}
}
findNextVideoTrack();
return true;
}
const byte *VideoDecoder::getPalette() {
_dirtyPalette = false;
return _palette;
}
int VideoDecoder::getCurFrame() const {
int32 frame = -1;
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo)
frame += ((VideoTrack *)*it)->getCurFrame() + 1;
return frame;
}
uint32 VideoDecoder::getFrameCount() const {
int count = 0;
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo)
count += ((VideoTrack *)*it)->getFrameCount();
return count;
}
uint32 VideoDecoder::getTime() const {
if (!isPlaying())
return _lastTimeChange.msecs();
if (isPaused())
return MAX<int>((_playbackRate * (_pauseStartTime - _startTime)).toInt(), 0);
if (useAudioSync()) {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++) {
if ((*it)->getTrackType() == Track::kTrackTypeAudio && !(*it)->endOfTrack()) {
uint32 time = ((const AudioTrack *)*it)->getRunningTime();
if (time != 0)
return time + _lastTimeChange.msecs();
}
}
}
return MAX<int>((_playbackRate * (g_system->getMillis() - _startTime)).toInt(), 0);
}
uint32 VideoDecoder::getTimeToNextFrame() const {
if (endOfVideo() || _needsUpdate || !_nextVideoTrack)
return 0;
uint32 currentTime = getTime();
uint32 nextFrameStartTime = _nextVideoTrack->getNextFrameStartTime();
if (_nextVideoTrack->isReversed()) {
// For reversed videos, we need to handle the time difference the opposite way.
if (nextFrameStartTime >= currentTime)
return 0;
return currentTime - nextFrameStartTime;
}
// Otherwise, handle it normally.
if (nextFrameStartTime <= currentTime)
return 0;
return nextFrameStartTime - currentTime;
}
bool VideoDecoder::endOfVideo() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if (!(*it)->endOfTrack() && (!isPlaying() || (*it)->getTrackType() != Track::kTrackTypeVideo || !_endTimeSet || ((VideoTrack *)*it)->getNextFrameStartTime() < (uint)_endTime.msecs()))
return false;
return true;
}
bool VideoDecoder::isRewindable() const {
if (!isVideoLoaded())
return false;
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if (!(*it)->isRewindable())
return false;
return true;
}
bool VideoDecoder::rewind() {
if (!isRewindable())
return false;
// Stop all tracks so they can be rewound
if (isPlaying())
stopAudio();
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if (!(*it)->rewind())
return false;
// Now that we've rewound, start all tracks again
if (isPlaying())
startAudio();
_lastTimeChange = 0;
_startTime = g_system->getMillis();
resetPauseStartTime();
findNextVideoTrack();
return true;
}
bool VideoDecoder::isSeekable() const {
if (!isVideoLoaded())
return false;
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if (!(*it)->isSeekable())
return false;
return true;
}
bool VideoDecoder::seek(const Audio::Timestamp &time) {
if (!isSeekable())
return false;
// Stop all tracks so they can be seeked
if (isPlaying())
stopAudio();
// Do the actual seeking
if (!seekIntern(time))
return false;
// Seek any external track too
for (TrackListIterator it = _externalTracks.begin(); it != _externalTracks.end(); it++)
if (!(*it)->seek(time))
return false;
_lastTimeChange = time;
// Now that we've seeked, start all tracks again
// Also reset our start time
if (isPlaying()) {
startAudio();
_startTime = g_system->getMillis() - (time.msecs() / _playbackRate).toInt();
}
resetPauseStartTime();
findNextVideoTrack();
_needsUpdate = true;
return true;
}
bool VideoDecoder::seekToFrame(uint frame) {
if (!isSeekable())
return false;
VideoTrack *track = 0;
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++) {
if ((*it)->getTrackType() == Track::kTrackTypeVideo) {
// We only allow seeking by frame when one video track
// is present
if (track)
return false;
track = (VideoTrack *)*it;
}
}
// If we didn't find a video track, we can't seek by frame (of course)
if (!track)
return false;
Audio::Timestamp time = track->getFrameTime(frame);
if (time < 0)
return false;
return seek(time);
}
void VideoDecoder::start() {
if (!isPlaying())
setRate(1);
}
void VideoDecoder::stop() {
if (!isPlaying())
return;
// Stop audio here so we don't have it affect getTime()
stopAudio();
// Keep the time marked down in case we start up again
// We do this before _playbackRate is set so we don't get
// _lastTimeChange returned, but before _pauseLevel is
// reset.
