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|
/* UltraStar Deluxe - Karaoke Game
*
* UltraStar Deluxe 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; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*/
/*
* based on 'An ffmpeg and SDL Tutorial' (http://www.dranger.com/ffmpeg/)
*/
#include "ffmpeg_video_decode.h"
#include <sstream>
#include <math.h>
// These are called whenever we allocate a frame buffer.
// We use this to store the global_pts in a frame at the time it is allocated.
int CDECL ptsGetBuffer(AVCodecContext *codecCtx, AVFrame *frame) {
int result = avcodec_default_get_buffer(codecCtx, frame);
int64_t *videoPktPts = (int64_t*)codecCtx->opaque;
if (videoPktPts) {
// Note: we must copy the pts instead of passing a pointer, because the packet
// (and with it the pts) might change before a frame is returned by av_decode_video.
int64_t *pts = (int64_t*)av_malloc(sizeof(int64_t));
*pts = *videoPktPts;
frame->opaque = pts;
}
return result;
}
void CDECL ptsReleaseBuffer(AVCodecContext *codecCtx, AVFrame *frame) {
if (frame)
av_freep(&frame->opaque);
avcodec_default_release_buffer(codecCtx, frame);
}
/*
* TVideoDecoder_FFmpeg
*/
FFmpegVideoDecodeStream::FFmpegVideoDecodeStream() :
_opened(false),
_eof(false),
_loop(false),
_stream(NULL),
_streamIndex(-1),
_formatContext(NULL),
_codecContext(NULL),
_codec(NULL),
_avFrame(NULL),
_avFrameRGB(NULL),
_frameBuffer(NULL),
_frameTexValid(false),
#ifdef USE_SWSCALE
_swScaleContext(NULL),
#endif
_aspect(0),
_frameDuration(0),
_frameTime(0),
_loopTime(0) {}
FFmpegVideoDecodeStream* FFmpegVideoDecodeStream::open(const IPath &filename) {
FFmpegVideoDecodeStream *stream = new FFmpegVideoDecodeStream();
if (!stream->_open(filename)) {
delete stream;
return 0;
}
return stream;
}
bool FFmpegVideoDecodeStream::_open(const IPath &filename) {
std::stringstream ss;
// use custom 'ufile' protocol for UTF-8 support
int errnum = av_open_input_file(&_formatContext,
("ufile:" + filename.toUTF8()).c_str(), NULL, 0, NULL);
if (errnum != 0) {
logger.error("Failed to open file '" + filename.toNative() + "' ("
+ ffmpegCore->getErrorString(errnum) + ")",
"VideoDecodeStream_FFmpeg::Open");
return false;
}
// update video info
if (av_find_stream_info(_formatContext) < 0) {
logger.error("No stream info found", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
ss.str("");
ss << "VideoStreamIndex: " << _streamIndex;
logger.info(ss.str(), "VideoPlayback_ffmpeg.Open");
// find video stream
int audioStreamIndex;
ffmpegCore->findStreamIDs(_formatContext, &_streamIndex, &audioStreamIndex);
if (_streamIndex < 0) {
logger.error("No video stream found", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
_stream = _formatContext->streams[_streamIndex];
_codecContext = _stream->codec;
_codec = avcodec_find_decoder(_codecContext->codec_id);
if (!_codec) {
logger.error("No matching codec found", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
// set debug options
_codecContext->debug_mv = 0;
_codecContext->debug = 0;
// detect bug-workarounds automatically
_codecContext->workaround_bugs = FF_BUG_AUTODETECT;
// error resilience strategy (careful/compliant/agressive/very_aggressive)
//fCodecContext->error_resilience = FF_ER_CAREFUL; //FF_ER_COMPLIANT;
// allow non spec compliant speedup tricks.
//fCodecContext->flags2 = fCodecContext->flags2 | CODEC_FLAG2_FAST;
// Note: avcodec_open() and avcodec_close() are not thread-safe and will
// fail if called concurrently by different threads.
