/* This file is part of Telegram Desktop, the official desktop version of Telegram messaging app, see https://telegram.org Telegram Desktop 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 3 of the License, or (at your option) any later version. It 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. In addition, as a special exception, the copyright holders give permission to link the code of portions of this program with the OpenSSL library. Full license: https://github.com/telegramdesktop/tdesktop/blob/master/LICENSE Copyright (c) 2014-2015 John Preston, https://desktop.telegram.org */ #include "stdafx.h" #include "animation.h" #include "mainwidget.h" #include "window.h" namespace { AnimationManager *_manager = 0; QVector _clipThreads; QVector _clipManagers; }; namespace anim { float64 linear(const float64 &delta, const float64 &dt) { return delta * dt; } float64 sineInOut(const float64 &delta, const float64 &dt) { return -(delta / 2) * (cos(M_PI * dt) - 1); } float64 halfSine(const float64 &delta, const float64 &dt) { return delta * sin(M_PI * dt / 2); } float64 easeOutBack(const float64 &delta, const float64 &dt) { static const float64 s = 1.70158; const float64 t = dt - 1; return delta * (t * t * ((s + 1) * t + s) + 1); } float64 easeInCirc(const float64 &delta, const float64 &dt) { return -delta * (sqrt(1 - dt * dt) - 1); } float64 easeOutCirc(const float64 &delta, const float64 &dt) { const float64 t = dt - 1; return delta * sqrt(1 - t * t); } float64 easeInCubic(const float64 &delta, const float64 &dt) { return delta * dt * dt * dt; } float64 easeOutCubic(const float64 &delta, const float64 &dt) { const float64 t = dt - 1; return delta * (t * t * t + 1); } float64 easeInQuint(const float64 &delta, const float64 &dt) { const float64 t2 = dt * dt; return delta * t2 * t2 * dt; } float64 easeOutQuint(const float64 &delta, const float64 &dt) { const float64 t = dt - 1, t2 = t * t; return delta * (t2 * t2 * t + 1); } void startManager() { stopManager(); _manager = new AnimationManager(); } void stopManager() { delete _manager; _manager = 0; if (!_clipThreads.isEmpty()) { for (int32 i = 0, l = _clipThreads.size(); i < l; ++i) { _clipThreads.at(i)->quit(); _clipThreads.at(i)->wait(); delete _clipManagers.at(i); delete _clipThreads.at(i); } _clipThreads.clear(); _clipManagers.clear(); } } } void Animation::start() { if (!_manager) return; _cb.start(); _manager->start(this); _animating = true; } void Animation::stop() { if (!_manager) return; _animating = false; _manager->stop(this); } AnimationManager::AnimationManager() : _timer(this), _iterating(false) { _timer.setSingleShot(false); connect(&_timer, SIGNAL(timeout()), this, SLOT(timeout())); } void AnimationManager::start(Animation *obj) { if (_iterating) { _starting.insert(obj, NullType()); if (!_stopping.isEmpty()) { _stopping.remove(obj); } } else { if (_objects.isEmpty()) { _timer.start(AnimationTimerDelta); } _objects.insert(obj, NullType()); } } void AnimationManager::stop(Animation *obj) { if (_iterating) { _stopping.insert(obj, NullType()); if (!_starting.isEmpty()) { _starting.insert(obj, NullType()); } } else { AnimatingObjects::iterator i = _objects.find(obj); if (i != _objects.cend()) { _objects.erase(i); if (_objects.isEmpty()) { _timer.stop(); } } } } void AnimationManager::timeout() { _iterating = true; uint64 ms = getms(); for (AnimatingObjects::const_iterator i = _objects.begin(), e = _objects.end(); i != e; ++i) { i.key()->step(ms, true); } _iterating = false; if (!_starting.isEmpty()) { for (AnimatingObjects::iterator i = _starting.begin(), e = _starting.end(); i != e; ++i) { _objects.insert(i.key(), NullType()); } _starting.clear(); } if (!_stopping.isEmpty()) { for (AnimatingObjects::iterator i = _stopping.begin(), e = _stopping.end(); i != e; ++i) { _objects.remove(i.key()); } _stopping.clear(); } if (!