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@ -47,21 +47,20 @@ UBQuickTimeFile::UBQuickTimeFile(QObject * pParent) |
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, mVideoWriter(0) |
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, mVideoWriterInput(0) |
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, mAdaptor(0) |
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, mCVPixelBufferPool(0) |
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, mFramesPerSecond(-1) |
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, mTimeScale(100) |
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, mTimeScale(1000) |
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, mRecordAudio(true) |
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, mShouldStopCompression(false) |
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, mCompressionSessionRunning(false) |
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, mPendingFrames(0) |
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{ |
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// NOOP |
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} |
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UBQuickTimeFile::~UBQuickTimeFile() |
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{ |
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// NOOP |
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// destruction of mWaveRecorder is handled by endSession() |
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} |
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bool UBQuickTimeFile::init(const QString& pVideoFileName, const QString& pProfileData, int pFramesPerSecond |
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@ -126,7 +125,11 @@ void UBQuickTimeFile::run() |
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} |
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/** |
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* \brief Initialize the AVAssetWriter, which handles writing the media to file |
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* \brief Begin the recording session; initialize the audio/video writer |
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* \return true if the session was initialized successfully |
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* |
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* This function initializes the AVAssetWriter and associated video and audio inputs. |
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* Video is encoded as H264; audio is encoded as AAC. |
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*/ |
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bool UBQuickTimeFile::beginSession() |
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{ |
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@ -141,12 +144,17 @@ bool UBQuickTimeFile::beginSession() |
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// Create and check the assetWriter |
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mVideoWriter = [[AVAssetWriter assetWriterWithURL:outputUrl |
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fileType:AVFileTypeQuickTimeMovie |
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error:&outError] retain]; |
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fileType:AVFileTypeQuickTimeMovie |
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error:&outError] retain]; |
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NSCParameterAssert(mVideoWriter); |
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mVideoWriter.movieTimeScale = mTimeScale; |
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// Video |
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// |
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int frameWidth = mFrameSize.width(); |
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int frameHeight = mFrameSize.height(); |
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@ -175,18 +183,71 @@ bool UBQuickTimeFile::beginSession() |
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assetWriterInputPixelBufferAdaptorWithAssetWriterInput:mVideoWriterInput |
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sourcePixelBufferAttributes:pixelBufSettings] retain]; |
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// Add the input(s) to the assetWriter |
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NSCParameterAssert([mVideoWriter canAddInput:mVideoWriterInput]); |
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[mVideoWriter addInput:mVideoWriterInput]; |
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// begin the writing session |
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// Audio |
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// |
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if(mRecordAudio) { |
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mWaveRecorder = new UBAudioQueueRecorder(); |
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// Get the audio format description from mWaveRecorder |
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CMAudioFormatDescriptionCreate(kCFAllocatorDefault, mWaveRecorder->audioFormat(), |
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0, NULL, 0, NULL, NULL, |
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&mAudioFormatDescription); |
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if(mWaveRecorder->init(mAudioRecordingDeviceName)) { |
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connect(mWaveRecorder, &UBAudioQueueRecorder::newWaveBuffer, |
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this, &UBQuickTimeFile::appendAudioBuffer); |
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connect(mWaveRecorder, SIGNAL(audioLevelChanged(quint8)), |
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this, SIGNAL(audioLevelChanged(quint8))); |
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} |
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else { |
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setLastErrorMessage(mWaveRecorder->lastErrorMessage()); |
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mWaveRecorder->deleteLater(); |
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mRecordAudio = false; |
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} |
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// Audio is mono, and compressed to AAC at 128kbps |
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AudioChannelLayout audioChannelLayout = { |
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.mChannelLayoutTag = kAudioChannelLayoutTag_Mono, |
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.mChannelBitmap = 0, |
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.mNumberChannelDescriptions = 0 |
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}; |
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NSData *channelLayoutAsData = [NSData dataWithBytes:&audioChannelLayout |
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length:offsetof(AudioChannelLayout, mChannelDescriptions)]; |
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NSDictionary * compressionAudioSettings = @{ |
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AVFormatIDKey : [NSNumber numberWithUnsignedInt:kAudioFormatMPEG4AAC], |
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AVEncoderBitRateKey : [NSNumber numberWithInteger:128000], |
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AVSampleRateKey : [NSNumber numberWithInteger:44100], |
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AVChannelLayoutKey : channelLayoutAsData, |
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AVNumberOfChannelsKey : [NSNumber numberWithUnsignedInteger:1] |
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}; |
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mAudioWriterInput = [[AVAssetWriterInput assetWriterInputWithMediaType:AVMediaTypeAudio |
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outputSettings:compressionAudioSettings] retain]; |
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NSCParameterAssert([mVideoWriter canAddInput:mAudioWriterInput]); |
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[mVideoWriter addInput:mAudioWriterInput]; |
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qDebug() << "audio writer input created and added"; |
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} |
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// Begin the writing session |
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bool canStartWriting = [mVideoWriter startWriting]; |