_lastTimeChange = getTime();
_playbackRate = 0;
_startTime = 0;
_palette = 0;
_dirtyPalette = false;
_needsUpdate = false;
// Also reset the pause state.
_pauseLevel = 0;
// Reset the pause state of the tracks too
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
(*it)->pause(false);
}
void VideoDecoder::setRate(const Common::Rational &rate) {
if (!isVideoLoaded() || _playbackRate == rate)
return;
if (rate == 0) {
stop();
return;
} else if (rate != 1 && hasAudio()) {
warning("Cannot set custom rate in videos with audio");
return;
}
Common::Rational targetRate = rate;
// Attempt to set the reverse
if (!setReverse(rate < 0)) {
assert(rate < 0); // We shouldn't fail for forward.
warning("Cannot set custom rate to backwards");
setReverse(false);
targetRate = 1;
if (_playbackRate == targetRate)
return;
}
if (_playbackRate != 0)
_lastTimeChange = getTime();
_playbackRate = targetRate;
_startTime = g_system->getMillis();
// Adjust start time if we've seeked to something besides zero time
if (_lastTimeChange != 0)
_startTime -= (_lastTimeChange.msecs() / _playbackRate).toInt();
startAudio();
}
bool VideoDecoder::isPlaying() const {
return _playbackRate != 0;
}
Audio::Timestamp VideoDecoder::getDuration() const {
Audio::Timestamp maxDuration(0, 1000);
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++) {
Audio::Timestamp duration = (*it)->getDuration();
if (duration > maxDuration)
maxDuration = duration;
}
return maxDuration;
}
bool VideoDecoder::seekIntern(const Audio::Timestamp &time) {
for (TrackList::iterator it = _internalTracks.begin(); it != _internalTracks.end(); it++)
if (!(*it)->seek(time))
return false;
return true;
}
VideoDecoder::Track::Track() {
_paused = false;
}
bool VideoDecoder::Track::isRewindable() const {
return isSeekable();
}
bool VideoDecoder::Track::rewind() {
return seek(Audio::Timestamp(0, 1000));
}
void VideoDecoder::Track::pause(bool shouldPause) {
_paused = shouldPause;
pauseIntern(shouldPause);
}
Audio::Timestamp VideoDecoder::Track::getDuration() const {
return Audio::Timestamp(0, 1000);
}
bool VideoDecoder::VideoTrack::endOfTrack() const {
return getCurFrame() >= (getFrameCount() - 1);
}
Audio::Timestamp VideoDecoder::VideoTrack::getFrameTime(uint frame) const {
// Default implementation: Return an invalid (negative) number
return Audio::Timestamp().addFrames(-1);
}
uint32 VideoDecoder::FixedRateVideoTrack::getNextFrameStartTime() const {
if (endOfTrack() || getCurFrame() < 0)
return 0;
return getFrameTime(getCurFrame() + 1).msecs();
}
Audio::Timestamp VideoDecoder::FixedRateVideoTrack::getFrameTime(uint frame) const {
// Try to get as accurate as possible, considering we have a fractional frame rate
// (which Audio::Timestamp doesn't support).
Common::Rational frameRate = getFrameRate();
if (frameRate == frameRate.toInt()) // The nice case (a whole number)
return Audio::Timestamp(0, frame, frameRate.toInt());
// Convert as best as possible
Common::Rational time = frameRate.getInverse() * frame;
return Audio::Timestamp(0, time.getNumerator(), time.getDenominator());
}
uint VideoDecoder::FixedRateVideoTrack::getFrameAtTime(const Audio::Timestamp &time) const {
Common::Rational frameRate = getFrameRate();
// Easy conversion
if (frameRate == time.framerate())
return time.totalNumberOfFrames();
// Create the rational based on the time first to hopefully cancel out
// *something* when multiplying by the frameRate (which can be large in
// some AVI videos).