_objects.size()) { _timer.stop(); } } void AnimationManager::clipCallback(ClipReader *reader, qint32 threadIndex, qint32 notification) { ClipReader::callback(reader, threadIndex, ClipReaderNotification(notification)); } QPixmap _prepareFrame(const ClipFrameRequest &request, const QImage &original, bool hasAlpha, QImage &cache) { bool badSize = (original.width() != request.framew) || (original.height() != request.frameh); bool needOuter = (request.outerw != request.framew) || (request.outerh != request.frameh); if (badSize || needOuter || hasAlpha || request.rounded) { int32 factor(request.factor); bool newcache = (cache.width() != request.outerw || cache.height() != request.outerh); if (newcache) { cache = QImage(request.outerw, request.outerh, QImage::Format_ARGB32_Premultiplied); cache.setDevicePixelRatio(factor); } { Painter p(&cache); if (newcache) { if (request.framew < request.outerw) { p.fillRect(0, 0, (request.outerw - request.framew) / (2 * factor), cache.height() / factor, st::black); p.fillRect((request.outerw - request.framew) / (2 * factor) + (request.framew / factor), 0, (cache.width() / factor) - ((request.outerw - request.framew) / (2 * factor) + (request.framew / factor)), cache.height() / factor, st::black); } if (request.frameh < request.outerh) { p.fillRect(qMax(0, (request.outerw - request.framew) / (2 * factor)), 0, qMin(cache.width(), request.framew) / factor, (request.outerh - request.frameh) / (2 * factor), st::black); p.fillRect(qMax(0, (request.outerw - request.framew) / (2 * factor)), (request.outerh - request.frameh) / (2 * factor) + (request.frameh / factor), qMin(cache.width(), request.framew) / factor, (cache.height() / factor) - ((request.outerh - request.frameh) / (2 * factor) + (request.frameh / factor)), st::black); } } if (hasAlpha) { p.fillRect(qMax(0, (request.outerw - request.framew) / (2 * factor)), qMax(0, (request.outerh - request.frameh) / (2 * factor)), qMin(cache.width(), request.framew) / factor, qMin(cache.height(), request.frameh) / factor, st::white); } QPoint position((request.outerw - request.framew) / (2 * factor), (request.outerh - request.frameh) / (2 * factor)); if (badSize) { p.setRenderHint(QPainter::SmoothPixmapTransform); QRect to(position, QSize(request.framew / factor, request.frameh / factor)); QRect from(0, 0, original.width(), original.height()); p.drawImage(to, original, from, Qt::ColorOnly); } else { p.drawImage(position, original); } } if (request.rounded) { imageRound(cache); } return QPixmap::fromImage(cache, Qt::ColorOnly); } return QPixmap::fromImage(original, Qt::ColorOnly); } ClipReader::ClipReader(const FileLocation &location, const QByteArray &data, Callback::Creator cb) : _cb(cb) , _state(ClipReading) , _width(0) , _height(0) , _step(WaitingForDimensionsStep) , _paused(0) , _autoplay(false) , _private(0) { if (_clipThreads.size() < ClipThreadsCount) { _threadIndex = _clipThreads.size(); _clipThreads.push_back(new QThread()); _clipManagers.push_back(new ClipReadManager(_clipThreads.back())); _clipThreads.back()->start(); } else { _threadIndex = int32(MTP::nonce() % _clipThreads.size()); int32 loadLevel = 0x7FFFFFFF; for (int32 i = 0, l = _clipThreads.size(); i < l; ++i) { int32 level = _clipManagers.at(i)->loadLevel(); if (level < loadLevel) { _threadIndex = i; loadLevel = level; } } } _clipManagers.at(_threadIndex)->append(this, location, data); } ClipReader::Frame *ClipReader::frameToShow(int32 *index) const { // 0 means not ready int32 step = _step.loadAcquire(), i; if (step == WaitingForDimensionsStep) { if (index) *index = 0; return 0; } else if (step == WaitingForRequestStep) { i = 0; } else if (step == WaitingForFirstFrameStep) { i = 0; } else { i = (step / 2) % 3; } if (index) *index = i; return _frames + i; } ClipReader::Frame *ClipReader::frameToWrite(int32 *index) const { // 0 means not ready int32 step = _step.loadAcquire(), i; if (step == WaitingForDimensionsStep) { i = 0; } else if (step == WaitingForRequestStep) { if (index) *index = 0; return 0; } else if (step == WaitingForFirstFrameStep) { i = 0; } else { i = ((step + 2) / 2) % 3; } if (index) *index = i; return _frames + i; } ClipReader::Frame *ClipReader::frameToWriteNext(bool checkNotWriting, int32 *index) const { int32 step = _step.loadAcquire(), i; if (step == WaitingForDimensionsStep || step == WaitingForRequestStep || (checkNotWriting && (step % 2))) { if (index) *index = 0; return 0; } i = ((step + 4) / 2) % 3; if (index) *index = i; return _frames + i; } void ClipReader::moveToNextShow() const { int32 step = _step.loadAcquire(); if (step == WaitingForDimensionsStep) { } else if (step == WaitingForRequestStep) { _step.storeRelease(WaitingForFirstFrameStep); } else if (step == WaitingForFirstFrameStep) { } else if (!