{
MediaCore_FFmpeg::AVCodecLock codecLock;
errnum = avcodec_open(_codecContext, _codec);
}
if (errnum < 0) {
logger.error("No matching codec found", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
// register custom callbacks for pts-determination
_codecContext->get_buffer = ptsGetBuffer;
_codecContext->release_buffer = ptsReleaseBuffer;
#ifdef DEBUG_DISPLAY
ss.str("");
ss << "Found a matching Codec: " << _codecContext->codec->name << std::endl
<< std::endl
<< " Width = " << _codecContext->width
<< ", Height=" << _codecContext->height << std::endl
<< " Aspect : " << _codecContext->sample_aspect_ratio.num << "/"
<< _codecContext->sample_aspect_ratio.den << std::endl
<< " Framerate : " << _codecContext->time_base.num << "/"
<< _codecContext->time_base.den;
logger.status(ss.str(), "");
#endif
// allocate space for decoded frame and rgb frame
_avFrame = avcodec_alloc_frame();
_avFrameRGB = avcodec_alloc_frame();
_frameBuffer = (uint8_t*) av_malloc(avpicture_get_size(PIXEL_FMT_FFMPEG,
_codecContext->width, _codecContext->height));
if (!_avFrame || !_avFrameRGB || !_frameBuffer) {
logger.error("Failed to allocate buffers", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
// TODO: pad data for OpenGL to GL_UNPACK_ALIGNMENT
// (otherwise video will be distorted if width/height is not a multiple of the alignment)
errnum = avpicture_fill((AVPicture*)_avFrameRGB, _frameBuffer,
PIXEL_FMT_FFMPEG, _codecContext->width, _codecContext->height);
if (errnum < 0) {
logger.error("avpicture_fill failed: " + ffmpegCore->getErrorString(errnum),
"VideoPlayback_ffmpeg.Open");
close();
return false;
}
// calculate some information for video display
_aspect = av_q2d(_codecContext->sample_aspect_ratio);
if (_aspect == 0) {
_aspect = (double)_codecContext->width / _codecContext->height;
} else {
_aspect *= (double)_codecContext->width / _codecContext->height;
}
_frameDuration = 1.0 / av_q2d(_stream->r_frame_rate);
// hack to get reasonable framerate (for divx and others)
if (_frameDuration < 0.02) { // 0.02 <-> 50 fps
_frameDuration = av_q2d(_stream->r_frame_rate);
while (_frameDuration > 50.0)
_frameDuration /= 10.0;
_frameDuration = 1.0 / _frameDuration;
}
ss.str("");
ss << "Framerate: " << (int)(1.0 / _frameDuration) << "fps";
logger.info(ss.str(), "VideoPlayback_ffmpeg.Open");
#ifdef USE_SWSCALE
// if available get a SWScale-context -> faster than the deprecated img_convert().
// SWScale has accelerated support for PIX_FMT_RGB32/PIX_FMT_BGR24/PIX_FMT_BGR565/PIX_FMT_BGR555.
// Note: PIX_FMT_RGB32 is a BGR- and not an RGB-format (maybe a bug)!!!
// The BGR565-formats (GL_UNSIGNED_SHORT_5_6_5) is way too slow because of its
// bad OpenGL support. The BGR formats have MMX(2) implementations but no speed-up
// could be observed in comparison to the RGB versions.
_swScaleContext = sws_getCachedContext(NULL,
_codecContext->width, _codecContext->height, _codecContext->pix_fmt,
_codecContext->width, _codecContext->height, PIXEL_FMT_FFMPEG,
SWS_FAST_BILINEAR,
NULL, NULL, NULL);
if (!_swScaleContext) {
logger.error("Failed to get swscale context", "VideoPlayback_ffmpeg.Open");
close();
return false;
}
#endif
_opened = true;
return true;
}
void FFmpegVideoDecodeStream::close() {
if (_frameBuffer)
av_free(_frameBuffer);
if (_avFrameRGB)
av_free(_avFrameRGB);
if (_avFrame)
av_free(_avFrame);
_avFrame = NULL;
_avFrameRGB = NULL;
_frameBuffer = NULL;
if (_codecContext) {
// avcodec_close() is not thread-safe
MediaCore_FFmpeg::AVCodecLock codecLock;
avcodec_close(_codecContext);
}
if (_formatContext)
av_close_input_file(_formatContext);
_codecContext = NULL;
_formatContext = NULL;
_opened = false;
}
void FFmpegVideoDecodeStream::synchronizeTime(AVFrame *frame, double &pts) {
if (pts != 0) {
// if we have pts, set video clock to it
_frameTime = pts;
} else {
// if we aren't given a pts, set it to the clock
pts = _frameTime;
}
// update the video clock
double frameDelay = av_q2d(_codecContext->time_base);
// if we are repeating a frame, adjust clock accordingly
frameDelay = frameDelay + frame->repeat_pict * (frameDelay * 0.5);
_frameTime = _frameTime + frameDelay;
}
/**
* Decode a new frame from the video stream.