return (Common::Rational(time.totalNumberOfFrames(), time.framerate()) * frameRate).toInt();
}
Audio::Timestamp VideoDecoder::FixedRateVideoTrack::getDuration() const {
return getFrameTime(getFrameCount());
}
VideoDecoder::AudioTrack::AudioTrack() : _volume(Audio::Mixer::kMaxChannelVolume), _balance(0), _muted(false) {
}
bool VideoDecoder::AudioTrack::endOfTrack() const {
Audio::AudioStream *stream = getAudioStream();
return !stream || !g_system->getMixer()->isSoundHandleActive(_handle) || stream->endOfData();
}
void VideoDecoder::AudioTrack::setVolume(byte volume) {
_volume = volume;
if (g_system->getMixer()->isSoundHandleActive(_handle))
g_system->getMixer()->setChannelVolume(_handle, _muted ? 0 : _volume);
}
void VideoDecoder::AudioTrack::setBalance(int8 balance) {
_balance = balance;
if (g_system->getMixer()->isSoundHandleActive(_handle))
g_system->getMixer()->setChannelBalance(_handle, _balance);
}
void VideoDecoder::AudioTrack::start() {
stop();
Audio::AudioStream *stream = getAudioStream();
assert(stream);
g_system->getMixer()->playStream(getSoundType(), &_handle, stream, -1, _muted ? 0 : getVolume(), getBalance(), DisposeAfterUse::NO);
// Pause the audio again if we're still paused
if (isPaused())
g_system->getMixer()->pauseHandle(_handle, true);
}
void VideoDecoder::AudioTrack::stop() {
g_system->getMixer()->stopHandle(_handle);
}
void VideoDecoder::AudioTrack::start(const Audio::Timestamp &limit) {
stop();
Audio::AudioStream *stream = getAudioStream();
assert(stream);
stream = Audio::makeLimitingAudioStream(stream, limit, DisposeAfterUse::NO);
g_system->getMixer()->playStream(getSoundType(), &_handle, stream, -1, _muted ? 0 : getVolume(), getBalance(), DisposeAfterUse::YES);
// Pause the audio again if we're still paused
if (isPaused())
g_system->getMixer()->pauseHandle(_handle, true);
}
uint32 VideoDecoder::AudioTrack::getRunningTime() const {
if (g_system->getMixer()->isSoundHandleActive(_handle))
return g_system->getMixer()->getSoundElapsedTime(_handle);
return 0;
}
void VideoDecoder::AudioTrack::setMute(bool mute) {
// Update the mute settings, if required
if (_muted != mute) {
_muted = mute;
if (g_system->getMixer()->isSoundHandleActive(_handle))
g_system->getMixer()->setChannelVolume(_handle, mute ? 0 : _volume);
}
}
void VideoDecoder::AudioTrack::pauseIntern(bool shouldPause) {
if (g_system->getMixer()->isSoundHandleActive(_handle))
g_system->getMixer()->pauseHandle(_handle, shouldPause);
}
Audio::AudioStream *VideoDecoder::RewindableAudioTrack::getAudioStream() const {
return getRewindableAudioStream();
}
bool VideoDecoder::RewindableAudioTrack::rewind() {
Audio::RewindableAudioStream *stream = getRewindableAudioStream();
assert(stream);
return stream->rewind();
}
Audio::Timestamp VideoDecoder::SeekableAudioTrack::getDuration() const {
Audio::SeekableAudioStream *stream = getSeekableAudioStream();
assert(stream);
return stream->getLength();
}
Audio::AudioStream *VideoDecoder::SeekableAudioTrack::getAudioStream() const {
return getSeekableAudioStream();
}
bool VideoDecoder::SeekableAudioTrack::seek(const Audio::Timestamp &time) {
Audio::SeekableAudioStream *stream = getSeekableAudioStream();
assert(stream);
return stream->seek(time);
}
VideoDecoder::StreamFileAudioTrack::StreamFileAudioTrack() {
_stream = 0;
}
VideoDecoder::StreamFileAudioTrack::~StreamFileAudioTrack() {
delete _stream;
}
bool VideoDecoder::StreamFileAudioTrack::loadFromFile(const Common::String &baseName) {
// TODO: Make sure the stream isn't being played
delete _stream;
_stream = Audio::SeekableAudioStream::openStreamFile(baseName);
return _stream != 0;
}
void VideoDecoder::addTrack(Track *track, bool isExternal) {
_tracks.push_back(track);
if (isExternal)
_externalTracks.push_back(track);
else
_internalTracks.push_back(track);
if (track->getTrackType() == Track::kTrackTypeAudio) {
// Update volume settings if it's an audio track
((AudioTrack *)track)->setVolume(_audioVolume);
((AudioTrack *)track)->setBalance(_audioBalance);
if (!isExternal && supportsAudioTrackSwitching()) {
if (_mainAudioTrack) {
// The main audio track has already been found
((AudioTrack *)track)->setMute(true);
} else {
// First audio track found -> now the main one