(step % 2)) { _step.storeRelease(step + 1); } } void ClipReader::moveToNextWrite() const { int32 step = _step.loadAcquire(); if (step == WaitingForDimensionsStep) { _step.storeRelease(WaitingForRequestStep); } else if (step == WaitingForRequestStep) { } else if (step == WaitingForFirstFrameStep) { _step.storeRelease(0); } else if (step % 2) { _step.storeRelease((step + 1) % 6); } } void ClipReader::callback(ClipReader *reader, int32 threadIndex, ClipReaderNotification notification) { // check if reader is not deleted already if (_clipManagers.size() > threadIndex && _clipManagers.at(threadIndex)->carries(reader)) { reader->_cb.call(notification); } } void ClipReader::start(int32 framew, int32 frameh, int32 outerw, int32 outerh, bool rounded) { if (_clipManagers.size() <= _threadIndex) error(); if (_state == ClipError) return; if (_step.loadAcquire() == WaitingForRequestStep) { int32 factor(cIntRetinaFactor()); ClipFrameRequest request; request.factor = factor; request.framew = framew * factor; request.frameh = frameh * factor; request.outerw = outerw * factor; request.outerh = outerh * factor; request.rounded = rounded; _frames[0].request = _frames[1].request = _frames[2].request = request; moveToNextShow(); _clipManagers.at(_threadIndex)->start(this); } } QPixmap ClipReader::current(int32 framew, int32 frameh, int32 outerw, int32 outerh, uint64 ms) { Frame *frame = frameToShow(); t_assert(frame != 0); if (ms) { frame->displayed.storeRelease(1); if (_paused.loadAcquire()) { _paused.storeRelease(0); if (_clipManagers.size() <= _threadIndex) error(); if (_state != ClipError) { _clipManagers.at(_threadIndex)->update(this); } } } else { frame->displayed.storeRelease(-1); // displayed, but should be paused } int32 factor(cIntRetinaFactor()); if (frame->pix.width() == outerw * factor && frame->pix.height() == outerh * factor) { moveToNextShow(); return frame->pix; } frame->request.framew = framew * factor; frame->request.frameh = frameh * factor; frame->request.outerw = outerw * factor; frame->request.outerh = outerh * factor; QImage cacheForResize; frame->pix = QPixmap(); frame->pix = _prepareFrame(frame->request, frame->original, true, cacheForResize); Frame *other = frameToWriteNext(true); if (other) other->request = frame->request; moveToNextShow(); if (_clipManagers.size() <= _threadIndex) error(); if (_state != ClipError) { _clipManagers.at(_threadIndex)->update(this); } return frame->pix; } bool ClipReader::ready() const { if (_width && _height) return true; Frame *frame = frameToShow(); if (frame) { _width = frame->original.width(); _height = frame->original.height(); return true; } return false; } int32 ClipReader::width() const { return _width; } int32 ClipReader::height() const { return _height; } ClipState ClipReader::state() const { return _state; } void ClipReader::stop() { if (_clipManagers.size() <= _threadIndex) error(); if (_state != ClipError) { _clipManagers.at(_threadIndex)->stop(this); _width = _height = 0; } } void ClipReader::error() { _private = 0; _state = ClipError; } ClipReader::~ClipReader() { stop(); } class ClipReaderImplementation { public: ClipReaderImplementation(FileLocation *location, QByteArray *data) : _location(location) , _data(data) , _device(0) , _dataSize(0) { } virtual bool readNextFrame() = 0; virtual bool renderFrame(QImage &to, bool &hasAlpha, const QSize &size) = 0; virtual int32 nextFrameDelay() = 0; virtual bool start(bool onlyGifv) = 0; virtual ~ClipReaderImplementation() { } int64 dataSize() const { return _dataSize; } protected: FileLocation *_location; QByteArray *_data; QFile _file; QBuffer _buffer; QIODevice *_device; int64 _dataSize; void initDevice() { if (_data->isEmpty()) { if (_file.isOpen()) _file.close(); _file.setFileName(_location->name()); _dataSize = _file.size(); } else { if (_buffer.isOpen()) _buffer.close(); _buffer.setBuffer(_data); _dataSize = _data->size(); } _device = _data->isEmpty() ? static_cast(&_file) : static_cast(&_buffer); } }; class QtGifReaderImplementation : public ClipReaderImplementation{ public: QtGifReaderImplementation(FileLocation *location, QByteArray *data) : ClipReaderImplementation(location, data) , _reader(0) , _framesLeft(0) , _frameDelay(0) { } bool readNextFrame() { if (_reader) _frameDelay = _reader->nextImageDelay(); if (_framesLeft < 1 && !jumpToStart()) { return false; } _frame = QImage(); // QGifHandler always reads first to internal QImage and returns it if (!_reader->read(&_frame) || _frame.isNull()) { return false; } --_framesLeft; return true; } bool renderFrame(QImage &to, bool &hasAlpha, const QSize &size) { t_assert(!