* The decoded frame is stored in fAVFrame. fFrameTime is updated to the new frame's
* time.
* @param pts will be updated to the presentation time of the decoded frame.
* returns true if a frame could be decoded. False if an error or EOF occured.
*/
bool FFmpegVideoDecodeStream::decodeFrame() {
int64_t videoPktPts;
ByteIOContext *pbIOCtx;
int errnum;
AVPacket packet;
double pts;
if (_eof)
return false;
// read packets until we have a finished frame (or there are no more packets)
int frameFinished = 0;
while (frameFinished == 0) {
errnum = av_read_frame(_formatContext, &packet);
if (errnum < 0) {
// failed to read a frame, check reason
#if LIBAVFORMAT_VERSION_MAJOR >= 52
pbIOCtx = _formatContext->pb;
#else
pbIOCtx = &_formatContext->pb;
#endif
// check for end-of-file (EOF is not an error)
if (url_feof(pbIOCtx) != 0) {
_eof = true;
return false;
}
// check for errors
if (url_ferror(pbIOCtx) != 0) {
logger.error("Video decoding file error", "TVideoPlayback_FFmpeg.DecodeFrame");
return false;
}
// url_feof() does not detect an EOF for some mov-files (e.g. deluxe.mov)
// so we have to do it this way.
if ((_formatContext->file_size != 0) &&
(pbIOCtx->pos >= _formatContext->file_size))
{
_eof = true;
return false;
}
// error occured, log and exit
logger.error("Video decoding error", "TVideoPlayback_FFmpeg.DecodeFrame");
return false;
}
// if we got a packet from the video stream, then decode it
if (packet.stream_index == _streamIndex) {
// save pts to be stored in pFrame in first call of PtsGetBuffer()
videoPktPts = packet.pts;
// FIXME: is the pointer valid when it is used?
_codecContext->opaque = &videoPktPts;
// decode packet
avcodec_decode_video2(_codecContext, _avFrame, &frameFinished, &packet);
// reset opaque data
_codecContext->opaque = NULL;
// update pts
if (packet.dts != (int64_t)AV_NOPTS_VALUE) {
pts = packet.dts;
} else if (_avFrame->opaque &&
(*((int64_t*)_avFrame->opaque) != (int64_t)AV_NOPTS_VALUE))
{
pts = *((int64_t*)_avFrame->opaque);
} else {
pts = 0;
}
if (_stream->start_time != (int64_t)AV_NOPTS_VALUE)
pts -= _stream->start_time;
pts *= av_q2d(_stream->time_base);
// synchronize time on each complete frame
if (frameFinished != 0)
synchronizeTime(_avFrame, pts);
}
// free the packet from av_read_frame
av_free_packet(&packet);
}
return true;
}
#ifdef DEBUG_FRAMES
void spawnGoldenRec(double x, double y, int screen, uint8_t live, int startFrame,
int recArrayIndex, unsigned player)
{
//GoldenRec.Spawn(x, y, screen, live, startFrame, recArrayIndex, ColoredStar, player)
}
#endif
uint8_t* FFmpegVideoDecodeStream::getFrame(long double time) {
const long double SKIP_FRAME_DIFF = 0.010; // start skipping if we are >= 10ms too late
std::stringstream ss;
if (!_opened)
return NULL;
/*
* Synchronization - begin
*/
// requested stream position (relative to the last loop's start)
long double currentTime;
if (_loop)
currentTime = time - _loopTime;
else
currentTime = time;
// check if current texture still contains the active frame
if (_frameTexValid) {
// time since the last frame was returned
long double timeDiff = currentTime - _frameTime;
#ifdef DEBUG_DISPLAY
ss.str("");
ss << "time: " << floor(time*1000) << std::endl
<< "VideoTime: " << floor(_frameTime*1000) << std::endl
<< "TimeBase: " << floor(_frameDuration*1000) << std::endl
<< "timeDiff: " << floor(timeDiff*1000);
logger.status(ss.str(), "");
#endif
// check if time has reached the next frame
if (timeDiff < _frameDuration) {
#ifdef DEBUG_FRAMES
// frame delay debug display
spawnGoldenRec(200, 15, 1, 16, 0, -1, 0x00ff00);
#endif
#ifdef DEBUG_DISPLAY
ss.str("");
ss << "not getting new frame" << std::endl
<< "time: " << floor(time*1000) << std::endl
<< "VideoTime: " << floor(_frameTime*1000) << std::endl
<< "TimeBase: " << floor(_frameDuration*1000) << std::endl
<< "timeDiff: " << floor(timeDiff*1000);
logger.status(ss.str(), "");
#endif
// we do not need a new frame now
return NULL;
}
}
// fetch new frame (updates fFrameTime)
bool success = decodeFrame();
long double timeDiff = currentTime - _frameTime;
// check if we have to skip frames
// Either if we are one frame behind or if the skip threshold has been reached.