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[mVideoWriter startSessionAtSourceTime:CMTimeMake(0, mTimeScale)]; |
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// return true if everything was created and started successfully |
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mStartTime = CFAbsoluteTimeGetCurrent(); // used for audio timestamp calculation |
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return (mVideoWriter != nil) && (mVideoWriterInput != nil) && canStartWriting; |
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} |
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@ -201,10 +262,18 @@ void UBQuickTimeFile::endSession() |
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[mAdaptor release]; |
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[mVideoWriterInput release]; |
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[mVideoWriter release]; |
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[mAudioWriterInput release]; |
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mAdaptor = nil; |
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mVideoWriterInput = nil; |
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mVideoWriter = nil; |
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mAudioWriterInput = nil; |
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if (mWaveRecorder) { |
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mWaveRecorder->close(); |
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mWaveRecorder->deleteLater(); |
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} |
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} |
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/** |
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@ -235,11 +304,11 @@ CVPixelBufferRef UBQuickTimeFile::newPixelBuffer() |
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/** |
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* \brief Add a frame to the pixel buffer adaptor |
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* \param pixelBuffer The CVPixelBufferRef (video frame) to add to the movie |
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* \param msTimeStamp Timestamp, in milliseconds, of the frame |
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*/ |
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void UBQuickTimeFile::appendVideoFrame(CVPixelBufferRef pixelBuffer, long msTimeStamp) |
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{ |
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//qDebug() << "adding video frame at time: " << msTimeStamp; |
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CMTime t = CMTimeMake((msTimeStamp * mTimeScale / 1000.0), mTimeScale); |
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bool added = [mAdaptor appendPixelBuffer: pixelBuffer |
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@ -252,11 +321,79 @@ void UBQuickTimeFile::appendVideoFrame(CVPixelBufferRef pixelBuffer, long msTime |
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CVPixelBufferRelease(pixelBuffer); |
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} |
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/** |
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* \brief Append an AudioQueue Buffer to the audio AVAssetWriterInput |
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* \param pBuffer The AudioQueueBufferRef to add. Must be uncompressed (LPCM). |
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* \param pLength The length of the buffer, in Bytes |
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* |
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* This function serves as an interface between the low-level audio stream |
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* (implemented in the UBAudioQueueRecorder class) and the recording, handled |
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* by the AVAssetWriterInput instance mAudioWriterInput. |
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*/ |
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void UBQuickTimeFile::appendAudioBuffer(void* pBuffer, |
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long pLength) |
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{ |
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if(!mRecordAudio) |
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return; |
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// CMSampleBuffers require a CMBlockBuffer to hold the media data; we |
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// create a blockBuffer here from the AudioQueueBuffer's data. |
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CMBlockBufferRef blockBuffer; |
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CMBlockBufferCreateWithMemoryBlock(kCFAllocatorDefault, |
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pBuffer, |
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pLength, |
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kCFAllocatorNull, |
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NULL, |
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0, |
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pLength, |
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kCMBlockBufferAssureMemoryNowFlag, |
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&blockBuffer); |
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// Timestamp of current sample |
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CFAbsoluteTime currentTime = CFAbsoluteTimeGetCurrent(); |
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CFTimeInterval elapsedTime = currentTime - mStartTime; |
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CMTime timeStamp = CMTimeMake(elapsedTime * mTimeScale, mTimeScale); |
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// Number of samples in the buffer |
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long nSamples = pLength / mWaveRecorder->audioFormat()->mBytesPerFrame; |
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CMSampleBufferRef sampleBuffer; |
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CMAudioSampleBufferCreateWithPacketDescriptions(kCFAllocatorDefault, |
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blockBuffer, |
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true, |
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NULL, |
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NULL, |
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mAudioFormatDescription, |
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nSamples, |
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timeStamp, |
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NULL, |
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&sampleBuffer); |
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// Add the audio sample to the asset writer input |
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if ([mAudioWriterInput isReadyForMoreMediaData]) |
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if(![mAudioWriterInput appendSampleBuffer:sampleBuffer]) |
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setLastErrorMessage(QString("Failed to append sample buffer to audio input")); |
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else |
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setLastErrorMessage(QString("Audio Writer not ready; sample dropped")); |
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CFRelease(sampleBuffer); |
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CFRelease(blockBuffer); |
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// The audioQueueBuffers are all freed when UBAudioQueueRecorder::close() is called |
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} |
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/** |
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* \brief Print an error message to the terminal, and store it |
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*/ |
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void UBQuickTimeFile::setLastErrorMessage(const QString& error) |
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{ |
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mLastErrorMessage = error; |
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qWarning() << "UBQuickTimeFile error" << error; |
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} |
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agriche
9 years ago