_frame.isNull()); if (size.isEmpty() || size == _frame.size()) { int32 w = _frame.width(), h = _frame.height(); if (to.width() == w && to.height() == h && to.format() == _frame.format()) { if (to.byteCount() != _frame.byteCount()) { int bpl = qMin(to.bytesPerLine(), _frame.bytesPerLine()); for (int i = 0; i < h; ++i) { memcpy(to.scanLine(i), _frame.constScanLine(i), bpl); } } else { memcpy(to.bits(), _frame.constBits(), _frame.byteCount()); } } else { to = _frame.copy(); } } else { to = _frame.scaled(size, Qt::IgnoreAspectRatio, Qt::SmoothTransformation); } hasAlpha = _frame.hasAlphaChannel(); _frame = QImage(); return true; } int32 nextFrameDelay() { return _frameDelay; } bool start(bool onlyGifv) { if (onlyGifv) return false; return jumpToStart(); } ~QtGifReaderImplementation() { deleteAndMark(_reader); } private: QImageReader *_reader; int32 _framesLeft, _frameDelay; QImage _frame; bool jumpToStart() { if (_reader && _reader->jumpToImage(0)) { _framesLeft = _reader->imageCount(); return true; } delete _reader; initDevice(); _reader = new QImageReader(_device); #if QT_VERSION >= QT_VERSION_CHECK(5, 5, 0) _reader->setAutoTransform(true); #endif if (!_reader->canRead() || !_reader->supportsAnimation()) { return false; } _framesLeft = _reader->imageCount(); if (_framesLeft < 1) { return false; } return true; } }; class FFMpegReaderImplementation : public ClipReaderImplementation { public: FFMpegReaderImplementation(FileLocation *location, QByteArray *data) : ClipReaderImplementation(location, data) , _ioBuffer(0) , _ioContext(0) , _fmtContext(0) , _codec(0) , _codecContext(0) , _streamId(0) , _frame(0) , _opened(false) , _hadFrame(false) , _frameRead(false) , _packetSize(0) , _packetData(0) , _packetWas(false) , _width(0) , _height(0) , _swsContext(0) , _frameMs(0) , _nextFrameDelay(0) , _currentFrameDelay(0) { _frame = av_frame_alloc(); av_init_packet(&_avpkt); _avpkt.data = NULL; _avpkt.size = 0; } bool readNextFrame() { if (_frameRead) { av_frame_unref(_frame); _frameRead = false; } int res; while (true) { if (_avpkt.size > 0) { // previous packet not finished res = 0; } else if ((res = av_read_frame(_fmtContext, &_avpkt)) < 0) { if (res != AVERROR_EOF || !_hadFrame) { char err[AV_ERROR_MAX_STRING_SIZE] = { 0 }; LOG(("Gif Error: Unable to av_read_frame() %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); return false; } } bool finished = (res < 0); if (finished) { _avpkt.data = NULL; _avpkt.size = 0; } else { rememberPacket(); } int32 got_frame = 0; int32 decoded = _avpkt.size; if (_avpkt.stream_index == _streamId) { if ((res = avcodec_decode_video2(_codecContext, _frame, &got_frame, &_avpkt)) < 0) { char err[AV_ERROR_MAX_STRING_SIZE] = { 0 }; LOG(("Gif Error: Unable to avcodec_decode_video2() %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); if (res == AVERROR_INVALIDDATA) { // try to skip bad packet freePacket(); _avpkt.data = NULL; _avpkt.size = 0; continue; } if (res != AVERROR_EOF || !_hadFrame) { // try to skip end of file return false; } freePacket(); _avpkt.data = NULL; _avpkt.size = 0; continue; } if (res > 0) decoded = res; } if (!finished) { _avpkt.data += decoded; _avpkt.size -= decoded; if (_avpkt.size <= 0) freePacket(); } if (got_frame) { int64 duration = av_frame_get_pkt_duration(_frame); int64 framePts = (_frame->pkt_pts == AV_NOPTS_VALUE) ? _frame->pkt_dts : _frame->pkt_pts; int64 frameMs = (framePts * 1000LL * _fmtContext->streams[_streamId]->time_base.num) / _fmtContext->streams[_streamId]->time_base.den; _currentFrameDelay = _nextFrameDelay; if (_frameMs + _currentFrameDelay < frameMs) { _currentFrameDelay = int32(frameMs - _frameMs); } if (duration == AV_NOPTS_VALUE) { _nextFrameDelay = 0; } else { _nextFrameDelay = (duration * 1000LL * _fmtContext->streams[_streamId]->time_base.num) / _fmtContext->streams[_streamId]->time_base.den; } _frameMs = frameMs; _hadFrame = _frameRead = true; return true; } if (finished) { if ((res = avformat_seek_file(_fmtContext, _streamId, std::numeric_limits::min(), 0, std::numeric_limits::max(), 0)) < 0) { if ((res = av_seek_frame(_fmtContext, _streamId, 0, AVSEEK_FLAG_BYTE)) < 0) { if ((res = av_seek_frame(_fmtContext, _streamId, 0, AVSEEK_FLAG_FRAME)) < 0) { if ((res = av_seek_frame(_fmtContext, _streamId, 0, 0)) < 0) { char err[AV_ERROR_MAX_STRING_SIZE] = { 0 }; LOG(("Gif Error: Unable to av_seek_frame() to the start %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); return false; } } } } avcodec_flush_buffers(_codecContext); _hadFrame = false; _frameMs = 0; } } return false; } bool renderFrame(QImage &to, bool &hasAlpha, const QSize &size) { t_assert(_frameRead); _frameRead = false; if (!