// Do not skip if the difference is less than fFrameDuration as there is no next frame.
// Note: We assume that fFrameDuration is the length of one frame.
if (timeDiff >= std::max(_frameDuration, SKIP_FRAME_DIFF)) {
#ifdef DEBUG_FRAMES
//frame drop debug display
spawnGoldenRec(200, 55, 1, 16, 0, -1, 0xff0000);
#endif
#ifdef DEBUG_DISPLAY
ss.str("");
ss << "skipping frames" << std::endl
<< "TimeBase: " << floor(_frameDuration*1000) << std::endl
<< "timeDiff: " << floor(timeDiff*1000);
logger.status(ss.str(), "");
#endif
// update video-time
int dropFrameCount = (int)(timeDiff / _frameDuration);
_frameTime = _frameTime + dropFrameCount * _frameDuration;
// skip frames
for (int i = 1; i <= dropFrameCount; ++i)
success = decodeFrame();
}
// check if we got an EOF or error
if (!success) {
if (_loop) {
// we have to loop, so rewind
setPosition(0);
// record the start-time of the current loop, so we can
// determine the position in the stream (fFrameTime-fLoopTime) later.
_loopTime = time;
}
return NULL;
}
/*
* Synchronization - end
*/
// TODO: support for pan&scan
//if (_avFrame->pan_scan) {
// printf("PanScan: %d/%d", _avFrame->pan_scan->width, _avFrame->pan_scan->height);
//}
// otherwise we convert the pixeldata from YUV to RGB
int errnum;
#ifdef USE_SWSCALE
errnum = sws_scale(_swScaleContext,
(uint8_t**)_avFrame->data, _avFrame->linesize,
0, _codecContext->height,
(uint8_t**)_avFrameRGB->data, _avFrameRGB->linesize);
#else
// img_convert from lib/ffmpeg/avcodec.pas is actually deprecated.
// If ./configure does not find SWScale then this gives the error
// that the identifier img_convert is not known or similar.
// I think this should be removed, but am not sure whether there should
// be some other replacement or a warning, Therefore, I leave it for now.
// April 2009, mischi
errnum = img_convert((AVPicture*)_avFrameRGB, PIXEL_FMT_FFMPEG,
(AVPicture*)_avFrame, _codecContext->pix_fmt,
_codecContext->width, _codecContext->height);
#endif
if (errnum < 0) {
logger.error("Image conversion failed", "TVideoPlayback_ffmpeg.GetFrame");
return NULL;
}
if (!_frameTexValid)
_frameTexValid = true;
return _avFrameRGB->data[0];
}
void FFmpegVideoDecodeStream::setLoop(bool enable) {
_loop = enable;
_loopTime = 0;
}
bool FFmpegVideoDecodeStream::getLoop() {
return _loop;
}
/**
* Sets the stream's position.
* The stream is set to the first keyframe with timestamp <= Time.
* Note that fFrameTime is set to Time no matter if the actual position seeked to is
* at Time or the time of a preceding keyframe. fFrameTime will be updated to the
* actual frame time when GetFrame() is called the next time.