_mainAudioTrack = (AudioTrack *)track;
_mainAudioTrack->setMute(false);
}
}
} else if (track->getTrackType() == Track::kTrackTypeVideo) {
// If this track has a better time, update _nextVideoTrack
if (!_nextVideoTrack || ((VideoTrack *)track)->getNextFrameStartTime() < _nextVideoTrack->getNextFrameStartTime())
_nextVideoTrack = (VideoTrack *)track;
}
// Keep the track paused if we're paused
if (isPaused())
track->pause(true);
// Start the track if we're playing
if (isPlaying() && track->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)track)->start();
}
bool VideoDecoder::addStreamFileTrack(const Common::String &baseName) {
// Only allow adding external tracks if a video is already loaded
if (!isVideoLoaded())
return false;
StreamFileAudioTrack *track = new StreamFileAudioTrack();
bool result = track->loadFromFile(baseName);
if (result)
addTrack(track, true);
else
delete track;
return result;
}
bool VideoDecoder::setAudioTrack(int index) {
if (!supportsAudioTrackSwitching())
return false;
AudioTrack *audioTrack = getAudioTrack(index);
if (!audioTrack)
return false;
if (_mainAudioTrack == audioTrack)
return true;
_mainAudioTrack->setMute(true);
audioTrack->setMute(false);
_mainAudioTrack = audioTrack;
return true;
}
uint VideoDecoder::getAudioTrackCount() const {
uint count = 0;
for (TrackList::const_iterator it = _internalTracks.begin(); it != _internalTracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
count++;
return count;
}
void VideoDecoder::setEndTime(const Audio::Timestamp &endTime) {
Audio::Timestamp startTime = 0;
if (isPlaying()) {
startTime = getTime();
stopAudio();
}
_endTime = endTime;
_endTimeSet = true;
if (startTime > endTime)
return;
if (isPlaying()) {
// We'll assume the audio track is going to start up at the same time it just was
// and therefore not do any seeking.
// Might want to set it anyway if we're seekable.
startAudioLimit(_endTime.msecs() - startTime.msecs());
_lastTimeChange = startTime;
}
}
VideoDecoder::Track *VideoDecoder::getTrack(uint track) {
if (track > _internalTracks.size())
return 0;
return _internalTracks[track];
}
const VideoDecoder::Track *VideoDecoder::getTrack(uint track) const {
if (track > _internalTracks.size())
return 0;
return _internalTracks[track];
}
bool VideoDecoder::endOfVideoTracks() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo && !(*it)->endOfTrack())
return false;
return true;
}
VideoDecoder::VideoTrack *VideoDecoder::findNextVideoTrack() {
_nextVideoTrack = 0;
uint32 bestTime = 0xFFFFFFFF;
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++) {
if ((*it)->getTrackType() == Track::kTrackTypeVideo && !(*it)->endOfTrack()) {
VideoTrack *track = (VideoTrack *)*it;
uint32 time = track->getNextFrameStartTime();
if (time < bestTime) {
bestTime = time;
_nextVideoTrack = track;
}
}
}
return _nextVideoTrack;
}
void VideoDecoder::startAudio() {
if (_endTimeSet) {
// HACK: Timestamp's subtraction asserts out when subtracting two times
// with different rates.
startAudioLimit(_endTime - _lastTimeChange.convertToFramerate(_endTime.framerate()));
return;
}
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)*it)->start();
}
void VideoDecoder::stopAudio() {
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)*it)->stop();
}
void VideoDecoder::startAudioLimit(const Audio::Timestamp &limit) {
for (TrackList::iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
((AudioTrack *)*it)->start(limit);
}
bool VideoDecoder::hasFramesLeft() const {
// This is similar to endOfVideo(), except it doesn't take Audio into account (and returns true if not the end of the video)
// This is only used for needsUpdate() atm so that setEndTime() works properly
// And unlike endOfVideoTracks(), this takes into account _endTime
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeVideo && !(*it)->endOfTrack() && (!isPlaying() || !_endTimeSet || ((VideoTrack *)*it)->getNextFrameStartTime() < (uint)_endTime.msecs()))
return true;
return false;
}
bool VideoDecoder::hasAudio() const {
for (TrackList::const_iterator it = _tracks.begin(); it != _tracks.end(); it++)
if ((*it)->getTrackType() == Track::kTrackTypeAudio)
return true;
return false;
}
} // End of namespace Video