_width || !_height) { _width = _frame->width; _height = _frame->height; if (!_width || !_height) { LOG(("Gif Error: Bad frame size %1").arg(logData())); return false; } } QSize toSize(size.isEmpty() ? QSize(_width, _height) : size); if (to.isNull() || to.size() != toSize) { to = QImage(toSize, QImage::Format_ARGB32); } hasAlpha = (_frame->format == AV_PIX_FMT_BGRA || (_frame->format == -1 && _codecContext->pix_fmt == AV_PIX_FMT_BGRA)); if (_frame->width == toSize.width() && _frame->height == toSize.height() && hasAlpha) { int32 sbpl = _frame->linesize[0], dbpl = to.bytesPerLine(), bpl = qMin(sbpl, dbpl); uchar *s = _frame->data[0], *d = to.bits(); for (int32 i = 0, l = _frame->height; i < l; ++i) { memcpy(d + i * dbpl, s + i * sbpl, bpl); } } else { if ((_swsSize != toSize) || (_frame->format != -1 && _frame->format != _codecContext->pix_fmt) || !_swsContext) { _swsSize = toSize; _swsContext = sws_getCachedContext(_swsContext, _frame->width, _frame->height, AVPixelFormat(_frame->format), toSize.width(), toSize.height(), AV_PIX_FMT_BGRA, 0, 0, 0, 0); } uint8_t * toData[1] = { to.bits() }; int toLinesize[1] = { to.bytesPerLine() }, res; if ((res = sws_scale(_swsContext, _frame->data, _frame->linesize, 0, _frame->height, toData, toLinesize)) != _swsSize.height()) { LOG(("Gif Error: Unable to sws_scale to good size %1, height %2, should be %3").arg(logData()).arg(res).arg(_swsSize.height())); return false; } } av_frame_unref(_frame); return true; } int32 nextFrameDelay() { return _currentFrameDelay; } QString logData() const { return qsl("for file '%1', data size '%2'").arg(_location ? _location->name() : QString()).arg(_data->size()); } bool start(bool onlyGifv) { initDevice(); if (!_device->open(QIODevice::ReadOnly)) { LOG(("Gif Error: Unable to open device %1").arg(logData())); return false; } _ioBuffer = (uchar*)av_malloc(AVBlockSize); _ioContext = avio_alloc_context(_ioBuffer, AVBlockSize, 0, static_cast(this), &FFMpegReaderImplementation::_read, 0, &FFMpegReaderImplementation::_seek); _fmtContext = avformat_alloc_context(); if (!_fmtContext) { LOG(("Gif Error: Unable to avformat_alloc_context %1").arg(logData())); return false; } _fmtContext->pb = _ioContext; int res = 0; char err[AV_ERROR_MAX_STRING_SIZE] = { 0 }; if ((res = avformat_open_input(&_fmtContext, 0, 0, 0)) < 0) { _ioBuffer = 0; LOG(("Gif Error: Unable to avformat_open_input %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); return false; } _opened = true; if ((res = avformat_find_stream_info(_fmtContext, 0)) < 0) { LOG(("Gif Error: Unable to avformat_find_stream_info %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); return false; } _streamId = av_find_best_stream(_fmtContext, AVMEDIA_TYPE_VIDEO, -1, -1, 0, 0); if (_streamId < 0) { LOG(("Gif Error: Unable to av_find_best_stream %1, error %2, %3").arg(logData()).arg(_streamId).arg(av_make_error_string(err, sizeof(err), _streamId))); return false; } // Get a pointer to the codec context for the audio stream _codecContext = _fmtContext->streams[_streamId]->codec; _codec = avcodec_find_decoder(_codecContext->codec_id); if (onlyGifv) { if (av_find_best_stream(_fmtContext, AVMEDIA_TYPE_AUDIO, -1, -1, 0, 0) >= 0) { // should be no audio stream return false; } if (dataSize() > AnimationInMemory) { return false; } if (_codecContext->codec_id != AV_CODEC_ID_H264) { return false; } } av_opt_set_int(_codecContext, "refcounted_frames", 1, 0); if ((res = avcodec_open2(_codecContext, _codec, 0)) < 0) { LOG(("Gif Error: Unable to avcodec_open2 %1, error %2, %3").arg(logData()).arg(res).arg(av_make_error_string(err, sizeof(err), res))); return false; } return true; } int32 duration() const { if (_fmtContext->streams[_streamId]->duration == AV_NOPTS_VALUE) return 0; return (_fmtContext->streams[_streamId]->duration * _fmtContext->streams[_streamId]->time_base.num) / _fmtContext->streams[_streamId]->time_base.den; } ~FFMpegReaderImplementation() { if (_frameRead) { av_frame_unref(_frame); _frameRead = false; } if (_ioContext) av_free(_ioContext); if (_codecContext) avcodec_close(_codecContext); if (_swsContext) sws_freeContext(_swsContext); if (_opened) { avformat_close_input(&_fmtContext); } else if (_ioBuffer) { av_free(_ioBuffer); } if (_fmtContext) avformat_free_context(_fmtContext); av_frame_free(&_frame); freePacket(); } private: uchar *_ioBuffer; AVIOContext *_ioContext; AVFormatContext *_fmtContext; AVCodec *_codec; AVCodecContext *_codecContext; int32 _streamId; AVFrame *_frame; bool _opened, _hadFrame, _frameRead; AVPacket _avpkt; int _packetSize; uint8_t *_packetData; bool _packetWas; void rememberPacket() { if (!