* @param Time new position in seconds
*/
void FFmpegVideoDecodeStream::setPosition(double time) {
int seekFlags;
if (!_opened)
return;
if (time < 0)
time = 0;
// TODO: handle fLoop-times
//time %= videoDuration;
// Do not use the AVSEEK_FLAG_ANY here. It will seek to any frame, even
// non keyframes (P-/B-frames). It will produce corrupted video frames as
// FFmpeg does not use the information of the preceding I-frame.
// The picture might be gray or green until the next keyframe occurs.
// Instead seek the first keyframe smaller than the requested time
// (AVSEEK_FLAG_BACKWARD). As this can be some seconds earlier than the
// requested time, let the sync in GetFrame() do its job.
seekFlags = AVSEEK_FLAG_BACKWARD;
_frameTime = time;
_eof = false;
_frameTexValid = false;
if (av_seek_frame(_formatContext, _streamIndex,
llround(time / av_q2d(_stream->time_base)), seekFlags) < 0)
{
logger.error("av_seek_frame() failed", "TVideoPlayback_ffmpeg.SetPosition");
return;
}
avcodec_flush_buffers(_codecContext);
}
double FFmpegVideoDecodeStream::getPosition() {
return _frameTime;
}
int FFmpegVideoDecodeStream::getFrameWidth() {
return _codecContext->width;
}
int FFmpegVideoDecodeStream::getFrameHeight() {
return _codecContext->height;
}
double FFmpegVideoDecodeStream::getFrameAspect() {
return _aspect;
}
/************************************
* C Interface
************************************/
#define VideoDecodeStreamObj(ptr) reinterpret_cast<FFmpegVideoDecodeStream*>(ptr)
static BOOL PLUGIN_CALL ffmpegVideoDecoder_init() {
return TRUE;
}
static BOOL PLUGIN_CALL ffmpegVideoDecoder_finalize() {
return TRUE;
}
static videoDecodeStream_t* PLUGIN_CALL ffmpegVideoDecoder_open(const char *filename) {
return (videoDecodeStream_t*)FFmpegVideoDecodeStream::open(filename);
}
static void PLUGIN_CALL ffmpegVideoDecoder_close(videoDecodeStream_t *stream) {
delete VideoDecodeStreamObj(stream);
}
static void PLUGIN_CALL ffmpegVideoDecoder_setLoop(videoDecodeStream_t *stream, BOOL enable) {
VideoDecodeStreamObj(stream)->setLoop(enable);
}
static BOOL PLUGIN_CALL ffmpegVideoDecoder_getLoop(videoDecodeStream_t *stream) {
return (BOOL)VideoDecodeStreamObj(stream)->getLoop();
}
static void PLUGIN_CALL ffmpegVideoDecoder_setPosition(videoDecodeStream_t *stream, double time) {
VideoDecodeStreamObj(stream)->setPosition(time);
}
static double PLUGIN_CALL ffmpegVideoDecoder_getPosition(videoDecodeStream_t *stream) {
return VideoDecodeStreamObj(stream)->getPosition();
}
static int PLUGIN_CALL ffmpegVideoDecoder_getFrameWidth(videoDecodeStream_t *stream) {
return VideoDecodeStreamObj(stream)->getFrameWidth();
}
static int PLUGIN_CALL ffmpegVideoDecoder_getFrameHeight(videoDecodeStream_t *stream) {
return VideoDecodeStreamObj(stream)->getFrameHeight();
}
static double PLUGIN_CALL ffmpegVideoDecoder_getFrameAspect(videoDecodeStream_t *stream) {
return VideoDecodeStreamObj(stream)->getFrameAspect();
}
static uint8_t* PLUGIN_CALL ffmpegVideoDecoder_getFrame(videoDecodeStream_t *stream, long double time) {
return VideoDecodeStreamObj(stream)->getFrame(time);
}
/************************************
* Module information
************************************/
const videoDecoderInfo_t videoDecoderInfo = {
80,
ffmpegVideoDecoder_init,
ffmpegVideoDecoder_finalize,
ffmpegVideoDecoder_open,
ffmpegVideoDecoder_close,
ffmpegVideoDecoder_setLoop,
ffmpegVideoDecoder_getLoop,
ffmpegVideoDecoder_setPosition,
ffmpegVideoDecoder_getPosition,
ffmpegVideoDecoder_getFrameWidth,
ffmpegVideoDecoder_getFrameHeight,
ffmpegVideoDecoder_getFrameAspect,
ffmpegVideoDecoder_getFrame
};
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