_packetWas) { _packetSize = _avpkt.size; _packetData = _avpkt.data; _packetWas = true; } } void freePacket() { if (_packetWas) { _avpkt.size = _packetSize; _avpkt.data = _packetData; _packetWas = false; av_packet_unref(&_avpkt); } } int32 _width, _height; SwsContext *_swsContext; QSize _swsSize; int64 _frameMs; int32 _nextFrameDelay, _currentFrameDelay; static int _read(void *opaque, uint8_t *buf, int buf_size) { FFMpegReaderImplementation *l = reinterpret_cast(opaque); return int(l->_device->read((char*)(buf), buf_size)); } static int64_t _seek(void *opaque, int64_t offset, int whence) { FFMpegReaderImplementation *l = reinterpret_cast(opaque); switch (whence) { case SEEK_SET: return l->_device->seek(offset) ? l->_device->pos() : -1; case SEEK_CUR: return l->_device->seek(l->_device->pos() + offset) ? l->_device->pos() : -1; case SEEK_END: return l->_device->seek(l->_device->size() + offset) ? l->_device->pos() : -1; } return -1; } }; class ClipReaderPrivate { public: ClipReaderPrivate(ClipReader *reader, const FileLocation &location, const QByteArray &data) : _interface(reader) , _state(ClipReading) , _data(data) , _location(_data.isEmpty() ? new FileLocation(location) : 0) , _accessed(false) , _implementation(0) , _frame(0) , _width(0) , _height(0) , _nextFrameWhen(0) , _paused(false) { if (_data.isEmpty() && !_location->accessEnable()) { error(); return; } _accessed = true; } ClipProcessResult start(uint64 ms) { if (!_implementation && !init()) { return error(); } if (frame() && frame()->original.isNull()) { if (!_implementation->readNextFrame()) { return error(); } if (!_implementation->renderFrame(frame()->original, frame()->alpha, QSize())) { return error(); } _width = frame()->original.width(); _height = frame()->original.height(); return ClipProcessStarted; } return ClipProcessWait; } ClipProcessResult process(uint64 ms) { // -1 - do nothing, 0 - update, 1 - reinit if (_state == ClipError) return ClipProcessError; if (!_request.valid()) { return start(ms); } if (!_paused && ms >= _nextFrameWhen) { return ClipProcessRepaint; } return ClipProcessWait; } ClipProcessResult finishProcess(uint64 ms) { if (!readNextFrame()) { return error(); } if (ms >= _nextFrameWhen && !readNextFrame(true)) { return error(); } if (!renderFrame()) { return error(); } return ClipProcessCopyFrame; } uint64 nextFrameDelay() { int32 delay = _implementation->nextFrameDelay(); return qMax(delay, 5); } bool readNextFrame(bool keepup = false) { if (!_implementation->readNextFrame()) { return false; } _nextFrameWhen += nextFrameDelay(); if (keepup) { _nextFrameWhen = qMax(_nextFrameWhen, getms()); } return true; } bool renderFrame() { t_assert(frame() != 0 && _request.valid()); if (!_implementation->renderFrame(frame()->original, frame()->alpha, QSize(_request.framew, _request.frameh))) { return false; } frame()->original.setDevicePixelRatio(_request.factor); frame()->pix = QPixmap(); frame()->pix = _prepareFrame(_request, frame()->original, frame()->alpha, frame()->cache); frame()->when = _nextFrameWhen; return true; } bool init() { if (_data.isEmpty() && QFileInfo(_location->name()).size() <= AnimationInMemory) { QFile f(_location->name()); if (f.open(QIODevice::ReadOnly)) { _data = f.readAll(); if (f.error() != QFile::NoError) { _data = QByteArray(); } } } _implementation = new FFMpegReaderImplementation(_location, &_data); // _implementation = new QtGifReaderImplementation(_location, &_data); return _implementation->start(false); } ClipProcessResult error() { stop(); _state = ClipError; return ClipProcessError; } void stop() { delete _implementation; _implementation = 0; if (_location) { if (_accessed) { _location->accessDisable(); } delete _location; _location = 0; } _accessed = false; } ~ClipReaderPrivate() { stop(); deleteAndMark(_location); deleteAndMark(_implementation); _data.clear(); } private: ClipReader *_interface; ClipState _state; QByteArray _data; FileLocation *_location; bool _accessed; QBuffer _buffer; ClipReaderImplementation *_implementation; ClipFrameRequest _request; struct Frame { Frame() : alpha(true), when(0) { } QPixmap pix; QImage original, cache; bool alpha; uint64 when; }; Frame _frames[3]; int32 _frame; Frame *frame() { return _frames + _frame; } int32 _width, _height; uint64 _nextFrameWhen; bool _paused; friend class ClipReadManager; }; ClipReadManager::ClipReadManager(QThread *thread) : _processingInThread(0), _needReProcess(false) { moveToThread(thread); connect(thread, SIGNAL(started()), this, SLOT(process())); connect(thread, SIGNAL(finished()), this, SLOT(finish())); connect(this, SIGNAL(processDelayed()), this, SLOT(process()), Qt::QueuedConnection); _timer.setSingleShot(true); _timer.moveToThread(thread); connect(&_timer, SIGNAL(timeout()), this, SLOT(process())); connect(this, SIGNAL(callback(ClipReader*,qint32,qint32)), _manager, SLOT(clipCallback(ClipReader*,qint32,qint32))); } void ClipReadManager::append(ClipReader *reader, const FileLocation &location, const QByteArray &data) { reader->_private = new ClipReaderPrivate(reader, location, data); _loadLevel.fetchAndAddRelaxed(AverageGifSize); update(reader); } void ClipReadManager::start(ClipReader *reader) { update(reader); } void ClipReadManager::update(ClipReader *reader) { QReadLocker lock(&_readerPointersMutex); ReaderPointers::const_iterator i = _readerPointers.constFind(reader); if (i == _readerPointers.cend()) { lock.unlock(); QWriteLocker lock(&_readerPointersMutex); _readerPointers.insert(reader, MutableAtomicInt(1)); } else { i->v.storeRelease(1); } emit processDelayed(); } void ClipReadManager::stop(ClipReader *reader) { if (!carries(reader)) return; QWriteLocker lock(&_readerPointersMutex); _readerPointers.remove(reader); emit processDelayed(); } bool ClipReadManager::carries(ClipReader *reader) const { QReadLocker lock(&_readerPointersMutex); return _readerPointers.contains(reader); } ClipReadManager::ReaderPointers::iterator ClipReadManager::unsafeFindReaderPointer(ClipReaderPrivate *reader) { ReaderPointers::iterator it = _readerPointers.find(reader->_interface); // could be a new reader which was realloced in the same address return (it == _readerPointers.cend() || it.key()->_private == reader) ? it : _readerPointers.end(); } ClipReadManager::ReaderPointers::const_iterator ClipReadManager::constUnsafeFindReaderPointer(ClipReaderPrivate *reader) const { ReaderPointers::const_iterator it = _readerPointers.constFind(reader->_interface); // could be a new reader which was realloced in the same address return (it == _readerPointers.cend() || it.key()->_private == reader) ? it : _readerPointers.cend(); } bool ClipReadManager::handleProcessResult(ClipReaderPrivate *reader, ClipProcessResult result, uint64 ms) { QReadLocker lock(&_readerPointersMutex); ReaderPointers::const_iterator it = constUnsafeFindReaderPointer(reader); if (result == ClipProcessError) { if (it != _readerPointers.cend()) { it.key()->error(); emit callback(it.key(), it.key()->threadIndex(), ClipReaderReinit); lock.unlock(); QWriteLocker lock(&_readerPointersMutex); ReaderPointers::iterator i = unsafeFindReaderPointer(reader); if (i != _readerPointers.cend()) _readerPointers.erase(i); } return false; } if (it == _readerPointers.cend()) { return false; } if (result == ClipProcessStarted) { _loadLevel.fetchAndAddRelaxed(reader->_width * reader->_height - AverageGifSize); } if (!reader->_paused && result == ClipProcessRepaint) { int32 ishowing, iprevious; ClipReader::Frame *showing = it.key()->frameToShow(&ishowing), *previous = it.key()->frameToWriteNext(false, &iprevious); t_assert(previous != 0 && showing != 0 && ishowing >= 0 && iprevious >= 0); if (reader->_frames[ishowing].when > 0 && showing->displayed.loadAcquire() <= 0) { // current frame was not shown if (reader->_frames[ishowing].when + WaitBeforeGifPause < ms || (reader->_frames[iprevious].when && previous->displayed.loadAcquire() <= 0)) { reader->_paused = true; it.key()->_paused.storeRelease(1); result = ClipProcessPaused; } } } if (result == ClipProcessStarted || result == ClipProcessCopyFrame) { t_assert(reader->_frame >= 0); ClipReader::Frame *frame = it.key()->_frames + reader->_frame; frame->clear(); frame->pix = reader->frame()->pix; frame->original = reader->frame()->original; frame->displayed.storeRelease(0); if (result == ClipProcessStarted) { reader->_nextFrameWhen = ms; it.key()->moveToNextWrite(); emit callback(it.key(), it.key()->threadIndex(), ClipReaderReinit); } } else if (result == ClipProcessPaused) { it.key()->moveToNextWrite(); emit callback(it.key(), it.key()->threadIndex(), ClipReaderReinit); } else if (result == ClipProcessRepaint) { it.key()->moveToNextWrite(); emit callback(it.key(), it.key()->threadIndex(), ClipReaderRepaint); } return true; } ClipReadManager::ResultHandleState ClipReadManager::handleResult(ClipReaderPrivate *reader, ClipProcessResult result, uint64 ms) { if (!handleProcessResult(reader, result, ms)) { _loadLevel.fetchAndAddRelaxed(-1 * (reader->_width > 0 ? reader->_width * reader->_height : AverageGifSize)); delete reader; return ResultHandleRemove; } _processingInThread->eventDispatcher()->processEvents(QEventLoop::AllEvents); if (_processingInThread->isInterruptionRequested()) { return ResultHandleStop; } if (result == ClipProcessRepaint) { { QReadLocker lock(&_readerPointersMutex); ReaderPointers::const_iterator it = constUnsafeFindReaderPointer(reader); if (it != _readerPointers.cend()) { int32 index = 0; ClipReader *r = it.key(); ClipReader::Frame *frame = it.key()->frameToWrite(&index); if (frame) { frame->clear(); } else { t_assert(!reader->_request.valid()); } reader->_frame = index; } } return handleResult(reader, reader->finishProcess(ms), ms); } return ResultHandleContinue; } void ClipReadManager::process() { if (_processingInThread) { _needReProcess = true; return; } _timer.stop(); _processingInThread = thread(); uint64 ms = getms(), minms = ms + 86400 * 1000ULL; { QReadLocker lock(&_readerPointersMutex); for (ReaderPointers::iterator it = _readerPointers.begin(), e = _readerPointers.end(); it != e; ++it) { if (it->v.loadAcquire()) { Readers::iterator i = _readers.find(it.key()->_private); if (i == _readers.cend()) { _readers.insert(it.key()->_private, 0); } else { i.value() = ms; if (i.key()->_paused && !it.key()->_paused.loadAcquire()) { i.key()->_paused = false; } } ClipReader::Frame *frame = it.key()->frameToWrite(); if (frame) it.key()->_private->_request = frame->request; it->v.storeRelease(0); } } } for (Readers::iterator i = _readers.begin(), e = _readers.end(); i != e;) { ClipReaderPrivate *reader = i.key(); if (i.value() <= ms) { ResultHandleState state = handleResult(reader, reader->process(ms), ms); if (state == ResultHandleRemove) { i = _readers.erase(i); continue; } else if (state == ResultHandleStop) { _processingInThread = 0; return; } ms = getms(); i.value() = reader->_nextFrameWhen ? reader->_nextFrameWhen : (ms + 86400 * 1000ULL); } if (!reader->_paused && i.value() < minms) { minms = i.value(); } ++i; } ms = getms(); if (_needReProcess || minms <= ms) { _needReProcess = false; _timer.start(1); } else { _timer.start(minms - ms); } _processingInThread = 0; } void ClipReadManager::finish() { _timer.stop(); clear(); } void ClipReadManager::clear() { { QWriteLocker lock(&_readerPointersMutex); for (ReaderPointers::iterator it = _readerPointers.begin(), e = _readerPointers.end(); it != e; ++it) { it.key()->_private = 0; } _readerPointers.clear(); } for (Readers::iterator i = _readers.begin(), e = _readers.end(); i != e; ++i) { delete i.key(); } _readers.clear(); } ClipReadManager::~ClipReadManager() { clear(); } MTPDocumentAttribute clipReadAnimatedAttributes(const QString &fname, const QByteArray &data, QImage &cover) { FileLocation localloc(StorageFilePartial, fname); QByteArray localdata(data); FFMpegReaderImplementation *reader = new FFMpegReaderImplementation(&localloc, &localdata); if (reader->start(true)) { bool hasAlpha = false; if (reader->readNextFrame() && reader->renderFrame(cover, hasAlpha, QSize())) { if (cover.width() > 0 && cover.height() > 0 && cover.width() < cover.height() * 10 && cover.height() < cover.width() * 10) { if (hasAlpha) { QImage cacheForResize; ClipFrameRequest request; request.framew = request.outerw = cover.width(); request.frameh = request.outerh = cover.height(); request.factor = 1; cover = _prepareFrame(request, cover, hasAlpha, cacheForResize).toImage(); } int32 duration = reader->duration(); delete reader; return MTP_documentAttributeVideo(MTP_int(duration), MTP_int(cover.width()), MTP_int(cover.height())); } } } delete reader; return MTP_documentAttributeFilename(MTP_string(fname)); }